建环专业英语

AHU =air handling unit 空调箱air conditioning load空调负荷air distribution气流组织air handling unit 空气处理单元air shower 风淋室air-side pressure.drop空气侧压降aluminum accessories in clean room 洁净室安装铝材as-completed drawing 修改竣工图layout 设计图brass stop valve 铜闸阀canvas connection terminal 帆布接头centigrade scale 摄氏温度chiller accessories水冷柜机排水及配料chiller assembly水冷柜机安装工费chiller unit 水冷柜机基础clean bench 净化工作台clean class 洁净度clean room 洁净室无尘室correction factor修正系数DCC=dry coil units 干盘管district cooling 区域供冷direct return system异程式系统displacement ventilation置换通风drawn No.图号elevation立面图entering air temp进风温度entering water temp进水温度Fahrenheit scale 华氏温度fan coil unit 风机盘管FFU=fan filter units 风扇过滤网组final 施工图flow velocity 流速fresh air supply 新风供给fresh air unit 新风处理单元ground source heat pump地源热泵gross weight 毛重heating ventilating and air conditioning 供热通风与空气调节HEPA=high efficiency particulate air 高效过滤网high efficiency particulate air filters高效空气过滤器horizontal series type水平串联式hot water supply system生活热水系统humidity 湿度hydraulic calculation水力计算isometric drawing轴测图leaving air temp 出风温度leaving water temp出水温度lood vacuum pump中央集尘泵NAU=make up air handling unit schedule 外气空调箱natural smoke exhausting自然排烟net weight 净重noise reduction消声nominal diameter 公称直径oil-burning boiler燃油锅炉one way stop return valve 单向止回阀operation energy consumption运行能耗pass box 传递箱particle sizing and counting method 计径计数法Piping accessories 水系统辅材piping assembly 配管工费plan 平面图RAC=recirculation air cabinet unit schedule 循环组合空调单元ratio controller 比例调节器ratio flow control 流量比例控制ratio gear 变速轮ratio meter 比率计rational 合理性的，合法的；有理解能力的rationale （基本）原理；原理的阐述rationality 有理性，合理性rationalization proposal 合理化建义ratio of compression 压缩比ratio of expansion 膨胀比ratio of run-off 径流系数ratio of slope 坡度ratio of specific heat 比热比raw 生的，原状的，粗的；未加工的raw coal 原煤raw cotton 原棉raw crude producer gas 未净化的发生炉煤气raw data 原始数据raw fuel stock 粗燃料油raw gas 未净化的气体real gas 实际气体realignment 重新排列，改组；重新定线realm 区域，范围，领域real work 实际工作ream 铰孔，扩孔rear 后部，背面，后部的rear arch 后拱rear axle 后轴rear-fired boiler 后燃烧锅炉rear pass 后烟道rearrange 调整；重新安排[布置] rearrangement 调整，整顿；重新排列[布置] reason 理由，原因；推理reasonable 合理的，适当的reassembly 重新装配reaumur 列氏温度计reblading 重装叶片，修复叶片recalibration 重新校准[刻度]recapture 重新利用，恢复recarbonation 再碳化作用recast 另算；重作；重铸receiving basin 蓄水池receiving tank 贮槽recentralizing 恢复到中心位置；重定中心；再集中receptacle 插座[孔]；容器reception of heat 吸热recessed radiator 壁龛内散热器，暗装散热器recharge well 回灌井reciprocal 倒数；相互的，相反的，住复的reciprocal action 反复作用reciprocal compressor 往复式压缩机reciprocal feed pump 往复式蒸汽机reciprocal grate 往复炉排reciprocal motion 住复式动作reciprocal proportion 反比例reciprocal steam engine 往复式蒸汽机reciprocate 往复（运动），互换reciprocating 往复的，来回的，互相的，交替的reciprocating ( grate ) bar 往复式炉排片reciprocating compressor 往复式压缩机reciprocating condensing unit 往复式冷冻机reciprocating packaged liquid chiller 往复式整体型冷水机组reciprocating piston pump 往复式活塞泵reciprocating pump 往复泵，活塞泵reciprocating refrigerator 往复式制冷机recirculate 再循环recirculated 再循环的recirculated air 再循环空气[由空调场所抽出，然后通过空调装置，再送回该场所的回流空气]recirculated air by pass 循环空气旁路recircilated air intake 循环空气入口recirculated cooling system 再循环冷却系统recirculating 再循环的，回路的recirculating air duct 再循环风道recirculating fan 再循环风机recirculating line 再循环管路recirculating pump 再循环泵recirculation 再循环recirculation cooling water 再循环冷却水recirculation ratio 再循环比recirculation water 再循环水reclaim 再生，回收；翻造，修复reclaimer 回收装置；再生装置reclamation 回收，再生，再利用reclamation of condensate water蒸汽冷凝水回收recombination 再化[结]合，复合，恢复recommended level of illumination 推荐的照度标准reconnaissance 勘察，调查研究record drawing 详图、大样图、接点图d. GENERAL ROOM NAME常用房间名称e. ROOFING & CEILING屋面及天棚f. WALL(CLADDING) 墙体(外墙板)g. FLOOR & TRENCH 地面及地沟h. DOORS 、GLASS、WINDOWS & IRONMONGERY(HARDWARE)门、玻璃、窗及五金件I. STAIRCASE、LANDING & LIFT(ELEVATOR)楼梯、休息平台及电梯j. BUILDING MATERIAL WORDS AND PHRASES建筑材料词汇及短语【 Bricks and Tiles 砖和瓦】【Lime, Sand and Stone灰、砂和石】【Cement, Mortar and Concrete水泥、砂浆和混凝土】【Facing And Plastering Materials饰面及粉刷材料】【Asphalt (Bitumen) and Asbestos沥青和石棉】【Timber 木材】【Metallic Materials 金属材料】【Non-Ferrous Metal 有色金属】【Anti-Corrosion Materials防腐蚀材料】【Building Hardware 建筑五金】【Paint 油漆】k. OTHER ARCHITECTURAL TERMS 其它建筑术语【Discipline 专业】【Conventional Terms一般通用名词】【Architectural Physics 建筑物理】【Name Of Professional role职务名称】【Drafting 制图】2. STRUCTURE 结构专业a. LOAD 荷载b. GROUND BASE AND FOUNDATION 地基及基础c. REINFORCEMENT CONCRETE STRUCTURE 钢筋混凝土结构d. STEEL STRUCTURE 钢结构e. DESIGN FOR ANTISEISMIC抗震设计f. GENERAL WORDS FOR DESIGN设计常用词汇g. GENERAL WORDS FOR CONSTRUCTION 施工常用词汇1. ARCHITECTURE 建筑专业a. DESIGN BASIS 设计依据计划建议书 planning proposals设计任务书 design order标准规范standards and codes条件图 information drawing设计基础资料 basic data for design 工艺流程图 process flowchart工程地质资料engineering geological data原始资料 original data设计进度 schedule of designb. STAGE OF DESIGN 设计阶段方案 scheme, draft草图 sketch会谈纪要summary of discussion谈判 negotiation可行性研究 feasibility study初步设计 preliminary design基础设计 basic design详细设计 detail design询价图 enquiry drawing施工图 working drawing,construction drawing竣工图 as built drawingc. CLIMATE CONDITION气象条件日照 sunshine风玫瑰 wind rose主导风向 prevailing wind direction 最大(平均)风速maximum (mean) wind velocity风荷载 wind load最大(平均)降雨量maximum (mean) rainfall雷击及闪电 thunder and lightning 飓风 hurricane台风 typhoon旋风 cyclone降雨强度rainfall intensity年降雨量 annual rainfall湿球温度 wet bulb temperature干球温度 dry bulb temperature冰冻期 frost period冰冻线 frost line冰冻区 frost zone 室外计算温度calculating outdoor temperature 采暖地区region with heating provision不采暖地区region without heating provision 绝对大气压absolute atmospheric pressure相对湿度 relative humidityd. GENERAL ROOM NAME常用房间名称办公室 office服务用房 service room换班室 shift room休息室 rest room (break room)起居室 living room浴室 bathroom淋浴间 shower更衣室 locker room厕所 lavatory门厅 lobby诊室 clinic工作间 workshop电气开关室 switchroom走廊 corridor档案室 archive电梯机房 lift motor room车库 garage清洁间 cleaning room会议室(正式) conference room会议室 meeting room衣柜间 ward robe暖风间 H.V.A.C room饭店 restaurant餐厅 canteen, dining room厨房 kitchen入口 entrance接待处 reception area会计室 accountant room秘书室 secretary room电气室 electrical room控制室 control room工长室 foreman office开关柜室 switch gear前室 antecabinet (Ante.)生产区 production area马达控制中心 Mcc多功能用房 utility room化验室 laboratory room经理室 manager room披屋(阁楼) penthouse警卫室 guard housee. ROOFING AND CEILING屋面及天棚女儿墙 parapet雨蓬 canopy屋脊 roof ridge坡度 slope坡跨比 pitch分水线 water-shed二毡三油2 layers of felt &3 coats of bitumastic附加油毡一层 extra ply of felt檐口 eave挑檐 overhanging eave檐沟 eave gutter平屋面 flat roof坡屋面 pitched roof雨水管downspout, rain water pipe)(R.W.P)汇水面积 catchment area泛水 flashing内排水 interior drainage外排水 exterior drainage滴水 drip屋面排水 roof drainage找平层 leveling course卷材屋面 built-up roofing天棚 ceiling檩条 purlin屋面板 roofing board天花板 ceiling board防水层 water-proof course检查孔 inspection hole人孔 manhole吊顶suspended ceiling, false ceiling檐板(窗帘盒) cornicef. WALL (CLADDING)墙体(外墙板)砖墙 brick wall砌块墙 block wall清水砖墙brick wall without plastering抹灰墙 rendered wall石膏板墙gypsum board, plaster board空心砖墙 hollow brick wall承重墙 bearing wall非承重墙 non-bearing wall纵墙 longitudinal wall横墙 transverse wall外墙 external (exterior) wall内墙 internal (interior) wall填充墙 filler wall防火墙 fire wall窗间墙 wall between window空心墙 cavity wall压顶 coping圈梁 gird, girt, girth玻璃隔断 glazed wall防潮层 damp-proof course (D.P.C)遮阳板 sunshade阳台 balcony伸缩缝 expansion joint沉降缝 settlement joint抗震缝 seismic joint复合夹心板 sandwich board压型单板 corrugated single steelplate外墙板 cladding panel复合板 composite panel轻质隔断 light-weight partition牛腿 bracket砖烟囱 brick chimney勒脚(基座) plinthg. FLOOR AND TRENCH地面及地沟地坪 grade地面和楼面 ground and floor素土夯实 rammed earth炉渣夯实 tamped cinder填土 filled earth回填土夯实 tamped backfill垫层 bedding course, blinding面层 covering, finish结合层 bonding (binding) course找平层 leveling course素水泥浆结合层neat cement binding course混凝土地面 concrete floor水泥地面 cement floor机器磨平混凝土地面machine trowelled concrete floor水磨石地面 terrazzo flooring马赛克地面 mosaic flooring瓷砖地面 ceramic tile flooring油地毡地面 linoleum flooring预制水磨石地面 precast terrazzo flooring硬木花地面hard-wood parquet flooring搁栅 joist硬木毛地面hard-wood rough flooring企口板地面tongued and grooved flooring防酸地面 acid-resistant floor钢筋混凝土楼板reinforced concrete slab (R.C Slab)乙烯基地面 vinyl flooring水磨石嵌条divider strip for terrazzo地面做2％坡 floor with 2% slope集水沟 gully集水口 gulley排水沟 drainage trench沟盖板 trench cover活动盖板 removable cover plate集水坑 sump pit孔翻边 hole up stand电缆沟 cable trenchh. DOORS,GLASS,WINDOWS & IRONMONGERY(HARDWARE)门、玻璃、窗及五金件木 (钢)门 wooden (steel) door镶板门 panelled door夹板门 plywood door铝合金门 aluminum alloy door卷帘门 roller shutter door弹簧门 swing door推拉门 sliding door平开门 side-hung door折叠门 folding door旋转门 revolving door玻璃门 glazed door密闭门 air-Tight door保温门 thermal insulating door镀锌铁丝网门galvanized steel wire mesh door防火门 fire door(大门上的)小门 wicket门框 door frame门扇 door leaf门洞 door opening结构开洞 structural opening单扇门 single door双扇门 double door疏散门 emergency door纱门 screen door门槛 door sill门过梁 door lintel上冒头 top rail下冒头 bottom rail门边木 stile门樘侧料 side jumb槽口 notch木窗 wooden window钢窗 steel window铝合金窗 aluminum alloy window百叶窗 (通风为主) sun-bind, louver (louver, shutter, blind)塑钢窗 plastic steel window空腹钢窗 hollow steel window固定窗 fixed window平开窗 side-hung window推拉窗 sliding window气窗 transom上悬窗 top-hung window中悬窗 center-pivoted window下悬窗 hopper window活动百叶窗 adjustable louver天窗 skylight老虎窗 dormer window密封双层玻璃 sealed double glazing钢筋混凝土过梁reinforced concrete lintel钢筋砖过梁 reinforced brick lintel窗扇 casement sash窗台 window sill窗台板 window board窗中梃 mullion窗横木 mutin窗边木 stile压缝条 cover mould窗帘盒 curtain box合页(铰链) hinge (butts)转轴 pivot长脚铰链 parliament hinge闭门器 door closer地弹簧 floor closer插销 bolt门锁 door lock拉手 pull链条 chain门钩 door hanger碰球 ball latch窗钩 window catch暗插销 insert bolt电动开关器 electric opener平板玻璃 plate glass夹丝玻璃 wire glass透明玻璃 clear glass毛玻璃(磨砂玻璃) ground glass (frosted glass)防弹玻璃 bullet-proof glass石英玻璃 quartz glass吸热玻璃 heat absorbing glass磨光玻璃 polished glass着色玻璃 pigmented glass玻璃瓦 glass tile玻璃砖 glass block有机玻璃 organic glassI. STAIRCASE, LANDING & LIFT (ELEVATOR)楼梯、休息平台及电梯楼梯 stair楼梯间 staircase疏散梯 emergency stair旋转梯 spiral stair (circular stair)吊车梯 crane ladder直爬梯 vertical ladder踏步 step扇形踏步 winder (wheel step)踏步板 tread档步板 riser踏步宽度 tread width防滑条 non-slip insert (strips)栏杆 railing (balustrade)平台栏杆 platform railing吊装孔栏杆 railing around mounting hole扶手 handrail梯段高度 height of flight防护梯笼 protecting cage (safety cage)平台 landing (platform)操作平台 operating platform装卸平台platform for loading & unloading楼梯平台 stair landing客梯 passenger lift货梯 goods lift客/货两用梯 goods/passenger lift液压电梯 hydraulic lift自动扶梯 escalator观光电梯 observation elevator电梯机房 lift mortar room电梯坑 lift pit电梯井道 lift shaftj. BUILDING MATERIAL WORDS AND PHRASES建筑材料词汇及短语• Bricks and Tiles 砖和瓦红砖 red brick粘土砖 clay brick瓷砖 glazed brick (ceramic tile)防火砖 fire brick空心砖 hollow brick面砖 facing brick地板砖 flooring tile缸砖 clinkery brick马赛克 mosaic陶粒混凝土 ceramsite concrete琉璃瓦 glazed tile脊瓦 ridge tile石棉瓦 asbestos tile (shingle)波形石棉水泥瓦corrugated asbestos cement sheet• Lime, Sand and Stone 灰、砂和石石膏 gypsum大理石 marble汉白玉 white marble花岗岩 granite碎石 crushed stone毛石 rubble蛭石 vermiculite珍珠岩 pearlite水磨石 terrazzo卵石 cobble砾石 gravel粗砂 course sand中砂 medium sand细砂 fine sand• Cement, Morta r and Concrete水泥、砂浆和混凝土波特兰水泥(普通硅酸盐水泥)Portland cement硅酸盐水泥 silicate cement火山灰水泥 pozzolana cement白水泥 white cement水泥砂浆 cement mortar石灰砂浆 lime mortar水泥石灰砂浆(混合砂浆) cement-lime mortar保温砂浆 thermal mortar防水砂浆 water-proof mortar耐酸砂浆 acid-resistant mortar耐碱砂浆 alkaline-resistant mortar沥青砂浆 bituminous mortar纸筋灰paper strip mixed lime mortar麻刀灰 hemp cut lime mortar灰缝 mortar joint素混凝土 plain concrete钢筋混凝土 reinforced concrete轻质混凝土 lightweight concrete细石混凝土 fine aggregate concrete沥青混凝土 asphalt concrete泡沫混凝土 foamed concrete炉渣混凝土 cinder concreteFacing And Plastering Materials 饰面及粉刷材料水刷石 granitic plaster斩假石 artificial stone刷浆 lime wash可赛银 casein大白浆 white wash麻刀灰打底 hemp cuts and lime as base喷大白浆两道sprayed twice with white wash分格抹水泥砂浆cement mortar plaster sectioned板条抹灰 lath and plaster• Asphalt(Bitumen) and Asbestos 沥青和石棉沥青卷材 asphalt felt沥青填料 asphalt filler沥青胶泥 asphalt grout冷底子油 adhesive bitumen primer沥青玛啼脂 asphaltic mastic沥青麻丝 bitumastic oakum石棉板 asbestos sheet石棉纤维 asbestos fiber• Timber 木材裂缝 crack透裂 split环裂 shake干缩 shrinkage翘曲 warping原木 log圆木 round timber方木 square timber板材 plank木条 batten板条 lath木板 board红松 red pine白松 white pine落叶松 deciduous pine云杉 spruce柏木 cypress白杨 white poplar桦木 birch冷杉 fir栎木 oak榴木 willow榆木 elm杉木 cedar柚木 teak樟木 camphor wood防腐处理的木材preservative-treated lumber胶合板 plywood三(五)合板 3(5)-plywood企口板 tongued and grooved board层夹板 laminated plank胶合层夹木材glue-laminated lumber纤维板 fiber-board竹子 bamboo• Metallic Materials 金属材料黑色金属 ferrous metal圆钢 steelbBar方钢 square steel扁钢 steel atrap型钢 steel section (shape)槽钢 channel角钢 angle steel等边角钢 equal-leg angle不等边角钢 unequal-leg angle工字钢 I-beam宽翼缘工字钢 wide flange I-beam丁( 之)字钢 T-bar (Z-bar)冷弯薄壁型钢light gauge cold-formed steel shape热轧 hot-rolled冷轧 cold-rolled冷拉 cold-drawn冷压 cold-pressed合金钢 alloy steel钛合金 titanium alloy不锈钢 stainless steel竹节钢筋 corrugated steel bar变形钢筋 deformed bar光圆钢筋 plain round bar钢板 steel plate薄钢板 thin steel plate低碳钢 low carbon steel冷弯 cold bending钢管 steel pipe (tube)无缝钢管 seamless steel pipe焊接钢管 welded steel pipe黑铁管 iron pipe镀锌钢管 galvanized steel pipe铸铁 cast iron生铁 pig iron熟铁 wrought iron镀锌铁皮 galvanized steel sheet镀锌铁丝 galvanized steel wire钢丝网 steel wire mesh多孔金属网 expanded metal锰钢 managanese steel高强度合金钢 high strength alloy steel• Non-Ferrous Metal 有色金属金 gold白金 platinum铜 copper黄铜 brass青铜 bronze银 silver铝 aluminum铅 lead• Anti-Corrosion Materials 防腐蚀材料聚乙烯 polythene, polyethylene尼龙 nylon聚氯乙烯 PVC (polyvinyl chloride)聚碳酸酯 polycarbonate聚苯乙烯 polystyrene丙烯酸树酯 acrylic resin乙烯基酯 vinyl ester橡胶内衬 rubber lining氯丁橡胶 neoprene沥青漆 bitumen paint环氧树脂漆 epoxy resin paint氧化锌底漆 zinc oxide primer防锈漆 anti-rust paint耐酸漆 acid-resistant paint耐碱漆 alkali-resistant paint水玻璃 sodium silicate树脂砂浆 resin-bonded mortar环氧树脂 epoxy resin• Building Hardware 建筑五金钉子 nails螺纹屋面钉spiral-threaded roofing nail环纹石膏板钉annular-ring gypsum board nail螺丝 screws平头螺丝 flat-head screw螺栓 bolt普通螺栓 commercial bolt高强螺栓 high strength bolt预埋螺栓 insert bolt胀锚螺栓 cinch bolt垫片 washer• Paint 油漆底漆 primer防锈底漆 rust-inhibitive primer防腐漆 anti-corrosion paint调和漆 mixed paint无光漆 flat paint透明漆 varnish银粉漆 aluminum paint磁漆 enamel paint干性油 drying oil稀释剂 thinner焦油 tar沥青漆 asphalt paint桐油 tung oil, Chinese wood oil红丹 red lead铅油 lead oil腻子 puttyk. OTHER ARCHITECTURAL TERMS 其它建筑术语• Discipline 专业建筑 architecture土木 civil给排水 water supply and drainage总图 plot plan采暖通风H.V.A.C (heating、ventilation and air conditioning) 电力供应 electric power supply电气照明 electric lighting电讯 telecommunication仪表 instrument热力供应 heat power supply动力 mechanical power工艺 process technology管道 piping• Conventional Terms 一般通用名词建筑原理 architectonics建筑形式 architectural style民用建筑 civil architecture城市建筑 urban architecture农村建筑 rural architecture农业建筑 farm building 工业建筑 industrial building重工业的 heavy industrial轻工业的 light industrial古代建筑 ancient architecture现代建筑 modern architecture标准化建筑 standardized buildings 附属建筑 auxiliary buildings城市规划 city planning厂区内 within site厂区外 offsite封闭式 closed type开敞式 open type半开敞式 semi-open type模数制 modular system单位造价 unit cost概算 preliminary estimate承包商 constructor, contractor现场 site扩建 extension改建 reconstruction防火 fire-prevention防震 aseismatic, quake-proof防腐 anti-corrosion防潮 dump-proof防水 water-proof防尘 dust-proof防锈 rust-proof车流量 traffic volume货流量 freight traffic volume人流量 pedestrian volume透视图 perspective drawing建筑模型 building model• Architectural Physics 建筑物理照明 illumination照度 degree of illumination亮度 brightness日照 sunshine天然采光 natural lighting光强 light intensity侧光 side light顶光 top light眩光 glaze方位角 azimuth辐射 radiation对流 convection传导 conduction遮阳 sun-shade保温 thermal insulation恒温 constant temperature恒湿 constant humidity噪音 noise隔音 sound-proof吸音 sound absorption露点 dew point隔汽 vapor-proofName Of Professional role 职务名称项目经理 project manager (PM)设计经理 design manager首席建筑师 principal architect总工程师 chief engineer土木工程师 civil engineer工艺工程师 process engineer电气工程师 electrical engineer机械工程师 mechanical engineer计划工程师 planning engineer助理工程师 assistant engineer实习生 probationer专家 specialist, expert制图员 draftsman技术员 technician• Drafting 制图总说明 general specification工程说明 project specification采用标准规范目录 list of standards and specification adopted图纸目录 list of drawings平面图 plan局部放大图 detail with enlarged scale．．．平面示意图 schematic plan of...．．．平剖面图 sectional plan of...留孔平面图 plan of provision of holes剖面 section纵剖面 longitudinal section横剖面 cross (transverse) section立面 elevation正立面 front elevation透视图 perspective drawing侧立面 side elevation背立面 back elevation详图 detail drawings典型节点 typical detail节点号 detail No.首页 front page图纸目录及说明list of contents and description图例 legend示意图 diagram草图 sketch荷载简图 load diagram流程示意图 flow diagram标准图 standard drawing．．．布置图 layout of ...地形图 topographical map土方工程图 earth-work drawing展开图 developed drawing模板图 formwork drawing配筋 arrangement of reinforcement表格 tables工程进度表 working schedule技术经济指标technical and economical index建、构筑物一览表list of buildings and structures编号 coding序列号 serial No.行和栏 rows and columns备注 remarks等级 grade直线 straight Line曲线 curves曲折线 zigzag line虚线 dotted line实线 solid line影线 hatching line点划线 dot and dash line轴线 axis等高线 contour Line中心线 center Line双曲线 hyperbola抛物线 parabola切线 tangent Line尺寸线 dimension Line园形 round环形 annular方形 square矩形 rectangle平行四边形 parallelogram三角形 triangle五角形 pentagon六角形 hexagon八角形 octagon梯形 trapezoid圆圈 circle弓形 sagment扇形 sector球形的 spherical抛物面 paraboloid圆锥形 cone椭圆形 ellipse, oblong面积 area体积 volume容量 capacity重量 weight质量 mass力 force米 meter厘米 centimeter毫米 millimeter公顷 hectate牛顿/平方米 Newton/square meter 千克/立方米 kilogram/cubic meter 英尺 foot英寸 inch磅 pound 吨 ton加仑 gallon千磅 kip平均尺寸 average dimension变尺寸 variable dimension外形尺寸 overall dimension展开尺寸 developed dimension内径 inside diameter外径 outside diameter净重 net weight毛重 gross weight数量 quantity百分比 percentage净空 clearance净高 headroom净距 clear distance净跨 clear span截面尺寸 sectional dimension开间 bay进深 depth单跨 single span双跨 double span多跨 multi-span标高 elevation, level绝对标高 absolute elevation设计标高 designed elevation室外地面标高 ground elevation室内地面标高 floor elevation柱网 column grid坐标 coordinate厂区占地 site area使用面积 usable area辅助面积 service area通道面积 passage area管架 pipe rack管廊 pipeline gallery架空管线 overhead pipeline排水沟 drain ditch集水坑 sump pit喷泉 fountain地漏 floor drain消火栓 fire hydrant灭火器 fire extinguisher二氧化碳灭火器carbon dioxideextinguisher卤代烷灭火器 halon extinguisher不知道有没有人用得着这个，还有好多下次再发好讨厌的30秒和四千字作者：sea526 回复日期：2005-12-15 20:43:00俩字：恐怖2. STRUCTURE 结构专业a. Load 荷载拔力 pulling force标准值 standard value残余应力 residual stress冲击荷载 impact load, punch load残余变形 residual deflection承压 bearing承载能力 bearing capacity承重 bearing, load bearing承重结构 bearing structure脆性材料 brittle material脆性破坏 brittle failure抵抗力 resisting power, resistance吊车荷载 crane load分布荷载 distributed load风荷载 wind load风速 wind velocity, wind speed风压 wind pressure风振 wind vibration浮力 buoyance, floatage符号 symbol, mark负弯矩negative moment, hogging moment附加荷载 additional load附加应力 additional stress副作用 side effect, by-effect刚度 rigidity刚度比 ratio of rigidity刚度系数 rigidity factor刚接 rigid connection刚性节点 rigid joint恒载 dead load荷载传递 transmission of load固端弯矩 fixed-end moment活荷载 live load积灰荷载 dust load集中荷载 concentrated load加载, 加荷 loading剪力 shear, shearing force剪切破坏 shear failure剪应变 shear strain剪应力 shear stress简支 simple support静定结构statically determinate structure截面模量 modulus of section,section modulus静力 static force静力分析 static analysis局部压力 local pressure, partial pressure局部压屈 local bulkling绝对值 absolute value均布荷载uniformly distributed load抗拔力 pulling resistance抗剪刚度 shear rigidity抗剪强度 shear strength, shearing strength抗拉强度 tensile strength抗扭 torsion resistance抗扭刚度 torsional rigidity抗弯 bending resistance抗弯刚度 bending rigidity抗压强度 compressive strength,compression strength可靠性 reliability可靠性设计 reliability design拉力 tensile force拉应力tensile stress, tension stress拉应变tensile strain, tension strain临界点 critical point临界荷载 critical load临界应力 critical stress密度 density离心力 centrifugal force摩擦力 friction force摩擦系数 frictional factor挠度 deflection内力 internal force, inner force扭矩 moment of torsion, torsional moment疲劳强度 fatigue strength偏心荷载eccentric load, non-central load偏心距eccentric distance, eccentricity偏心受拉 eccentric tension偏心受压 eccentric compression屈服强度 yield strength使用荷载 working load水平力 horizontal force水平推力 horizontal thrust弹塑性变形elastoplastic deformation弹性elasticity, resilience, spring塑限 plastic limit弹性变形 elastic deformation塑性变形 plastic deformation弹性模量 modulus of elastic,elastic modulus体积 volume, bulk, cubature, cubage土压力earth pressure, soil pressure弯矩 bending moment, moment弯曲半径 radius at bent, radius of curve位移 displacement温度应力 temperature stress温度作用 temperature action系数 coefficient, factor雪荷载 snow load压应变 compression strain压应力 compression stress应力集中 concentration of stress 预应力prestressing force, prestress振动荷载 vibrating load, racking load支座反力 support reaction自重 own weight作用 action, effect作用点point of application,application jointb. Ground Base and Foundation地基及基础板桩 sheet pile, sheeting pile板桩基础 sheet pile foundation饱和粘土 saturation clay冰冻线 frost line, freezing level不均匀沉降unequal settlement, differential settlement残积土 residual soil沉积物 deposit, sediment沉降 settlement沉降差 difference in settlement沉降缝 settlement joint沉井 sinking well, sunk well沉箱 caisson持力层 bearing stratum冲积 alluviation锤夯 hammer tamping档土墙 retaining wall, breast wall底板base slab, base plate, bedplate地板 floor board地基 ground base, ground地基承载力 ground bearing capacity地基处理ground treatment, soil treatment地基稳定 base stabilization地梁 ground beam, ground sill地漏 floor drain地下工程 substructure work,understructure work地下室 basement, cellar地下水 ground water地下水位 groundwater level, water table地下水压力 ground water pressure地质报告 geologic report垫层 bedding, blinding独立基础isolated foundation, individual foundation端承桩 end-bearing pile筏式基础 raft foundation粉砂 silt, rock flour粉质粘土 silty clay粉质土 silty soil扶壁式档土墙 buttressed retaining wall腐蚀 corrosion覆土 earth covering刚性基础 rigid foundation沟盖板 trench cover固结 consolidation灌注桩 cast-in-place pile, cast in site pile护坡 slope protection, revetment护桩 guard pile环墙 ring wall灰土 lime earth回填 backfill, backfilling回填土 backfill, backfill soil混凝土找平层 concrete screed火山灰水泥 trass cement基槽 foundation trench基础 foundation, base基础底板 foundation slab基础埋深embedded depth of foundation基础平面图 foundation plan地基勘探site exploration, site investigation基坑 foundation pit集水坑 collecting sump阶形基础 stepped foundation结合层binding course, bonding course井点 well point井点排水 well point unwatering开挖 excavation, cutting勘测 exploration and survey勘测资料 exploration data沥青 bitumen, asphalt, pitch联合基础 combined foundation卵石 cobble, pebble埋置 embedment毛石基础 rubble foundation锚筋 anchor bar锚桩 anchor pile密实度compactness, density, denseness摩擦桩 friction pile, floating pile粘土 clay粘质粉土 clay silt碾压 roller compaction, rolling排水 drainage, dewatering排水沟 drainage ditch排水孔 weep hole, drain hole排水设备 dewatering equipment普通硅酸盐水泥 ordinary Portland cement群桩 grouped piles容许沉降 permissible settlement容许承载力 allowable bearing软土 soft soil砂垫层 sand bedding course, sand cushion砂土 sandy soil, sands砂质粉土 sandy silt设备基础 equipment foundation水泥搅拌桩 cement injection素土夯实 rammed earth, packed soil碎石桩 stone columns弹性地基 elastic foundation弹性地基梁beam on elastic foundation填方 fill, filling填土earth-fill, earth filling, filling条形基础 strip foundation土方工程 earthwork挖方 excavation work, excavation箱形基础 box foundation压实 compaction, compacting压实系数 compacting factor验槽 check of foundation subsoil预制混凝土桩 precast concrete pile中砂 medium sand重力式档土墙gravity retaining wall桩承台 pile cap钻孔桩 bored pile钻探exploration drilling, drilling,最终沉降 final settlementc.Reinforcement Concrete Structure 钢筋混凝土结构板缝 slab joint板厚 thickness of slab板式楼梯 cranked slab stairs板跨度 span of slab薄壁结构 thin-walled structure薄腹梁 thin wedded girder保护层 protective coating臂式吊车 boom crane, boom hoist边梁 edge beam, boundary beam变截面 variable cross-section变形缝 movement joint变形钢筋 deformed bar初凝 initial setting, pre-setting次梁 secondary beam大型屋面板 precast ribbed roof slab单层厂房 one-storied factory单筋梁beam with single reinforcement单跨 single span单向板 one-way slab垫块 cushion block垫梁 template beam吊车梁 crane beam, crane girder顶棚抹灰 ceiling plastering端跨 end span, tail bay多跨连续梁 multi-span beam翻边 upstand反梁 upstand beam分布钢筋 distribution-bar封闭式箍筋 closed stirrup附加钢筋 additional bar刚架 rigid frame, stiff frame钢筋 reinforcement, steel bar, bar钢筋表 Bar Schedules钢筋笼 steel reinforcement cage钢筋间距spacing of bars, bar spacing钢筋网 bar-mat reinforcement,mesh reinforcement钢筋砖 reinforced brick勾缝 joint pointing构架 frame, gallows构件 member, structural member构造 construction构造钢筋constructional reinforcement构造柱 onstructional column, tie column构筑物 structure箍筋 hoop reinforcement, hooping箍筋间距 stirrup spacing固定端 fixed end, retained end固端梁 fixed-end beam, fixed beam。

建环专业英语介绍第一篇：建环专业英语介绍Building environment and equipment engineeringFor a long time, people eager to have a warm and comfortable environment to live and work.With the development of science and technology, in our city, we almost all can enjoy good water and electricity warm service.The equipment and conditions provides great convenience for daily life.And this work need to architectural environment and equipment engineering professionals.The professional people need to be engaged in building heating, air conditioning, ventilation and gas application system and equipment, etc.With the passage of time，a large number of new building are appearing。

Internal equipment has also been put forward more and more demanding.Therefore, the people who able to adapt to the development of modern architecture tare urgently needed.In our country, there are some unsatisfactory in the new building.For example some high-rise buildings, there are bad ventilation resulting in poor air quality.And poor cooling in summer and heating in winter.It needs the professional personnel to make a suitable design.第二篇：建环专业介绍建筑环境与设备工程（供热通风与空调工程）学制：四年授予学位：工学学士一、培养目标本专业培养具备室内环境设备系统及建筑公共设施系统的设计、安装调试、运行管理、及国民经济各部门所需的特殊环境的研究开发的基础理论知识及能力,能在设计研究院、建筑工程单位、物业管理部门及相关的科研、生产和教学单位从事工作的高级人才。

建筑环境与能源应用工程专业英语1. Architectural Environment:建筑环境。

2. Energy:能源。

3. Engineering:工程。

4. Specialization:专业化。

5. English:英语。

6. Word:单词。

7. Accurate:准确的。

8. Answer:回答。

9. Sentence:句子。

10. Bilingual:双语的。

11. Example:例子。

12. The architectural environment plays a crucial role in shaping the living experience.建筑环境在塑造居住体验方面起着至关重要的作用。

13. Renewable energy is becoming increasingly important in the field of architectural engineering.可再生能源在建筑工程领域变得越来越重要。

14. The specialized knowledge in architectural environment and energy application engineering is in high demand.建筑环境与能源应用工程的专业知识需求很大。

15. Learning English is essential for success in thefield of architectural environment and energy application engineering.学习英语对于在建筑环境与能源应用工程领域取得成功至关重要。

16. Memorizing English words helps improve communication in the architectural environment and energy application engineering field.记住英语单词有助于提高在建筑环境与能源应用工程领域的沟通能力。

建环专业英语词汇ahu air hundling unit 空调箱 air conditioning load空调负荷air distribution气流组织air handling unit 空气处理单元air shower 风淋室air wide 空气侧压降aluninum accessaries in clean room 洁净室安装铝材as-completed drawing 修改竣工图ayout 设计图blass stop valve 铜闸阀canvas connecting termingalclean bench 净化工作台clean class 洁净度clean room 洁净室无尘室correction factor修正系数dcc dry coll units 干盘管district cooling 区域供冷direct return system异程式系统displacement ventilation置换通风drawn No.图号elevation立面图entering air temp进风温度 entering water temp进水温度 fahrenheit scale 华氏温度fan coil unit 风机盘管ffu fan filter units 风扇过滤网组 final 施工图flowheating ventilating and air conditioning 供热通风与空气调节hepa high efficiency pariculate air 高效过滤网high efficiency particulate air filters高效空气过滤器horizontal series type水平串联式hot water supply system生活热水系统humidity 湿度hydraulic calculation水力计算isometric drawing轴测图leaving air temp 出风温度 leaving water temp出水温度 lood vacuum pump 中央集尘泵mau make up air hundling unit schedule 外气空调箱natural smoke exhausting自然排烟net weight 净重noise reduction消声nominal diameter 公称直径oil-burning boiler燃油锅炉one way stop peturn valve 单向止回阀operation energy consumption运行能耗pass box 传递箱particle sizing and counting method 计径计数法Piping accessaries 水系统辅材piping asembly 配管工费plan 平面图rac recirculation air cabinet unit schedule循环组合空调单元ratio controller 比例调节器 ratio flow control 流量比例控制 ratio gear 变速轮ratio meter 比率计 rational 合理性的,合法的；有理解能力的 rationale 基本原理；原理的阐述 rationality 有理性,合理性 rationalization proposal 合理化建义 ratio of compression 压缩比 ratio of expansion 膨胀比 ratio of run-off 径流系数 ratio of slope 坡度 ratio of specific heat 比热比 raw 生的,原状的,粗的；未加工的 raw coal 原煤 raw cotton 原棉 raw crude producer gas 未净化的发生炉煤气 raw data 原始数据 raw fuel stock 粗燃料油 raw gas 未净化的气体 real gas 实际气体 realignment 重新排列,改组；重新定线 realm 区域,范围,领域 real work 实际工作 ream 铰孔,扩孔 rear 后部,背面,后部的rear arch 后拱 rear axle 后轴 rear-fired boiler 后燃烧锅炉 rear pass 后烟道 rearrange 调整；重新安排布置 rearrangement 调整,整顿；重新排列布置reason 理由,原因；推理 reasonable 合理的,适当的 reassembly 重新装配reaumur 列氏温度计 reblading 重装叶片,修复叶片 recalibration 重新校准刻度 recapture 重新利用,恢复 recarbonation 再碳化作用 recast 另算；重作；重铸receiving basin 蓄水池 receiving tank 贮槽 recentralizing 恢复到中心位置；重定中心；再集中 receptacle 插座孔；容器 reception of heat 吸热recessed radiator 壁龛内散热器,暗装散热器recharge well 回灌井reciprocal 倒数；相互的,相反的,住复的reciprocal action 反复作用reciprocal compressor 往复式压缩机 reciprocal feed pump 往复式蒸汽机reciprocal grate 往复炉排reciprocal motion 住复式动作reciprocal proportion 反比例 reciprocal steam engine 往复式蒸汽机 reciprocate 往复运动,互换reciprocating 往复的,来回的,互相的,交替的reciprocating grate bar 往复式炉排片reciprocating compressor 往复式压缩机reciprocating condensing unit 往复式冷冻机 reciprocating packaged liquid chiller 往复式整体型冷水机组 reciprocating piston pump 往复式活塞泵reciprocating pump 往复泵,活塞泵 reciprocating refrigerator 往复式制冷机 recirculate 再循环 recirculated 再循环的 recirculated air 再循环空气由空调场所抽出,然后通过空调装置,再送回该场所的回流空气 recirculated air by pass 循环空气旁路 recircilated air intake 循环空气入口 recirculated cooling system 再循环冷却系统recirculating 再循环的,回路的recirculating air duct 再循环风道recirculating fan 再循环风机recirculating line 再循环管路 recirculating pump 再循环泵 recirculation 再循环 recirculation cooling water 再循环冷却水 recirculation ratio 再循环比recirculation water 再循环水reclaim 再生,回收；翻造,修复reclaimer 回收装置；再生装置 reclamation 回收,再生,再利用reclamation of condensate water蒸汽冷凝水回收recombination 再化结合,复合,恢复 recommended level of illumination 推荐的照度标准 reconnaissance 勘察,调查研究 record drawing 详图、大样图、接点图recording apparatus 记录仪器 recording barometer 自记气压计 recording card 记录卡片 recording facility 记录装置 recording liquid level gauge 自动液面计 recording paper of sound level 噪声级测定纸 recording pressure gauge 自记压力计 recording water-gauge 自记水位计 recoverable 可回收的,可恢复的recoverable heat 可回收的热量recoverable oil 可回收的油recoverable waster heat 可回收的废热 recovery plant 回收装置 recovery rate 回收率relief damper 泄压风门return air flame plate回风百叶Seat air supply座椅送风Shaft seal 轴封 Shaft storage 搁架式贮藏 Shake 摇动,抖动 Shakedown run 试车,调动启动,试运转 Shake-out 摇动,抖动 Shakeproof 防振的,抗振的Shaker 振动器 Shaking 摇摆,振动 Shaking grate 振动炉排 Shaking screen 振动筛 Shallow 浅层,浅的,表面的 Shank 柄,杆,柱体,轴 Shape 造成型,形状态模型;轮廓 Shape cutting 仿形切割 Shaped steel 型钢 Shape factor 形状因数 Sharp 尖的,急剧的,灵敏的,准确的,明显的 Sharp bend 小半径弯头 Sharp freezer 快速冻结器,低温冻结间接受未经降温的货物并使之冻结的冷藏间,其温度通常维持在-29° C到-15° C之间 Sharp freezing 快速冻结,低温冻结在低温库内冻结产品Sharp freezing room 急冻间 sheath 外壳,复板,外套 Sheathe 覆盖,装鞘,包,套 Sheave 滑车轮,凸轮盘 Sheet lead 铅皮 Sheet metal 金属片,金属薄板Shell and coil condenser 壳管式冷凝器盘管装置在壳内的一种冷凝器,冷却液在管内鞫淠闹评浼猎诳枪苤鋆 Shell and coil evaporator 壳管式蒸发器 Shell and coil heat exchanger 壳管式热交换器 Shell and tube condenser 壳管式冷凝器冷凝器的一种,冷却液在管内流动,而冷凝的制冷剂在壳内 Shell and tube cooler 壳管式冷却管 Shell and tube evaporator 壳管式蒸发器管束浸在沸腾的制冷剂中,而被冷却的流体则在管内流动的蒸发器 Shell and tube exchanger 壳管式换热器组管速装置在壳体内,一种流体在管内流动,另一种流体在管壳之间流动 Shell and tube heat exchanger 壳管式热交换器 Shell and tube type condenser 壳管式冷凝器 Shell type attemperator 立式表面减温器,壳管减温器 Shield carbon-dioxide arc welding 二氧化碳气体保护电弧焊Shielded arc welding 保护电弧焊 Shifting bearing 活动支座,移动式轴承Shifting spanner 活络扳手 Shrinkage 收缩；收缩量 Shunt regulator pipe 旁路调节管 Shunt valve 旁通阀 Shutoff damper 截止挡板,关闭风门 Shutoff valve 关闭阀,截止阀Shutter grate 百叶炉篦,可调节的炉篦Siamese connection 复式连接 Side opening with slide plate 插板式侧面风口 Side spacer 过热器定距梳形管夹,梳形间隔,梳形卡子 Side wall 侧墙,侧水冷壁Side wall inlet 侧墙进风口 Side wall register of horizontal and vertical louvers and shutters 带垂直和水平百叶的侧墙送风品 Side wall register of vertical louvers and shutters 带重直百叶的侧墙送风口 Sightglass 观察窗Signal 信号符号,信号 Signal alarm 信号报警,警报器 Signal bell 信号铃Signal call device 信号呼叫装置 Signal equipment 信号设备 Signal light 信号灯 Simultaneous 同时的,同时发生的,联立的 Simultaneous factor 同时系数 Single-acting air pump 单动气泵 Single-acting compressor 单作用压缩机 Single-acting pump 单动泵 Single admission 单侧进风 Single and doubledeflection grille 单层及双层百叶风口 Single branch pipe 单支管 Single collar pipe 单盘直管 Single column manometer 单管式压力计 Single column radiator 单柱散热器 Single duct air conditioning system 单风道空调系统空气经过集中设备调节后,由单风道分送至各不同区域的系统 Single-inlet fan 单进风通风机 Single lead 单管线 Single leaf damper 单页风口只有一个叶片的,并以铰链接于开口一侧的方形或矩形风门 Single package 单独整体式Single-pass 单程的,单流的 Single path 单通路 Single-phase kilowatt hour meter 单相电度表 Single-phase motor 单相马达Single-phase three wire system 单相三线制 Single pipe district heating system 单区域供热系统 Single-range 单量程的 Single seated valve 单座阀Single shell type absorption refrigerating machine 单筒吸收式制冷机Single sided heating panel 单侧供暖辐射板 Single side draft hood 单面吸风罩 Single sleeve valve 单套阀 Single-stage absorption refrigerator 单极吸收式制冷机 Single-stage air compressor 单极空气压缩机 Single-stage centrifugal blower 单级离心鼓风机 Single-stage centrifugal pump 单级离心泵 Single-stage compression 单级压缩 Single-stage cyclone 单级旋风除尘器 Single-stage plate type ionizing electronic air cleaner 单级极板型静电空气过滤器 Single-stage pump 单级泵 Single-stage radial compressor 单级离心压缩机 Single vane rotary compressor 单叶回转式压缩机,在压缩机中,转子沿定子的内圆周转动,在静止槽内滑动的一个叶片与转子不断接触,而使吸入口和排出口隔开 Single way suction 单向吸入 Singular 单一的,奇异的,单数的 Sintered metallic filter 金属陶瓷过滤器 Siphon action 虹吸作用Siphonage 虹吸作用 Siphon barometer 虹吸式气压计 Siphon head 虹吸压头Siphon trap 虹吸水封Sirocco fan 西洛可风机,多叶片前弯离心机Site-assembled 现场装配的 Site plan 总平面图 Site planning 总平面设计Situation 地点,位置,形势,情况 Skating rink 溜冰场 Skeleton diagram 轮廓图 Sketching board 绘图板 Sketch plan 草图,初步设计 skin-load 外围护结构负荷Skin temperature 皮肤温度,外壳温度Skirtboard 侧护板,侧壁；踢脚板Skirting air inlet 踢脚板进气口Skirting heater 踢脚板放热器Sky radiation 天空辐射Steam heating pipe蒸汽供热管道System accessaries 设备安装辅料System testing 系统调试费title 图名trasportation 设备吊运费two-speed motor双速电机ultra low penetration air filter 超高空气效过滤器unidirectional air flow clean rooms单向流洁净室vacuum 真空valve and sub-asembly handing 阀门及配件安装工费vibration isolation减振virbrate free double poles terminal防震双球软接头water flow水流量water piping fittings 水管吊支架water to water plate heat exchangers板换water wide 水侧压降建筑环境与设备工程专业英语翻译A thermodynamic system is a region in space or a quantity of matter bounded by a closed surface. The surroundings include everything external to the system, and the system is separated from the surroundings by the system boundaries. These boundaries can be movable or fixed, real or imaginary. 一个热力学系统是一个在空间或有事项的数量由一个封闭的表面范围内的区域;周围环境包括一切外部系统,系统是从周围环境隔开的系统边界;这些边界可以是动产或固定的,真实的或想象;The concepts that operate in any thermodynamic system are entropy and energy. Entropy measures the molecular disorder of a system. The more mixed a system, the greater its entropy; conversely, an orderly or unmixed configuration is one of low entropy. Energy has the capacity for producing an effect and can be categorized into either stored or transient forms as described in the following sections.熵和能量的概念,在任何热力学系统操作;熵措施分子系统紊乱;更为复杂的系统,其熵值越大,反之,有序或纯配置是低熵之一;能源已经产生效果的能力,并在下面的章节中所述,可以存储或短暂形式分类;Heat Q is the mechanism that transfers energy across the boundaries of systems with differing temperatures, always toward the lower temperature. Heat is positive when energy is added to the system.Work is the mechanism that transfers energy across the boundaries of systems with differing pressures or force of any kind, always toward the lower pressure. If the total effect produced in the system can be reduced to the raising of a weight, then nothing but work has crossed the boundary. Work is positive when energy is removed from the system. 热量Q与不同的温度,跨系统的边界传输能量总是向温度较低的机制;热是积极的,当能量被添加到系统中;功是指通过存在压差任一种力的系统边界传递能量的作用过程,总是指向低压,如果系统中产生的总效果能被简化为一个重物的提升,那么只有功通过了边界,当能量从系统中一出时,功是正的;A property of a system is any observable characteristic of the system. The state of a system is defined by listing its properties. The most common thermodynamic properties are temperature T, pressure p, and specific volume v or density ρ. Additional thermodynamic properties include entropy, stored forms of energy, and enthalpy.Frequently, thermodynamic properties combine to form other properties. Enthalpy h, a result of combining properties, is defined as: h=u+pv where u is the internal energy per unit mass系统属性是系统的任何观察到的特征;系统状态的定义是通过列出其属性;最常见的热力学性质的温度T,压力P,和特定的体积V或密度ρ;其他热力学性质包括熵,能量储存形式,和焓;通常情况下,热力学性质相结合,形成其他属性;焓H,一个属性相结合的结果,被定义为：H = U + PV其中u是每单位质量的内部能量Each property in a given state has only one definite value, and any propertyalways has the same value for a given state, regardless of how the substancearrived at that state.A process is a change in state that can be defined as any change in the properties of a system. A process is described by specifying the initialand final equilibrium states, the path if identifiable, and the interactions that take place across system boundaries during the process.一个给定的状态的属性只有一个定值,和任何财产总是有相同的值给定的状态,不管物质如何达到那种状态;一个进程是一个状态的改变,在系统属性的任何改变,可作为定义;一个过程是指定的初始和最终的平衡状态,路径如果识别,并采取跨系统的边界,在这个过程中发生的相互作用;A pure substance has a homogeneous and invariable chemical composition.It can exist in more than one phase, but the chemical composition is thesame in all phases 一个周期进程的一个过程或一个系列,其中系统的初始和最终状态是相同的的;因此,在一个周期结束时,所有属性具有相同的价值纯物质具有均匀的和不变的化学成分;它可以存在于超过一个阶段,但在各个阶段的化学成分是一样的liquid. If the temperature of the liquid is lower than the saturation temperature for the existing pressure, it is called either a subcooled liquid the temperature is lower than the saturation temperature for the given pressure or a compressed liquid the pressure is 如果一种物质在饱和温度和压力的液体,它被称为饱和液体;如果液体的温度低于现有的压力的饱和温度,它被称为是过冷液体温度低于给定压力的饱和温度或压缩液体压力大于饱和为给定的温度压力;exists as a vapor at saturation temperature and pressure, it is called a saturated vapor. When the vapor is at a temperature greater than the saturation temperature, it is a superheated vapor. Pressure and temperature of a superheated vapor are independent properties, because the temperature can increase while pressure remains constant. Gases such as air at room temperature and pressure are highly 如果一种物质在饱和温度和压力的蒸气存在,它被称为饱和蒸气;当蒸汽温度大于饱和温度,它是一个热蒸气;过热蒸汽压力和温度是独立的属性,因为温度增加,而压力保持不变;如在常温常压下空气的气体是高度过热蒸汽;and the irreversibility associated with the process. The concept of irreversibility provides added insight into the operation of cycles.热力学第二定律的区别和量化,只有在某一个方向,是可逆的不可逆进行的过程;第二定律可能在几个方面;一种方法是使用在一个开放的系统,并与进程关联的不可逆性的熵流的概念;不可逆转的概念到周期的运作提供额外的洞察力;The Carnot cycle, which is completely reversible, is a perfect model for a refrigeration cycle operating between two fixed temperatures, or between two fluids at different temperatures and each with infinite heat capacity. Reversible cycles have two important properties: 1 no refrigerating cycle may have a coefficient of performance higher than that for a reversible cycle operated between the same temperature limits, and 2 all reversible cycles, when operated between the same temperature limits, have the same coefficient of performance 卡诺循环,这是完全可逆的,是一个完美的模型之间的两个固定的温度,或在不同温度和热容量无限每个的两种流体之间的制冷循环的运行;可逆循环有两个重要的属性：1无制冷循环的性能系数之间相同的温度限制经营的可逆循环高于,2之间相同的温度极限运行时,所有可逆循环,同样的性能系数Flowing fluids in heating, ventilating, air-conditioning, and refrigeration systems can transfer heat, mass, and momentum. This chapter introduces the basics of fluid mechanics related to HVAC processes, reviews pertinent flow processes, and presents a general discussion of single-phase fluid flow analysis.流动的液体在加热,通风,空调和制冷系统,可以传递热量,质量和动量;本章介绍有关暖通空调过程的流体力学,评论相关的流程,基础知识,并提出了一种单相流体流动分析的一般性讨论;Fluids differ from solids in their reaction to shearing. When placed under shear stress, a solid deforms only a finite amount, whereas a fluid deforms continuously for as long as the shear is applied. Both liquids and gases are fluids. Although liquids and gases differ strongly in the nature of molecular actions, their primary mechanical differences are in the degree of compressibility and liquid formation of a free surface. In general, liquids are considered incompressible fluids; gases may range from compressible to nearly incompressible.流体与固体区别在于他们对剪切力的反应作用;在施加剪切力时,固体只发生有限的变形,而只要有剪切力的作用流体就会连续变形;流体不同于固体剪切他们的反应;当剪切应力下了坚实的变形量只有有限的,而流体的剪切变形;液体和气体都是流体;虽然液体和气体的分子运动特性有着很大的区别,但是他们的主要的力学区别在于可压缩性的程度和液体自由表面界面的形成;在一般来说,液体被认为是不可压缩的流体,气体可能范围从可压缩到几乎不可;Viscosity is a measure of a fluid’s resistance to shear. Viscous effects are taken into account by categorizing a fluid as either Newtonian or non-Newtonian. In Newtonian fluids, the rate of deformation is directly proportional to the shearing stress; most fluids in the HVAC industry ., water, air, most refrigerants can be treated as Newtonian. In non-Newtonian fluids, the relationship between the rate of deformation and shear stressis more complicated.粘度是流体的抗剪切的措施;考虑采取分类流体为牛顿或非牛顿粘性的影响;在牛顿流体,变形率是成正比的剪应力;在暖通空调行业如,水,空气,大部分制冷剂牛顿流体可以作为治疗;在非牛顿流体,变形和剪切应力率之间的关系更为复杂; Heat is energy in transit due to a temperature difference. The thermal energy is transferred from one region to another by three modes of heat transfer: conduction, convection, and radiation. Heat transfer is among a group of energy transport phenomena that includes mass transfer, momentum transfer or fluid friction and electrical conduction.热是由于温差在传输过程中的能量;热能是从一个地区转移到另一个传热的三种模式：传导,对流和辐射;传热之间的能源运输的现象,其中包括传质,动量传递或流体摩擦和导电;Thermal conduction is the mechanism of heat transfer whereby energy is transported between parts of continuum by the transfer of kinetic energy between particles or groups of particles at the atomic level. In gases, conduction is caused by elastic collision of molecules; in liquids and electrically nonconducting solids, it is believed to be caused by longitudinal oscillations of the lattice structure. Thermal conduction in metals occurs, like electrical conduction, through the motion of free electrons. Thermal energy transfer occurs in the direction of decreasing temperature. In solid opaque bodies, thermal conduction is the significantheat transfer mechanism because no net material flows in the process and radiation is not a factor.热传导传热,使能量是连续部分之间的运输粒子在原子水平上的颗粒或团体之间的动能转移的机制;气体中,分子的弹性碰撞引起的传导;电导电液体和固体,它被认为是造成晶格结构的纵向振荡;金属的热传导时,如导电,通过自由电子的运动;热能量转移发生在温度降低的方向;在坚实的不透明机构,热传导是显着的传热机制,因为没有净物资流动的过程中,辐射是不是一个因素;When fluid currents are produced by external sources for example, a blower or pump, the solid-to-fluid heat transfer is termed forced convection. If the fluid flow is generated internally by nonhomogeneous densities caused by temperature variation, the heat transfer is termed natural convection or free convection.When fluid currents are produced by external sources for example, a blower or pump, the solid-to-fluid heat transfer is termed forced convection. If the fluid flow is generated internally by nonhomogeneous densities caused by temperature variation, the heat transfer is termed natural convection or free convection.当流体的电流是由外部来源例如,一个鼓风机或泵,固 - 液传热被称为强迫对流;如果是内部所产生的温度变化所造成的非均质密度的流体流动,传热称为自然对流或自然对流;当流体的电流是由外部来源例如,一个鼓风机或泵,固 - 液传热被称为强迫对流;如果是内部所产生的温度变化所造成的非均质密度的流体流动,传热称为自然对流或自然对流;Equation 1 states that the heat flow rate q in the x direction is directly proportional to the temperature gradient dt/dx and the cross-sectional area A normal to the heat flow. The proportionality factor is the thermal conductivity k. The minus sign indicates that heat flow is positive the direction of decreasing temperature. Conductivity values are sometimes given in other units,but consistent units must be used in Equation 1 . Equation 1 states that the heat flow rate q in the x direction is directly proportional to the temperature gradient dt/dx and the cross-sectional area A normal to the heat flow. The proportionality factor is the thermal conductivity k. The minus sign indicates that heat flow is positive the direction of decreasing temperature. Conductivity values are sometimes given in other units,but consistent units must be used in Equation 1 . 公式1在x方向的热流率q是成正比的温度梯度DT/ DX和横截面积一个正常的热流;比例系数,导热系数K;减号表示热流温度降低的方向积极;电导率值有时在其他单位,但一致的单位,必须在使用公式1;公式1在x方向的热流率q是成正比的温度梯度DT/ DX和横截面积一个正常的热流;比例系数,导热系数K;减号表示热流温度降低的方向积极;电导率值有时在其他单位,但一致的单位,必须在使用公式1;Basic ParametersHumidity ratio W alternatively, the moisture content or mixing ratio of a given moist air sample is defined as the ratio of the mass of water vapor to the mass of dry air in the sample: W = Mw/Mda 7The humidity ratio W is equal to the mole fraction ratio xw/xda multiplied by the ratio of molecular masses:W = 98 xw /xda 8Specific humidity γ is the ratio of the mass of water vapor to total mass of the moist air sample: γ = Mw/Mw + Mda 9a基本参数湿度比W另外,水分含量或比例混合,一个给定的潮湿空气样品是干燥的空气质量比样品中的水蒸汽的质量定义为：W = MW/ MDA7湿度比W是相等的摩尔分数比XW/ XDA分子群众的比例乘以：W = XW/ XDA8具体的湿度γ潮湿的空气样本的总质量之比是水汽质量：γ= MW /MW + MDA9AIn terms of the humidity ratio,γ = W/1 + W 9bAbsolute humidity alternatively, water vapor density dv is the ratio of the mass of water vapor to total volume of the sample:dv = Mw/V 10Density ρ of a moist air mixture is the ratio of total mass to total volume:ρ = Mda + Mw /V = 1/v1 + W 11where v is the moist air specific volume, m3/kgda, as defined by Equation 27. 湿度比例方面,γ= W /1+ W9B绝对湿度另外,水蒸气密度DV的水蒸气的质量样品总量的比例： DV = MW/ V10 潮湿的空气混合物的密度ρ总量的比例是总质量：ρ=MDA+ MW/ V =1 / V1+ W11其中V是潮湿的空气中特定卷,m3/kgda,由方程27定义;Thermodynamic wet-bulb temperature t is the temperature at which water liquid or solid, by evaporating into moist air at a given dry-bulb temperature t and humidity ratio W, can bring air to saturation adiabatically at the same temperature t while the total pressure p ismaintained constant. This parameter is considered separately in the section on Thermodynamic Wet-Bulb and Dew-Point Temperature.热力学湿球温度T 是在水液体或固体,潮湿的空气中蒸发,在一个给定的干球温度t和湿度比W的温度,可以使空气饱和绝热在同一温度T而总压力p保持不变;此参数是在热力学湿球和露点温度的部分分开考虑;A principal purpose of heating, ventilating, and air-conditioning systems is to provideconditions for human thermal comfort. A widely accepted definition is, “Thermal Comfort is that condition of mind that expresses satisfaction with the thermal environment”. This definition leaves open what is meant by condition of mind or satisfaction, but it correctly emphasizes that the judgment of comfort is a cognitive process involving many inputs influenced by physical, physiological, psychological, and other processes.供暖,通风和空调系统的一个主要目的是提供人体热舒适的条件;一个被广泛接受的的定义是,“热舒适性,心理状况,与热环境表示满意”;这个定义叶开放的心态或满意的状况是什么意思,但它正确地强调,舒适的判断是一个认知的过程,涉及物理,生理,心理,和其他进程影响了许多投入;The conscious mind appears to reach conclusions about thermal comfort and discomfort from direct temperature and moisture sensations from the skin, deep body temperatures, and the efforts necessary to regulate bodytemperatures. In general, comfort occurs when body temperatures are held within narrow ranges, skin moisture is low, and the physiological effort of regulation is minimized.意识的头脑似乎达到热舒适性和不适的结论,直接从皮肤,深部体温,以及必要的努力来调节体温的温度和水分的感觉;在一般情况下,舒适性发生时体温都在窄幅内举行,皮肤水分低,调节生理努力最小化;Air contaminants are generally either particles or gases. The distinction between particles and gases is important when determining removal strategies and equipment. Although the motion of particles is described using the same equations used to describe gas movement, even the smallest of particles approximately 1 nm are much larger than individual gas molecules, have a much greater mass, and a much lower diffusion rate. 空气污染物一般是颗粒或气体;确定搬迁战略和设备时,粒子和气体之间的区别是重要的的;尽管粒子的运动是用相同的方程用来描述气体运动,甚至最小的粒子约1纳米,远远高于单个气体分子较大,有更大的质量,扩散速率低得多; ;The particulate class covers a vast range of particle sizes, from dust large enough to be visible to the eye to submicroscopic particles that elude most filters. Particles may be liquid, solid, or have a solid core surrounded by liquid. They are present in the atmosphere at颗粒类,涵盖了从粉尘颗粒大小广阔的范围,足够大的眼睛躲避大多数过滤器的微观粒子,可见;粒子可能是液体,固体或液体包围了坚实的核心;他们中的浓度每立方厘米在受污染的城市环境的范围在清洁的环境中从100 particles/cm3百万的气氛;Also a central cooling and heating plant provides higher diversity and generally operates more efficiently with lower maintenance and labor costs than a decentralized plant. However it does require space at a central location and a potentially large distribution system.This lesson address the design alternatives that should be considered when centralizing the cooling and heating sources in a facility.此外,中央制冷和供热厂提供更高的多样性和一般的运作,更有效地与降低维护和劳动力成本比分散的工厂;然而,它需要在一个中央位置的空间和一个潜在的大分配制度;这节课的地址设计时应该考虑的替代品集中在设施的冷却和加热源; Many electric utilities impose very high charges for peak power use or, alternatively, offer incentives for off-peak use. This policy has renewed interest in both water and ice thermal storage. The storage capacity installed for summer load leveling may also be available for use in the winter, making heat reclaim a more viable option.许多电力公司施加非常高的峰值功率使用收费,或者也可以提供非高峰期使用的激励机制;这一政策已重新在水和冰蓄冷的兴趣;存储容量为夏季负荷平衡安装,也可能是在冬季使用,高热不退更可行的选择;With ice storage, the low-temperature ice water can provide colder air than that available from a conventional system that supplies air at 10 to 13℃. The use of a higher water temperature rise and a lower supply air temperature, lowers the required pumping and fan energy and, in some instances, offsets the energy penalty due to the lower temperature required to make ice.冰蓄冷,低温冰水比,可提供从传统的系统提供在10至13℃的空气较冷的空气;使用较高的水温度上升和较低的送风温度,降低了所需的泵和风扇能源在某些情况下,抵消,由于冰所需温度较低的能量损失;Water from condensers is usually cooled by the atmosphere. Either natural draft or mechanical draft cooling towers or spray ponds are used to reject the heat to the atmosphere.Air-cooled condensers pass outdoor air over a dry coil to condense the refrigerant.Evaporative condensers pass outdoor air over coils sprayed with water. Water from condensers is usually cooled by the atmosphere. Either natural draft or mechanical draft cooling towers or spray ponds are used to reject the heat to the atmosphere.Air-cooled condensers pass outdoor air over a dry coil to condense the。

宏观环境（大尺度环境）Macro-environment区域环境（中尺度环境）Meso-environment太阳辐射Solar radiation直射direct散射（总辐射）scattering(global radiation)反射reflected太阳高度角Solar altitude太阳方位角Azimuth地理经度纬度Geography longitude/latitude海拔高度altitude云量cloud coverage大气透明度atmospheric transparency风 Wind速度velocity方向direction季候风monsoon大气环流atmospheric circulation地势 Terrain表面覆盖物surface cover热岛heat island风玫瑰图Breeze rose diagram室外环境（小尺度环境）Outdoor environment(micro-environment)温度（干球温度，湿球温度，露点温度） Temperature(dry bulb temperature, wet bulb temperature, dew point temperature)湿度（含湿量，相对湿度） humidity(absolute, relative)结露dew降水 precipitation焓Enthalpy熵entropy火用 exergy火无anergy室内热环境Indoor thermal environment围护结构Envelop保温隔热insulation代谢Metabolism蒸发evaporation辐射radiation对流convection活动量Movement衣着情况clothes年龄age热舒适Thermal comfort有效温度effective temperature预测平均评价predicted mean vote预期不满意百分率predicted percentage dissatisfaction热感觉尺度（冷，凉，微凉，适中，微暖，暖，热）Thermal sensation scale(cold, cool, slight cool, neutral, slight warm, warm, hot)室内声环境Indoor acoustic environment噪声Noise声功率sound power隔声sound insulation室内光环境Indoor visual environment视觉 Visual电磁波谱electromagnetic spectrum光通量（流明）luminous flux发光强度（坎德拉）luminous intensity照度illuminance亮度luminance天然光源 Daylight人工光源artificial lighting室内空气品质Indoor air qualitySARS Severe acute respiratory syndromes H1N1，微生物，真菌，病毒，悬浮颗粒，甲醛，挥发性有机化合物, swine flu, micro-organism, fungus, virus, suspended particles, formaldehyde, volatile organic compoundsß供暖系统：热源+热媒输配+散热设备Heating system: heat source+distribution(piping system)+heat abstractorß集中供暖系统，区域供暖系统，局部供暖系统Centralized, district, localß锅炉——散热设备——供水管——回水管——水泵，膨胀水箱Boiler——heating appliance——supply——return——pump, expansion tankß立管，主管，支管Riser, main, branchß自然循环系统，机械循环系统Natural circulation system, mechanic circulationß单管，双管Single pipe, dual pipeß低温水，高温水Low temperature hot water, high temperature hot waterß上供下回，下供下回Up-feed down-return, down-feed down-returnß串联式，跨越式，水平式，垂直式Series, leaping, horizontal, verticalß垂直失调，异程式，同程式Vertical imbalance, direct return system, reverse return systemß蒸汽供暖系统Steam heating systemß重力回水低压蒸汽供暖系统Gravity circulation systemß高压蒸汽供暖系统High pressure steam heating systemß传热系数，热阻率，导热系数，换热器，热对流，热传导，热辐射，对流传热Heat-transfer coefficient, heat resistivity, heat conductivity, heat exchanger, heating convection, heat conduction, heat radiation, heat convection exchangeß疏水器，排气阀，补偿器，泄水口，温控阀，热计量，集水器，分水器，集气罐，卧式，立式，明装，暗装Steam trap, exhaust valve, compensator, drain hole, temperature control valve, heat metering, return header, supply header, air collector, horizontal, vertical, exposed, concealedß供热负荷，设计负荷 Heating load, design loadß平面图，剖面图，立面图，大样，比例尺，侧面，正面，背面ß Plan, section, elevation, detail, scale, side, front, rearß层流，紊流（湍流），涡旋，旋涡，粘度ß Laminar, turbulent, eddy, vortex, viscosityß风压，迎风面，背风面，上风，静压，动压，全压，热压ß Wind pressure, against the wind, leeward, windward, static pressure, dynamic pressure, overall pressure, thermal pressureß主导风，进风口，排风口，风口，工作区，倒灌，风帽，挡风板ß Prevailing wind, inlet, outlet, vent, operating zone, backward flowing, cap, wind boardß天窗，通风窗，老虎窗，百叶窗，软百叶窗ß Skylight, clearstory, dormant window, louver, venetian blindsß自然通风，机械通风，混合通风ß Natural ventilation, mechanic ventilation, hybrid ventilationß全面通风，局部通风，岗位送风，气流组织，送风，排风ß General ventilation, local ventilation, task air supply, air distribution, air supply, exhaustß风机，轴流式，离心式，贯流式ß Fan, axial fan, centrifugal fan, cross flow/tangential fanß空气净化，排风罩，密闭罩，外部吸气罩，接受式排风罩，伞形罩，侧吸罩ß Air purification, exhaust hood, enclosed hood, capturing hood, receiving hood, canopy hood, side hoodß叶轮，叶片，机轴，扩压器ß Rotor, blade, shaft, diffuserAir conditioning/cooling空调/供冷空调区，非空调区，输配系统，处理设备，冷热源，自动控制系统ß Conditioned zone, unconditioned zone, distribution system, air handling equipment, heat/cold source, auto-control systemß显热，潜热ß Sensible heat, latent heatß风机，水泵，风道，水管，风口ß Fan, pump, air duct, water pipe, ventß加热，冷却，加湿，除湿，净化ß Heating, cooling, humidifying, dehumidifying, purifyingß锅炉，冷水机组ß Boiler, chillerß阀门，截止阀，闸阀，旋塞阀，球阀，蝶阀，止回阀，弯头，软管，三通，旁通ß Valve, stop valve, gate valve, cock valve, ball valve, butterfly valve, check valve, elbow/bend, hose, tee, by-passß工艺性空调，舒适性空调，集中式空调，半集中式空调，分散式空调ß Technological air-conditioning, comfort air-conditioning, centralair-conditioning, semi-central air-conditioning, decentralized air-conditioning ß制冷机房，蒸发器，冷凝器，压缩机，节流阀，制冷剂，载冷剂ß Refrigerating station, evaporator, condenser, compressor, throttle, refrigerant, coolantß冷冻水泵，冷却水泵，热水泵，冷水管，热水管，换热器，锅炉，锅炉房，送风管，排风，回风，新风，冷却塔，烟囱，烟气，冷凝水ß Cold water pump, cooling water pump, hot water pump, cold water pipe, hot water pipe, heat exchanger, boiler, boiler plant, air supply duct, exhaust, return air, fresh air, cooling tower, chimney, fume, condensing waterß全空气系统，空气——水系统，一次回风，二次回风，风机盘管ß All-air system, air-to-water system, primary return air, secondary return air, fan coilß水冷式，风冷式，热泵式，窗式，壁挂式，立柜式ß Water-cooled, air-cooled, heat pump, window conditioner, wall mounted, verticalß开式，封闭式，半封闭式ß Open, hermetic, semi-hermeticß格栅，散流器，孔板送风口，喷射式送风口ß Grille, diffuser, orifice vent, jet ventß消声器ß Muffler。

建筑环境与能源应用工程专业英语建筑环境与能源应用工程专业英语词汇如下：1. Architectural design - 建筑设计2. Building materials - 建筑材料3. Structural engineering - 结构工程4. HVAC (Heating, Ventilation, and Air Conditioning) - 暖通空调5. Energy efficiency - 能源效率6. Renewable energy - 可再生能源7. Solar power - 太阳能8. Wind power - 风能9. Geothermal energy - 地热能10. Energy conservation - 能源保护11. Energy management - 能源管理12. Sustainable design - 可持续设计13. Green building - 绿色建筑14. Passive design - 被动设计15. Daylighting - 自然采光16. Building envelope - 建筑围护结构17. Thermal insulation - 保温隔热18. Lighting design - 照明设计19. Energy modeling - 能源模拟20. Energy audit - 能源审计21. Energy consumption - 能源消耗22. Energy storage - 能源储存23. Energy distribution - 能源分配24. Energy conversion - 能源转换25. Building automation - 建筑自动化26. Smart grid - 智能电网27. Energy-efficient appliances - 能效电器28. Building codes - 建筑规范29. Energy policy - 能源政策30. Energy performance - 能源性能。

Lesson 51.Convective heat transfer as the main form of heating called convection heating .Cooling devices in the system is the radiator, so this system is also known as the radiator heating systems , it is a convection heating to the interior . Radiant heating is radiative heat transfer based heating . Radiant heating systems , cooling equipment , the radiation metal plate or portion of a building roof , floor or wall asa heat radiation surface .2. Can be divided into different power system cycle , the gravity of the circulatory system and mechanical circulatory system . Poor rely on the density of water circulation system , known as the gravity of the circulatory system ; circulation systems rely on mechanical force , known as mechanical circulatory system . The size of the pressure cycle effects of gravity circulation hot water heating system depends on the situation of the changes in water temperature in the recirculation loop .3. Many factors affecting the radiator heat transfer coefficient : the manufacturing of the radiator and radiator conditions of use , all affect the thermal performance of the radiator .Lesson 61.Natural gas is generally divided into four categories: gas field gas from gas wells or pure gas ; along with oil along mined liquefied petroleum gas (LPG) , also known as petroleum associated gas ; gas condensate field gas with oil and light distillate ; out from underground coal seams of coal mine gas .2. Changes in the gas density must be considered during the calculation of the gas flow within the pipeline . With the decline in pressure along the gas density is also reduced . Only in the gas density in the low-pressure pipe is negligible .3. Make the transmission and distribution system with high levels of economic indicators, the right choice for diameter , but also to select the most reasonable pipeline alignment options and gas surge chamber , the dispensing station number . In the design process often encounter a variety of design options , and so must choose the best solution .第十章(1)所有情况下流体控制都有一个极小的开口，这就导致冷媒介质流过时会有一个大的压力损失。

环境工程专业英语词汇(整理版)环境污染 (Environmental Pollution)大气污染 (Air Pollution)- 空气质量指数 (Air Quality Index, AQI)- 酸雨 (Acid Rain)- 二氧化硫 (Sulfur Dioxide, SO2)- 氮氧化物 (Nitrogen Oxides, NOx)- 悬浮颗粒物 (Particulate Matter, PM)- 光化学烟雾 (Photochemical Smog)- 臭氧层破坏 (Ozone Depletion)- 温室效应 (Greenhouse Effect)水污染 (Water Pollution)- 水质标准 (Water Quality Standards)- 水体富营养化 (Eutrophication)- 水生生物 (Aquatic Organisms)- 重金属污染 (Heavy Metal Pollution)- 悬浮物 (Suspended Solids)- 生活污水 (Domestic Wastewater)- 工业废水 (Industrial Wastewater)- 河流富营养化 (River Eutrophication)- 水下沉积物 (Sediment)- 藻类水华 (Algal Blooms)土壤污染 (Soil Pollution)- 土壤污染物 (Soil Pollutants)- 农药残留 (Pesticide Residues)- 有机污染物 (Organic Pollutants)- 重金属污染 (Heavy Metal Pollution)- 土壤酸化 (Soil Acidification)- 土壤侵蚀 (Soil Erosion)环境保护法律 (Environmental Protection Laws)大气污染防治法 (Air Pollution Prevention and Control Law) - 大气污染物排放控制 (Air Pollutant Emission Control)- 大气污染责任追究 (Air Pollution Liability)水污染防治法 (Water Pollution Prevention and Control Law) - 水污染排放标准 (Water Pollutant Discharge Standards)- 水污染控制区划 (Water Pollution Control Zones)- 水污染防治设施 (Water Pollution Control Facilities)土壤污染防治法 (Soil Pollution Prevention and Control Law) - 土壤环境质量标准 (Soil Environmental Quality Standards)- 土壤污染调查与评价 (Soil Pollution Investigation and Assessment)> 注意：以上仅为部分词汇和法律名称示例，更多内容可根据需要进行扩展和更新。

环境工程专业重点英语单词1. Environment (n): The natural world and the surroundings in which people, animals, and plants live.Example: We need to protect the environment for future generations.2. Engineering (n): The branch of science and technology concerned with the design, building, and use of engines, machines, and structures.Example: He studied engineering at university.3. Pollution (n): The presence or introduction into the environment of substances or energy that cause harm or discomfort to living organisms. Example: Air pollution is a major problem in many cities.4. Sustainable (adj): Able to be maintained at a certain rate or level over time.Example: The company is committed to sustainable development.5. Waste (n): Material that is not wanted; the act of using or expending something carelessly, extravagantly, or to no purpose.Example: We need to find a better way to dispose of waste.6. Treatment (n): The application of medical or therapeutic measures to a patient.Example: The water treatment plant ensures clean drinking water for the community.7. Contamination (n): The presence of harmful or unwanted substances in an environment or substance.Example: The contamination of the river has caused the fish population to decline.8. Conservation (n): The act of preserving, protecting, or restoring the natural environment, natural ecosystems, vegetation, and wildlife. Example: The national park is dedicated to the conservation of endangered species.9. Renewable (adj): Capable of being replenished or replaced by natural processes within a human lifetime.Example: Solar energy is a renewable source of power.10. Emission (n): The production and discharge of something, especially gas or radiation.Example: The factory's emissions are contributing to air pollution.11. Remediation (n): The action of remedying something, in particular of reversing or stopping environmental damage.Example: The soil remediation process will remove contaminants from the site.12. Efficiency (n): The state or quality of being efficient, in which maximum productivity is achieved with minimum wasted effort or expense.Example: The new lighting system improves energy efficiency.13. Sanitation (n): The provision of clean drinking water and adequate sewage disposal to promote public health.Example: Access to proper sanitation facilities is essential for preventing disease.14. Biodegradable (adj): Capable of being decomposed by bacteria or other living organisms.Example: It is important to use biodegradable products to reduce waste.15. Conservationist (n): A person who advocates or acts for the protection and preservation of the environment and wildlife.Example: Jane Goodall is a well-known conservationist.16. Hazardous (adj): Involving risk or danger, especially to someone's health or safety.Example: The storage of hazardous materials requires special precautions.17. Renewable energy (n): Energy collected from resources that are naturally replenished, such as sunlight, wind, and water.Example: Many countries are investing in renewable energy sources to reduce reliance on fossil fuels.18. Ecosystem (n): A biological community of interacting organisms and their physical environment.Example: The destruction of forests has a negative impact on the ecosystem.19. Biodiversity (n): The variety and variability of life forms within a given area.Example: Protecting biodiversity is crucial for maintaining a healthy planet.20. Toxic (adj): Poisonous; harmful to living organisms.Example: Industrial waste often contains toxic chemicals.21. Effluent (n): Liquid waste or sewage discharged into a river or the sea. Example: The treatment plant ensures that effluent is properly treated before being released.22. Conservationism (n): The philosophy and movement advocating for the protection of the environment and natural resources.Example: Conservationism aims to balance human needs with the preservation of nature.23. Remedial action (n): Steps taken to correct or mitigate a problem or damage.Example: The company implemented remedial actions to address the environmental contamination.24. Greenhouse effect (n): The trapping of the sun's warmth in a planet's atmosphere due to the increased concentration of greenhouse gases.Example: The greenhouse effect is causing global warming.25. Incineration (n): The process of burning waste materials, often for the purpose of generating energy.Example: Incineration can be an effective method of waste disposal when done properly.26. Acid rain (n): Rainfall that has been made acidic by pollution, especially from the combustion of fossil fuels.Example: Acid rain can have detrimental effects on ecosystems and infrastructure.27. Biomass (n): Organic matter, such as plant material and animal waste, that can be used as a source of energy.Example: Biomass can be converted into biofuel for power generation.28. Soil erosion (n): The removal of soil by wind or water, often caused by human activities or natural processes.Example: Deforestation contributes to soil erosion.29. Ecological footprint (n): The impact of human activities on theenvironment, measured in terms of the amount of land and resources required to sustainably support those activities.Example: By reducing our ecological footprint, we can minimize our impact on the planet.30. Waste management (n): The collection, transportation, processing, recycling, and disposal of waste materials.Example: Proper waste management is essential for protecting the environment and public health.31. Landfill (n): A site for the disposal of waste materials by burying them under layers of earth.Example: Recycling reduces the amount of waste sent to landfills.32. Air quality (n): The degree to which the air is free from pollutants, contaminants, and odors.Example: Monitoring air quality is crucial for public health.33. Environmental impact assessment (n): The evaluation of the likely environmental consequences of a proposed project or action.Example: An environmental impact assessment is required before starting construction on a new development.34. Ozone depletion (n): The reduction in the concentration of ozone in the Earth's ozone layer, primarily caused by the release of certain chemicals into the atmosphere.Example: The Montreal Protocol was established to address ozone depletion.35. Land degradation (n): The decline in the quality of land, often caused by human activities such as deforestation and agriculture.Example: Land degradation can lead to desertification.36. Wastewater treatment (n): The process of removing contaminants from wastewater before it is discharged back into the environment.Example: Wastewater treatment plants play a crucial role in protecting water resources.37. Marine pollution (n): The contamination of the marine environment, usually by human activities such as oil spills and dumping of waste.Example: Marine pollution can have devastating effects on marine ecosystems.38. Noise pollution (n): Excessive or constant noise that is disruptive or harmful to humans and animals.Example: Noise pollution from traffic can negatively impact human health.39. Ecosystem services (n): The benefits that people obtain from ecosystems, such as clean air and water, pollination, and climate regulation.Example: Preserving forests is important for maintaining ecosystem services.40. Industrial waste (n): Waste generated by industrial processes, often containing hazardous substances.Example: Proper disposal of industrial waste is crucial for preventing environmental contamination.41. Emission control (n): Measures taken to reduce the discharge of pollutants into the environment.Example: Stricter emission control regulations have led to cleaner air in many cities.42. Nonrenewable (adj): Not capable of being replenished or replaced within a reasonable time frame.Example: Fossil fuels are nonrenewable resources.43. Waste reduction (n): The act of minimizing the amount of waste generated through source reduction, recycling, and reuse.Example: Waste reduction strategies aim to reduce landfill waste.44. Environmental ethics (n): A branch of philosophy that considers the moral obligations humans have towards the environment and non-human living entities. Example: Environmental ethics advocate for the rights of animals and the preservation of natural habitats.45. Water scarcity (n): The lack of sufficient water resources to meet the needs of a population or region.Example: Climate change is exacerbating water scarcity in many parts of the world.46. Renewable resource (n): A natural resource that can be replenished or replaced by natural processes within a human lifetime.Example: Solar power is derived from a renewable resource.47. Environmental impact (n): The effect of human activities on theenvironment, including both positive and negative consequences.Example: A construction project must consider its environmental impact.48. Acidification (n): The process of becoming more acidic, often caused by increased carbon dioxide levels in the atmosphere.Example: Ocean acidification poses a threat to marine life.49. Ecotourism (n): Tourism that involves responsible travel to natural areas, with an emphasis on conserving the environment and improving the well-being of local communities.Example: Ecotourism promotes sustainable tourism practices.50. E-waste (n): Electronic waste, such as obsolete computers, mobile phones, and televisions, that is discarded by consumers.Example: It is important to properly dispose of e-waste to prevent environmental contamination.。

介绍建环专业的英语作文Environmental Engineering: Shaping a Sustainable Future.Environmental engineering, often referred to as "Eco-Engineering" or "Environmental Science and Engineering," is an interdisciplinary field that combines principles of engineering, environmental science, and ecology to address the challenges of environmental pollution and degradation. This field aims to develop sustainable solutions for environmental problems, ensuring a balance between human needs and the protection of the natural environment.The foundation of environmental engineering lies in the recognition that human activities, such asindustrialization, urbanization, and agriculture, have a significant impact on the environment. This impact is often manifested in the form of air pollution, water pollution, soil degradation, and the depletion of natural resources. Environmental engineers are trained to understand these interconnected issues and design effective systems tomitigate their effects.One of the key areas of focus for environmental engineers is water and wastewater treatment. They design and implement water treatment facilities that remove harmful contaminants from drinking water, ensuring its safety for human consumption. Similarly, they also develop wastewater treatment plants that process and recycle used water, reducing its environmental impact.Air pollution control is another crucial aspect of environmental engineering. Engineers in this field study the sources of air pollution, such as industrial emissions and vehicle exhaust, and design strategies to reduce these emissions. They may also work on developing more efficient and environmentally friendly energy sources, such as solar or wind power, to replace fossil fuels.Solid waste management is another area where environmental engineers play a crucial role. They are involved in the design and operation of waste disposal facilities, including landfills, incinerators, andrecycling centers. Their goal is to minimize the environmental impact of solid waste by promoting waste reduction, reuse, and recycling.Environmental engineers also work on sustainable development projects, such as green building design and construction. They aim to integrate environmental considerations into the planning and execution of building projects, ensuring that they are energy-efficient,resource-efficient, and environmentally friendly.In addition to their work in water, air, and solid waste management, environmental engineers are also involved in the restoration and preservation of natural ecosystems. They may work on projects such as wetland restoration, soil erosion control, and the protection of biodiversity.The field of environmental engineering is constantly evolving, driven by the need to address new environmental challenges and the quest for more sustainable solutions. As global environmental issues become increasingly urgent, the role of environmental engineers in shaping a sustainablefuture has become increasingly important.In conclusion, environmental engineering is a crucial discipline that combines engineering principles with environmental science to address the pressing issues of environmental pollution and degradation. By developing sustainable solutions for water and wastewater treatment, air pollution control, solid waste management, and ecosystem restoration, environmental engineers are playing a vital role in ensuring a healthy and sustainable environment for future generations.。

环境工程专业英语pollution污染acid rain 酸雨environmental problem 环境问题environmental disturbance环境损坏biotic habitat 生物环境sulfur dioxide二氧化硫nitrogen oxide氧化氮carbon dioxide二氧化碳automobile exhaust汽车尾气infectious diseases 有传染性的疾病waterborne diseases 水传染的疾病 agrarian society农业社会 industrial society工业社会 industrial revolution家产革命urbanization城市化industrialization工业化developed country 发达国家developing country 发展中国家 undeveloped country 落伍国家 primary air pollutant一次大气污染物 secondary air pollutant 二次大气污染物monoxide 一氧化物 dioxide 二氧化物 trioxide 三氧化物 carbon monoxide一氧化碳 carbon dioxide 二氧化碳sulfur dioxide 二氧化硫sulfur trioxide 三氧化硫 nitrous oxide 一氧化二氮 nitric oxide 一氧化氮nitrogen dioxide二氧化氮carbon oxides 碳氮化物sulfur oxides 硫氧化物nitrogen oxides 氮氧化物hydrocarbons 碳氢化合物 photochemical oxidants 光化学氧化物 particulates 颗粒物inorganic compound 无机化合物 organic compound 有机化合物 radioactive substance放射性物质heat 热noise噪声 contaminant污染物strength 强度foreign matter杂质domestic sewage生活污水municipalwastewater城市废水microbe微生物microorganism微生物bacteria细菌total solids总固体inorganic constituents无机因素suspended solids(SS)固体悬浮物volatile s uspended solids(VSS)挥发性悬浮固体颗粒organic matter 有机物质total organic carbon, TOC 总有机碳chemical oxygen demand, COD 化学需氧量biochemical oxygen demand,BOD 生化需氧量biodegradable 可微生物分解的 contamination 污染recontamination 再污染groundwater地下水surface water 地表水 restriction 限制colloid 胶体 screening隔栅coagulation凝聚flocculation絮凝sedimentation 积淀filtration过滤disinfection消毒chlorination氯化消毒prechlorination预加氯ozonation臭氧消毒aeration 曝气softening 融化activated carbon 活性炭 adsorption吸附reverse osmosis 反浸透desalination脱盐处理microbial degradation微生物降解biological degradation生化降解biofilm process 生物膜法activated sludge process活性污泥法attached -growth 吸着生长 suspended-growth 悬浮生长 shock loading 冲击负荷organic loading 有机负荷 mixed liquor suspended solids 混淆液悬浮固体metabolize使代谢化metabolism新陈代谢dissolved oxygen 溶解氧pretreatment process 预办理工艺primary clarifier 初沉池 equalization basin 均质池 biological treatment process生物处理工艺 aeration basin 曝气池secondary clarifier二沉池 biomass生物质 heterotrophic bacteria异养菌autotrophic bacteria自养菌hydraulic retention time(HRT) 水力逗留时间sludge residence time (SRT) 污泥逗留时间solid waste 固体废物municipal 城市化industrial工业的agricultural 农业的hazardous 危险的residential住所的commercial 商业的 putrescible 易腐化的combustible易燃的flammable可燃的 explosive易爆的radioactive放射性的Landfilling土地填埋incineration:焚烧composting:堆肥compaction:压实，紧凑sanitary landfill 卫生填埋balance 剩下的，余额，结余batch-fed 分批投料refuse 垃圾municipal waste 城市垃圾perform:执行shut down:关闭energy recovery 能量回收 incomplete combustion不完整焚烧combustion燃烧volume reduction体积减小anaerobic厌氧硝化中英互译短语Biological degradation 生化降解equalization basin 调理池aeration basin 曝气池sludge blocs 污泥絮体settling tank积淀池dissolved oxygen溶解氧 suspended-growth悬浮生长pulverized refuse垃圾破裂biofilm 生物膜well -compacted landfill压实填埋场nutrient source 营养源mass-burning 大批焚烧 fluidized fed incarceration 硫化床焚烧法soil conditioners 土壤改进剂温室效应 greenhouse effect由 CO2惹起的 caust by CO2世界碳估算 the world carbon budget天气自然颠簸 natural fluctuations全世界变暖 global warming 厌氧的 anaerobic腐化 Putrefied甲烷 methane 臭氧层 ozone layer天气模型 climatic model 正常浓度： normal concentration严重污染物： heavily polluted决定因素： determining factor光化学氧化物：photochemical oxidants液体微滴：liquid particulates含硫的： sulfur -containing放射性物质： radioactiue substance 汽车尾气： automobile exhaust wet oxidation湿式氧化1、 Environment is the physical and biotic habitat which surrounds us; that which we can see, hear, touch,smell, and taste.环境是我们四周的物理和生物环境，我们能够看到、听到、接触到、闻到和品味到的。

10.翻译：翻译：1. V apor compression compression refrigeration refrigeration refrigeration system system system is is is composed composed composed by by by compressor compressor ，condenser ，expansion expansion valve valve valve and and evaporator ，connected with pipe line to form an enclosed system. Refrigerant changes heat with substance to be be cooled cooled cooled in in in evaporator. evaporator. Refrigerator Refrigerator absorbs absorbs absorbs heat heat heat from from from substance substance substance to to to be be be cooled cooled cooled and and and evaporated. evaporated. evaporated. The The compressor draws the low pressure vapor in its suction side and then compressed it to high pressure before discharge. 2. During During the the the cycle, cycle, cycle, compressor, compressor, compressor, which which which is is is heart heart heart of of of the the the system, system, system, plays plays plays a a a part part part in in in compressing compressing compressing and and and transporting transporting refrigerant vapor and causing low pressure in evaporator and high pressure in condenser. Flow control valve throttles throttles refrigerant refrigerant refrigerant flow flow flow to to to reduce reduce reduce its its its pressure pressure pressure and and and regulates regulates regulates refrigerant refrigerant refrigerant flow flow flow rate rate rate of of of entering entering entering evaporator. evaporator. Evaporator, which is an equipment of refrigerating effect output, refrigerant absorbs heat form substance to be cooled to realize refrigerating. Condenser, which is an equipment of heat output, coolant in it takes away heat from refrigerant and heat from the work consumed by compressor. 3. In liquid evaporating refrigerating systems, refrigerant is required to evaporate at low temperature. It absorbs heat heat from from from objects objects objects to to to be be be cooled. cooled. cooled. Then Then Then condenses condenses condenses at at at higher higher higher temperature temperature temperature and and and discharges discharges discharges heat heat heat to to to environment environment meanwhile. Therefore, only those evaporate and condense within range of working temperature can be used as refrigerants. Most refrigerants are in gaseous state at normal temperature and pressure. 4. Mixed Mixed refrigerant refrigerant refrigerant is is is composed composed composed by by by two two two kinds kinds kinds or or or more more more pure pure pure refrigerants. refrigerants. refrigerants. Due Due Due to to to limitation limitation limitation to to to type type type and and performance of pure refrigerants, mixture of refrigerant offers more freedom to modulate performance and amplify choice of refrigerant. 9翻译翻译1. 1. Boiler Boiler Boiler is is is a a a kind kind kind of of of heat heat heat exchange exchange exchange device device device which which which turns turns turns chemical chemical chemical energy energy energy and and and excess excess excess heat heat heat from from from industrial industrial production process or other heat source into steam or hot water with certain temperature and pressure. 2. 2. According According According to to to heat heat heat transfer transfer transfer features features features of of of boiler, boiler, boiler, industrial industrial industrial boiler boiler boiler heat heat heat surface surface surface can can can be be be divided divided divided into into into radiant radiant radiant heat heat surface and convection heat surface. Radiant heat surface is that portion of surface of being located in combustion chamber and receive radiant heat. Manly means water cooled wall. Convection heat surface, located in boiler flue, is that portion of surface swashed directly by high temperature flue gas to transfer heat by convection. 3. 3. Boiler Boiler Boiler heat heat heat efficiency efficiency efficiency is is is an an an important important important technique technique technique index index index of of of boiler. boiler. boiler. Boiler Boiler Boiler heat heat heat efficiency efficiency efficiency means means means when when when boiler boiler operating with rating load, how many percent of the heat from fully burning of fuel sent into boiler per hour to produce steam or hot water. 4. Boiler has broad applications and various types. Some common criteria used in classifying them are: structure of boiler, application of boiler, fuel or energy used by boiler, type of combusting, ventilation mode, circulation mode and arrangement of boiler drum 8 翻译翻译1. 1. HV HV AC AC means means means to to to realize realize realize regulating regulating regulating and and and controlling controlling controlling of of of temperature, temperature, temperature, humidity, humidity, humidity, cleanliness cleanliness cleanliness and and and air air air velocity velocity velocity for for certain certain room room room or or or space, space, space, providing providing providing adequate adequate adequate fresh fresh fresh air air air meantime. meantime. meantime. HV HV AC AC is is is called called called Air Air Air conditioning conditioning conditioning for for for short. short. short. Air Air conditioning can realize overall controlling to heat and humidity environment and air quality in buildings, or to say it contains partial function of heating and ventilation. 2. 2. All All All -air -air -air system system system is is a a system system system that that that cooling cooling cooling or or or heating heating heating load load load in in in room room room is is is undertaken completely undertaken completely by by air. air. air. An An all-air system supplies sensible heat cooling capacity and latent heat cooling capacity by delivering cold air into room. Processes Processes of of of cooling cooling cooling down down down and and and dehumidification dehumidification dehumidification of of of air air air are are are accomplished accomplished accomplished by by by air air air handling handling handling unit unit unit which which which locates locates completely completely in in in air air air conditioning conditioning conditioning machine machine machine room. room. room. Supplemental Supplemental Supplemental cooling cooling cooling in in in room room room is is is no no no more more more required, required, required, yet yet yet heat heat heat of of supply air can be achieved either in air conditioning machine room or in individual room. Air treatment for all-air system is mainly centralized in air conditioning machine room, so it is commonly called central air conditioning system. 3. Air -water system is a system that cooling or heating load in room is undertaken by both air and water. Besides supplying treated fresh air to room, terminal unit with circulation media of water installed in room heats and cools indoor air. 7 翻译翻译1. Ventilation is main approach to ensure indoor air quality. That is, displacing indoor air of higher contaminant concentration concentration with with with outdoor outdoor outdoor air air air of of of much much much lower lower lower contaminant contaminant contaminant concentration. concentration. concentration. V V entilation rate rate needed needed needed should should should be be determined determined by by by principle principle principle of of of diluting diluting diluting indoor indoor indoor contaminant contaminant contaminant to to to reach reach reach concentration concentration concentration specified specified specified by by by standard. standard. standard. Main Main contaminant contaminant source source source is is is people people people in in in people people people occupied occupied occupied buildings. buildings. buildings. So So So the the the requisite requisite requisite ventilation ventilation ventilation rate rate rate ––fresh fresh air air air rate rate rate is is ascertained by people. That is, fresh air rate is ascertained by diluting carbon dioxide released by people. In order to to take take take into into into account account account diluting diluting diluting other other other contaminant contaminant contaminant and and and odor odor odor aroused aroused aroused by by by people people people’’s s activity activity activity at at at the the the same same same time, time, time, many many countries control carbon dioxide at 0.1%, while suggestion value of WHO is 0.25%. 2. Air condition buildings are commonly well airtight. If no reasonable exists, indoor air quality in it is not better than than common common common building building building with with with well well well ventilating. ventilating. ventilating. V entilation V entilation issues issues issues are are are accomplished accomplished accomplished by by by air air air conditioning conditioning conditioning system system except special treatment for hazardous gases released by technique process in air conditioning buildings. Special fresh air system is installed in air-water system to supply fresh air to individual room to fulfill task of ventilation and improve air quality. Outdoor fresh air should be introduced into all-air system and mixed with return air, and then the mixture is delivered to room to dilute indoor contaminant after been treated. 3. Local air exhaust is a kind of local ventilation which removes contaminant directly from contaminant source. When When contaminant contaminant contaminant occurs occurs occurs centrally centrally centrally in in in somewhere, somewhere, somewhere, local local local air air air exhaust exhaust exhaust is is the the most most most effective effective effective way way way to to to treat treat treat harm harm harm of of contaminant to environment. If overall ventilation is adopted in such situation, contaminant may spread in rooms. When contaminant occurs in large amount, ventilation volume needed to dilute it can be too much to realize in practice. Local air exhaust system consists of exhaust hood 、fan 、air cleaner 、air ducts 、exhaust outlet. 4. 4. Nature Nature Nature ventilation ventilation ventilation caused caused caused by by by heat heat heat pressure pressure pressure or or or wind wind wind pressure pressure pressure is is is widely widely widely used used used ventilation. ventilation. ventilation. Common Common Common residential residential building, office building, industrial workshop depend on nature ventilation to ensure indoor air quality. Otherwise, natural ventilation is a kind of ventilation which is difficult to be controlled effectively. Only by understanding its basic principle and taking certain measure can we get nature ventilation going on according to out preset mode. 5. Ventilation rate is always self-balanced practically when a room is ventilated. Air balance we referred to here means designing balance in the light of willing of designer or occupier. If balance designed has not performed, ventilation requirements may not be satisfied when system practically operates in balanced state. For example, a set of local exhaust system is installed to eliminate contaminant emitted by contaminant source in room. But the system doesn ’t work well when operating and ventilation rate does n’n’t reach the need. The problem lies in that the t reach the need. The problem lies in that the room is in basement and has good air permeability performance. Meanwhile, absence of air intake system and passage gives rise to higher negative pressure and reduces ventilation rate of air exhaust system. 6 翻译翻译1. nature gas is generally divided into four kinds: gas exploited from gas well of gas field is called pure natural gas or gas of gas well; gas exploited accompanying with petroleum is called petroleum gas or petroleum accompanied gas; gas which has light fraction of petroleum is called condensate gas of gas field; gas drawn from coal bed of coal well is called coal mine well gas. 2. Density variation should be taken into account when computing gas flow in pipes. Density of gas reduces with declining of pressure along the pipe line. Only in low pressure pipes the change in density of gas can be omitted. 3. 3. For For For the the the sake sake sake of of of making making making distribution distribution distribution system system system with with with very very very high high high economical economical economical index, index, index, optimal optimal optimal gas gas gas pipeline pipeline pipeline route route route is is selected and number of gas pressure regulating room and distribution center is determined besides correct choice of of pipe pipe pipe diameter. diameter. diameter. There There There are are are generally generally generally many many many kinds kinds kinds of of of design design design schemes schemes schemes to to to be be be encountered encountered encountered during during during the the the process process process of of designing, therefore an optimal scheme should be picked out from them. 5 翻译翻译1. 1. Heating Heating Heating by by by convection convection convection which which which is is is major major major type type type of of of heat heat heat transfer transfer transfer is is is called called called convection convection convection heating. heating. Heat Heat emitting emitting equipment in the system is radiator, so this kind of system is also called radiator heating system. It supplies heat to room room by by by heat heat heat convection. convection. convection. Radiant Radiant Radiant heating heating heating is is a a kind kind kind of heating of heating type type mainly mainly mainly by by by radiant radiant heat heat transfer. transfer. transfer. Main Main Main heat heat emitting equipment of radiant heating system is metal radiant panel or part of ceiling 、floor 、wall of building as radiant surface. 2. C irculating system can be divided into gravity circulating system and forced circulating system according to circulating power. System System circulating by water density difference is called gravity circulating system. circulating by water density difference is called gravity circulating system. System circulating by mechanical force is called gravity circulating system. The force of gravity heating system depends on change of water temperature of the loop 3. 3. There There There are are are many many many factors factors factors influence influence influence heat heat heat transfer transfer transfer coefficient coefficient coefficient of of of radiator: radiator: radiator: manufacture manufacture manufacture condition condition condition of of of radiator radiator (material, geometric dimension, structure form, spray coating of surface etc.) and application condition of radiator (media, temperature, flow rate, indoor air temperature and velocity, fitting type and combined piece etc.). They all synthetically influence heat emitting performance of radiator. 4 翻译翻译1．Main issue of fluid dynamics is space distribution of velocity and pressure, velocity is more important between the two, inertia force and viscous force have close relationship with velocity. In the two forces, inertia force occurs with with velocity velocity velocity variation variation variation of of of mass mass mass point point point itself itself itself while while while viscous viscous viscous force force force is is is caused caused caused by by by velocity velocity velocity difference difference difference between between between flow flow layers and mass points. 2. Law of variation of viscosity coefficient with temperature is different between water and air. Viscosity of water reduces with increasing of temperature while increases for air. This is because viscosity is result of attractive force between articles and irregular thermal motion to arouse momentum exchange of articles. When temperature rises, attractive attractive force force force between between between articles articles articles decreases decreases decreases and and and momentum momentum momentum increases. increases. increases. Conversely, Conversely, Conversely, when when when temperature temperature temperature decreases, decreases, attractive force between articles increases and momentum decreases. 3. Heat transfer caused by density difference and gravity is called natural convection. Heat transfer coefficient of natural convection is generally lower than that of forced convection, therefore, when computing total heat gain or heat loss, the main point is radiant heat should not be ignored. Radiant heat transfer and natural convection may have have the the the same same same order order order of of of magnitude magnitude magnitude even even even under under under indoor indoor indoor temperature temperature temperature conditions, conditions, conditions, because because because indoor indoor indoor wall wall wall temperature temperature affects comfortable sensation of human body. 3 翻译翻译1. Heat conduction is thought as heat transfers from high temperature zone to low temperature zone in object by gradually energy exchange with particles of substance. During the conduction, there is no specific displacement of articles. But for mental, motion of free electrons is greatly helpful to heat conduction. 2. Fluid directly connected with the surface is heated and becomes less-dense by heat conduction and moves upwards due to density difference with adjacent fluid. This motion is hindered by viscosity of fluid. The heat transmission is affected by the following factors ：（1）gravity caused by heat expansion ；（2）viscosity （3）heat diffusion This heat transmission is regard as depending on acceleration of gravity 、coefficient of thermal expansion 、coefficient of motion viscosity and coefficient of thermal conductivity. 3. As for surface with different geometric shape, radiant characteristic and direction, when heat transfer rate is evaluated, assumptions are: (1) all surfaces are gray or black; (2) radiation or reflective diffuse reflection; (3) the whole surface parameters are homogeneous . (4) emissivity is equal to absorptivity and has no relationship with temperature of project source. (5) objects between two radiant surfaces neither emit nor absorb radiation. These assumptions assumptions are are are used used used due due due to to to providing providing providing simplification simplification simplification to to large large content, content, content, although although although the the the results results results are are are only only only thought thought thought as as approximate. 2 翻译翻译1. Energy transfers between system and environment under temperature difference is called heat. Heat transfer of system and environment stops when system and environment are in thermal equilibrium. Once heat enters system through boundary, it turns into a part of system storage energy, that is, internal energy. It is obvious that heat is process factor relevant to process, while internal energy is state factor depending on thermodynamic state. 2. T he Carnot cycle and Carnot theorem have important theoretical and impractical meaning in the research of thermodynamics. It provides upper limits on efficiency of heat engine and theoretically proposes the approach to increase efficiency. The efficiency of other impractical cycle is always less than the efficiency of the Carnot cycle operating between the same two reservoirs. 3. The meaning of the increase of entropy principle：(1) estimate the direction of a process by the increase of entropy principle of an isolated system；（2）the increase of entropy principle can serve as judgment of system equilibrium-when entropy of an isolated system reaches maximum value，system is under equilibrium state. （3）the increase of entropy principle has close relationship with the irreversibility of a process. The more irreversible，the more increase of entropy. So it is used to evaluate perfect of thermodynamical performance of a process 。

additional factor for wind force||风力附加率additional heat loss||附加耗热量adiabatic humidification||绝热加湿A-weighted sound pressure levelA声级absolute humidity 绝对湿度absolute roughness |绝对粗糙度absorbate 吸收质absorbent 吸收剂absorbent||吸声材料absorber| |吸收器absorptance for solar radiation||太阳辐射热吸收系数absorption equipment||吸收装置absorption of gas and vapor||气体吸收absorptiong refrige rationg cycle||吸收式制冷循环absorption-type refrigerating machine||吸收式制冷机access door||检查门acoustic absorptivity||吸声系数actual density||真密度actuating element||执行机构actuator||执行机构adaptive control system||自适应控制系统additional factor for exterior door||外门附加率additional factor for intermittent heating||间歇附加率additional factor for wind force||高度附加率additional heat loss||风力附加率adiabatic humidification||附加耗热量adiabatic humidiflcation||绝热加湿adsorbate||吸附质adsorbent||吸附剂adsorber||吸附装置adsorption equipment||吸附装置adsorption of gas and vapor||气体吸附aerodynamic noise||空气动力噪声aerosol||气溶胶air balance||风量平衡air changes||换气次数air channel||风道air cleanliness||空气洁净度air collector||集气罐air conditioning||空气调节air conditioning condition||空调工况air conditioning equipment||空气调节设备air conditioning machine room||空气调节机房air conditioning system||空气调节系统air conditioning system cooling load||空气调节系统冷负荷air contaminant||空气污染物air-cooled condenser||风冷式冷凝器air cooler||空气冷却器air curtain||空气幕air cushion shock absorber||空气弹簧隔振器air distribution||气流组织air distributor||空气分布器air-douche unit with water atomization||喷雾风扇air duct||风管、风道air filter||空气过滤器air handling equipment||空气调节设备air handling unit room||空气调节机房air header||集合管air humidity||空气湿度air inlet||风口air intake||进风口air manifold||集合管air opening||风口air pollutant||空气污染物air pollution||大气污染air preheater||空气预热器air return method||回风方式air return mode||回风方式air return through corridor||走廊回风air space||空气间层air supply method||送风方式air supply mode||送风方式||air supply (suction) opening with slide plate||插板式送（吸）风口||air supply volume per unit area||单位面积送风量||air temperature||空气温度air through tunnel||地道风||air-to-air total heat exchanger||全热换热器air-to-cloth ratio||气布比air velocity at work area||作业地带空气流速air velocity at work place||工作地点空气流速air vent||放气阀air-water systen||空气—水系统airborne particles||大气尘air hater||空气加热器airspace||空气间层alarm signal||报警信号ail-air system||全空气系统all-water system||全水系统allowed indoor fluctuation of temperature and relative humidity||室内温湿度允许波动范围ambient noise||环境噪声ammonia||氨amplification factor of centrolled plant||调节对象放大系数amplitude||振幅anergy||@||angle of repose||安息角ange of slide||滑动角angle scale||热湿比angle valve||角阀annual [value]||历年值annual coldest month||历年最冷月annual hottest month||历年最热月anticorrosive||缓蚀剂antifreeze agent||防冻剂antifreeze agent||防冻剂apparatus dew point||机器露点apparent density||堆积密度aqua-ammonia absorptiontype-refrigerating machine||氨—水吸收式制冷机aspiation psychrometer||通风温湿度计Assmann aspiration psychrometer||通风温湿度计atmospheric condenser||淋激式冷凝器atmospheric diffusion||大气扩散atmospheric dust||大气尘atmospheric pollution||大气污染atmospheric pressure||大气压力（atmospheric stability||大气稳定度atmospheric transparency||大气透明度atmospheric turblence||大气湍流automatic control||自动控制automatic roll filter||自动卷绕式过滤器automatic vent||自动放气阀available pressure||资用压力average daily sol-air temperature||日平均综合温度axial fan||轴流式通风机azeotropic mixture refrigerant||共沸溶液制冷剂Bback-flow preventer||防回流装置back pressure of steam trap||凝结水背压力back pressure return余压回水background noise||背景噪声back plate||挡风板bag filler||袋式除尘器baghouse||袋式除尘器barometric pressure||大气压力basic heat loss||基本耗热量hend muffler||消声弯头bimetallic thermometer||双金属温度计black globe temperature||黑球温度blow off pipe||排污管blowdown||排污管boiler||锅炉boiller house||锅炉房boiler plant||锅炉房boiler room||锅炉房booster||加压泵branch||支管branch duct||(通风) 支管branch pipe||支管building envelope||围护结构building flow zones||建筑气流区building heating entry||热力入口bulk density||堆积密度bushing||补心butterfly damper||蝶阀by-pass damper||空气加热器〕旁通阀by-pass pipe||旁通管Ccanopy hood ||伞形罩capillary tube||毛细管capture velocity||控制风速capture velocity||外部吸气罩capturing hood ||卡诺循环Carnot cycle||串级调节系统cascade control system||铸铁散热器cast iron radiator||催化燃烧catalytic oxidation ||催化燃烧ceilling fan||吊扇ceiling panelheating||顶棚辐射采暖center frequency||中心频率central air conditionint system ||集中式空气调节系统central heating||集中采暖central ventilation system||新风系统centralized control||集中控制centrifugal compressor||离心式压缩机entrifugal fan||离心式通风机||check damper||(通风〕止回阀||check valve||止回阀||chilled water||冷水chilled water system with primary-secondary pumps||一、二次泵冷水系统chimney||(排气〕烟囱circuit||环路circulating fan||风扇circulating pipe||循环管circulating pump||循环泵clean room||洁净室cleaning hole||清扫孔cleaning vacuum plant||真空吸尘装置cleanout opening||清扫孔clogging capacity||容尘量close nipple||长丝closed booth||大容积密闭罩closed full flow return||闭式满管回水B-第六章制冷第一节一般术语第6.1.1条制冷refrigeration用人工方法从一物质或空间移出热量，以便为空气调节、冷藏和科学研究等提供冷源的技术。

建筑环境与设备工程专业英语翻译A thermodynamic system is a region in space or a quantity of matter bounded by a closed surface. The surroundings include everything external to the system, and the system is separated from the surroundings by the system boundaries. These boundaries can be movable or fixed, real or imaginary.一个热力学系统是一个在空间或有事项的数量由一个封闭的表面范围内的区域。

周围环境包括一切外部系统，系统是从周围环境隔开的系统边界。

这些边界可以是动产或固定的，真实的或想象。

The concepts that operate in any thermodynamic system are entropy and energy. Entropy measures the molecular disorder of a system. The more mixed a system, the greater its entropy; conversely, an orderly or unmixed configuration is one of low entropy. Energy has the capacity for producing an effect and can be categorized into either stored or transient forms as described in the following sections.熵和能量的概念，在任何热力学系统操作。