Grebennikov-High-Efficiency-PA-Design-Lecture-4

Revised 07/2023 Issue 1HIGH SOLIDS, SURFACE-TOLERANT EPOXY PRIMER A 2-pack epoxy primer coat for steel and galvanized surfaces.Economically and high-performance corrosion protection also for manually prepared surfaces and surfaces prepared by high-pressure water jetting. Low solvent content according to Protective Coatings Directive of German Paint Industry Association (VdL-RL 04).▪ Surface tolerant▪ H igh film thickness and diffusion resistance combined with very good surface wetting properties and adhesion result in a very high safety margin for good corrosion protection▪ Fast initial drying and full curing▪ High build application▪ Very economical due to high volume solidsCan be used as a robust versatile overcoatable primer for corrosion protection on steel exposed to atmosphere. Especially suitable for use onsurfaces where only manual preparation (wire brushing or power tool cleaning) or high-pressure water jetting is feasible or economic.Volume Solids:Aluminium shade: 67 ± 2%Red-brown/sand-yellow: 80 ± 2% (ISO 3233-3) Weight Solids:Aluminium shade: 71 ± 2%Red-brown/sand-yellow: 83 ± 2%VOC:255 g/l determined practically in accordance withProtective Coatings Directive of German PaintIndustry Association (VdL-RL 04).307 g/l calculated from formulation to satisfyEC Solvent Emissions Directive.205 g/kg calculated from formulation to satisfyEC Solvent Emissions Directive (UK).Colours:Aluminium, material no. 694.01Red-brown, material no. 694.06Sand-yellow, material no. 694.02 and 650.02Flash Point:Base: 30°C, Hardener: 27°CCleaner/Thinner:Cleaner 26 (for cleaning).Thinner EG for thinning with max. 5% to adapt theviscosity.Thinning will affect VOC compliance, sag toleranceand dry film thicknesses.Pack Size: A two component material supplied in separatecontainers to be mixed prior to use:Aluminium shade: 28 kg (21.5 litre), 14 kg (10.7 litre)and 4 kg (3.0 litre) units when mixed.Red-brown/sand-yellow: 28 kg (18.6 litre), 14 kg(9.3 litre) and 4 kg (2.6 litre) units when mixed.Volume will vary with colours and density.Mixing Ratio:82 parts base to 12 parts hardener by weight.4.3 parts base to 1 part hardener by volume. Density:Aluminium shade: 1.3 kg/lRed-brown/sand-yellow: 1.5 kg/l(may vary with colours)Shelf Life: 2 years from date of manufacture, stored in originallysealed containers in a cool and dry environment.Recommended Application Methods:Airless Spray, Conventional Spray, BrushTypical Thickness:Recommended Spreading Rate Per CoatAluminium shade Typical Maximum SagDry100 µm240 µmWet149 µm358 µm TheoreticalConsumption*0.194 kg/m²0.149 l/m²TheoreticalCoverage*5.15 m²/kg6.70 m²/lRed-brown/sand-yellow Typical Maximum SagDry100 µm240 µmWet141 µm338 µm TheoreticalConsumption*0.211 kg/m²0.141 l/m²TheoreticalCoverage*4.73 m²/kg7.10 m²/l* T his figure makes no allowance for surface profile, uneven application, overspray or losses in containers and equipment.Film thickness will vary depending on actual use and specification.Pot Life:+ 5°C+ 20°C6 hours 4 hoursPot life is dependent on temperature and volume.Revised 07/2023 Issue 1HIGH SOLIDS, SURFACE-TOLERANT EPOXY PRIMERFor 100 μm Dry Film Thickness:+ 5°C+ 20°C + 30°C Dry to handle (Drying Stage 6*)12 hours 6 hours 3 hours To Recoat12 hours6 hours3 hours*ISO 9117Maximum recoat time is 1 year. Prior to further applications allcontamination must be removed. In the case of extended recoating times consult Sherwin Williams customer service.Final cure: 1-2 weeks, depending on film thickness and temperature.These figures are given as a guide only. Factors such as airmovement, film thickness and humidity must also be considered.• A pproved according to German standard ‘TL KOR-Stahlbauten, Blatt 94’.• A pproved according to German standard ‘TL KOR-Stahlbauten,Blatt 50’.Ensure surfaces to be coated are clean, dry and free from all surface contamination such as oil, grease, dirt and corrosion products to achieve satisfactory adhesion.For contaminated and weathered surfaces e.g. primed areas we recommend to clean with Cleaner Wash.Steel surfaces shall be blast-cleaned to Sa 2½ according to ISO 8501-1 (ISO 12944-4) in case of permanent condensation.Hot-dip galvanized surfaces shall be prepared by degreasing or, in case of permanent condensation, sweep blasting according to ISO 12944-4 with a non-ferrous blasting abrasive.Manually prepared surfaces shall be prepared by wire brush or power tool to surface preparation grade St 2 according to ISO 8501-1 (ISO 12944-4), in case of atmospheric exposure. Even ultra-highpressure water jetting according to ISO 8501-4 Wa 2 with a maximum flash rust grade M is also acceptable.Old coatings: In case of well adhering coating systems, careful cleaning (e.g. by water jetting) is sufficient. Loose particles must be removed, damaged areas should be minimum prepared in accordance with PSa 2, PMa or PSt 2 and primed with Macropoxy ® Primer HE N.The required surface preparation/cleaning and compatibility of thesystem should be determined with trial areas.Stir component A very thoroughly using a mechanical paint mixer (start slowly, then increase up to approx. 300 rpm). Add component B carefully and mix both components very thoroughly (including sides and bottom of the container). Mix for at least 3 minutes until a homogeneous mixture is achieved. We recommend to fill the mixed material into a clean container and mix again shortly as described above to avoid incorrect mixing. During mixing and handling of the materials always wear protectivegoggles, suitable gloves and other protective clothing.Substrate temperature shall be above + 5°C and at least 3°C above the dew point.Material temperature shall be above + 5°C.Relative air humidity shall be below 85%.The following is a guide. Changes in pressures and tip sizes may be needed for satisfactory application characteristics. Always purge spray equipment before use with listed cleaner. Any reduction must be compliant with existing VOC regulations and compatible with the existing environmental and application conditions.Airless SprayUnit: Efficient airless equipmentTip Size: 0.38 – 0.53 mm (0.015 – 0.021 inch)Fan Angle: 40° - 80°Operating Pressure: min. 180 bar (2600 psi)Spray hoses: Ø ⅜ inch (10 mm), max. 20 m+ 2 m with reduced Ø of ¼ inch (6 mm)The airless spray details given above are intended as a guide only.Details such as fluid hose length and diameter, paint temperature and job shape and size all have an effect on the spray tip and operating pressure chosen. However, the operating pressure should be the lowest possible consistent satisfactory atomisation.As conditions will vary from job to job, it is the applicators responsibility to ensure that the equipment in use has been set up to give the best results.If in doubt consult Sherwin-Williams customer service.Conventional SprayAtomising Pressure: 3 - 5 bar (43 - 73 psi)Tip Size: 1.5 – 2.5 mm (0.06 – 0.10 inch)Brush and Roller• Surface preparation St 2 or St 3• With brush application best penetration and surface wetting is achievedRevised 07/2023 Issue 1HIGH SOLIDS, SURFACE-TOLERANT EPOXY PRIMERSteel resp. patch up of spots on hot-dip galvanized surfaces 2 x Macropoxy ® Primer HE NOvercoatable with 1- and 2-pack coatings e.g Macropoxy ®, Acrolon ® and Kem Kromik ®, provided the surface to be coated is clean, dry and free from contamination.Example Blatt 941 x Macropoxy ® Primer HE N 1 x Macropoxy ® EG-1 VHS1 x Acrolon ® EG-4 or Acrolon ® EG-5Old coatingsMacropoxy ® Primer HE N can be used on a variety of sound 1-pack and 2-pack coats for refurbishment.Note: Macropoxy ® Primer HE N is not recommended for permanentimmersion.Drying times, curing times and pot life should be considered as a guide only.Epoxy Coatings - Tropical UseEpoxy coatings at the time of mixing should not exceed a temperature of 35ºC. Use of these products outside of the pot life may result in inferior adhesion properties even if the materials appear fit for application. Thinning the mixed product will not alleviate this problem. If the air and substrate temperatures exceed 40ºC and epoxy coatings are applied under these conditions, paint film defects such as dry spray, bubbling and pinholing etc. can occur within the coating.Chemical resistance:Resistant to weathering, de-icing salts, oils and grease and short term exposure to fuels and solvents.Temperature resistance:Dry heat up to + 150°C, short term up to + 200°C.Increased humid ambient temperature up to + 40°C.Numerical values quoted for physical data may vary slightly from batchto batch.Consult Product Health and Safety Data Sheet for information on safestorage, handling and application of this product.Whilst all statements made about our products (whether in this data sheet or otherwise) are correct and accurate to the best of our knowledge, we have no control over the quality or the condition of the substrate, the application conditions or the many other factors affecting your use and application of our product.The appropriateness of the product under the actual conditions ofapplication or intended use must be determined exclusively by you. The content of this document, and of any oral or written statements already made or to be made in relation to the subject matter of this document, including any suggestions as to appropriate products and any proposed application methods, technical details and other product information represent only test results or experience obtained under controlled or defined circumstances, and is therefore provided for general information purposes only.Unless we agree specifically in writing to do so, we will not be liable to you for any loss or damage whether in contract, tort (includingnegligence), breach of statutory duty, misrepresentation, misstatement or otherwise, arising under or in connection with this document or such statements.We disclaim any express or implied representations, warranties orguarantees (including any implied warranty of merchantability or fitness for a particular purpose), though nothing in this disclaimer excludes or limits our liability for death or personal injury arising from our negligence, or our fraud or fraudulent misrepresentation, or any other liability that cannot be excluded or limited by law.All products supplied and technical advice given are subject to ourStandard Terms and Conditions of Sale which you should request a copy of and review carefully.This document may be modified and updated from time to time, and is uncontrolled once printed. It is the users responsibility to ensure they are using the most up to date version – this can be found at: /protectiveEMEA .If this datasheet has been translated, then it has been done using the English version as the source. In case of any queries, please refer to the master English version which can be found at: /protectiveEMEA .。

专利名称：半导体器件及其制造方法专利类型：发明专利
发明人：大桥英明
申请号：CN02151378.3
申请日：20021121
公开号：CN1447390A
公开日：
20031008
专利内容由知识产权出版社提供
摘要：栅极长度为110纳米±15纳米或更短(在设计规则中为130纳米或更短)，或者相邻的栅电极结构之间的区域的纵横比(栅电极结构的高度与栅电极结构之间的距离的比值)为6或更高。

通过等离子体CVD(HDP－CVD)方法，在650℃或更低的薄膜形成温度上形成的包含导电杂质的PSG(HDP－PSG：磷酸硅玻璃)膜作为埋藏栅电极结构的层间绝缘膜。

申请人：富士通株式会社
地址：日本神奈川
国籍：JP
代理机构：中国国际贸易促进委员会专利商标事务所
代理人：李德山
更多信息请下载全文后查看。

2019年 第6期 广 东 化 工 第46卷 总第392期 · 87 ·超重力微乳液吸收处理餐饮业油烟的实验研究曲天煜1，曲奕安2，焦奕翔2(1．中国石油炼油与化工分公司安全环保处，北京 100007；2．北京师范大学附属第二中学，北京 100088)[摘 要]针对餐饮业油烟组分复杂、浓度波动大等问题，开展了超重力微乳液吸收处理餐饮业油烟的实验研究，取得了良好效果。

实验结果表明：废气中油烟浓度为10.5~15.2 mg/m 3，在超重力因子为187~250、进气量为6~8 m 3/h 、液气比为1.5~2.0 L/m 3的条件下，微乳液对油烟吸收率最高可达93 %，处理装置出口废气中油烟浓度＜1.0 mg/m 3，满足国家排放标准要求(＜2.0 mg/m 3)。

[关键词]餐饮业油烟；吸收；超重力；微乳液[中图分类号]TQ [文献标识码]A [文章编号]1007-1865(2019)06-0087-03Experimental Research of Cooking Oil Fume by Micro-emulsion Adsorption on theCondition of Hyper-gravityQu Tianyu 1, Qu Yi’an 2, Jiao Yixiang 2(1. HSE Department, Refining & Chemicals Company, Petro China, Beijing 10007； 2. The Second High School Attached To Beijing Normal University, Beijing 100088, China)Abstract: According to the problem on treatment of cooking oil fume such as complex compound and concentration fluctuation, experimental research of cooking oil fume by micro-emulsion adsorption on the condition of hyper-gravity was accomplished. The result showed that when concentration of cooking oil fume was from 10.5mg/m 3 to 15.2 mg/m 3, the max adsorption ratio of micro-emulsion to cooking oil fume could be 93 % on the condition of hyper-gravity factor 187~250, waste gas inlet 6~8 m 3/h, ratio of liquid to gas 1.5~2.0 L/m 3. Concentration of cooking oil fume in outlet was less than 1.0 mg/m 3, so national standard (less than 2.0 mg/m3) could be fully met.Keywords: cooking oil fume ；adsorption ；Hyper-gravity ；Micro-emulsion近年来，餐饮业油烟污染日益引起社会和公众的重视。

专利名称：具有片状重分布结构的电子组件专利类型：发明专利
发明人：J.赫格尔,G.迈耶-贝格
申请号：CN201410726221.7
申请日：20141204
公开号：CN104701193A
公开日：
20150610
专利内容由知识产权出版社提供
摘要：本发明涉及具有片状重分布结构的电子组件。

一种电子组件，包括包含至少部分地覆盖有导电材料的电绝缘内核结构的导电芯片载体、均具有附于芯片载体的第一主表面的至少一个电子芯片，以及附于至少一个电子芯片的第二主表面并且被配置用于电连接至少一个电子芯片的第二主表面与芯片载体的片状重分布结构。

申请人：英飞凌科技股份有限公司
地址：德国瑙伊比贝尔格市坎芘昂1-12号
国籍：DE
代理机构：中国专利代理(香港)有限公司
更多信息请下载全文后查看。

专利推介
2016 NO.22
Science and Technology Innovation Herald科技创新导报
包括埋入式阳极氧化物结构的半导体装置
及其制造方法
申请公布号：CN105789109A
申请公布日：2016.07.20
申请人：英飞凌科技股份有限公司
地址：德国诺伊比贝尔格
发明人：H-J.舒尔策;I.莫德;I.穆里
Int.Cl.:H01L21/762(2006.01)I;H01L21/335(2006.01)I；H01L21/331(2006.01)I;H01L29/78(2006.01)I；
H01L29/739(2006.01)I
优先权：14/594,8382015.01.12 US
摘要：该发明涉及一种半导体装置的制造方法。

根据半导体装置的制造方法，从第一侧将第一沟槽形成到半导体本体中。

通
过将半导体本体浸入电解液中并且在半导体本体与接触电解液的电极之间施加阳极氧化电压而在第一沟槽的底侧形成阳极氧化
物结构。

科技创新导报Science and Technology Innovation Herald 191。

内容：1. 关于德国英泰尼卡咨询有限公司2. 节能建筑咨询3. 美国绿色建筑LEED(利得)认证案例4. 办公建筑和其它商用建筑节能及能耗评估5. 宾馆类设施能源管理的特点6. 体育设施所涉及的环境及能源项目案例7. 部分在国内开展的工业项目案例环境保护Environmental protection风险防范Prevention of Risk职业健康＆风险Occupational Health and Safety管理系统Management systemsQuality 质量z Environment 环境z Safety 安全z Risk 风险材料和能源Material-and Energy-flow-Management整合的产品策略Integrated Product Policy可持续发展Sustainability被动react主动act咨询业务关于德国英泰尼卡咨询有限公司Dr.-Ing. Norbert Hiller 诺伯特·黑勒博士化学工程博士工程师能效评估师环境认证师现任英泰尼卡咨询公司董事长的Norbert Hiller 是一位化学工程学博士. 作为环保技术专家, 他在废水、废气处理和热工及建筑节能等领域有着丰富的实践经验. Hiller 博士主要负责节能和节材项目的咨询和设计; 工艺热回收; 废物处理和再利用的咨询和设计; 废水处理利用的咨询和设计等工作.在成立英泰尼卡有限公司之前, 他在位于纽伦堡的INSUMMA 公司负责废气处理项目. 同时他还负责纽伦堡大学环境技术领域的教学工作. Hiller 博士曾就职于鲁奇公司(LURGIGMBH, Frankfurt), 负责化工厂设计. 他曾经在两个中国项目中承担主要设计工作.公司领导简介关于德国英泰尼卡咨询有限公司Dr.-Ing. Reiner Beer 瑞那·比尔博士化学工程博士工程师能效评估师环境认证师英泰尼卡有限公司总经理Reiner Beer 先生是一位化学工程博士, 是一名资历深厚的环保技术专家. Beer 博士主要负责环保管理系统的建立、认证和审核; 节能项目的设计和咨询; 废物处理和再利用的设计和咨询等工作. Beer 博士是舍夫勒集团（Schaeffler ）全球所有生产基地的环保顾问.在成立英泰尼卡有限公司以前, Beer 博士首先留任纽伦堡大学从事化学工程科研工作, 然后在纽伦堡的德国工商总会担任环保部主任一职. 在这段时间里, 他还在纽伦堡高等专业学院环保经济专业承担教学工作.公司领导简介关于德国英泰尼卡咨询有限公司关于德国英泰尼卡咨询有限公司认证证书样本我们的客户包括关于德国英泰尼卡咨询有限公司内容：1. 关于德国英泰尼卡咨询有限公司2. 节能建筑咨询3. 美国绿色建筑LEED(利得)认证案例4. 办公建筑和其它商用建筑节能及能耗评估5. 宾馆类设施能源管理的特点6. 体育设施所涉及的环境及能源项目案例7. 部分在国内开展的工业项目案例朗讯科技(Lucent Technology)纽伦堡办公楼节能建筑咨询-对朗讯科技在纽伦堡的10栋办公楼的能源使用效率进行评估-根据评估结果制定了相应的改进方案部分措施1.最大限度使用太阳能2.感应开关3.太阳能制热水4.通过灵活使用建筑单位实现空调功能5.双层玻璃隔音隔热6雨水收集, 卫生间再利用奔驰公司慕尼黑车辆展示销售中心节能建筑咨询2005年全年能量消费德国停车场平均耗能值:176 kWh/m²a奔驰慕尼黑停车场耗能值:60 kWh/m²节能效果: 66 %奔驰公司慕尼黑车辆展示销售中心节能建筑咨询产能建筑: FROSCH公司办公楼美国LEED 认证铂金奖节能建筑咨询+认证节能建筑咨询+认证产能建筑: FROSCH 公司办公楼德国现任环境部长参观现场措施包括:通过地热和高效热泵实现取暖/制冷地板取暖/冷暖气片作为取暖补充夜间降温日光优化照明小型风电设备太阳能光伏发电结果: 每年能源节余: 21 MWh节能建筑咨询产能建筑: Werner & Mertz公司办公楼* 除了节能建筑概念咨询和认证以外, INTECHNICA 公司还在认证和企业可持续发展方面与Werner & Mertz 公司有着密切的合作详细请参照http://www.ganzheitlich-nachhaltig.de/德国纽伦堡, 托马斯.曼大街50号美国LEED 认证金奖美国利得认证(LEED)节能建筑咨询+认证内容：1. 关于德国英泰尼卡咨询有限公司2. 节能建筑咨询3. 美国绿色建筑LEED(利得)认证案例4. 办公建筑和其它商用建筑节能及能耗评估5. 宾馆类设施能源管理的特点6. 体育设施所涉及的环境及能源项目案例7. 部分在国内开展的工业项目案例LEED认证纽伦堡项目TM50: 托马斯.曼大街50号每年租户缴纳取暖等杂费0.6欧元每平米每年, 相比正常的燃气费(1.1欧元)和燃油费(1.45欧元)要低很多LEED认证为金奖原来为工业胶片实验室, 原有建筑结构保留, 部分新建, 部分翻新建筑项目预算2千万欧元地址位于纽伦堡托马斯.曼大街50号建筑商HSK 房地产公司改建后用途为商用办公室, 建筑面积23.000 平方米2009年3月工程开始2010 年夏季完成施工TM50: 托马斯.曼大街50号LEED认证纽伦堡项目LEED认证纽伦堡项目TM50: 托马斯.曼大街50号采用可再生能源城市中心用地/建筑再改造利用95% 以上的原有承重墙,楼层和天花板被保留利用高环保材料标准将大量原来柏油覆盖的面积转化成为绿地雨水收集利用,节水技术措施应用尽量保证在工作岗位上利用日光保证工作位置良好的视野和景色TM50: 托马斯.曼大街50号LEED认证纽伦堡项目LEED认证纽伦堡项目TM50: 托马斯.曼大街 50号Intechnica21LEED认证纽伦堡项目TM50: 托马斯.曼大街 50号屋顶减少热岛效应可持续性场址 Cr 7.2Intechnica22LEED认证纽伦堡项目TM50: 托马斯.曼大街 50号能源与大气 Pr1, Cr1, Cr2, Cr4Intechnica23内容： 1. 关于德国英泰尼卡咨询有限公司 2. 节能建筑咨询 3. 美国绿色建筑LEED(利得)认证案例 4. 办公建筑和其它商用建筑节能及能耗评估 5. 宾馆类设施能源管理的特点 6. 体育设施所涉及的环境及能源项目案例 7. 部分在国内开展的工业项目案例Intechnica24办公建筑和其它商用建筑节能和能效评估 对建筑体耗能做全面衡量，包含内外的因素等 屋顶绿化 夜间建筑冷却 良好隔热层 充足的窗户 可控通风好的遮阳保护 室内绿化Intechnica25办公建筑和其它商用建筑节能和能效评估 办公楼耗能整体规划关键数据体系的建立,并配合设计相关计量系统. 首先要根据甲乙双方的协商结果, 确定项目目标规划项目时, 一定要将建造成本和运行成本共同考虑而且如果规划建筑设备时考虑了能源有效利用, 可以减低设备采购的成本, 从而降低整体 的建筑建造成本Intechnica26办公建筑和其它商用建筑节能和能效评估 办公楼耗能整体规划关键数据体系的建立,并配合设计相关计量系统. 要建立起关键数据体系, 用以衡量建筑的各方面的能耗水平. 比如:要在设计阶段就将能源使用监控整合到整个系统中. 使系统投入使用后的能源使用数据可 以被及时收集, 以便采取相应对策.Intechnica27办公建筑和其它商用建筑节能和能效评估 办公楼耗能特点办公楼与住宅楼的耗能特点比较Intechnica28办公建筑和其它商用建筑节能和能效评估 玻璃占外墙比例与建筑热损通过建筑设计实现充分利用日光尽管使用了低热损值 的保温窗户, 通过窗 户损失的热能仍占到 整体热损失的58%.图: 节能建筑的平均热损耗途径和比例玻璃占外墙比 例应该合理Intechnica29办公建筑和其它商用建筑节能和能效评估 建筑保温+避免热桥良好的外墙保温是节能建筑前提条件左右两边建筑的对比. 左边建 筑几乎没有热桥存在, 外墙保 温良好. 而右边的建筑, 外墙散 热严重, 导致冬季大量取暖热 能被浪费..Intechnica30被动制冷根据当地环境的特点考虑被动制冷的可能最关键的问题还是综合考虑投入产出比,在重点计算运行成本的条件下选择合适方案混凝土被动水制冷办公建筑和其它商用建筑节能和能效评估根据当地环境的特点考虑被动制冷的可能最关键的问题还是综合考虑投入产出比, 在重点计算运行成本的条件下选择合适方案混凝土被动风制冷被动制冷办公建筑和其它商用建筑节能和能效评估办公建筑和其它商用建筑节能和能效评估辅助设备节能根据运行成本决定节能辅助设备图: 高效马达运行时间与回收期的比例关系办公建筑和其它商用建筑节能和能效评估照明通过建筑设计实现充分利用日光办公建筑和其它商用建筑节能和能效评估照明照明优良的办公室通过优化日光利用,照明设备搭配, 反光,办公家具选择, 空间调配等多种影响室内光线的因素, 减少室内照明耗能, 减少不必要的照明设备.办公建筑和其它商用建筑节能和能效评估办公设备节能办公设备节能要基于设备和管理两方面办公建筑和其它商用建筑节能和能效评估能耗监控通过能耗监控找出潜在问题,实施改进方案不断优化建筑能源消耗系统化数据收集通过现场考察,确定可节能量. 在此基础上初步确定采取的节能措施,并计算项目回收期与企业互动交流确定合适的设计方案,及相关技术方案和金融方案节能项目实施-包括设备选型,工程实施,设备调试等内容检查验收, 以数量化的形式考核是否达到设计目标第一步对企业现状全面考察分析第三步设计符合企业现实的节能方案第二步全面系统数据分析第四步执行节能设计方案建筑节能的系统化步骤已有建筑节能项目开展步骤办公建筑和其它商用建筑节能和能效评估案例–北京阳光商厦电泵没有变频控制通风量与客户数量之间没关联详细消耗量不清过量照明,且不可调节不可调采暖空调无温控调节, 靠手动调控存在问题:办公建筑和其它商用建筑节能和能效评估案例–北京阳光商厦1.详细数据收集2.风机加变频控制3.温控空调4.水泵流量控制5.员工节能意识培训6.外包场地节能管理和员工节能意识培训7.外墙保温8.空调(冷暖风)温控调节9.根据季节、时段、顾客量总和调节风量和温度改进措施:办公建筑和其它商用建筑节能和能效评估商厦综合节能潜力:11,9 兆瓦时/ 年-节能改造投资:46万元-节省能源费用:36万元-83万元/年-回收期:0,5 -1,3 年内容：1. 关于德国英泰尼卡咨询有限公司2. 节能建筑咨询3. 美国绿色建筑LEED(利得)认证案例4. 办公建筑和其它商用建筑节能及能耗评估5. 宾馆类设施能源管理的特点6. 体育设施所涉及的环境及能源项目案例7. 部分在国内开展的工业项目案例宾馆类设施能源管理的特点废水排放废物处理绿化用水通风,暖气及空调供电管理照明用电泳池耗能耗水管理洗衣房厨房重设备，轻管理，忽视系统性的规划和咨询轻信设备生产厂家的片面之词, 盲目购置所谓节能设备, 导致结果与企业实际情况毫不相符，导致节能项目不能发挥其应有的作用, 甚至直接导致节能项目失败.图便宜, 直接请设备生产厂家提供咨询, 结果自然导致设备生产厂家推荐自己的产品.案例•北京某度假中心的供暖管线隔热层效能地下, 导致供热温度达不到设计要求. 向某热泵厂商咨询后, 该厂商直接推荐购买其热泵，以提高用户端温度.•企业为多余的热泵浪费资金达百万元, 除此以外每年管道热损达3百万元；•实际为管道隔热只需花费30万元。