鍋爐損失 的英文怎麼說
中文拼音 [guōlúsǔnshī]
鍋爐損失
英文
boiler loss-
Damage caused to any machinery and boilers of a ship which is ashore and in a position of peril, in endeavouring to refloat, shall be allowed in general average when shown to have arisen from an actual intention to float the ship for the common safety at the risk of such damage ; but where a ship is afloat no loss or damage caused by working the propelling machinery and boilers shall in any circumstances be allowed as general average
在船舶擱淺並有危險的情況下,如經證明確是為了共同安全,有意使機器、鍋爐冒受損壞的危險而設法起浮船舶,由此造成任何機器和鍋爐的損壞,應認入共同海損,但船舶在浮動狀態下因使用推進機器和鍋爐所造成的損失,在任何情況下都不得作為共同海損受到補償。Damage caused to any machinery and boilers of a ship which is ashore and in a position of peril, in endeavouring to refloat, shall be allowed in general average when shown to have arisen from an actual intention to float the ship for the common safety at the risk of such damage ; but where a ship is afloat no loss or damage caused by working the propelling machinery and boilers shall in any circumstances be made good as general average
在船舶擱淺並有危險的情況下,如經證明確是為了共同安全,有意使機器、鍋爐冒受損壞的危險而設法起浮船舶,由此造成任何機器和鍋爐的損壞,應認入共同海損,但船舶在浮動狀態下因使用推進機器和鍋爐所造成的損失,在任何情況下都不得作為共同海損受到補償。The article takes a 600mw natural cycle drum boiler ( soot blow using steam ) as investigating object, establishes soot accumulation loss and soot blowing energy loss models for its water cooling wall, superheater, economizer and air preheater respectively, set up instructions for soot blower operating. simulating calculation results are compared with site data to verify usefulness of key models. the article introduced the operation optimizing design of soot blowers of yanzhou no2 power plant based on theoretical research
本文以600mw汽包自然循環鍋爐(蒸汽吹灰)為具體分析對象,分別建立其水冷壁、過熱器、省煤器、空預器的積灰損失和各受熱面吹灰能量損失的模型,建立相應的吹灰器運行規則指導,對設計中的關鍵模型問題,通過模擬計算及與現場數據作比較的方法,驗證其可用程度。3. on boiler retrofit, the calculation of fuel burning, the heat calculation of boiler inside structure and convection section, and the design of structure parameter of feed water heat exchanger are made. the flue gas channels " resistance calculation and the boiler strength verifying are also carried out. replacement of water cooling wall improves heat exchanging and decreases loss of heat radiant
對鍋爐本體進行了燃料燃燒計算、爐膛結構熱力計算、對流受熱面結構熱力計算、鍋爐給水加熱器結構參數設計、煙道阻力計算及鍋爐元件強度校核等;改進了水冷壁布置使換熱效果更好,減少輻射換熱損失;改進對流段結構,更充分的利用爐膛出口煙氣余熱,提高熱效率;並且進行了煙氣阻力計算、熱效率計算和能量平衡測試,對改進后的稠油燃料和改進前進行了對比,燃燒狀況和熱效率有明顯改善。This paper has analyzed and synthesized the problems of burning heavy viscosity petroleum about injecting steam boilers in liaohe oil field. the heat balance experiments on injecting steam boilers burning heavy viscosity petroleum is made first. the main causes of low thermal efficiency and heat lose of flue gas are the poor effect of atomization and burning with old - fashioned oil nozzles, worse ash gathered on. heat exchange surface and high temperature of flue gas
本論文在分析綜述了遼河油田注汽鍋爐燃用高粘度稠油時存在的問題的基礎上,首先對燃用稠油的注汽鍋爐進行了正、反熱平衡試驗,分析了注汽爐熱效率偏低、排煙熱損失偏高的主要原因是原噴油嘴改燒高粘度稠油時霧化和燃燒效果差、換熱面積灰嚴重、排煙溫度太高。About heat loss, emphasis was mainly put on the part of exit gas, furthermore, a comprehensive summation in reference to possibilities affecting emission gas temperature increment were made and corresponding measures were given
在鍋爐的各項漏損中,著重分析影響排煙熱損失的諸因素。對影響鍋爐經濟運行的不利因素給出較為有效的預防措施,達到提高鍋爐運行經濟性的目的。The ideal operational value of waste - gas temperature is provided through combining the boiler ' s practical operation and the research of heat loss due to exhaust gas, which offers important theory and paves a solid way in optimizing boiler operation
通過對排煙熱損失的研究,並結合鍋爐的實際運行情況,提出了排煙溫度的運行目標值,此目標值的確定對于鍋爐運行優化有著重要的理論基礎。There are 3 parts of heat loss for gas boiler, including heat emission loss, uncompleted burning loss and fume hot loss, uncompleted burning loss decreases following the increase of excess air coefficient, while fume hot loss increases. it is obvious that there exit an optimum coefficient of excess air which make boiler own highest efficiency which is the purpose of burning control
不完全燃燒熱損失隨過量空氣系數的增大而減小,而排煙熱損失隨過量空氣系數的增大而增大,不難看出,存在一最佳的過量空氣系數使得兩者之和最小,即使得鍋爐的熱效率最高,燃燒控制的目的即在於此。Via the analysis of heat balance computation model and the computation of online heat balance for industrial coal boiler, this dissertation researched overall input heat, efficient utilized quantity of heat, heat losing of discharge flue gas, heat losing of chemistry and mechanism incomplete combustion, heat losing of dispelling heat of boiler, heat efficiency, air superfluous coefficient, wind speed, wind quantity, computation of primary air circle cutting and whose influence on boiler combustion efficiency
本文通過對工業煤粉鍋爐熱平衡計算模型的分析,利用在線熱平衡計算,研究了總輸入熱、有效利用熱量、排煙熱損失、化學不完全燃燒熱損失、機械不完全燃燒熱損失、鍋爐散熱熱損失、熱效率、空氣過剩系數、風速、風量及一次風切圓計算以及這些因素對鍋爐燃燒效率的影響。However carefully boiler casings and steam pipes are sealed, some heat escapes and is lost
不管鍋爐與蒸汽管封閉的多麼嚴密,還是有一部分熱散失損耗掉。As a part of the project of energy - saving potential diagnosis based on artificial intelligence in thermal power station, this paper elementarily studied the important factor which affects boiler ' s operation economy - loss - boiler ' s air leak
本文作為「基於人工智慧理論的火力發電機組節能潛力診斷」課題中的一部分,針對影響電站鍋爐運行經濟性損失的重要因素? ?鍋爐漏風,進行了初步的研究。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。To reduce the loss due to the fouling of the heat exchanger surface and improve the economic efficiency of the boiler, we must judge the soot deposition level exactly and reliably, then we can schedule the soot blowers to cure the loss caused by soot deposition
為了減少受熱面污染造成的損失,提高鍋爐經濟性,勢必要求準確可靠地判斷鍋爐受熱面的灰污染狀況,通過對吹灰器等加以調度來減少由於受熱麵灰污染帶來的損失。This paper presents an expert system based on rules for boiler operation in the power plant. it is used for analysing problems that cause exhaust expense to enhance and gives the operator some advises to resolve the problems. it can improve efficiency and security in boiler operations
本文介紹了一個基於規則的,應用於電站鍋爐優化運行的專家系統,主要用於分析電站鍋爐運行中導致排煙損失過高的原因,並提出相應的解決方案,以提高鍋爐運行的安全性和經濟性。As acoustic leakage detection technology for power plant boiler tubes can detect small leakages early in boiler tubes before they become catastrophic leakages and reduce economic loss resulted from disarranged stopping of boilers, many research institutes have begun to pay attention to it
=鍋爐爐管泄漏聲學監測技術由於能夠在電站鍋爐爐管發生輕微泄漏時就可監測到泄漏的發生情況,減少由於非計劃停機帶來經濟損失,因此引起了國內外許多研究機構的重視。The problem of coal fired boiler burning residue is common in many power plants. it is also unsolved critical problem for safe, economical and stable operation of power plants. during the last decades, this problem caused countless accidents in domestic power plants, they resulted in equipment damages, personal injuries or death, and even enomorous econoimic lose
幾十年來,國內燃煤電廠由於爐內結渣引起的各種設備、人身事故不計其數,輕則導致鍋爐低負荷運行或停爐清渣,產生巨大經濟損失,重則導致設備損壞,甚至引發人身事故。Some heat escapes and is lost, however carefully boiler casings and steam pipes are sealed
無論鍋爐的殼體和蒸汽管怎樣仔細地密封,總有一些熱要漏出來,損失掉。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。On the one hand, factor analysis is used to diagnose operating state of boilers so that the main factors affecting carbon loss of a boiler can be known ; on the other hand, the math model is created
一方面利用因子分析法對鍋爐運行情況進行診斷,以了解影響一臺鍋爐機械未完全燃燒熱損失的主要因素;另一方面嘗試建立機械未完全燃燒熱損失的數學模型。分享友人