combustion loss 中文意思是什麼

combustion loss 解釋
燃燒損耗
  • combustion : n. 1. 燃燒,發火,點火。2. (有機體內營養料的)氧化。3. 騷動。
  • loss : n. 1. 喪失;丟失,遺失。2. 減損,損失,虧損(額);損耗;減少,下降。3. 失敗;輸掉。4. 錯過;浪費。5. 損毀;【軍事】傷亡;〈pl. 〉 傷亡及被俘人數。
  1. Abstract : apply computer simulation to the distribution pattern of air - flow without considering the cold condition of the combustion and compare the flow patterns under different designed circumstances. and the effect of the design of the partition in the air way of the burner on the flow and mixture of gas and air is especially studied. the result shows that the design of partition plays a very important role in strengthening the mixture of gas and air, but increases the loss of the resistance in the air way and the total pressure of the air way in same working conditions needs increasing

    文摘:應用計算機模擬的方法,在不考慮燃燒的冷態情況下,研究了熱風爐燃燒室內的氣流分佈規律.在此基礎上,比較了2種不同設計方案的氣流流動特徵,尤其是研究了燃燒器空氣通道內阻流板的設置與否對空氣和煤氣的流動和混合的影響.結果表明,阻流板的設計對加強空氣和煤氣的混合有著極為重要的作用,同時也增加了空氣管道的阻力損失,在同樣的工況條件下需要提高管道系統的總壓力
  2. In the third chapter of this dissertation, based on the physical and chemical properties of hydrogen and the combustion characteristics of hydrogen, the quasi - dimension combustion calculation model of hydrogen ? fueled engine is set up through analyzing the characteristics of turbulence flame and chemical reaction kinetic of hydrogen ? air mixture. the model includes the dual ? area thermodynamics sub - model, quasi - dimensional turbulent entrainment combustion sub ? model, turbulence flame promulgating sub ? model, hydrogen - air mixture chemical kinetic sub - model and loss of heat transfer sub - model and so on

    本文從氫燃料的物化特性和燃燒特徵著手,通過分析氫空氣混合氣燃燒的湍流火焰結構和燃燒化學反應動力學,基於雙區燃燒模型,建立了包括雙區熱力學、準維湍流卷吸燃燒、湍流火焰傳播速度、氫空氣混合氣燃燒化學反應動力學以及傳熱損失等模塊的燃燒模型,並給出了相應的計算方法。
  3. After thermodynamic calculation on several operation conditions of the furnace, cold - state flow and resistance mensuration, the combustion of the tubular - furnace hearth was changed into swirl and addition of radiate cylinder and oxygen content detection minish 1. 25 surplus air to less than 1. 15, improving the combustion condition and convection and radiate heat transfer efficacy, resuling in reducing the waste - gas temperature 45, decreasing exhaust gas loss, and saving fuel by 6 %

    摘要通過對加熱爐幾種工況進行熱力計算、冷態試驗的流場分佈及阻力測定和熱態試驗的爐膛溫度場分佈及管壁溫度等參數的測定,確定將管式加熱爐爐膛內直流燃燒改為旋流場燃燒和增加輻射筒,增設煙氣含氧量分析,可以將燃燒的過剩空氣系數從1 . 35減小到1 . 15以下,極好地改善爐膛內的燃燒狀況和對流輻射傳熱效果,從而降低排煙溫度45 ,減少加熱爐排煙損失,節約了煤氣量6 %以上。
  4. The ignition temperatures and the maximum weight loss rates have been registered. according to the experiment results and arrhenius law, hf indicating the comprehensive combustion characteristic has been put forward

    對採集的煤焦樣進行了熱重實驗研究,測量了樣品的著火溫度、最大失重速率及最大失重速率對應溫度。
  5. In additional risk, alone and broken danger, car stops rush to deal with an emergency of pilfer of whole vehicle, glass sailing loss danger, spontaneous combustion increases equipment loss risk loss danger, newly is car losing additional risk, namely the client is not cast guarantee car loss a place difficult of access, also cannot cast protect above 5 additional risk ; matter of carry cargo of danger of the responsibility on car, absolute liability danger, car drops the additional risk that responsibility danger is danger of responsibility of a third party, namely if the client is not cast guarantee a place difficult of access of responsibility of a third party, cannot cast protect above 3 additional risk ; not plan the additional risk that danger of the engage by special arrangement that avoid compensate is car caustic danger and danger of responsibility of a third party, mix in car caustic danger only namely danger of responsibility of a third party casts the premise that protected, just can cast protect

    在附加險中,全車盜搶險、玻璃單獨破碎險、車輛停駛損失險、自燃損失險、新增加設備損失險是車輛損失的附加險,即客戶不投保車輛損失險,也就不能投保以上5個附加險;車上責任險、無過失責任險、車載貨物掉落責任險是第三者責任險的附加險,即客戶若不投保第三者責任險,就不能投保以上3個附加險;不計免賠特約險是車損險和第三者責任險的附加險,即只有在車損險和第三者責任險都投保了的前提下,方可投保。
  6. With these two respects of researches, the useful tools to reduce carbon loss are provided for increasing boiler efficiency by adjusting combustion. shi yong hong ( thermal power engineering ) directed by prof

    通過這兩方面的研究,為調整燃燒,降低機械未完全燃燒熱損失,提高鍋爐熱效率提供了有用的工具。
  7. After the optimizing system is put into operation, online calculating results and operation effect is analyzed, pointing out that the base for the whole boiler soot blow optimization is the minimum loss of soot accumulation and energy consumption of soot blowing, the base for water cooling wall soot blow optimization is the combustion house outlet gas temperature difference, the base for a single heat exchange surface soot blow optimization is the degree of its soot accumulation

    並對優化系統在線運行后,取得的實時計算結果和實際效果進行了分析,著重指出積灰和吹灰的經濟性最佳可作為整個鍋爐吹灰優化的決策依據,爐膛出口煙溫差可以作為爐膛吹灰優化決策的依據,受熱麵灰污程度可以作為單個對流受熱面吹灰優化決策的依據。
  8. The combustion conditions in a circulating fluidized bed ( cfb ) boiler are much different from a pulverized coal firing ( pf ) boiler. however, this dissertation has confirmed that coal char in cfb boiler will also experience reactivity loss and ordering of turbostratic carbon structure, which have been reported by many researchers whose work were mainly restricted to pf conditions

    本文通過獲得在cfb燃燒條件下熱解和燃燒過程中的焦碳,對其反應性、亂層碳結構、礦物質催化作用和比表面積等進行了系統研究,指出cfb鍋爐和煤粉爐同樣存在焦碳亂層碳結構有序化和焦碳反應性下降(失活)現象,並全面分析了焦碳失活的機理。
  9. 1. the author designs special equipment with double - deck, based on the ultimate analysis, caloric, thermodynamic characteristic parameter of layer boiler, working fluid parameters in and out of boiler, exhaust temperature, thermal loss, excess air coefficient, etc. according to processing technology, make special combustion equipment. and it is installed and debugged as required

    根據生物質成型燃料的燃燒特性、層燃鍋爐熱性能及熱力特性參數為設計依據,設計出雙層爐排生物質成型燃料專用燃燒設備;根據燃燒設備的加工工藝製造出生物質成型燃料專用燃燒設備;按照燃燒設備安裝方法及調試方法對該燃燒設備進行了安裝與調試。
  10. To predict mechanical incomplete combustion heat loss in power plant boilers with artificial neural network

    應用人工神經網路預報電站鍋爐的機械不完全燃燒熱損失
  11. Heat efficiency of power station boiler is an important research subject in which carbon loss is an important parameter to reflect combustion performance of boiler, however, there is no favorable means to estimate it definitely

    電站鍋爐熱效率的研究是一個重要的課題。其中,機械未完全燃燒熱損失是反映鍋爐燃燒工況好壞的一個重要指標,目前卻缺乏非常有利的工具和手段來明確判斷。
  12. With the increase of temperature, chars from low rank coals deactivate quickly and significantly. through a strict and systematic analysis, char deactivation has been found to be due to the combined effect of the ordering of turbostratic carbon structure and the loss of catalytic effect of minerals during pyrolysis or combustion process

    但當煤顆粒在中低溫下燃燒時,由不同煤質形成的焦碳的亂層碳結構的差別較大,煤中的礦物質所起的催化作用可能很不一樣,因而導致不同煤質的焦碳燃燒反應活化能有較大差別。
  13. Alone and broken danger, car stops danger of whole vehicle robber, glass sail loss danger, spontaneous combustion adds equipment loss risk loss danger, newly of these 5 kinds of additional risk cast protect, must be a foundation with car loss danger

    全車強盜險、玻璃單獨破碎險、車輛停駛損失險、自燃損失險、新增設備損失險這五類附加險的投保,必須以車輛損失險為基礎。
  14. This paper also studied effects of categories of semi - coke, total pressure, oxygen concentration, particle size and heating rate on maximum mass loss - rate, burning time, burn - out temperature, and described the dynamic transformation of combustion reactivity of semi - coke under different testing condition

    分析了半焦種類、實驗總壓、氧濃度、試樣粒徑和加熱速率對最大失重速率、最大失重峰溫、燃燒時間、燃燼溫度等的影響。
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