关于绿色建筑-毕设论文外文翻译(翻译+原文)

Eco-Architecture: A Sustainable Future forOur WorldIn the age of rapid urbanization and environmental degradation, the concept of eco-architecture has emerged as a promising solution to create a sustainable built environment. Eco-architecture, also known as green architecture or sustainable design, integrates environmental considerations into the planning, design, and construction of buildings and urban spaces. This approach aims to minimize the negative impact of human settlements on the natural environment, while enhancing the quality of life for occupants.The principles of eco-architecture are centered around three main pillars: energy efficiency, water conservation, and biodiversity. Energy efficiency is achieved through the use of renewable energy sources, energy-efficient building materials, and intelligent design features such as natural ventilation and daylighting. Water conservation is promoted through rainwater harvesting, water-efficient landscaping, and graywater recycling. Biodiversity is enhanced by incorporating native plants and habitats into the design,creating green roofs and walls, and providing spaces for wildlife.The benefits of eco-architecture are numerous and far-reaching. Environmentally, it helps reduce greenhouse gas emissions, conserve water resources, and protect biodiversity. Socially, it improves the quality of life for residents by providing healthier indoor environments, increased access to green spaces, and a sense of community and connection to nature. Economically, it can lead to cost savings in energy and water bills, increased property values, and job creation in the green economy.The implementation of eco-architecture requires a collaborative effort between architects, engineers, planners, and policymakers. It also requires a shift in mindset, from a focus on short-term profits to a longer-term vision of sustainability and resilience. Despite the initial challenges, the future of eco-architecture looks bright as more and more people recognize the urgent needfor sustainable development and the role that architecture can play in achieving it.In conclusion, eco-architecture is not just a trend ora fad; it is a necessary and urgent response to the environmental and social challenges of our time. By integrating sustainability into the design and construction of our built environment, we can create a future that isnot only environmentally responsible but also socially equitable and economically viable. As architects and planners, we have the responsibility and the opportunity to shape this future and ensure that it is one that is sustainable and resilient for generations to come.**生态建筑：我们世界的可持续未来**在快速城市化和环境恶化的时代，生态建筑的概念作为创建可持续建筑环境的有前途的解决方案而出现。

绿色建筑中英文对照外文翻译文献中英文资料翻译外文文献：Evaluating Water Conservation Measures For Green Building InTaiwanGreen Building evaluation is a new system in which water conservation is prioritized as one of its seven categories for saving water resources through building equipment design in Taiwan. This paper introduces the Green Building program and proposes a water conservation index with quantitative methodology and case study. This evaluation index involves standardized scientific quantification and can be used in the pre-design stage to obtain the expected result. The measure of evaluation index is also based on the essential research in Taiwan and is a practical and applicable approach.Keywords: Green Building; Evaluation system; Water conservation; Building equipment1. IntroductionThe environment was an issue of deep global concern throughout the latter half of the 20th century. Fresh water shortages and pollution are becoming one of the most critical global problems. Many organizations and conferences concerning water resource policy and issues have reached the consensus that water shortages may cause war in the 21st century[1],if not a better solution .Actually, Taiwan is already experiencing significant discord over water supply. Building new dams is no longer an acceptable solution to the current watershortage problems, because of the consequent environmental problems. Previous studies have concludedthat water savings are necessary not only for water conservation but also for reducing energy consumption [2,3].Taiwan is located in the Asian monsoon area and has an abundant supply of rainwater. Annual precipitation averages around 2500mm. However, water shortages have recently beena critical problem during the dry season. The crucial, central issue is the uneven distribution of torrential rain, steep hillsides, and short rivers. Furthermore, the heavy demand for domestic water use in municipal areas, and the difficulties in building new reservoirs are also critical factors. Government departments are endeavoring to spread publicly the concept of water-conservation. While industry and commerce have made excellent progress in water conservation, progress among the public has been extremely slow.Due to this global trend, the Architecture and Building Research Institute (ABRI), Ministry of Interior in Taiwan, proposed the “Green Building” concept and built the evaluation system. In order to save water resources through building equipment design, this system prioritizes water conservation as one of its seven categories. This paper focuses on the water conservation measures for Green Building in T aiwan and a quantitative procedure for proving water-saving efficiency. The purpose of this work is not only aimed at saving water resources, but also at reducing the environmentalimpact on the earth.2. Water conservation indexThe water conservation index is the ratio of the actualquantity of water consumed in a building to the average water-consu mption in general. The index is also called, “the water saving rate”. Evaluations of the water-consumption quantity include the evaluation to the water-saving efficiency within kitchens, bathrooms and all water taps, as well as the recycling of rain and the secondhand intermediate water.2.1. Goal of using the water conservation indexAlthough Taiwan has plenty of rain, due to its large population, the average rainfall for distribution to each individual is poor compared to the world average as shown in Fig. 1.Thus, Taiwan is reversely a country short of water. Yet, the recen t improvements in citizens’ standards of living have led to a big increase in the amount of water needed in cities, as shown in Fig. 2, which, accompanied by the difficulty of obtaining new water resources, makes the water shortage problem even worse. Due to the improper water facilities designs in the past, the low water fee, and the usual practical behavior of people when using water, Taiwanesepeople have tended to use a large quantity of tap water. In 1990,the average water-consumption quantity in Taiwan was 350l per person per day, whereas in Germany it is about 145l per person per day, and in Singapore about 150l per person per day. These statistics reveal the need for Taiwanese people to save water.The promotion of better-designed facilities which facilitate water-saving will become a new trend among the public and designers, because of concerns for environmental protection. The water conservation index was also designed to encourage utilization of the rain, recycling of water used in everyday life and use of water-saving equipment to reduce the expenditure ofwater and thus save water resources.2.2. Methodology for efficient use of water resourcesSome construction considerations and building system designs for effective use of water resources are described below.2.2.1. Use water-conservation equipmentA research of household tap-water consumption revealed that the proportion of the water used in flushing toilets and in bathing, amounts to approximately 50% of the total household water consumption, as given in Table 1. Many construction designers have tended to use luxurious water facilities in housing, and much water has thus been wasted. The use of water-saving equipment to replace such facilities is certain to save a large amount of water. For example, the amounts of water used in taking a shower and having a bath is quite different.A single shower uses around 70l of water, whereas a bath uses around 150l. Furthermore, current construction designs for housing in Taiwan tend to put two sets of bathtubs and toilets, and quite a few families have their own massage bathtubs. Such a situation can be improved only by removing the tubs and replacing them with shower nozzles, so that more water can be possibly saved. The commonly used water-saving devices in Taiwan now include new-style water taps, water-saving toilets, two-sectioned water closets, water-saving shower nozzles, and auto-sensor flushing device systems, etc. Water-saving devices can be used not only for housing, but also in other kinds of buildings. Public buildings, in particular, should take the lead in using water-saving devices.2.2.2. Set up a rain-storage water supply deviceThe rain-storage water supply device stores rain using natural landforms or man-made devices, and then uses simplewater-cleaning procedures to make it available for use in houses. Rain can be used not only as a substitute water supply, but also for re control. Its use also helps to decrease the peak-time water load in cities. The annual average rainfall in Taiwan is about 2500 mm, almost triple better than the global average. However, due to geographic limitations, we could not build enough water storage devices, such as dams, to save all the rain. It is quite a pity that annually about 80% of the rain in Taiwan is wasted and flows directly into the sea, without being saved and stored. The rain-storage water supply system is used with a water-gathering system, water-disposal system, water-storage system and water-supply system. First, the water-gathering system gathers the rain. Then, the water flows to the water-disposal system through pipes, before being sent to the water-storage system. Finally, it is sent to the users’equipment through another set of pipes. Using the drain on the roof of a building, leading to the underground water-storage trough, is considered an effective means of gathering rain. The water, after simple water-disposal processes, can be used for chores such as house cleaning, washing floors, air-conditioning or watering plants.2.2.3. Establishing the intermediate water systemIntermediate water is that gathered from the rain in cities, and includes the recycled waste-water which has already been disposed of and can be used repeatedly only within a certain range, but not for drinking or human contact. Flushing the toilet consumes 35% of all water. If everyone were to use intermediate water to flush toilets, much water could be efficiently saved. Large-scale intermediate water system devices are suggested to be built up regularly with in a big area. Each intermediate watersystem device can gather, dispose and recycle a certain quantity of waste-water from nearby government buildings, schools, residences, hotels, and other buildings. The obtained water can be used for flushing toilets, washing cars, watering plants and cleaning the street, or for garden use and to supplement the water of rivers or lakes. A small-scale intermediate water system gathers waste-water from everyday use, and then, through appropriate water-disposal procedures, improves the water quality to a certain level, so that finally it can be repeatedly used for non-drinking water. Thereare extensive ways to use the intermediate water. It can be used for sanitary purposes, public fountains, watering devices in gardens and washing streets. In order to recycle highly polluted waste-water, a higher cost is needed for setting up the associated water-disposal devices, which are more expensive and have less economic benefits than the rain-utilization system. Except for the intermediate water-system set within a single building, if we build them within large-scale communities or major construction development programs, then it is sure to save more water resources efficiently and positively for the whole country as well as improve the environmental situation.4. Method for assessing the recycling of rainSystems for recycling rain and intermediate water are not yet economic beneficial, because of the low water fee and the high cost of water-disposal equipment. However, systems for recycling rain are considered more easily adoptable than those for recycling intermediate water. Herein, a method for assessing the recycling of rain is introduced to calculate the ratio (C) of the water-consumption quantity of the recycled rainwater to the total water-consumption.4.1. Calculation basis of recycling rainwaterThe designer of a system for recycling rainwater must first determine the quantity of rainwater and the demand, which will determine the rainwater collection device area and the storage tank volume. Rainwater quantity can actually be determined by a simple equation involving precipitation and collection device area. However, precipitation does not fall evenly spread over all days and locations. In particular, rain is usually concentrated in certain seasons and locations. Consequently, the critical point of the evaluation is to estimate and assess meteorological precipitation. Meteorological records normally include yearly, monthly, daily and hourly precipitation. Yearly and monthly precipitation is suitable for rough estimates and initial assessment. However, such approximation creates problems in determining the area of the rainwater collection device and the volume of the storage tank. Thus, daily precipitation has been most commonly considered. Hourly precipitation could theoretically support a more accurate assessment. However, owing to the increasing number of parameters and calculation data increases, the complexity of the process and the calculation time, result in inefficiencies. Herein, daily precipitation is adopted in assessing rainwater systems used in buildings [4,7].4.3. Case study and analysisFollowing the above procedure, a primary school building with a rainwater use system is taken as an example for simulation and to verify the assessment results. This building is located in Taipei city, has a building area of 1260 m and a total floor area of 6960 m ; it is a multi-discipline teaching building. Roofing is estimated to cover 80% of the building area, and the rainwater collection area covers 1008 m .Rainwater is used as intermediatewater for the restrooms, and the utilization condition is set at 20 m per day, whilethe out flow coefficient (Y) is 0.9. A typical meteorological precipitation in Taipei in 1992 was adopted as a database. The rainwater storage tank was set to an initial condition before the simulation procedure. Herein, four tank volumes were considered in the simulations of rainwater utilization—15, 25, 50, 100 m. The results indicate that increased storage tank volume reduces overflow and increases the utilization of rainwater. Given a 50 m storage tank, the quantity of rainwater collection closely approaches the utilization quantity of rainwater. Consequently, this condition obtains a storage tank with a roughly adequate volume. When the volume of the storage tank is 100 m, the utilization rate is almost 100% and the overflow quantity approaches zero. Despite this result being favorable with respect to utilization, such a tank may occupy much space and negatively impact building planning. Consequently, the design concept must balance all these factors. The building in this case is six floors high, and the roof area is small in comparison to the total floor area. The water consumption of the water closet per year, but the maximum rainwater approaches 7280 m collection is 2136 m per year. Thus, significant replenishment from tap water is required. This result also leads to a conclusion that high-rise buildings use rainwater systems less efficiently than other buildings. Lower buildings (e.g. less than three floors) have highly efficient rainwater utilization and thus little need for replenishment of water from the potable water system.The efficiency of rainwater storage tanks is assessed from the utilization rate of rainwater and the substitution rate of tap water. Differences in annual precipitation and rainfall distribution yielddifferent results. Figs. 5 and 6 illustrate the results of the mentioned calculation procedure, to analyze differences in rainwater utilization and efficiency assessment.The simulation runs over a period often years, from 1985 to 1994, and includes storage tanks with four different volumes. When the volume of the rainwater tank is 50 m, the utilization rate of rainwater exceeds 80% with about 25% substitution with tap water. Using this approach and the assessment procedure, the volume of rainwater storage and the performance of rainwater use systems in building design, can be determined.In the formula of the water conservation index, C is a special weighting for some water recycling equipment that intermediates water or rain, and is calculated as the ratio of the water-consumption quantity of the recycled rainwater to the total water-consumption. Therefore, this assessment procedure can also offer an approximate value of C for the water conservation index.5. Green building label and policy“Green Building” is called “Environmental Co-Habitual Architecture” in Japan, “Ecological Building” or “Sustainable Building” in Europe and “Green Build ing in North American countries. Many fashionable terms such as “Green consumption”, “Green living”, “Green illumination” have been broadly used. In Taiwan, currently, “Green” has been used as a symbol of environmental protection in the country. The Construction Research Department of the Ministry of the Interior of the Executive Yuan has decided to adopt the term “Green Building” to signify ecological and environmental protection architecture in Taiwan.5.1. Principles of evaluationGreen Building is a general and systematic method of design to peruse sustainable building. This evaluation system is based on the following principles:(1) The evaluation index should accurately reflect environmental protection factors such as material, water, land and climate.(2) The evaluation index should involve standardized scientific quantification.(3) The evaluation index should not include too many evaluation indexes; some similar quality index should be combined.(4) The evaluation index should be approachable and consistent with real experience.(5) The evaluation index should not involve social scientific evaluation.(6) The evaluation index should be applicable to the sub-tropical climate of Taiwan.(7) The evaluation index should be applicable to the evaluation of community or congregate construction.(8) The evaluation index should be usable in the pre-design stage to yield the expected result.According to these principles, the seven-index system shown in Table 4 is the current Green Building evaluation system use d in Taiwan. The theory evaluates buildings’ impacts on the environment through the interaction of “Earth Resource Input” and “Waste Output”. Practically, the definition of Green Building in T aiwan is “Consume the least earth resource and create the least construction waste”.Internationally, each country has a different way of evaluating Green Building. This system provides only the basicevaluation on “Low environment impact”. Higher level is sues such as biological diversity, health and comfort and community consciousness will not be evaluated. This system only provides a basic, practical and controllable environmental protection tool for inclusion in the government’s urgent construction envir onment protection policy. The “Green Building” logo is set to a ward Green Building design and encourage the government and private sector to pay attention to Green Building development. Fig. 7 is the logo of Green Building in Taiwan [6,8].5.2. Water conservation measureThis paper focuses on water conservation index in green building evaluation system. Water conservation is a critical category of this evaluation system, and is considered in relation to saving water resources through building equipment design. This evaluation index contains standardized scientific quantification and can be used in the pre-design stage to obtain the desired result. The evaluation index is also based on research in Taiwan and is practically applicable. Using water-saving equipment is the most effective way of saving water; using two-sectioned water-saving toilets and water-saving showering devices without a bathtub are especially effective. Various other types of water-recycling equipment for reusing intermediate water and rain are also evaluated. In particular, rainwater-use systems in building designs areencouraged. When a candidate for a Green Building project introduces water recycling system or a rainwater use system, the applicant should propose an appropriate calculation report to the relevant committee to verify its water-saving efficiency. This guideline actually appears to be a reasonable target for performing Green Building policy in T aiwan.A new building can easily reach the above water conservation index. This evaluation system is designed to encourage people to save more water, even in existing buildings. All this amounts to saying that large-scale government construction projects should take the lead in using such water-saving devices, as an example to society.6. ConclusionThis paper introduces the Green Building program and proposes a water conservation index with standardized scientific quantification. This evaluation index contains standardized scientific quantification and can be used in the pre-design stage to obtain the expected results. The measure of evaluation index is also based on the essential research on Taiwan and is a practical and applicable approach. The actual water-saving rate (WR) for Green Building projects should be <0.8, and the AR of the water-saving equipment should be higher than 0.8. Thus, qualified Green Building projects should achieve a water saving rate of over 20%. For the sustainable policy, this program is aimed not only at saving water resources, but also at reducing the environmental impact on the earth.The Green Building Label began to be implemented from 1st September 1999, and over twenty projects have already been awarded the Green Building Label in T aiwan, while the number of applications continues to increase. For a country with limited resources and a high-density population like Taiwan, the Green Building policy is important and represents a positive first step toward reducing environmental impact and promoting sustainable development.译文：台湾的绿色建筑节约用水评价措施在台湾绿色建筑评价是一个新的制度，在它的一个7个类别中，通过建筑设备设计节省水资源，使水资源保护置于优先地位。

外文文献：Green buildingGreen building (also known as green construction or sustainable building) refers to a structure and using process that is environmentally responsible and resource-efficient throughout a building's life-cycle: from sitting to design, construction, operation, maintenance, renovation, and demolition. This requires close cooperation of the design team, the architects, the engineers, and the client at all project stages. The Green Building practice expands and complements the classical building design concerns of economy, utility, durability, and comfort.Although new technologies are constantly being developed to complement current practices in creating greener structures, the common objective is that green buildings are designed to reduce the overall impact of the built environment on human health and the natural environment by:Efficiently using energy, water, and other resourcesProtecting occupant health and improving employee productivityReducing waste, pollution and environmental degradationA similar concept is natural building, which is usually on a smaller scale and tends to focus on the use of natural materials that are available locally. Other related topics include sustainable design and green architecture. Sustainability may be defined as meeting the needs of present generations without compromising the ability of future generations to meet their needs. Although some green building programs don't address the issue of the retrofitting existing homes, others do. Green construction principles can easily be applied to retrofit work as well as new construction.A 2009 report by the U.S. General Services Administration found 12 sustainably designed buildings cost less to operate and have excellent energy performance. In addition, occupants were more satisfied with the overall building than those in typical commercial buildings.Green building practices aim to reduce the environmental impact of buildings, so the very first rule is: the greenest building is the building that doesn't get built. New construction almost always degrades a building site, so not building is preferable to building. The second rule is: every building should be as small as possible. The third rule is: do not contribute to sprawl (the tendency for cities to spread out in a disordered fashion). No matter how much grass you put onyour roof, no matter how many energy-efficient windows, etc., you use, if you 1 contribute to sprawl, you've just defeated your purpose. Urban infill sites are preferable to suburban "Greenfield" sites.Buildings account for a large amount of land. According to the National Resources Inventory, approximately 107 million acres (430,000 km2) of land in the United States are developed. The International Energy Agency released a publication that estimated that existing buildings are responsible for more than 40% of the world’s total primary energy consumption and for 24% of global carbon dioxide emissions.The concept of sustainable development can be traced to the energy (especially fossil oil) crisis and the environment pollution concern in the 1970s. The green building movement in the U.S. originated from the need and desire for more energy efficient and environmentally friendly construction practices. There are a number of motives for building green, including environmental, economic, and social benefits. However, modern sustainability initiatives call for an integrated and synergistic design to both new construction and in theretrofiring of existing structures. Also known as sustainable design, this approach integrates the building life-cycle with each green practice employed with a design-purpose to create a synergy among the practices used.Green building brings together a vast array of practices, techniques, and skills to reduce and ultimately eliminate the impacts of buildings on the environment and human health. It often emphasizes taking advantage resources, e.g., using sunlight through passive solar, active solar, and photovoltaic techniques and using plants and trees through green roofs, rain gardens, and reduction of rainwater run-off. Many other techniques are used, such as using wood as a building material, or using packed gravel or permeable concrete instead of conventional concrete or asphalt to enhance replenishment of ground water.While the practices, or technologies, employed in green building are constantly evolving and may differ from region to region, fundamental principles persist from which the method is derived: Sitting and Structure Design Efficiency, Energy Efficiency, Water Efficiency, Materials Efficiency, Indoor Environmental Quality Enhancement, Operations and Maintenance Optimization, and Waste and Toxics Reduction. The essence of green building is an optimizationof one or more of these principles. Also, with the proper synergistic design, individual green building technologies may work together to produce a greater cumulative effect.On the aesthetic side of green architecture or sustainable design is the philosophy of designing a building that is in harmony with the natural features and resources surrounding the site. There are several key steps in designing sustainable buildings: specify 'green' building materials from local sources, reduce loads, optimize systems, and generate on-site renewable energy.The foundation of any construction project is rooted in the concept and design stages. The concept stage, in fact, is one of the major steps in a project life cycle, as it has the largest impact on cost and performance. In designing environmentally optimal buildings, the objective is to minimize the total environmental impact associated with all life-cycle stages of the building project. However, building as a process is not as streamlined as an industrial process, and varies from one building to the other, never repeating itself identically. In addition, buildings are much more complex products, composed of a multitude of materials and components each constituting various design variables to be decided at the design stage. A variation of every design variable may affect the environment during all the building's relevant life-cycle stages.Green buildings often include measures to reduce energy consumption – both the embodied energy required to extract, process, transport and install building materials and operating energy to provide services such as heating and power for equipment.As high-performance buildings use less operating energy, embodied energy has assumed much greater importance – and may make up as much as 30% of the overall life cycle energy consumption. Studies such as the U.S. LCI Database Project show buildings built primarily with wood will have a lower embodied energy than those built primarily with brick, concrete or steel.To reduce operating energy use, designers use details that reduce air leakage through the building envelope (the barrier between conditioned and unconditioned space). They also specify high-performance windows and extra insulation in walls, ceilings, and floors. Another strategy, passive solar building design, is often implemented in low-energy homes. Designers orient windows and walls and place awnings, porches, and trees to shade windows and roofs during the summer while maximizing solar gain in the winter. In addition, effective window placement(daylighting) can provide more natural light and lessen the need for electric lighting during the day.Onsite generation of renewable energy through solar power, wind power, hydro power, or biomass can significantly reduce the environmental impact of the building. Power generation is generally the most expensive feature to add to a building.Reducing water consumption and protecting water quality are key objectives in sustainable building. One critical issue of water consumption is that in many areas, the demands on the supplying aquifer exceed its ability to replenish itself. To the maximum extent feasible, facilities should increase their dependence on water that is collected, used, purified, and reused on-site. The protection and conservation of water throughout the life of a building may be accomplished by designing for dual plumbing that recycles water in toilet flushing. Waste-water may be minimized by utilizing water conserving fixtures such as ultra-low flush toilets and low-flow shower heads. Bidets help eliminate the use of toilet paper, reducing sewer traffic and increasing possibilities of re-using water on-site. Point of use water treatment and heating improves both water quality and energy efficiency while reducing the amount of water in circulation. The use of non-sewage and grey water for on-site use such as site-irrigation will minimize demands on the local aquifer.Building materials typically considered to be 'green' include lumber from forests that have been certified to a third-party forest standard, rapidly renewable plant materials like bamboo and straw, dimension stone, recycled stone, recycled metal (see: copper sustainability and recyclability), and other products that are non-toxic, reusable, renewable, and/or recyclable (e.g., Trass, Linoleum, sheep wool, panels made from paper flakes, compressed earth block, adobe, baked earth, rammed earth, clay, vermiculite, flax linen, sisal, sea grass, cork, expanded clay grains, coconut, wood fibre plates, calcium sand stone, concrete (high and ultra high performance, roman self-healing concrete, etc.) The EPA (Environmental Protection Agency) also suggests using recycled industrial goods, such as coal combustion products, foundry sand, and demolition debris in construction projects Building materials should be extracted and manufactured locally to the building site to minimize the energy embedded in their transportation. Where possible, building elements should be manufactured off-site and delivered to site, to maximise benefits of off-site manufacture including minimising waste, maximising recycling (because manufacture isin one location), high quality elements, better OHS management, less noise and dust. Energy efficient building materials and appliances are promoted in the United States through energy rebate programs, which are increasingly communicated to consumers through energy rebate database services such as GreenOhm.The Indoor Environmental Quality (IEQ) category in LEED standards, one of the five environmental categories, was created to provide comfort, well-being, and productivity of occupants. The LEED IEQ category addresses design and construction guidelines especially: indoor air quality (IAQ), thermal quality, and lighting quality.Indoor Air Quality seeks to reduce volatile organic compounds, or VOCs, and other air impurities such as microbial contaminants. Buildings rely on a properly designed ventilation system (passively/naturally or mechanically powered) to provide adequate ventilation of cleaner air from outdoors or recirculated, filtered air as well as isolated operations (kitchens, dry cleaners, etc.) from other occupancies. During the design and construction process choosing construction materials and interior finish products with zero or low VOC emissions will improve IAQ. Most building materials and cleaning/maintenance products emit gases, some of them toxic, such as many VOCs including formaldehyde. These gases can have a detrimental impact on occupants' health, comfort, and productivity. Avoiding these products will increase a building's IEQ. LEED. HQE and Green Star contain specifications on use of low-emitting interior. Draft LEED 2012 is about to expand the scope of the involved products. BREEA Mlimits formaldehyde emissions, no other VOCs.Also important to indoor air quality is the control of moisture accumulation (dampness) leading to mold growth and the presence of bacteria and viruses as well as dust mites and other organisms and microbiological concerns. Water intrusion through a building's envelope or water condensing on cold surfaces on the building's interior can enhance and sustain microbial growth.A well-insulated and tightly sealed envelope will reduce moisture problems but adequate ventilation is also necessary to eliminate moisture from sources indoors including human metabolic processes, cooking, bathing, cleaning, and other activities.Personal temperature and airflow control over the HVAC system coupled with a properly designed building envelope will also aid in increasing a building's thermal quality. Creating ahigh performance luminous environment through the careful integration of daylight and electrical light sources will improve on the lighting quality and energy performance of a structure.Solid wood products, particularly flooring, are often specified in environments where occupants are known to have allergies to dust or other particulates. Wood itself is considered to be hypo-allergenic and its smooth surfaces prevent the buildup of particles common in soft finishes like carpet. The Asthma and Allergy Foundation of American recommends hardwood, vinyl, linoleum tile or slate flooring instead of carpet. The use of wood products can also improve air quality by absorbing or releasing moisture in the air to moderate humidity.No matter how sustainable a building may have been in its design and construction, it can only remain so if it is operated responsibly and maintained properly. Ensuring operations and maintenance(O&M) personnel are part of the project's planning and development process will help retain the green criteria designed at the onset of the project. Every aspect of green building is integrated into the O&M phase of a building's life. The addition of new green technologies also falls on the O&M staff. Although the goal of waste reduction may be applied during the design, construction and demolition phases of a building's life-cycle, it is in the O&M phase that green practices such as recycling and air quality enhancement take place. Waste reduction Green architecture also seeks to reduce waste of energy, water and materials used during construction. For example, in California nearly 60% of the state's waste comes from commercial buildings. During the construction phase, one goal should be to reduce the amount of material going to landfills. Well-designed buildings also help reduce the amount of waste generated by the occupants as well, by providing on-site solutions such as compost bins to reduce matter going to landfills.To reduce the amount of wood that goes to landfill, Neutral Alliance (a coalition of government, NGOs and the forest industry) created the website . The site includes a variety of resources for regulators, municipalities, developers, contractors, owner/operators and individuals/homeowners looking for information on wood recycling.When buildings reach the end of their useful life, they are typically demolished and hauled to landfills. Deconstruction is a method of harvesting what is commonly considered "waste" and reclaiming it into useful building material. Extending the useful life of a structure also reduceswaste – building materials such as wood that are light and easy to work with make renovations easier.To reduce the impact on wells or water treatment plants, several options exist. "Grey water", wastewater from sources such as dishwashing or washing machines, can be used for subsurface irrigation, or if treated, for non-potable purposes, e.g., to flush toilets and wash cars. Rainwater collectors are used for similar purposes.Centralized wastewater treatment systems can be costly and use a lot of energy. An alternative to this process is converting waste and wastewater into fertilizer, which avoids these costs and shows other benefits. By collecting human waste at the source and running it to a semi-centralized biogas plant with other biological waste, liquid fertilizer can be produced. This concept was demonstrated by a settlement in Lubeck Germany in the late 1990s. Practices like these provide soil with organic nutrients and create carbon sinks that remove carbon dioxide from the atmosphere, offsetting greenhouse gas emission. Producing artificial fertilizer is also more costly in energy than this process.中文译文：绿色建筑绿色建筑（也被称为绿色建筑或可持续建筑）是指一个结构和使用的过程，是对环境负责和资源节约型整个建筑物的循环生活：从选址到设计，施工，运行，维护，改造和拆迁。

文献信息：文献标题：Issues in Sustainable Architecture and Possible Solutions （可持续建筑中的问题及可能的解决方案）国外作者：Fatima Ghani文献出处：《International Journal of Civil & Environmental Engineering》,2012,12（1）,p21-24字数统计：英文1985单词，11317字符；中文3460汉字外文文献：Issues in Sustainable Architecture and Possible Solutions Abstract—The growing concern with environmental and ecological conditions have led to the discussion/search for ‘energy conscious’, ‘Eco friendly’, ‘energy efficient’ building designs. For the better growth of the future, keeping in view the environment related issues, the first objective of the designer is sustainable development i.e. environmentally compatible building designs. Sustainable architecture also referred as green architecture is a design that uses natural building materials e.g. earth, wood, stone etc (not involving pollution in its treatment) that are energy efficient and that make little or no impact on the nature of a site and its resources. This paper discusses issues related to Sustainable/environmental architecture. It also considers possible solutions related to these issues.Index Terms—Sustainable, Green, Architecture, Building, Design. Efficiency.I. INTRODUCTIONThe words "Green", "Ecological" and "Sustainable" are terms used by environmentalists to indicate modes of practice. From global economics to household features these practices minimize our impact on the environment and generate a healthy place of living. In a deeper sense the words involve as to what can be done to heal andregenerate the earth's ability to bear life.A.Principles of Environmentally Oriented DesignIn Architecture there are many ways a building may be "green" and respond to the growing environmental problems of our planet. Sustainable architecture can be practiced still maintaining efficiency, beauty, layouts and cost effectiveness. There are five basic areas of an environmentally oriented design. They are Healthy Interior Environment, Energy Efficiency, Ecological Building Materials, Building Form and Good Design.• Healthy Interior Environment: It has to be well insured that building materials and systems used do not emit toxic unhealthy gases and substances in the built spaces. Further extra cars and measures are to be taken to provide maximum levels of fresh air and adequate ventilation to the interior environment.• Energy Efficiency: It has to be well ensured that the building's use of energy is minimized. The various HV AC systems and methods of construction etc. should be so designed that energy consumption is minimal.• Ecological Building Materials: As far as possible the use of building materials should be from renewable sources having relatively safe sources of production.• Building Form: The building form should respond to the site, region, climate and the materials available thereby generating a harmony between the inhabitants and the surroundings.• Good Design: Structure & Material and Aesthetics are the basic parameters of defining design. They should be so integrated that the final outcome is a well built, convenient and a beautiful living space.These principles of environmentally oriented design comprise yet another meaningful and environmental building approach called Green or Sustainable design. Architects should use their creativity and perception to correlate these principles to generate locally appropriate strategies, materials and methods keeping in mind that every region should employ different green strategies.B. DefinitionSustainability means 'to hold' up or 'to support from below'. It refers to the abilityof a society, ecosystem or any such ongoing system, to continue functioning into the indefinite future (without being forced into decline through exhaustion of key resources).Sustainable architecture involves a combination of values: aesthetic, environmental, social, political and moral. It's about one's perception and technical knowledge to engage in a central aspect of the practice i.e. to design and build in harmony with the environment. It is the duty of an architect to think rationally about a combination of issues like sustainability, durability, longevity, appropriate materials and sense of place.The present environmental conditions have led to the discussion/search for ‘energy conscious’, ‘Eco friendly’,‘energy efficient’ building designs. For the better growth of the future, keeping in view the environment related issues, the first objective of the designer is a sustainable development i.e. environmentally compatible. This paper discusses issues related to Sustainable/environmental architecture. The main focus of the paper is on sustainable architecture - its need, solutions and impact on the future.II. NEEDS AND ISSUESThe ecological crisis today is very serious and till date much of the debate still focuses on the symptoms rather than the causes. As a result there is an urgent need to emphasize and workout the best possible approach towards environmental protection thereby minimizing further degradation.Architecture presents a unique challenge in the field of sustainability. Construction projects typically consume large amounts of materials, produce tons of waste, and often involve weighing the preservation of buildings that have historical significance against the desire for the development of newer, more modern designs. Sustainable development is one such measure, which presents an approach that can largely contribute to environmental protection. A striking balance between Environmental protection and Sustainable development is a difficult and delicate task.Sustainable design is the thoughtful integration of architecture with electrical,mechanical, and structural engineering. In addition to concern for the traditional aesthetics of massing, proportion, scale, texture, shadow, and light, the facility design team needs to be concerned with long term costs: environmental, economic, and human as shown in Figure 1.III. CONCEPT AND RELEV ANCE OF SUSTAINABLE ARCHITECTURE In the present day scenario the idea and concept of Sustainable Architecture/Development is relevant in the light of the following two aspects:a) Ecological and Environmental crisisb) Imminent disasters and their managementSome of the major causes, which greatly contribute to these two aspects, can be listed as:• Rapid Urbanization and Industrialization:The consequences of this can further lead to Population explosion, Geological deposits of sewage and garbage, Unsustainable patterns of living & development, Environmental degradation (pollution of air, water, soil etc, food web disruption). Thus sustainable urban development is crucial to improve the lives of urban populations and the remainder of the planet. Both people and ecosystems impacted upon by their activities.• Natural Calamities:Natural calamities like volcanic eruptions, earthquakes, flood, famine etc. which are being further aggravated by mankind add to the list of other ill effects like atomicexplosion, green house effect, ozone depletion etc. Sustainable design attempts to have an understanding of the natural processes as well as the environmental impact of the design. Making natural cycles and processes visible, bring the designed environment back to life.• Depletion of Non-renewable sources:Rapid depletion of non-renewable sources is leading to serious issues related to energy & water conservation etc. Thus the rational use of natural resources and appropriate management of the building stock can contribute to saving scarce resources, reducing energy consumption and improving environmental quality.IV. SOLUTIONSA. Sustainable ConstructionSustainable construction is defined as "the creation and responsible management of a healthy built environment based on resource efficient and ecological principles". Sustainable designed buildings aim to lessen their impact on our environment through energy and resource efficiency."Sustainable building" may be defined as building practices, which strive for integral quality (including economic, social and environmental performance) in a very broad way. Thus, the rational use of natural resources and appropriate management of the building stock will contribute to saving scarce resources, reducing energy consumption (energy conservation), and improving environmental quality.Sustainable building involves considering the entire life cycle of buildings, taking environmental quality, functional quality and future values into account environmental initiatives of the construction sector and the demands of users are key factors in the market. Governments will be able to give a considerable impulse to sustainable buildings by encouraging these developments. Further the various energy related issues during the different phases in the construction of buildings can be understood with respect to the chart shown in Figure2.B. Environmentally Friendly HousesFollowing the five basic principles of environmentally oriented design can lead to the construction of what can be called as Environmentally Friendly House. An environmentally friendly house is designed and built to be in tune with its occupants, nature, environment and ecosystem. It is designed and built according to the region it is located in, keeping in mind the climate, material, availability and building practices. The basic areas of design need to be considered at this stage can be listed as: • Orientation• Reduce Energy Gain or Loss• Lighting• Responsible Landscaping• Waste Management• External VentilationC. Green BuildingA green building places a high priority on health, environmental and resource conservation performance over its life cycle. These new priorities expand and complement the classical building design concerns: economy, utility, durability and delight. Green design emphasize a number of new environmental, resource and occupant health concerns:• Reduce human exposure to noxious materials.• Conserve non-renewable energy and scarce materials.• Minimize life cycle ecological impact of energy and materials used.• Use renewable energy and materials that are sustainable harvested.• Protect and restore local air, water, soil, flora & fauna• Support pedestrian, bicycles, mass transit and other alternatives to fossil-fueled vehicles.Most green buildings are high quality buildings they last longer, cost less to operate and maintain and provide greater occupant satisfaction than standard development.D. Green Roofs & Porous PavementsAs already discussed the rapid urbanization and industrialization is resulting in extensive deforestation as a result the green areas are being covered with pavements and concrete. The rainwater that naturally seeps through land covered with vegetation and trees now just runoff, thereby leading to a major environmental imbalance in terms of groundwater. This problem can be solved to a great extent with the help of the construction of Green Roofs and Porous Pavements.Green roofs & porous pavements present a unique method of ground water conservation. Vegetation to hold water on rooftops, and pavement that lets it percolate in the ground are some of the latest ways that can save water tables. Visually what might come across may be a roof sprouted with plants and a parking lot that drains water like a sieve-probably the latest in groundwater conservation.E. Building MaterialsTons of materials including timber go into building construction. There are three principal approaches to improve the material efficiency of building construction: • Reducing the amount of material used in construction.• Using recycled materials that otherwise would have been waste.• Reducing waste generation in the construction process.Further as far as possible sustainable harvested building materials and finishes should be used with low toxicity in manufacturing and installation.V. CONCLUSIONSSustainability often is defined as meeting the needs of the present without compromising the ability of future generations to meet their own needs. A growing number of people are committed to reaching this goal by modifying patterns of development and consumption to reduce demand on natural resource supplies and help preserve environmental quality. Achieving greater sustainability in the field of construction is particularly important, because building construction consumes more energy and resources than any other economic activity. Not only does a home represent the largest financial investment a family is likely to make, but it also represents the most resource- and energy-intensive possession most people will ever own. Making homes more sustainable, then, has a tremendous potential to contribute to the ability of future generations to meet their own needs. Sustainable housing design is a multifaceted concept, embracing:• Affordability• Marketability• Appropriate design• Resource efficiency• Energy efficiency• Durability• Comfort• HealthAs a developed society we should not undermine our resource base, the assimilative capacity of our surroundings or the biotic stocks on which our future depends. As a sustainable society our efforts should consist of a long-term and integrated approach to developing and achieving a healthy community. We should realize that the problems associated with sustainable development are global as a result the issues need worldwide attention. If we work together we can bring change faster.中文译文：可持续建筑中的问题及可能的解决方案摘要——越来越多地关注环境和生态条件已经引起了人们对“节能意识”、“友好生态”、“高效节能”的建筑设计的讨论和探索。

浙江师范大学本科毕业设计(论文)外文翻译文献：Francesca D’Alessandro .Green Building for a Green Tourism. A New Model ofEco-friendly Agritourism[J].Agriculture and Agricultural Science Procedia，2016（8）：201-210译文：打造绿色建筑，打造乡村旅游新模式摘要：这篇论文强调了重视和推广坎帕尼亚区域的乡村旅游的重要性，强调打造绿色乡村对于可持续发展和增强竞争力的重要性。

文章就如何打造自然、环保、富有文化气息的景观建筑并合理开发提出了一些观点和有价值的建议。

乡村旅游不仅促使我们价值感悟，回归传统文化,而且它也引起我们对乡村建筑和景观建筑的关注和兴趣。

乡村旅游的推广是对健康的一份关爱, 是对生命欣喜的表达，而且有利于提升空气和水源质量。

绿色乡村里有真正绿色并且健康的食物，并且有带给我们满足和放松的源泉的自然景观。

绿色建筑意味着以人民幸福为目标，环境保护在促进个人心理和生理健康、社会经济和环保平衡中扮演了重要角色。

乡村旅游的理想模型旨在环境友好和美好景观的内涵中推动有创造力的实践活动，保护自然和历史建筑，鼓励农场和乡村旅行住宿服务建筑可持续发展。

关键词：乡村旅游；绿色建筑；原型；农业旅游1 引言“像音乐和文章一样，建筑也是一种语言。

像音乐和文章的作用一样，建筑起着沟通的作用，它永远在我们身边，在我们的生命中陪伴着我们，我们离不开它。

像音乐和文章那样，一个好的建筑使我们的生活更美好，但有太多糟糕的建筑剥削者我们的环境。

不喜欢的音乐，我们可以决定不听，不喜欢的书，我们可以不看，但是建筑不由得我们关闭或合上。

正统建筑的质量不能够被编码，或仔细斟酌，它是文化、文明、个人和集体意识共同的产物。

相反的是，建筑的可持续性是技术发展到足够精确乃至可供我们控制选择的程度的结果。

中国绿色建筑介绍英文作文英文：Green buildings in China have been gaining popularityin recent years due to the increasing awareness of environmental protection and sustainable development. These buildings are designed to reduce the negative impact on the environment and promote a healthy and comfortable living environment for occupants.One of the key features of green buildings is energy efficiency. This is achieved through the use of advanced technologies and materials that help reduce energy consumption and emissions. For example, green buildings may use solar panels, energy-efficient lighting, and HVAC systems that use less energy. This not only reduces the carbon footprint but also saves money on energy bills.Another important aspect of green buildings is water conservation. China is a country that is prone to waterscarcity, and green buildings can help reduce water consumption through the use of water-efficient fixtures and systems. For example, low-flow faucets, toilets, and showerheads can significantly reduce water usage without sacrificing performance.In addition, green buildings also prioritize indoor air quality by using non-toxic materials and providing proper ventilation. This helps reduce the risk of health problems caused by indoor air pollution.Overall, green buildings in China are an important step towards a more sustainable future. By reducing energy and water consumption, promoting healthy indoor environments, and using eco-friendly materials, these buildings are setting an example for the rest of the world.中文：近年来，随着人们对环境保护和可持续发展意识的提高，中国的绿色建筑越来越受欢迎。

扬州大学大学本科毕业设计（论文）外文参考文献译文及原文论文题目学部专业班级学号学生姓名指导教师目录城市环境下的绿色屋顶 (1)GREEN ROOFS IN THE CITY ENVIRONMENT (6)德国屋顶花园绿化 (13)Roof Garden in Germany (20)城市环境下的绿色屋顶摘要本研究旨在呈现建在这个世纪的近代历史先例的屋顶草坪和花园，展现真实提供了目前水平的防水建筑和园艺技术来改善城市环境的可能性。

在欧洲，尤其是在过去的十年中，可用数量的信息在“绿色屋顶”已经大幅增加了。

国内最早领域的尝试“绿色屋顶”是最近几年，但建筑行业还没有很好的解决这个结构和生态的方案，这被认为是有点好奇。

主要原因是这种态度、可用的国际信息（根据经验，讨论论文，研究、指导方针、手册等）没有达到那些专业人士、潜在投资者和建筑商，他们的决定是普遍接受“绿色屋顶”为前提的。

1．概念和历史屋顶花园的概念可以追溯到最早的实际上是为了人的建筑活动。

在整个历史过程中我们可以看到一个需求是在屋顶种植植被，其中最著名的是古代文明巴比伦的空中花园。

在罗马帝国时代和中世纪的绿色屋顶被统治阶级主要用于显示奢侈。

在现代，特别是在二十世纪的建筑，绿色的花园被视为一种自然现象。

一个特殊的实现可以观察到屋顶花园在北欧的本土建筑在其传统的斜屋顶上的草。

如今，时代的人口稠密的城市地区缺乏绿色草皮引起关注，因为这个原因，生态建筑的支持者在欧洲已经集中解决几十年来与技术和绿化的有关问题，恢复绿色区域。

长视为历史上罕见的特点之前，开发的技术方法论要求屋顶花园并未确立，因此几乎没有任何可能性的广泛传播。

在欧洲的经验在过去的15年创建长满草的屋顶--屋顶花园，已经导致了这种信息的宝贵来源，利用目前可用的屋面保温材料，可以设计优秀的多层次的、运转良好的绿色屋顶。

例如，绿色屋顶的解决方案涉及一个测序的层和使用合适的材料，介绍了在德国、奥地利、瑞士和可以适应的其他地方，选择植物和保健技术是依赖于气候和地理位置，因此不能直接采用。

绿色建筑毕业设计外文翻译中英文对照（可编辑）########## 大学本科毕业设计外文资料译文年级: 2008级学号: 20087221姓名: 朱莉专业: 铁道工程指导老师:2012年6月原文:Green BuildingAbstract: Green building refers to doing its best to imizeconservation of resources energy, land, water, and wood,protecting the environment and reducing pollution in its life cycle. Providing people with healthy, appropriate and efficient use of space, and nature in harmony symbiosis buildings. I described more details of green building design’ notion, green building’ de sign, as well as the significance of the concept of green building and improving the effectivenessanalysis of the external effects of green building measures, Key words: green buildings; protect the ecology; signification ; analysing the effectsWhat is a green buildingGreen building refers to building life cycle,the imum conservation of resources energy, land, water and materials, protecting the environment and reducing pollution, providing people with healthy, appropriate and efficient use of space, and nature harmony of the buildingThe so-called green building "green" does not mean a general sense of three-dimensional green, roof garden, but represents a concept or symbol, refers to building environmentally and friendly, makes full use of natural resources, environment and basic ecological damage to the environment without balance of a building under construction, but also known as sustainable building, eco-building, back into the wild construction, energy saving construction Green building interior layout is very reasonable, to minimize the use of synthetic materials, full use of the sun, saves energy for the residents and creates almost-natural feeling People, architectures and the natural environment for the harmonious development goals, in the use of natural and artificial means to create good conditions and healthy living environment, as much as possible to control and reduce the use and destruction of the natural environment, to fully reflect the nature obtain and return balance2. the meaning of green buildingThe basic connotation of green building can be summarized as: to reduce the load on the environment architecture, which saves energy and resources; provides a safe, healthy, comfortable living space with goods; affinity with the natural environment, so that people and building's coexistence with the environment and sustainable development becomes harmonious3.Development of the significance of green building rating systemEstablish green building rating system is a revolution in the fieldof architecture and the Enlightenment, its far more than energy savings. It is innovative in many ways and organic synthesis, thereby building in harmony with nature, full utilization of resources and energy, create healthy, comfortable and beautiful living space. It's revolutionary for the field of architecture from the technical, social and economicangles3.1 Technical SignificanceGreen building study of early technical problems of individual-based, technology is isolated and one-sided, not formed an organic whole, the integration of design and economic study of consciousness is far fromthe only strategy of economic analysis phase of the subsidiary's knowledgeHowever, individual technical research results of early modern green building techniques for the multi-dimensional development and systems integration will lay a solid foundation. Since the nineties of the 20th century, with the understanding of green building gradually deepen and mature, people give up way too utopian thinking environmental consciousness and moral constraints and spontaneous green behavior, turned to explore more workable environmental philosophy, environmental and capital combined into the future world with the new direction of development of environmental protection, green building has entereda result of ecological ethics from the practice of promoting ecological research to deepen the new stage. Green Building Technology takes on the natural science, social science, humanities, computer science,information science and other subjects the trend of integration of research results, making green building design into the multi-dimensional stage of development strategy study. The deepening of green building technology strategy and development in materials, equipment, morphology and so on. Various advanced fields, in technology development, technology and other design elements of the integration is also starting from the past the simple addition, more attention to the periphery ofthe retaining structure itself design technology and architecture to combine the overall system change, gradually becoming green building systems. Green building rating system was established green building technologies gradually improve and systematize the inevitable result, it is the organic integration of green building technology, a platformbuilt to green building technology, information technology, computer technology and many other subjects can be a unified platform in their respective roles, the establishment of a comprehensive evaluation system for designers, planners, engineers and managers a more simple, Guizhangmingque green building assessment tools and design guidelines with clear rule3.2 The social significanceGreen building rating system reflects the socialsignificance of the main advocates of the new way of life,heightened awareness and public participation in the continuation oflocal culture are two aspects To promote a healthy lifestyle. Green building rating system, the social significance of the primary advocatea healthy lifestyle, which is based on the design and construction ofgreen buildings as a community education process. The principles of green building rating system is the effective use of resources and ecological rules to follow, based on the health of building space to create and maintain sustainable development. The concept of the past to correct people's misconceptions about consumer lifestyles, that can not blindly pursue material luxury, but should keep the environment under the premise of sustainable use of modest comfort to pursue life. From the fundamental terms, construction is to meet human needs built up of material goods as people's lifestyle is not sustainable when, the value of green building itself will be reduced, but only had a real social need When the requirements of sustainable development and way of life that matches the green building to achieve the best results Enhanced awareness of public participation. Green Building Rating system is not a monopoly for the design staff of professional tools, but for planners, designers, engineers, managers, developers, property owners, jointly owned by the public and other assessment tools. It brokes the previous professional development of the monopoly to encourage the participation of the publicand other public officers. Through public participation, the introduction of architects and other building users, the construction of dialogue participants, making the original design process dominated by the architect becomes more open. Proved the involvement of various views and a good help to create a dynamic culture, embody social justice community3.3 The economic significanceGreen building rating system, theeconomic significance can be divided into macro and micro levels. At the macro level, the green building rating system from the system life-cycle perspective, the green building design integrated into the economic issues involved in the production from the building materials, design, construction, operation, resource use, waste disposal, recycling of demolition until the natural resources the whole process. Economic considerations of green building is no longer limited to the design process itself, while the policy extended to the design of the narrow role to play to support the policy level, including the establishment of "green labeling" system, improving the construction environmental audit and management system, increase and construction-related energy consumption, pollutant emissions and other acts of tax efforts, improve the legal system of environmental protection, from the increase in government construction projects on the sustainability of economic support and raise the cost to the construction of polluting the environment acts as the costs for green buildings design and construction to create a favorable externalenvironment. This goal is not entirely the responsibility of government agencies, as the architects involved in design work as a sound system of responsibility for recommendations obligations, because only the most from the practice of the need is real and urgent. The related policy issues in green building design strategies, building a system to solve the economic problems facing the important aspects. At the micro level, the current from the economic point of Design Strategyis more fully consider the economic operation of the project, and specific technical strategies accordingly adjusted3.4 Ethical SignificanceGreen building rating system, the theoretical basis of the concept of sustainable development, therefore, whether the evaluation system of each country how much difference in structure, they all have one thing in common: To reduce the burden of ecological environment, improve construction quality of the environment for future generations to remain the development of room. This radically changes the long-sought human blindly to the natural attitude, reflecting people's understanding of the relationship between man and nature by the opposition to the uniform change. According to the current global energy reserves and resources distribution, the Earth's natural environment is also far from the edge of exhaustion, enough people enjoy the luxury of contemporary material life. But now we have to consume a resource, it means that future generations will be less of a living space. More importantly, if we consume the natural environment more than it can limit self-renewal, then the future of the younger generation is facing the planet's ecosystems can not recover the risk into a real crisis. Therefore we can say, the development of green buildings and their corresponding evaluation system, for more contemporary people is the responsibility and obligations. For more the interests of future generations and advantages for green building design.4.Green building design include the followings:Saving energy: full use of solar energy, using energy-efficient building reducing heating and air conditioning use. Set according to the principle of natural ventilation cooling system that allows efficient use of building to the dominant wind direction in summer. Adapted to local climatic conditions, building use form and general layout of the plane Resource conservation: in the building design, construction and selection of construction materials, are considered fair use and disposal of resources. To reduce the use of resources, strive to make the use of renewable resources. Conserve water resources, including water conservation and greeningReturn to Nature: Green Building exterior to emphasize integration with the surrounding environment, harmony, movement each other so that the protection of natural ecological environment5 .Effects of green building5.1 Effects of the composition of green buildingEffects of green building, including internal effects and external effects, direct benefits and direct costs as the internal effect, known as the indirect benefits and indirect costs of external effects, according to engineering economics point of view: the internal effects can be financial evaluation, external effects should be economic evaluation, economic evaluation is based on the so-called rational allocation of scarce resources and socio-economic principles of sustainable development, from the perspective of the overall national economy, study projects spending of social resources and contributions to the community to evaluate the project's economic and reasonable andexternal effects generally include industry effects, environmental and ecological effects, technology diffusion effect, the external effectwill cause the private costs internal costs or indirect costs and social costs inconsistent, leading to the actual price is different from the best price. From the perspective of sustainable development, green building assessment effects of the main indicators of external effectsSince beginning the development of green building, unity of quantitative indicators system is still not established, I believe that the following aspects should be analyzed: 1 strictly control the construction industry, size, limit the number of employees. Extensive growth model epitomized by the struggle over the construction project, the construction process using human wave tactics, once the state limit the scale of construction, will form the "adequate", which will not reduce the degree of mechanization, labor, thelow level. 2 more investments in upgrade technology, establish and perfect the mechanism for scientific and technical equipment. Focus on the development and application of building technology, combined with the project, the characteristics of future construction, a planned way scientific and technological research and development of new machinery, new processes, new materials, and actively introduction, absorb and assimilate the advanced scientific and technological achievements of science and technology to improve the level of mechanization. 3 in urban planning, survey and design through the "green building" ideas. Family housing and urban construction or alteration must remain in the room,from lighting, ventilation, drainage and control the damages to the environment. 4 construction work, reduced resource consumption, the production process in construction, energy saving measures should be adopted to prevent the excessive consumption of land resources, water resources, power resources5.2 External effects of the challenges to building the economyUnder the control of the government's intervention, to a certain extent on the efficient allocation of resources to strengthen the implementation of energy conservation mandatory standards for construction supervision. To further improve the building energy monitoring system, and strengthen the mandatory building energy efficiency standards in order to carry out the implementation of the project as the main content of the whole process of monitoring, particularly for large public buildings to enhance the building energy regulation, reflected in the project cost on the part of internal costs, making the "non-green building" project's internal costs, internal efficiency and reducing the external costs of green building, the external efficiency increasing, so that effective economic resources to the rational flow of green building6. to improve the external effects of green building measuresEnterprise architecture in the new economy to obtain a competitive advantage, improve the external effects only continually tap the ways and means to improve the external efficiency, reduce external costs, the basic ideas and principles: 1 Construction of natural resources in thelife cycle and minimized energy consumption; 2 reducing building life cycle emissions; 3 protecting the ecological natural environment; 4 to form a healthy, comfortable and safe indoor space; 5 the quality of construction, functionality, performance and environmental unitySummary described above, the meaning of green building design and analysisof its effectiveness and improve the external effects of green building measures. But how does the future design of green buildings need a degree in practice we try to figure out, I believe that green building will become the trend of future construction.译文:绿色建筑摘要: 绿色建筑是指在建筑的全寿命周期内,最大限度地节约资源节能、节地、节水、节材、保护环境和减少污染,为人们提供健康、适用和高效的使用空间,与自然和谐共生的建筑。

建筑节能技术与绿色建筑设计（英文中文双语版优质文档）In recent years, with the gradual enhancement of people's awareness of environmental protection, green buildings have become a hot topic in the field of architectural design. Green building design refers to minimizing the adverse impact on the environment in the process of design, construction, use and demolition, and achieving the goals of resource conservation and environmental protection. Building energy-saving technology is the key to realize green buildings. This paper will focus on the relevant content of building energy-saving technology and green building design.1. Building energy-saving technologyBuilding energy-saving technology refers to the use of various measures to minimize building energy consumption in the process of building design, construction and use, so as to achieve the purpose of saving energy and reducing consumption.1. Design stageDuring the building design phase, energy savings can be achieved by adopting the following measures:(1) Choose appropriate building facade design to reduce building energy consumption.(2) Choose suitable materials, such as solar panels, energy-saving glass and other materials.(3) Adopt energy-saving building models, such as building thermodynamic models, computer simulation models, etc., to predict and analyze building energy usage and improve building energy efficiency.2. Construction phaseDuring the building construction phase, the following measures can be adopted to achieve energy saving:(1) Adopt green construction materials, such as environmentally friendly cement, building ceramics and other materials.(2) Adopt advanced energy-saving construction technology, such as energy-saving lighting system, energy-saving air-conditioning system, etc.3. Phase of useDuring the building use phase, the following measures can be adopted to achieve energy saving:(1) Adopt energy-saving home appliances, such as LED lights, energy-saving refrigerators, etc.(2) Adopt renewable energy such as solar energy and wind energy to realize self-sufficiency of the building.(3) The thermal insulation performance and lighting performance of buildings also need to be well maintained to reduce energy consumption.4. Demolition phaseDuring the building demolition stage, environmental protection demolition technology should be adopted to reduce the impact on the environment.2. Green building designThe core of green building design is to achieve the maximum protection of the environment and the economical use of resources. The following is the relevant content of green building design:1. Utilization of renewable energyGreen building design emphasizes the use of renewable energy, such as solar energy, wind energy, etc. to achieve building self-sufficiency. In the design stage, factors such as building orientation and lighting can be considered to make full use of solar energy and reduce dependence on traditional energy sources. For example, solar panels are installed on the roof of the building to generate electricity through solar energy to provide electricity for the building.2. Selection of green building materialsGreen building design focuses on the selection of green and environmentally friendly building materials, such as wood made from renewable resources, environmentally friendly cement, etc. These green building materials can reduce environmental pollution during production, use and dismantling.3. Conservation and utilization of water resourcesGreen building design also emphasizes the conservation of water resources. In the design stage, water resources can be reused by setting up rainwater collection systems and irrigation systems. In the use stage, low-flow faucets, water-saving devices and other equipment can also be used to reduce water consumption.4. Guarantee of air qualityGreen building design focuses on ensuring indoor air quality to improve living comfort and health. The release of harmful substances such as formaldehyde can be reduced to ensure indoor air quality by adopting low-VOC paints, indoor air purifiers and other measures.5. Garbage sortingGreen building design also pays attention to the sorting of waste to reduce environmental pollution. The installation of garbage sorting facilities can be considered at the design stage, and residents can be guided to sort garbage during the use phase.3. SummaryBuilding energy-saving technology and green building design are the key to sustainable development. By adopting various energy-saving measures and green building design schemes in the process of building design, construction, use and demolition, the adverse impact on the environment can be minimized and the goals of resource conservation and environmental protection can be achieved. We need to actively promote the concept of green buildings in the process of building design and use, and jointly contribute to the realization of sustainable development.近年来，随着人们环保意识的逐渐增强，绿色建筑已成为建筑设计领域的热门话题。

绿色建筑英语作文800字（中英文实用版）Title: Green Building绿色建筑是一种以环保和可持续为核心理念的建筑方式。

它不仅关注建筑本身的美观和实用性，更注重建筑对环境的影响和对资源的节约。

In recent years, green buildings have gained increasing attention from people all over the world.These buildings are designed with sustainability and environmental protection in mind, focusing not only on their aesthetic appeal and functionality, but also on their impact on the environment and their efficiency in resource consumption.绿色建筑的实现需要从多个方面入手。

首先，建筑材料的选择至关重要。

绿色建筑倾向于使用可再生、可回收的材料，减少对环境的破坏。

其次，绿色建筑注重节能和环保。

通过采用先进的节能技术和设备，如太阳能板和雨水收集系统，可以有效降低建筑的能耗和对水资源的依赖。

此外，绿色建筑还会考虑室内环境的质量，如通风、采光和空气质量，以提供一个健康舒适的居住和工作环境。

To achieve green buildings, several approaches can be adopted.Firstly, the choice of building materials is crucial.Green buildings 倾向于使用可再生、可回收的材料，以减少对环境的破坏。

Secondly, green buildings focus on energy saving and environmental protection.By adopting advanced energy-saving technologies and equipment, such as solar panels and rainwater collection systems, the energy consumption of buildings can be reduced and their dependence on water resourcescan be minimized.Additionally, green buildings also consider the quality of the indoor environment, such as ventilation, natural lighting, and air quality, to provide a healthy and comfortable living and working environment.绿色建筑不仅对环境有益，也对经济和社会有着积极的影响。

中英文资料翻译外文文献：Evaluating Water Conservation Measures For Green Building InTaiwanGreen Building evaluation is a new system in which water conservation is prioritized as one of its seven categories for saving water resources through building equipment design in Taiwan. This paper introduces the Green Building program and proposes a water conservation index with quantitative methodology and case study. This evaluation index involves standardized scientific quantification and can be used in the pre-design stage to obtain the expected result. The measure of evaluation index is also based on the essential researchin Taiwan and is a practical and applicable approach.Keywords: Green Building; Evaluation system; Water conservation; Building equipment1. IntroductionThe environment was an issue of deep global concern throughout the latter half of the 20th century. Fresh water shortages and pollution are becoming one of the most critical global problems. Many organizations and conferences concerning water resource policy and issues have reached the consensus that water shortages may cause war in the 21st century[1],if not a better solution .Actually, Taiwan is already experiencing significant discord over water supply. Building new dams is no longer an acceptable solution to the current water shortage problems, because of the consequent environmental problems. Previous studies have concludedthat water savings are necessary not only for water conservation but also for reducing energy consumption [2,3].Taiwan is located in the Asian monsoon area and has an abundant supply of rainwater. Annual precipitation averages around 2500mm. However, water shortages have recently beena critical problem during the dry season. The crucial, central issue is the uneven distribution of torrential rain, steep hillsides, and short rivers. Furthermore, the heavy demand for domestic water use in municipal areas, and the difficulties in building new reservoirs are also critical factors. Government departments are endeavoring to spread publicly the concept of water-conservation. While industry and commerce have made excellent progress in water conservation, progress among the public has been extremely slow.Due to this global trend, the Architecture and Building Research Institute (ABRI), Ministry of Interior in Taiwan, proposed the “Green Building” concept and built the evaluation system. In order to save water resources through building equipment design, this system prioritizes water conservation as one of its seven categories. This paper focuses on the water conservation measures for Green Building in Taiwan and a quantitative procedure for proving water-saving efficiency. The purpose of this work is not only aimed at saving water resources, but also at reducing the environmentalimpact on the earth.2. Water conservation indexThe water conservation index is the ratio of the actual quantity of water consumed in a building to the average water-consumption in general. The index is also called, “the water saving rate”. Evaluations of the water-consumption quantity include the evaluation to the water-saving efficiency within kitchens, bathrooms and all water taps, as well as the recycling of rain and the secondhand intermediate water.2.1. Goal of using the water conservation indexAlthough Taiwan has plenty of rain, due to its large population, the average rainfall for distribution to each individual is poor compared to the world average as shown in Fig. 1.Thus, Taiwan is reversely a country short of water. Yet, the recen t improvements in citizens’ standards of living have led to a big increase in the amount of water needed in cities, as shown in Fig. 2, which, accompanied by the difficulty of obtaining new water resources, makes the water shortage problem even worse. Due to the improper water facilities designs in the past, the low water fee, and the usual practical behavior of people when using water, Taiwanesepeople have tended to use a large quantity of tap water. In 1990,the average water-consumption quantity in Taiwan was 350l per person per day, whereas in Germany it is about 145l per person per day, and in Singapore about 150l per person per day. These statistics reveal the need for Taiwanese people to save water.The promotion of better-designed facilities which facilitate water-saving will become a new trend among the public and designers, because of concerns for environmental protection. The water conservation index was also designed to encourage utilization of the rain, recycling of water used in everyday life and use of water-saving equipment to reduce the expenditure of water and thus save water resources.2.2. Methodology for efficient use of water resourcesSome construction considerations and building system designs for effective use of water resources are described below.2.2.1. Use water-conservation equipmentA research of household tap-water consumption revealed that the proportion of the water used in flushing toilets and in bathing, amounts to approximately 50% of the total household water consumption, as given in Table 1. Many construction designers have tended to use luxurious water facilities in housing, and much water has thus been wasted. The use of water-saving equipment to replace such facilities is certain to save a large amount of water. For example, the amounts of water used in taking a shower and having a bath is quite different.A single shower uses around 70l of water, whereas a bath uses around 150l. Furthermore, current construction designs for housing in Taiwan tend to put two sets of bathtubs and toilets, and quite a few families have their own massage bathtubs. Such a situation can be improved only by removing the tubs and replacing them with shower nozzles, so that more water can be possibly saved. The commonly used water-saving devices in Taiwan now include new-style water taps, water-saving toilets, two-sectioned water closets, water-saving shower nozzles, and auto-sensor flushing device systems, etc. Water-saving devices can be used not only for housing, but also in other kinds of buildings. Public buildings, in particular, should take the lead in using water-saving devices.2.2.2. Set up a rain-storage water supply deviceThe rain-storage water supply device stores rain using natural landforms or man-made devices, and then uses simple water-cleaning procedures to make it available for use in houses. Rain can be used not only as a substitute water supply, but also for re control. Its use also helps to decrease the peak-time water load in cities. The annual average rainfall in Taiwan is about 2500 mm, almost triple better than the global average. However, due to geographic limitations, we could not build enough water storage devices, such as dams, to save all the rain. It is quite a pity that annually about 80% of the rain in Taiwan is wasted and flows directly into the sea, without being saved and stored. The rain-storage water supply system is used with a water-gathering system, water-disposal system, water-storage system and water-supply system. First, the water-gathering system gathers the rain. Then, the water flows to the water-disposal system through pipes, before being sent to the water-storage system. Finally, it is sent to the users’equipment through another set of pipes. Using the drain on the roof of a building, leading to the underground water-storage trough, is considered an effective means of gathering rain. The water, after simple water-disposal processes, can be used for chores such as house cleaning, washing floors, air-conditioning or watering plants.2.2.3. Establishing the intermediate water systemIntermediate water is that gathered from the rain in cities, and includes the recycled waste-water which has already been disposed of and can be used repeatedly only within a certain range, but not for drinking or human contact. Flushing the toilet consumes 35% of all water. If everyone were to use intermediate water to flush toilets, much water could be efficiently saved. Large-scale intermediate water system devices are suggested to be built up regularly with in a big area. Each intermediate water system device can gather, dispose and recycle a certain quantity of waste-water from nearby government buildings, schools, residences, hotels, and other buildings. The obtained water can be used for flushing toilets, washing cars, watering plants and cleaning the street, or for garden use and to supplement the water of rivers or lakes. A small-scale intermediate water system gathers waste-water from everyday use, and then, through appropriate water-disposal procedures, improves the water quality to a certain level, so that finally it can be repeatedly used for non-drinking water. Thereare extensive ways to use the intermediate water. It can be used for sanitary purposes, public fountains, watering devices in gardens and washing streets. In order to recycle highly polluted waste-water, a higher cost is needed for setting up the associated water-disposal devices, which are more expensive and have less economic benefits than the rain-utilization system. Except for the intermediate water-system set within a single building, if we build them within large-scale communities or major construction development programs, then it is sure to save more water resources efficiently and positively for the whole country as well as improve the environmental situation.4. Method for assessing the recycling of rainSystems for recycling rain and intermediate water are not yet economic beneficial, because of the low water fee and the high cost of water-disposal equipment. However, systems for recycling rain are considered more easily adoptable than those for recycling intermediate water. Herein, a method for assessing the recycling of rain is introduced to calculate the ratio (C) of the water-consumption quantity of the recycled rainwater to the total water-consumption.4.1. Calculation basis of recycling rainwaterThe designer of a system for recycling rainwater must first determine the quantity of rainwater and the demand, which will determine the rainwater collection device area and the storage tank volume. Rainwater quantity can actually be determined by a simple equation involving precipitation and collection device area. However, precipitation does not fall evenly spread over all days and locations. In particular, rain is usually concentrated in certain seasons and locations. Consequently, the critical point of the evaluation is to estimate and assess meteorological precipitation. Meteorological records normally include yearly, monthly, daily and hourly precipitation. Yearly and monthly precipitation is suitable for rough estimates and initial assessment. However, such approximation creates problems in determining the area of the rainwater collection device and the volume of the storage tank. Thus, daily precipitation has been most commonly considered. Hourly precipitation could theoretically support a more accurate assessment. However, owing to the increasing number of parameters and calculation data increases, the complexity of the process and the calculation time, result in inefficiencies. Herein, daily precipitation is adoptedin assessing rainwater systems used in buildings [4,7].4.3. Case study and analysisFollowing the above procedure, a primary school building with a rainwater use system is taken as an example for simulation and to verify the assessment results. This building is located in Taipei city, has a building area of 1260 m and a total floor area of 6960 m ; it is a multi-discipline teaching building. Roofing is estimated to cover 80% of the building area, and the rainwater collection area covers 1008 m .Rainwater is used as intermediate water for the restrooms, and the utilization condition is set at 20 m per day, whilethe out flow coefficient (Y) is 0.9. A typical meteorological precipitation in Taipei in 1992 was adopted as a database. The rainwater storage tank was set to an initial condition before the simulation procedure. Herein, four tank volumes were considered in the simulations of rainwater utilization—15, 25, 50, 100 m. The results indicate that increased storage tank volume reduces overflow and increases the utilization of rainwater. Given a 50 m storage tank, the quantity of rainwater collection closely approaches the utilization quantity of rainwater. Consequently, this condition obtains a storage tank with a roughly adequate volume. When the volume of the storage tank is 100 m, the utilization rate is almost 100% and the overflow quantity approaches zero. Despite this result being favorable with respect to utilization, such a tank may occupy much space and negatively impact building planning. Consequently, the design concept must balance all these factors. The building in this case is six floors high, and the roof area is small in comparison to the total floor area. The water consumption of the water closet per year, but the maximum rainwater approaches 7280 m collection is 2136 m per year. Thus, significant replenishment from tap water is required. This result also leads to a conclusion that high-rise buildings use rainwater systems less efficiently than other buildings. Lower buildings (e.g. less than three floors) have highly efficient rainwater utilization and thus little need for replenishment of water from the potable water system.The efficiency of rainwater storage tanks is assessed from the utilization rate of rainwater and the substitution rate of tap water. Differences in annual precipitation and rainfall distribution yield different results. Figs. 5 and 6 illustrate the results of the mentioned calculation procedure, to analyze differences in rainwater utilization and efficiency assessment.The simulation runs over a period often years, from 1985 to 1994, and includes storage tanks with four different volumes. When the volume of the rainwater tank is 50 m, the utilization rate of rainwater exceeds 80% with about 25% substitution with tap water. Using this approach and the assessment procedure, the volume of rainwater storage and the performance of rainwater use systems in building design, can be determined.In the formula of the water conservation index, C is a special weighting for some water recycling equipment that intermediates water or rain, and is calculated as the ratio of the water-consumption quantity of the recycled rainwater to the total water-consumption. Therefore, this assessment procedure can also offer an approximate value of C for the water conservation index.5. Green building label and policy“Green Building” is called “Environmental Co-Habitual Architecture” in Japan, “Ecological Building” or “Sustainable Building” in Europe and “Green Build ing in North American countries. Many fashionable terms such as “Green consumption”, “Green living”, “Green illumination” have been broadly used. In Taiwan, currently, “Green” has been used as a symbol of environmental protection in the country. The Construction Research Department of the Ministry of the Interior of the Executive Yuan has decided to adopt the term “Green Building” to signify ecological and environmental protection architecture in Taiwan.5.1. Principles of evaluationGreen Building is a general and systematic method of design to peruse sustainable building. This evaluation system is based on the following principles:(1) The evaluation index should accurately reflect environmental protection factors such as material, water, land and climate.(2) The evaluation index should involve standardized scientific quantification.(3) The evaluation index should not include too many evaluation indexes; some similar quality index should be combined.(4) The evaluation index should be approachable and consistent with real experience.(5) The evaluation index should not involve social scientific evaluation.(6) The evaluation index should be applicable to the sub-tropical climate of Taiwan.(7) The evaluation index should be applicable to the evaluation of community or congregate construction.(8) The evaluation index should be usable in the pre-design stage to yield the expected result.According to these principles, the seven-index system shown in Table 4 is the current Green Building evaluation system use d in Taiwan. The theory evaluates buildings’ impacts on the environment through the interaction of “Earth Resource Input” and “Waste Output”. Practically, the definition of Green Building in Taiwan is “Consume the least earth resource and create the least construction waste”.Internationally, each country has a different way of evaluating Green Building. This system provides only the basic evaluation on “Low environment impact”. Higher level issues such as biological diversity, health and comfort and community consciousness will not be evaluated. This system only provides a basic, practical and controllable environmental protection tool for inclusion in the government’s urgent construction environment protection policy. The “Green Building” logo is set to a ward Green Building design and encourage the government and private sector to pay attention to Green Building development. Fig. 7 is the logo of Green Building in Taiwan [6,8].5.2. Water conservation measureThis paper focuses on water conservation index in green building evaluation system. Water conservation is a critical category of this evaluation system, and is considered in relation to saving water resources through building equipment design. This evaluation index contains standardized scientific quantification and can be used in the pre-design stage to obtain the desired result. The evaluation index is also based on research in Taiwan and is practically applicable. Using water-saving equipment is the most effective way of saving water; using two-sectioned water-saving toilets and water-saving showering devices without a bathtub are especially effective. Various other types of water-recycling equipment for reusing intermediate water and rain are also evaluated. In particular, rainwater-use systems in building designs areencouraged. When a candidate for a Green Building project introduces water recycling system or a rainwater use system, the applicant should propose an appropriate calculation report to the relevant committee to verify its water-saving efficiency. This guideline actually appears to be a reasonable target for performing Green Building policy in Taiwan.A new building can easily reach the above water conservation index. This evaluation system is designed to encourage people to save more water, even in existing buildings. All this amounts to saying that large-scale government construction projects should take the lead in using such water-saving devices, as an example to society.6. ConclusionThis paper introduces the Green Building program and proposes a water conservation index with standardized scientific quantification. This evaluation index contains standardized scientific quantification and can be used in the pre-design stage to obtain the expected results. The measure of evaluation index is also based on the essential research on Taiwan and is a practical and applicable approach. The actual water-saving rate (WR) for Green Building projects should be <0.8, and the AR of the water-saving equipment should be higher than 0.8. Thus, qualified Green Building projects should achieve a water saving rate of over 20%. For the sustainable policy, this program is aimed not only at saving water resources, but also at reducing the environmental impact on the earth.The Green Building Label began to be implemented from 1st September 1999, and over twenty projects have already been awarded the Green Building Label in Taiwan, while the number of applications continues to increase. For a country with limited resources and a high-density population like Taiwan, the Green Building policy is important and represents a positive first step toward reducing environmental impact and promoting sustainable development.译文：台湾的绿色建筑节约用水评价措施在台湾绿色建筑评价是一个新的制度，在它的一个7个类别中，通过建筑设备设计节省水资源，使水资源保护置于优先地位。

绿色建筑英语作文第一篇：绿色建筑英语作文Peitou Public Library-The First Green Library in TaiwanThe first green building in Taiwan, the architecture housing the Peitou Public Library has been awarded as the candidate for the Green Building’s Nine Indicators Certificate from Ministry of the Interior based on its outstanding sustainable design.Through the persistent effort of the design team, the library architecture integrated natural view and Peitou hot spring into the overall design.Its design also features the high and low windows in elevated mezzanine, allowing the circulation of 'floating air current,' which will keep the interior temperature down via the air exchanger.Other noteworthy characteristics include the deep balcony that will keep the sun sway;vertical wooden railings to absorb the heat wave and reduce the power usage;the light weight ecological roof powered by solar energy that will consume only 20% of the energy during a mid summer day.Fu-bon Fu-An Memorial BuildingThe idea for the Memorial Building was that of a green design concept, preserving the existing environmental ecology, in conjunction with new plantings implemented creatively to entice butterflies and birds as a way to foster a sustainable environment.Available local materials and resources have also been incorporated so that the construction cost and demand for equipments can be significantly lowered.In order to reduce the consumption of natural resources and energy, equipment offering lower energy consumption, higher efficiency, automatic control, and alternative energies – solar power and rain water –serve as the primary standards in its selection.Yilan TraditionalArts Center(Phase 4)–Visitor Center and Dormitory for Artist and TraineeThe architecture design imitates traditional three-section compound, as a clever approach to reinvent the idea of green building by introducing traditional structure that is packed with various sustainable features.Well ventilation and lower energy consumption, to name just a few, are among the advantages of the traditional three-section compound.The design of Dong-Shan Villa seeks to preserve these qualities, and at the same time utilizes low-rise design surrounded by trees to evoke a sense of locality.第二篇：浅谈绿色建筑浅谈绿色建筑我们的生活离不开建筑，随着时代的发展，建筑所代表的文化内涵也在不断发展，人们对建筑物的要求也在不断提高。

绿色建筑英文作文英文：Green building is a concept that has gained a lot of attention in recent years. It refers to the design, construction, and operation of buildings that are environmentally responsible and resource-efficient. As a student of architecture, I have had the opportunity to learn about the principles of green building and their importance.One of the main goals of green building is to reduce the environmental impact of buildings. This can be achieved through the use of sustainable materials, energy-efficient systems, and water-saving technologies. For example, a building can be designed to maximize natural light and ventilation, reducing the need for artificial lighting and air conditioning. Water-saving technologies such as low-flow faucets and toilets can also be installed to reduce water consumption.Another important aspect of green building is the use of renewable energy sources. Solar panels, wind turbines, and geothermal systems can be used to generate electricity and heat, reducing reliance on fossil fuels. This not only reduces the carbon footprint of the building but also saves money on energy bills in the long run.In addition to environmental benefits, green building also has social and economic benefits. Buildings that are designed with the health and well-being of occupants in mind can improve their quality of life. For example, a building with good indoor air quality and natural light can promote productivity and reduce absenteeism. Green building can also create jobs in the construction and renewable energy sectors, contributing to economic growth.Overall, green building is a win-win situation for both the environment and society. As architects and designers,it is our responsibility to incorporate green building principles into our work and promote sustainable design.中文：绿色建筑是近年来备受关注的概念。

设计一个绿色建筑英语作文Green Architecture: Designing for a Sustainable Future.In the face of escalating climate change and environmental degradation, the architectural industry faces a critical imperative to adopt sustainable practices. Green architecture, a philosophy that emphasizes the harmonious integration of buildings with their natural surroundings, offers a transformative approach to designing structures that minimize ecological impact while promoting occupant well-being.Green architecture encompasses a comprehensive array of design principles and construction techniques thatprioritize energy efficiency, water conservation, material sustainability, and indoor air quality. It seeks to create buildings that are both aesthetically pleasing and environmentally responsible, adhering to the principles of the triple bottom line: economic, social, and environmental sustainability.Energy Efficiency.Reducing energy consumption is paramount in green architecture. Buildings account for a significant portion of global energy use, making energy efficiency a crucial factor in mitigating greenhouse gas emissions. Green architects employ various strategies to achieve this, including:Passive solar design: Orienting buildings to maximize sunlight exposure in winter and minimize it in summer, reducing heating and cooling costs.Insulation and airtightness: Using high-performance insulation and sealing gaps to prevent heat loss or gain.Efficient appliances and lighting: Installing energy-efficient appliances, lighting fixtures, and windows to reduce energy consumption.Renewable energy sources: Incorporating renewableenergy systems, such as solar panels, wind turbines, or geothermal heat pumps, to generate clean energy on-site.Water Conservation.Water scarcity is a growing concern worldwide. Green architecture promotes water conservation through measures such as:Low-flow fixtures: Using water-efficient appliances, such as low-flow toilets and faucets, to minimize water consumption.Rainwater harvesting: Collecting and storing rainwater for use in irrigation, flushing toilets, or other non-potable purposes.Greywater reuse: Reusing wastewater from sinks and showers for irrigation or other non-potable applications.Landscaping with native plants: Using native plants that require less water and are adapted to the localclimate.Material Sustainability.The choice of building materials significantly impacts the environmental impact of a building. Green architecture emphasizes sustainable materials, such as:Recycled and renewable materials: Using materials that have been recycled from post-consumer waste or that are derived from renewable sources.Low-embodied energy materials: Selecting materialsthat require minimal energy to produce, such as natural stone, clay, or bamboo.Non-toxic materials: Avoiding materials that off-gas harmful chemicals, ensuring indoor air quality and occupant health.Regional materials: Sourcing materials locally to reduce transportation emissions and support the localeconomy.Indoor Air Quality.Indoor air quality is essential for occupant health and well-being. Green architecture prioritizes measures to improve indoor air quality, including:Natural ventilation: Providing access to fresh air through operable windows or other natural ventilation systems.Mechanical ventilation with filtration: Using mechanical ventilation systems with high-efficiency filters to remove pollutants from indoor air.Low-VOC materials: Using finishes and materials that emit low levels of volatile organic compounds (VOCs), which can contribute to poor indoor air quality.Air quality monitoring: Installing air quality sensors to monitor indoor air pollution levels and triggercorrective actions.Beyond Construction.Green architecture extends beyond construction to encompass the entire building lifecycle, including design, operation, and maintenance. Green buildings are designed to be adaptable and flexible to accommodate changing needs over time, avoiding the need for extensive renovations or demolitions. They also prioritize waste management strategies, such as recycling and composting, to minimize environmental impact during operation.Benefits of Green Architecture.Adopting green architecture principles offers numerous benefits, including:Reduced environmental impact: Minimizing energy consumption, water use, and material waste, reducing greenhouse gas emissions and preserving natural resources.Improved occupant health and well-being: Creating healthy indoor environments with access to natural light, fresh air, and non-toxic materials.Increased energy and water savings: Reducing operating costs for building owners through energy-efficient appliances, lighting, and water-saving features.Enhanced property value: Green buildings are increasingly becoming a desirable feature in the real estate market, attracting tenants and buyers who value sustainability.Contribution to global sustainability goals: Supporting international commitments to reduce carbon emissions and promote environmental conservation.Examples of Green Architecture.Numerous examples of green buildings showcase the successful implementation of sustainable design principles worldwide. The Burj Khalifa in Dubai is a toweringskyscraper that utilizes passive solar design, wind turbines, and rainwater harvesting. The One Angel Square building in Manchester, UK, features a distinctive greenfaçade that filters rainwater and provides natural ventilation. The Eden Project in Cornwall, UK, is a complex of biomes that showcases sustainable building practices and promotes environmental education.Conclusion.Green architecture is a transformative approach that addresses the environmental challenges of our time while creating healthy, efficient, and aesthetically pleasing buildings. By embracing principles of energy efficiency, water conservation, material sustainability, and indoor air quality, green architecture contributes significantly to reducing our ecological footprint and building a more sustainable future. As we continue to face the impacts of climate change, green architecture provides a blueprint for designing buildings that harmonize with their surroundings and enhance the well-being of both occupants and the planet.。

英语作文-绿色建筑设计标准Green Building Design Standards。

In recent years, the concept of green building has gained significant traction worldwide as a pivotal strategy to mitigate environmental impacts and enhance sustainability in the construction industry. Green building design standards encompass a comprehensive set of principles and practices aimed at minimizing resource consumption, reducing environmental footprint, and creating healthier indoor environments for occupants. This essay explores the key components and benefits of green building design standards, highlighting their importance in the modern architectural landscape.Central to green building design standards is the principle of energy efficiency. Buildings are major consumers of energy, accounting for a substantial portion of global energy usage and greenhouse gas emissions. Green building standards advocate for the adoption of energy-efficient technologies and practices such as improved insulation, efficient HVAC systems, and utilization of renewable energy sources like solar and wind power. These measures not only reduce operational costs but also decrease reliance on non-renewable resources, thereby contributing to overall environmental conservation efforts.Moreover, water conservation represents another critical aspect of green building design. By integrating water-efficient fixtures, rainwater harvesting systems, and greywater recycling technologies, green buildings aim to minimize water consumption and alleviate pressure on local water supplies. This proactive approach not only benefits the environment but also enhances resilience against water scarcity challenges exacerbated by climate change.In addition to resource efficiency, green building design prioritizes indoor environmental quality (IEQ). Indoor air quality, lighting, and thermal comfort significantly impact occupants' health, productivity, and overall well-being. Green building standards emphasize the use of non-toxic building materials, adequate ventilation systems, and natural lighting strategies to create healthier indoorenvironments. These measures contribute to reducing indoor pollutants and enhancing comfort levels, fostering a conducive environment for occupants.Furthermore, sustainable site planning and management play a crucial role in green building design. Site selection, land use optimization, and preservation of natural habitats are integral considerations aimed at minimizing ecological disturbance and preserving biodiversity. Green buildings often incorporate strategies such as native landscaping, permeable surfaces, and efficient stormwater management systems to mitigate environmental impacts and promote ecological balance within the built environment.The integration of these sustainable design strategies not only benefits the environment and occupants but also yields long-term economic advantages. Green buildings typically exhibit higher property values, reduced operating costs through energy and water savings, and improved tenant satisfaction and retention rates. Moreover, they contribute to achieving regulatory compliance, meeting corporate social responsibility goals, and enhancing brand reputation in the market.In conclusion, green building design standards represent a pivotal approach towards achieving sustainable development goals in the built environment. By prioritizing energy efficiency, water conservation, indoor environmental quality, and sustainable site management, green buildings exemplify a holistic approach to architecture that balances environmental responsibility with economic viability and social well-being. Embracing green building design standards is not merely a choice but a proactive commitment towards creating a resilient and sustainable future for generations to come.In summary, the adoption of green building design standards is imperative for addressing contemporary environmental challenges and advancing towards a more sustainable and resilient built environment. By integrating principles of energy efficiency, water conservation, indoor environmental quality, and sustainable site management, green buildings exemplify a transformative approach to architecture that fosters environmental stewardship, economic viability, and social well-being.。

Green Building General State1.The background of green building:Present society the theory of sustainable development have permeated every aspect of human social development, how to can promote the economic development of human society to again solve the problem of environmental protection have also become people broad is the problem of solicitude one. sustainable development ask the development of society economy must restrict in the environment and resource of the earth can bear ability in. well-known, in recent years mankind in economy develop fast at the same time, bring environmental resource consume rapidly and atmosphere 2 C0 plenty of increases, so make atmospheric temperature go up , cause global climate to warm , the damage of ozonosphere, the damage of as well as natural landscape and so on. nowadays mention extensively green building system only put forward according to this problem. Forestation construction is that the opinion that uses ecology ( Ecological thinking) come to working space and the life of creation people. So, create to come out, healthy and comfortable space, not only, do not increase investment , can have energy-saving function actually more and reduce operation cost, and the production efficiency of improvement space user.2. the environmental problem of green buildingIt can offer the comfortable indoor environment that has safety , should at the same time have if so-called green building is not only wanted with natural environment the good building external environment of harmonious appearance.Green building consider local climate, building form and use square work , facility condition , construct process, housing materials and use manage the influence for external environment, as well as comfortable, healthy internal environment, at the same time consider investment person and user , design , install , run , the interests of maintenance technician, change speech may lasting design and good environment and is benefited should have balance between 3 user , well move mutual concern reach the forestation effect .. of optimization Green building is only that the energy of difference and the demand of difference between the coordinative internal and external environment and user and balance of starting point is relied onwith this viewpoint level reaches the nature of building and environment , is melted with.2. 1 The indoor environment of green buildingsGreen building emphasize indoor environment , because the thought of main stream of air-condition circle is want to strive for a relation of balance in between external environment, for internal environment for health , comfortable and building user produce efficiency, show the demand of difference.Temperature problemFirst hot comfortable obvious influence work efficiency. the air-condition system of tradition can maintain indoor temperature, however, in last few years study show , indoor reach absolute comfortable, cause easily " air-condition disease " problem, consume plenty of energies just, increase freon for the damage of ozonosphere。

建筑节能技术与绿色建筑设计（英文中文双语版优质文档）With the gradual improvement of people's awareness of environmental protection, building energy-saving technology and green building design have become the development trend of today's construction industry. Building energy-saving technology can effectively reduce building energy consumption and environmental pollution, while improving building comfort and safety. Green building design can take environmental protection and sustainable development factors into consideration at the early stage of design, so as to achieve sustainable development of buildings. This article will discuss the importance of building sustainable development and the application of related technologies from two aspects of building energy-saving technology and green building design.1. Building energy-saving technologyBuilding energy-saving technology refers to reducing building energy consumption and environmental pollution through scientific design and technical means, while improving building comfort and safety. Building energy-saving technology can be optimized from the following aspects:1. Thermal insulation design of building exterior walls and roofsThe thermal insulation design of building exterior walls and roofs can effectively reduce indoor energy consumption and improve building comfort. The selection of insulation materials and the optimization of construction technology can improve the insulation effect and reduce energy consumption. For example, the use of high-efficiency insulation materials and a design that reduces thermal bridging effects can reduce building energy consumption by more than 10%.2. Optimal design of building energy systemsThe optimal design of building energy systems can effectively reduce building energy consumption and environmental pollution. For example, the use of renewable energy sources such as solar and wind energy can reduce the use of non-renewable energy sources, thereby reducing energy consumption and environmental pollution. In addition, the use of high-efficiency energy-saving equipment and control systems can also reduce building energy consumption.3. Building lighting designThe architectural lighting design can improve the quality of indoor lighting and reduce the energy consumption of indoor lighting. Reasonable lighting design can reduce lighting energy consumption by maximizing the use of natural light. For example, the design of large-area windows and light pipes can effectively improve the quality of building lighting.4. Building intelligent control systemBuilding intelligent control system can realize efficient control and management of building energy, thereby reducing energy consumption and environmental pollution. For example, intelligent lighting and air-conditioning control systems can minimize energy consumption while maintaining indoor comfort.2. Green building designGreen building design refers to the consideration of environmental protection and sustainable development factors in the early stage of building design, so as to realize the sustainable development of buildings. Green building design can be optimized from the following aspects:1. Selection of sustainable materialsIn green building design, priority should be given to choosing sustainable materials, such as the use of recycled and recyclable materials. This reduces waste of building materials and environmental impact.2. Energy saving designEnergy-saving design is an important part of green building design. At the early stage of design, the energy consumption of the building should be considered as much as possible, such as the use of high-efficiency heat insulation materials, intelligent control systems, etc., so as to minimize energy consumption.3. Utilization of natural resourcesIn the design of green buildings, natural resources should be fully utilized, such as the use of renewable energy such as solar energy and wind energy. In addition, the use of technologies such as rainwater harvesting systems can also make full use of natural resources and reduce the impact on the natural environment.4. Green landscape designIn the design of green buildings, the design of green landscape should be fully considered. Green landscape can not only beautify the building environment, but also purify the air and reduce environmental noise.3. The importance of building sustainabilityThe sustainable development of buildings is one of the important issues facing society today. The construction industry is one of the main sources of energy consumption and environmental pollution. Therefore, the sustainable development of buildings involves not only environmental protection issues, but also energy security and economic development. Building sustainability can bring benefits in several ways:1. Reduce environmental pollution and energy consumptionBuilding energy-saving technology and green building design can effectively reduce environmental pollution and energy consumption. By reducing the consumption of natural resources and reducing the generation of waste, the impact on the environment can be reduced.2. Improve building comfort and safetyBuilding energy-saving technology and green building design can improve the comfort and safety of buildings. By adopting technologies such as high-efficiency thermal insulation materials and intelligent control systems, the comfort of buildings can be improved, thereby improving people's quality of life.3. Promoting the sustainable development of economic buildings can promote economic development. On the one hand, the adoption of green building design and energy-saving technologies can reduce the operating costs and energy consumption of buildings, thereby bringing economic benefits to the construction industry. On the other hand, the sustainable development of buildings can promote the development and application of new technologies and products, and promote industrial upgrading and economic transformation.4. Improve social image and brand valueThe sustainable development of buildings can improve the social image and brand value of enterprises. Today, with the increasing awareness of social responsibility and environmental protection, the adoption of green building design and energy-saving technology can improve the social reputation and brand value of enterprises, thereby enhancing the competitiveness of enterprises.To sum up, the sustainable development of buildings is not only related to environmental protection issues, but also involves energy security, economic development and corporate brand image. By adopting green building design and energy-saving technology, the sustainable development of buildings can be realized, thus contributing to the sustainable development of human beings.随着人们对环境保护意识的逐渐提高，建筑节能技术与绿色建筑设计已经成为当今建筑业发展的趋势。

English Version:Green building materials are essential for sustainable construction and environmental preservation. These materials are specifically designed to minimize environmental impact, reduce energy consumption, and promote healthier living spaces.Some common green building materials include bamboo, which grows rapidly and is stronger than many traditional woods. It's an excellent sustainable alternative to hardwood. Another example is recycled plastic, which can be repurposed into various building components, reducing plastic waste in landfills.Additionally, low-emission paints and finishes that contain fewer volatile organic compounds (VOCs) are becoming increasingly popular. These products not only improve indoor air quality but also contribute to a healthier environment overall.Furthermore, green roofs, composed of vegetation and soil, are effective in reducing stormwater runoff, improving air quality, and providing insulation. They are a innovative way to incorporate nature into urban environments.By utilizing green building materials, we can significantly contribute to a more sustainable future, reducing our carbon footprint and creating healthier, more environmentally friendly living spaces.Chinese Version:绿色建筑材料对于可持续建筑和环境保护至关重要。

绿色建筑英文作文英文：Green buildings are becoming increasingly popular in today's world. As someone who has a passion forsustainability and environmentalism, I am a strong advocate for green buildings. There are several reasons why Ibelieve green buildings are important.Firstly, green buildings are designed to be energy-efficient. This means that they use less energy than traditional buildings, which reduces their carbon footprint. For example, green buildings often use natural lightinstead of artificial lighting, which can significantly reduce energy consumption.Secondly, green buildings are designed to be environmentally-friendly. They are constructed using sustainable materials and techniques, which reduces the amount of waste and pollution generated during the buildingprocess. For instance, some green buildings use recycled materials such as reclaimed wood and recycled steel.Thirdly, green buildings are designed to be healthier for the occupants. They often have better indoor air quality, which can improve the health and well-being of the people who live and work in them. For example, green buildings often have ventilation systems that circulate fresh air throughout the building, which can reduce therisk of respiratory problems.In conclusion, green buildings are important for several reasons. They are energy-efficient,environmentally-friendly, and healthier for the occupants. As we continue to face environmental challenges, green buildings will become even more important in the future.中文：绿色建筑在当今的世界越来越受欢迎。

毕业设计英文资料翻译Translation of the English Documents for Graduation Design课题名称原文：DOCTORAL FORUMNA TIONAL JOURNAL FOR PUBLISHING AND MENTORING DOCTORAL STUDENT RESEARCHVOLUME 7, NUMBER 1, 2010Green buildingsPriscilla D. JohnsonPhD Student in Educational LeadershipWhitlowe R. Green College of EducationPrairie View A&M UniversityPrairie View, TexasWilliam Allan Kritsonis, PhDProfessor and Faculty MentorPhD Program in Educational LeadershipWhitlowe R. Green College of EducationPrairie View A&M UniversityMember of the Texas A&M University SystemPrairie View, TexasHall of Honor (2008)William H. Parker Leadership Academy, Graduate SchoolPrairie View A&M UniversityMember of the Texas A&M University SystemPrairie View, TexasVisiting Lecturer (2005)Oxford Round TableUniversity of OxfordOxford, EnglandDistinguished Alumnus (2004)College of Education and Professional StudiesCentral Washington UniversityEllensberg, WashingtonAbstract: Green building refers to do its best to maximize conservation of resources (energy, land, water, and wood)，protecting the environment and reduce pollution in its life cycle. Provide people with healthy, appropriate and efficient use of space, and nature in harmony symbiosis buildings. I described more details of green building design’ notion, green building’ design, as well as the significance of the concept of green building and improve the effectiveness analysis of the external effects of green building measures,Key words: green buildings; protect the ecology; signification ; analysing the effects1 What is a green buildingGreen building refers to building life cycle, the maximum conservation of resources (energy, land, water and materials), protecting the environment and reduce pollution, provide people with health, application and efficient use of space, and nature harmony of the building. The so-called green building "green" does not mean a general sense of three-dimensional green, roof garden, but represents a concept or symbol, refers to building environmentally friendly, make full use of natural resources, environment and basic ecological damage to the environment without balance of a building under construction, but also known as sustainable building, eco-building, back into the wild construction, energy saving construction.Green building interior layout is very reasonable, to minimize the use of synthetic materials, full use of the sun, saving energy for the residents Chuangzao almost-natural feeling.People, architecture and the natural environment for the harmonious development goals, in the use of natural and artificial means to create good conditions and healthy living environment, as much as possible to control and reduce the use and destruction of the natural environment, to fully reflect the nature obtain and return balance.2, the meaning of green buildingThe basic connotation of green building can be summarized as: to reduce the load on the environment architecture, which save energy and resources; provide a safe, healthy, comfortable living space with good; affinity with the natural environment, so that people and building a harmonious coexistence with the environment and sustainable development.3 Development of the significance of green building rating systemEstablish green building rating system is a revolution in the field of architecture and the Enlightenment, its far more than energy savings. It is innovative in many ways and organic synthesis, thereby building in harmony with nature, full utilization of resources and energy, create healthy, comfortable and beautiful living space. It's revolutionary for the field of architecture from the technical, social and economic angles.3.1 Technical SignificanceGreen building study of early technical problems of individual-based, technology is isolated and one-sided, not formed an organic whole, the integration of design and economic study ofconsciousness is far from the only strategy of economic analysis phase of the subsidiary's knowledge . However, individual technical research results of early modern green building techniques for the multi-dimensional development and systems integration will lay a solid foundation. Since the nineties of the 20th century, with the understanding of green building gradually deepen and mature, people give up way too utopian thinking He alone environmental consciousness and moral constraints and spontaneous green behavior, turned to explore more workable environmental philosophy, environmental and capital combined into the future world the new direction of development of environmental protection, green building has entered a result of ecological ethics from the practice of promoting ecological research to deepen the new stage. Green Building Technology takes on the natural sciences, social sciences, humanities, computer science, information science and other subjects the trend of integration of research results, making green building design into the multi-dimensional stage of development strategy study. The deepening of green building technology strategy and development in materials, equipment, morphology, etc various advanced fields, in technology development, technology and other design elements of the integration is also starting from the past the simple addition, more attention to the periphery of the retaining structure itself design technology and architecture to combine the overall system change, gradually becoming green building systems. Green building rating system was established green building technologies gradually improve and systematize the inevitable result, it is the organic integration of green building technology, a platform built to green building technology, information technology, computer technology and many other subjects can be a unified platform in their respective roles, the establishment of a comprehensive evaluation system for designers, planners, engineers and managers a more than ever, a more simple, Guizhangmingque green building assessment tools and design guidelines.3.2 The social significance.Green building rating system reflects the social significance of the main advocates of the new way of life, heightened awareness and public participation in the continuation of local culture are two aspects.To promote a healthy lifestyle. Green building rating system, the social significance of the primary advocate a healthy lifestyle, which is based on the design and construction of green buildings as a community education process. The principles of green building rating system is the effective use of resources and ecological rules to follow, based on the health of building space to create and maintain sustainable development. The concept of the past to correct people's misconceptions about consumer lifestyles, that can not blindly pursue material luxury, but should keep the environment under the premise of sustainable use of modest comfort to pursue life. From the fundamental terms, construction is to meet human needs built up of material goods as people's Wenhuayishi Name and lifestyle is not sustainable when, the value of green building itself will be reduced, but only had a real social need When the requirements of sustainable development and way of life that matches the green building to achieve the best results.Enhanced awareness of public participation. Green Building Rating system is not a monopoly for the design staff of professional tools, but for planners, designers, engineers, managers, developers, property owners, jointly owned by the public and other assessmenttools. It broke the previous professional development of the monopoly to encourage the participation of the public and other public officers. Through public participation, the introduction of architects and other building users, the construction of dialogue participants, making the original design process dominated by the architect becomes more open. Proved the involvement of various views and a good help to create a dynamic culture, embody social justice community.3.3 The economic significance.Green building rating system, the economic significance can be divided into macro and micro levels. At the macro level, the green building rating system from the system life-cycle perspective, the green building design integrated into the economic issues involved in the production from the building materials, design, construction, operation, resource use, waste disposal, recycling of demolition until the natural resources the whole process. Economic considerations of green building is no longer limited to the design process itself, while the policy extended to the design of the narrow role to play to support the policy level, including the establishment of "green labeling" system, improving the construction environmental audit and management system, increase and construction-related energy consumption, pollutant emissions and other acts of tax efforts, improve the legal system of environmental protection, from the increase in government construction projects on the sustainability of economic support and raise the cost to the construction of polluting the environment acts as the costs for green buildings design and construction to create a favorable external environment. This goal is not entirely the responsibility of government agencies, as the architects involved in design work as a sound system of responsibility for recommendations obligations, because only the most from the practice of the need is real and urgent. The related policy issues in green building design strategies, building a system to solve the economic problems facing the important aspects. At the micro level, the current from the economic point of Design Strategy is more fully consider the economic operation of the project, and specific technical strategies accordingly adjusted.3.4 Ethical Significance.Green building rating system, the theoretical basis of the concept of sustainable development, therefore, whether the evaluation system of each country how much difference in structure, they all have one thing in common: reduce the burden of ecological environment, improve construction quality of the environment for future generations to remain the development of there is room. This radically change the long-sought human blindly to the natural attitude, reflecting people's understanding of the relationship between man and nature by the opposition to the uniform change. According to the current global energy reserves and resources distribution, the Earth's natural environment is also far from the edge of exhaustion, enough people enjoy the luxury of contemporary material life. But now we have to consume a resource, it means that future generations will be less of a living space. More importantly, if we consume the natural environment more than it can limit self-renewal, then the future of the younger generation is facing the planet's ecosystems can not recover the risk into a real crisis. Therefore we can say, the development of green buildings and their corresponding evaluation system, for more contemporary people is the responsibility and obligations. For more the interests of future generations and advantages. 4 green building designGreen building design include the following:Saving energy: full use of solar energy, using energy-efficient building envelope and heating and air conditioning, reducing heating and air conditioning use. Set according to the principle of natural ventilation cooling system that allows efficient use of building to the dominant wind direction in summer. Adapted to local climatic conditions, building use form and general layout of the plane.Resource conservation: in the building design, construction and selection of construction materials, are considered fair use and disposal of resources. To reduce the use of resources, strive to make the use of renewable resources. Conserve water resources, including water conservation and greening.Return to Nature: Green Building exterior to emphasize integration with the surrounding environment, harmony, movement complement each other so that the protection of natural ecological environment.5 Effect of green building5.1 Effect of the composition of green buildingEffect of green building, including internal effects and external effects, direct benefits and direct costs as the internal effect, known as the indirect benefits and indirect costs of external effects, according to engineering economics point of view: the internal effects can be financial evaluation, external effects should be economic evaluation, economic evaluation is based on the so-called rational allocation of scarce resources and socio-economic principles of sustainable development, from the perspective of the overall national economy, study projects spending of social resources and contributions to the community to evaluate the project's economic and reasonable and external effects generally include Industry Effects, environmental and ecological effects, technology diffusion effect, the external effect will cause the private costs (internal costs or indirect costs) and social costs inconsistent, leading to the actual price is different from the best price. From the perspective of sustainable development, green building assessment effects of the main indicators of external effects.Since beginning the development of green building, unity of quantitative indicators system is still not established, I believe that the following aspects should be analyzed: (1) strictly control the construction industry, size, limit the number of employees. Extensive growth model epitomized by the struggle over the construction project, the construction process using human wave tactics, once the state limit the scale of construction, will form the "adequate", which will not reduce the degree of mechanization, labor, the low level. (2) more investments in technology, upgrade technology, establish and perfect the mechanism for scientific and technical equipment. Focus on the development and application of building technology, combined with the project, the characteristics of future construction, a planned way scientific and technological research and development of new machinery, new processes, new materials, and actively introduce, absorb and assimilate the advanced scientific and technological achievements of science and technology to improve the level of mechanization.(3) in urban planning, survey and design through the "green building" ideas. Family housing and urban construction or alteration must remain in the room, from lighting, ventilation, drainage and so control the damage to the environment. (4) construction work, reduced resource consumption, the production process in construction, energy saving measuresshould be adopted to prevent the excessive consumption of land resources, water resources, power resources.5.2 External effects of the challenges to building the economyUnder the control of the government's intervention, to a certain extent on the efficient allocation of resources to strengthen the implementation of energy conservation mandatory standards for construction supervision. To further improve the building energy monitoring system, and strengthen the mandatory building energy efficiency standards in order to carry out the implementation of the project as the main content of the whole process of monitoring, particularly for large public buildings to enhance the building energy regulation, reflected in the project cost on the part of the Waibu costs into internal costs, making the "non-green building" project's internal costs, internal efficiency and reduce the external costs of green building, the external efficiency increase, so that effective economic resources to the rational flow of green building.6 to improve the external effects of green building measuresEnterprise architecture in the new economy to obtain a competitive advantage, improve the external effects only continually tap the ways and means to improve the external efficiency, reduce external costs, the basic ideas and principles: (1) Construction of natural resources in the life cycle and minimize energy consumption; (2) reducing building life cycle emissions; (3) protect the ecological (natural) environment; (4) to form a healthy, comfortable and safe indoor space; (5) the quality of construction, functionality, performance and environmental unity.Summarydescribed above, the meaning of green building design and analysis of its effectiveness and improve the external effects of green building measures. But how does the future design of green buildings need a degree in practice we try to figure out, I believe that green building will become the future construction of a trend.译文：博士生论坛国家期刊出版和指导博士生研究第7卷，第1号，2010绿色建筑Priscilla D. Johnson博士生教育领导Whitlowe R.绿色教育学院普雷里维尤A＆M大学普雷里维尤，德州William Allan Kritsonis博士——教授和教师导师博士课程教育领导Whitlowe R.绿色教育学院普雷里维尤A＆M大学会员德克萨斯州A＆M大学普雷里维尤，德州荣誉殿堂（2008）威廉H. Parker的领导学院，研究生院普雷里维尤A＆M大学会员德克萨斯州A＆M大学普雷里维尤，德州客座讲师（2005年）牛津圆桌会议牛津大学英国牛津杰出校友（2004）教育学院及专业课程中央华盛顿大学埃伦斯堡，华盛顿摘要:绿色建筑是指尽力最大限度地节约资源(能源、土地、水、木)、保护环境,减少污染在它的生命周期。