蒸發冷管器 的英文怎麼說

中文拼音 [zhēnglěngguǎn]
蒸發冷管器 英文
evaporator condenser
  • : Ⅰ動詞1. (蒸發) evaporate2. (利用水蒸氣的熱力使食物熟或熱) steam Ⅱ名詞[中醫] (將藥物隔水蒸熟) steaming
  • : 名詞(頭發) hair
  • : Ⅰ形容詞1 (溫度低; 感覺溫度低) cold:冷水 coldwater; 你冷不冷? do you feel cold?; are you feeling...
  • : Ⅰ名詞1 (管子) pipe; tube 2 (吹奏的樂器) wind musical instrument 3 (形狀似管的電器件) valve;...
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  1. Second, the starting and stopping behaviors under disturbed condition are analyzed and calculated by using the dynamic concentrative parameter model, which gives some advice to better prescribe refrigeration system and set theoretic foundation for carrying out automatic control of refrigeration system. third, the normal running process is analyzed and calculated by means of rational matching theory, which gives some advice on how to better understand the parameter change under steady state and the affection of inlet - parameter on evaporator. fourth, the simulation software with dynamic characteristic is designed, which can be applied to calculate thernio - parameter of cryogen, air humidity and frost thickness under different initial and boundary conditions, and to carry out dynamic simulation under conditions of dryness, wetness and frostiness, at the same time, to achieve detection and simulation at any stage from starting to stopping

    本文的主要內容如下: 1 )對翅片結構特點進行分析,選取適當的微元控制體,就干、濕和霜工況下對每個微元分別進行傳熱傳質分析,基於經驗關系式確定霜的有關參數,對于霜工況下的霜生長建立模型,經適當假設,運用質量守恆、能量守恆和動量守恆方程建立適合動態模擬的數學模型,為系統模擬奠定基礎; 2 )對在大擾動下的開、停機過程,運用動態集中參數模型進行分析和計算,為更好地描述製系統運行的全過程奠定基礎,同時也為製系統實現自動控制提供一定的理論基礎; 3 )對正常運行過程,運用動態分佈參數和參數間定量耦合的觀點來分析和計算,為更好地了解穩態工況下各點參數的變化情況及各入口參數對動態特性的影響即性能對各參數變化的敏感性; 4 )編寫翅片動態特性模擬計算程序,可以計算不同邊界條件和初始條件下的製劑熱力參數、空氣溫濕度和霜厚度分佈場,實現對翅片在干、濕和霜工況下的動態模擬。
  2. This paper researches diathermancy and fluidity of condenser, evaporator, compressor, and capillary in detail. maths models of condenser, evaporator, compressor, and capillary are established and model predigesting and modifying methods are done methods are given in this paper, which can transfer the practical system into the simulating system. in the basis of refrigerating system character, components models are modified in the system administrative levels

    本文詳細研究了、壓縮機和毛細的傳熱特性和流動特性,建立和展了、壓縮機和毛細數學模型,並進行了相應的模型簡化和修正方法研究,建立了從實際系統到模擬系統的轉換方法;本文針對各製系統的特點,在系統層次上進行了部件模型的修正研究,建立了相應的修正模型和演算法。
  3. They used for making tubes of condenser or vapourizer of refrigeration, for waterfeeder, for capilliary tube in meters and oil - conducting pipe union for mechanical equipment

    該產品廣泛應用於機械、電氣儀表、汽車、輕工、化學工業等部門,作為製設備的、供水熱水,儀表毛細及機械設備聯結油等部件。
  4. They used for malcing tubes of condenser or vapourizer of refrigeration, for waterfeeder, for capilliary tube in meters and oil - conducting pipe union for mechanical equipment

    該產品廣泛應用於機械、電氣儀表、汽車、輕工、化學工業等部門,作為製設備的,供水熱水,儀表毛細及機械設備聯結油等部件。
  5. The components of this system are a cross - flow finned - tube evaporator, cross - flow finned - tube gascooler, a reciprocation compressor, a gas - liquid seperator, a double pipe internal heat exchanger and a throttling valve

    系統由一個叉流翅片、一個叉流翅片、一臺往復式壓縮機、一個氣液分離、一個套式回熱、一個節流閥組成。
  6. Analysis is made on structure characteristics of the finned - tube, and analysis has been made on the special heat and mass transfer principle of every micro - unit under both dry and wet conditions. appropriate hypothesis is made and based on the energy, mass and momentum equivalent, the evaporator models of dynamic distributed parameters are set up. in addition, the gascooler and internal exchanger models of dynamic and distributed parameters, the throttling valve models and the compressor models are set up, too

    本文的內容如下: 1對翅片的結構特點進行分析,選取適當的微元體,對于干、濕工況下每個微元分別進行傳熱傳質分析,通過適當的假設,利用質量守恆方程、能量守恆方程和動量守恆方程建立了的分佈參數數學模型;對回熱劃分微元建立了分佈參數數學模型;對氣體建立了分佈參數數學模型;對壓縮機建立了數學模型;建立了節流閥的數學模型,為系統模擬奠定了基礎。
  7. The heat - exchange apparatus is the window for air - conditioner to exchange energy with outside. we analyze the efficiency of heat - exchange apparatus by the theory of heat - transmit, and compare the advantage and disadvantage of different type evaporator ' s and condenser ' s design by lots testing, and compare the effect of heat - exchange for different type flake, and compare the effect of heat resistance for different stretch of copper tube and flake. then we get many useful results from those different comparing

    統稱為換熱,換熱是空調與外界進行能量交換窗口,利用傳熱學原理對換熱的效率進行分析,通過大量的試驗比較不同的設計方案的優劣;比較使用不同片型對換熱效果的影響;比較銅與翅片的不同脹緊對熱阻的影響,通過比較得出很多有用的結論。
  8. Temperature kits : contact must be properly fixed in the evaporator export pipelines, real - time communication evaporator components to temperature degrees, the material will be filled through interlinked capillary pressure due to the expansion of corrugated boxes ; swelling corrugated boxes on the pressure for change in the thrust pole with an adjustment screw and spring - loaded ball - type valves to adjust the resistance of the degrees of refrigeration volume precision adjustments

    感溫包:是必須妥善接觸固定在的出口道上,感知實時回氣溫度的部件,它將充填物質的熱脹縮壓力通過相通的毛細提供給膨脹波紋箱;膨脹波紋箱依據壓力的變化推動推力桿結合過熱度調整螺絲和彈簧的阻力來調整球型閥的開度,實現製量的精確調整。
  9. Automotive air conditioner accessories : automotive air conditioner cooler, evaporator, heat sink, air conditioner, temperature adjuster, heater, central cooler, air desiccators, cooling fan controller, internal heat exchanger, compressor, motor, air warmer, warm air device, electronic fan for cooling condenser, liquid can, thermal expansion valve, air condition pipeline, switch, clutch, connector, height valve, shunt valve and all kinds of automotive air conditioner production materials ( body aluminum, copper materials, etc ), production equipment, measurement equipment, etc

    車用空調配件:各種車用空調、散熱、空調、調溫、加熱、中、空氣乾燥卻風扇控制、內部熱交換、壓縮機、電動機、暖風機、暖風裝置、各種電子扇、貯液灌、熱力膨脹閥;各種車用空調路、開關、離合、接頭、高低閥、換向閥及各種車用空調生產材料(車用鋁材、銅材等) 、生產設備、檢測設備等。
  10. Theoretical and experimental study of ellipse tube type indirect evaporative cooler wrapped with absorbing water materials

    包覆吸水性材料橢圓式間接的理論與實驗研究
  11. At hot end of beat pipe, several measures were taken to eliminate heat, namely ( 1 ) traditional sensible heat elimination ; ( 2 ) exhaust air is processed by air washer, then passes through hot end ; ( 3 ) exhaust air is handled by wet film, then passes through hot end ; ( 4 ) sprays water at the top of hot end, respectively

    第一級採用熱式間接,熱端布置4種散熱方式: ( 1 )傳統類型的顯熱散熱; ( 2 )排風經過噴水室降溫后進入熱端; ( 3 )排風經過填料式直接降溫后進入熱端; ( 4 )直接在熱端頂部淋水。
  12. The equipment made by us of titanium, stainless steel, aluminum or plastics, mainly include column condenser ( heat exchanger ) ; coil hear exchanger ; membrane evaporator ; constant boil tower ; reactor ; pressure filter, storage tank ; blower, centrifuge and ta series corrosion - resist titanium pump, as well as variety of metal constructional member. they are widely applied in the industries of petrochmical engineering, smelt, pharmacy, chlorinate alkali, salt preparation, as well as electric chemical plant

    我廠生產鈦材,不銹鋼等各種材質的化工設備,主要有風機,離心機,鈦泵,鈦閥,列(換熱) ;盤式換熱;薄膜;塔;反應;貯存容;面向石油化工,冶煉,制藥,氯堿,制鹽食品,造紙,環保等化學工業領域及電化行業。
  13. The plate - tube evaporator, the single back - fin evaporator and the box condenser. after analyzing the physical model and setting up the mathematical model according to the two - phase flow of adiabatic capillary tubes, it also numerically simulates and analyzes the different effects of main parameters on the capillary tube length. based on the heat transfer analysis and counting of thermal insulation layer, the cad system accomplishes the parametric design and drawings of the refrigerator body

    該系統完成了對典型製裝置的換熱部件,如板、單脊翅片、箱壁式的參數化設計和繪圖;分析了絕熱型毛細兩相流的物理模型,並建立數學模型,對絕熱型毛細各主要參數對其長度的影響進行了數值模擬和計算分析;基於對電冰箱箱體絕熱層厚度的傳熱分析和計算,完成了整個箱體的參數化設計和繪圖工作。
  14. For the optimization function of hrsg, the cool costs is considered as the objective function and the variables are the number of row, the number of tube per row, the horizontal distance and vertical distance between tubes of the evaporator and the economizer

    建立了以bchp系統的量成本為目標函數,以余熱鍋爐排煙溫度、和省煤中螺旋翅片排數、每排數、束橫向節距和束縱向節距為決策變量的余熱鍋爐優化模型。
  15. The working parameters ( specific enthalpy, entropy, flux of working fluid, reynolds number, etc. ), the configuration parameters of the main components, such as steam turbine - generator group, evaporator and ehd condenser and system efficiency were calculated on the base of thermodynamics theory

    文中以熱力學理論為基礎,計算了低溫余熱電系統的運行參數(比焓、熵、工質流量、雷諾數、路壓力等)和各主要組件如汽輪機-電機組、和ehd的結構參數,並計算了系統的效率。
  16. Application of tubular condenser in vaporization equipment

    設備中的應用
  17. The main products includes various steam and electric heating reaction vessel, conduction oil, outer coil reaction vessel, polyester and resin completed equipments, vacuum reducing concentration tank, methanol and ethanol recovery tower, various corrugated stuffing, high effective membrane evaporator, new - type centrifugal drag membrane evaporator, vacuum rake dryer, condensing drum cut - off machine, shell - and - tube condenser,

    本廠主要產品有各類氣電加熱反應鍋,導熱油外盤反應鍋,聚脂樹脂全套設備,真空減壓濃縮罐,甲醇乙醇回收塔,各類波紋填料,高效薄膜,新型離心刮板式薄膜,真空耙式乾燥機,凝滾筒切片機,列,螺旋板式換熱,外循環,鋁制槽車貯罐,乳化設備,高速剪切分散機,種子罐,酵罐,多功能提取罐,並承接各類非標設備。
  18. The results show that while the mass flow of refrigerant is 1. 85g / s, the inlet temperature of refrigerant is 18. 9, the evaporating pressure is 0. 62mpa, the mass flow of water is 31. 1g / s, and the inlet temperature of water is 36. 9, the refrigerant of miniature evaporator wholly vaporizes in the tube, and the heat transfer rate is 342w. it achieved the demand of design

    經過實驗測試,當製劑質量流量為1 . 85g / s ,製劑入口溫度為18 . 9 ,壓力為0 . 62mpa ,水的質量流量為31 . 1g / s ,水的入口溫度為36 . 9 ,此時,螺旋內製劑完全,換熱量342w ,達到了微型的預期設計要求。
  19. Examinations of steady status and analysis of dynamic experiments have been conducted on band - tube evaporator and parallel - flow condenser using r134a refrigerant. the steady examination show that the model error was under the allowable error, the inlet mass and enthalpy disturb experiments indicate that the subsection model, be good at reflecting the change of parameters of the heat exchanger, accord with the basic principle of thermodynamics theory and the actual work status. hence, the subsection simulation model research has important benefits both on theory and engineering application

    在進行模擬試驗時,以使用r134a作製劑的帶式和平行流式為對象,完成了穩態模擬計算、試驗和動態模擬分析,穩態計算結果和試驗數據對比表明,其誤差在允許范圍內;進口質量和焓值的擾動試驗結果表明:本文所建的區段式換熱模擬模型,能很好的反映換熱性能參數的動態變化,與系統熱動力學理論和的實際工作過程基本一致。
  20. At the same time, experimental study on boiling heat transfer by changing mass flow of refrigerant, mass flow of water, and inlet temperature of water was also finished. and then the performance of miniature evaporator was estimated

    本文完成了液單相、兩相熱平衡實驗和阻力特性實驗,研究了製劑在內流動的壓降;同時進行了微型流動沸騰實驗,通過改變製劑質量流量、水的質量流量、水的進口溫度等,實現了對微型的性能評價。
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