冬季供熱系統 的英文怎麼說

中文拼音 [dōnggōngtǒng]
冬季供熱系統 英文
winter heating systems
  • : 供Ⅰ名詞1 (供品) offerings 2 (口供; 供詞) confession; deposition Ⅱ動詞1 (供奉) lay (offerin...
  • : 系動詞(打結; 扣) tie; fasten; do up; button up
  • : Ⅰ名詞1 (事物間連續的關系) interconnected system 2 (衣服等的筒狀部分) any tube shaped part of ...
  • 系統 : 1. (按一定關系組成的同類事物) system 2. (有條理的;有系統的) systematic
  1. The afterheat, which is collected by recovery devices, in winter can be used as the low level thermal source of heat pump, and in summer can preheat feed water, thus equivalent an economizer. because energy flows in the system so reasonably that energy is used to the most, therefore, its energy conservation effect is significant, and the operating expenditure declines consequently. the sewage can be reused after due treatment, thua it has a certain social and ecological benefit, too

    本研究中選用分離式管裝置提洗浴用水,利用水源泵裝置,一機兩用,進行空間和製冷,並通過余回收器對內的余進行回收,可作為水源泵的低位源,夏可對鍋爐給水進行預,起到「省煤器」的作用。這樣實現內的能量合理流動,從而達到節能的目的,同時洗浴污水經適當的處理后可以回用,因而還具有一定的社會和生態效益。
  2. This paper combines the charicteristic of heilongjiang province power system such as supply exceeds demand, heating cycle in winter is long, arcola and personal heating is too much, air pollution is serious ect to rearch the realization machinism of electricity heating technology and actulization technology of electricity heating or heat storage

    本文結合黑龍江省電力略有過于求,採暖周期長,小鍋爐及個人採暖多,空氣污染嚴重的特點,對電加採暖技術的實現機理和電(蓄)採暖的實施技術進行了較深入的研究。
  3. Along with the ecological and energy - saving trend of construction development, diangong solar applies light - heat conversion technique to realize the integrated air conditioning system of water heating. heating and refrigerating. it co centralizes large area of solar heat collectors to heat water, uspplying families and units with consistent water supply. in winter, it uses the solar heated water to realize floor heating or fan heating, in summer, the heated water is used to refrigerate by the high - efficiency hot water refrigerating set solely developed by diangong. besides, the systemis equipped with assisting resources to form an integrated air conditioning system, which is efficient, safe, environmental, energy - saving and economic. by it, people can enjoy a natural and healthy life at home

    電工太陽能順應生態節能建築發展潮流,以太陽能光轉化技術實現水/暖/制準予一體化空調工程應用,採用大面積太陽能集器採集中高溫水,為家庭或單位用記提全方位應,在利用太陽能水進行地板或風機暖,解決取暖問題,在夏利用太陽能水,通過電工獨立開發的商效能水製冷機組進行製冷,集成太陽能一體化空調配備輔助能源,全天候自動運行,高效,安全、環保、節能、經濟,在家中享受陽光自然的舒適健康生活。
  4. This experiment include many contents, in a word, that is summer condition experiment, winter condition experiment > summer - winter transition condition experiment and winter - summer transition condition experiment, furthermore summer condition experiment still include flux changing experiment and winter condition experiment still include thermal balance experiment this article dealt with the data of the test, calculating out energy absorbing ( energy discharging ) of buried pipe in winter condition ( summer condition ), input power of heat pump x heat exchanging of piece buried pipe length x co - efficiency performance ? op ( energy efficiency rate ? er ) and average heat exchanging coefficient ; in additiont this article compares the inlet water temperature and outlet water temperature of underground the first layer and the second layer buried pipe when heat pump was running, the results are that the heat exchanging ability of the second layer buried pipe outgos the first layer buried pipe, and heat exchanging is more stable ; and still analyse earth temperature resuming in the transition season. the results are earth temperature resume fast in the first week when the heat pump runs off

    本文測試內容相當多,概括地說就是四個工況的測試,即夏製冷工況的測試、工況的測試、夏?過渡測試和?夏過渡測試;另外在夏工況的測試中還進行了變流量測試,在工況的測試中還進行了平衡測試。本文對測試數據進行了處理,計算出了(夏)工況埋管吸(放)量、泵空調器量(製冷量) 、泵空調器輸入功率、埋管單位管長換量、性能數(製冷能效比)和平均傳數等;另外,還比較了泵運行時地下一二層埋管進出水溫度變化情形,得出地下二層埋管換能力優于地下一層埋管,且換很穩定;並分析了過渡地下一二層埋管溫度恢復情形,得出停機一周內地溫恢復特別快。
  5. The system functions efficiently for nine months of the year, but demand in the winter months, amounting to 360 kwh or 14 per cent of the total, is supplied by the hydrogen storage system via the coaste heat of the fuel cell

    這套太陽能一年中有9個月可以保證足夠的效率,但是在,需要360度電或全年加水總能耗的14 %進行輔助加,這部分量由儲氫通過燃料電池轉換為電能時放出的量提
  6. This paper introduced the experimental results for ground - source water / water heat pump, analyzed the effects of the variety flux on system performance coefficients, which showed that the optimal operation flux is 1000 ( l / h ) and provided the heat exchange rate per unit depth of coil, 45 80 ( w / m ). compared the exchang - heat - curveline in winter with that in summer, through which showed the advantages of gshp in mode of heating and cooling on long - period operation

    本文介紹了地源水-水泵全年夏暖冷聯的實驗結果以及過渡地溫的恢復情況,分析了流量對泵性能參數的影響,獲得了最佳運行流量為1000 ( l / h ) 。並實測得到單位管深換率及埋管的有關性能指標。
  7. Moreover, the experiment result shows that the temperature of the supply water is an important factor influencing the hearing or cooling capacity of the radiant floor. through the survey of the gshp - radiant floor system in summer and winter, this paper lays emphasis on the performance test of this united system and the analysis of the condense of the cooling floor surface

    文中通過夏兩地源泵-輻射地板聯長期運行工況的測試,對地源泵輻射地板聯性能及地板冷的表面結露等問題進行了定性分析,最後用一工程實踐對的實用性進行驗證。
  8. The check of the operating and enery - saving possibility of the vrv heat pump air condition system in winter heating are also the emphasis. testing results indicate that this heating system is feasible and energy - saving

    測試結果表明,大連暖採用vrv泵空調,在技術上是完全可行的,在運行上是節能的。
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