鍋爐燃料控制 的英文怎麼說
中文拼音 [guōlúránliàokòngzhì]
鍋爐燃料控制
英文
bfc: boiler fuel control- 鍋 : 名詞1. (炊事用具) pan; pot 2. (裝液體加熱用的器具) boiler; cauldron3. (某些器物上像鍋的部分) bowl (of a pipe, etc. )
- 燃 : 動詞1. (燃燒) burn 2. (引火點著) ignite; light
- 料 : 名詞1 (材料; 原料) material; stuff 2 (喂牲口用的穀物) feed; fodder 3 (料器) glassware 4 (...
- 控 : 動詞1 (告發;控告) accuse; charge 2 (控制) control; dominate 3 (使容器口兒朝下 讓裏面的液體慢...
- 制 : Ⅰ動詞1 (製造) make; manufacture 2 (擬訂; 規定) draw up; establish 3 (用強力約束; 限定; 管束...
- 鍋爐 : boiler; furnace
- 燃料 : fuel
- 控制 : control; dominate; regulate; govern; manage; check; cybernate; manipulate; encraty; rule; rein; c...
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Fossil fuel power plant boiler combustion controls
礦物燃料發電廠鍋爐燃燒控制裝置The application of dcs to control system for circulating fluidized bed boiler, including the drum water level control, steam temperature control, hearth negative pressure control, fuel control and circulating fluidized bed temperature is introduced
摘要介紹了集散控制系統在循環流化床鍋爐控制系統中的具體應用,包括汽包水位控制、蒸汽溫度控制、爐膛負壓控制、燃料控制和爐床溫度控制。The oil - firing and gas - firing boiler must beinstalled with fast valve which should be in remote control to ensure when accident happens it can rapidly shut off fuel supply being sent into the stove
8燃油、燃氣鍋爐必須裝有速斷閥,並實現遠方控制,以保證事故時能迅速切斷入爐燃料。Abstract : the air / fuel ratio control scheme in common use of boiler auto - burning system is introduced summary. two kinds of scheme improved to obtain the best air / fuel ratio and to raise dynamic characteristic are analyzed in particular. further how to correct measures on air / fuel ratio when changing boiler load and fuel composition is proposed and analyzed
文摘:對鍋爐自動燃燒系統中空氣/燃料比控制的常用方案進行了簡要介紹,著重分析了兩種為獲取最佳空氣/燃料比和提高控制系統動態特性而採取的改進方案,並針對鍋爐負荷變化和燃料特性改變對燃燒狀況的影響,進一步對空氣/燃料比的修正措施進行了分析與探討,提出了綜合修正方案。The strict environment laws in our country demand the reduction of the pollutant from power plant boilers. it is the optimism of the combustion in furnaces that can effectively approach this goal. what ' s more, combustion optimism can not only save the fuel, but also avoid tube explosion in furnaces
我國日益嚴格的環境保護標準要求減少電站鍋爐的燃燒污染排放,而優化鍋爐爐內燃燒工況不僅是控制燃燒污染排放的有效途徑,而且能減少燃料量和避免爐內爆管事故,從而能提高電站鍋爐燃燒的安全性和經濟性。The national environment codes have been enforced stricter regulations that demand cleaner environments, such as the reduction of by - product of the fossil fuel flame. if the combustion of the flame inside a boiler could be optimized, the usage of fuel and the amounts of pollution produced would be significantly reduced, and many of the common boiler tube can be avoided
我國日益嚴格環境保護標準要求減少電站鍋爐的燃燒污染排放,而只有優化爐內燃燒工況,才能有效控制污染量;不僅如此,燃燒工況的優化還可以合理地減少燃料量和避免爐內爆管。With the engineering thermophysics subject as a main theory basis, the boiler, the steam turbine, the internal combustion engine and the other new, being developed power machinery and system as the research object, the application of engineering thermodynamics , heat transfer, computer system control theory, environmental science, microelectronics technology, energy - saving technology and other knowledge , study the process and the basic law of fuels chemical energy and liquid kinetic energy to converse to the power securely and efficiently and low ( or no ) impurely ; study the energy conversion process systems and technology of equipment automatic control ; study the producing mechanism and emission control technology of combustion pollutants ; study energy - saving technologies and the development of new energy technologies
熱能工程是以工程熱物理學科為主要理論基礎,以鍋爐、汽輪機、內燃機和正在發展中的其它新型動力機械及系統為研究對象,運用工程熱力學、傳熱學、計算機自動控制理論、環境科學、微電子技術、節能技術等學科的知識,研究燃料的化學能和液體的動能安全、高效、低(或無)污染地轉換成動力的基本規律和過程;研究能量轉換過程中的系統和設備的自動控制技術;研究燃燒污染物生成機理與排放控制技術;研究節能技術與新能源的開發技術。That the control stress of the fsss of cfbb is the relation of the conditions and interlocks of fuel operation, not the explosion protection, are pointed
指出循環流化床鍋爐的爐膛安全監控系統的控制重點在於強調燃料投運操作的條件和聯鎖關系,而不是防爆。Thirdly, two major strategies are presented : one is a fuzzy controller with self - adjusting of parameters which is applied to boiler burning system ; the other is a self - optimizing controller which is applied to the blasting system
其中,總結操作人員成功的經驗,提出兩種控制策略:其一是基本模糊控制器和帶參數自調整模糊控制器,引入鍋爐燃料控制系統中;另一種是模糊自尋優控制器,用於送風控制系統中。Between the oil - firing pump house and the oil, gas fuel central control place and the boiler attendant ' s operation place should have the communication equipment
4燃油泵房或油、氣燃料的集中控制地點與鍋爐運行值班人員的操作地點應有信息聯系設備。When this control strategy is applied into primary steam temperature and boiler fuel regulating systems, benign control effect can be obtained
這種控制策略用於主汽溫和鍋爐燃料調節系統中,取得了良好的控制效果。Based on simulation, 2 - dimension fuzzy control system was researched, which was used to control two correlative variables of circulating fluidized bed boiler " s combustion control system
本論文在模擬的基礎上,研究用二維模糊控制實現流化床鍋爐燃料量控制系統的兩關聯變量的控制。Dynamic matrix control ( dmc ) can directly treat with objects with pure delay, has strong adaptability to large inertia, approved tracking performance and better robustness, but primary steam temperature object and boiler fuel regulating object are both intricate objects with large inertia and time delay, which are difficult to obtain perfect control effect using routine pid cascade control
由於動態矩陣控制( dmc )能直接處理帶有純滯后的對象,對大慣性有很強的適應能力,有良好的跟蹤性能和較強的魯棒性,而主汽溫對象和鍋爐燃料調節對象均是具有大慣性大延遲的復雜對象,用常規pid串級控制難以取得理想的控制效果。The research objective is to improve the control system performance through the combination of the advanced control strategy with the meaningful information mined from the history operation database. firstly, a new solution for the control performance enhancement is presented by the reference of the kdd technology. aiming at practical application, a novel boiler load control method, which combines the multiple model adaptive control strategy with the data mining technology, is put forward in this dissertation
本文第一部分為熱工過程式控制制與數據信息採掘,研究的重點是通過先進控制策略的應用以及運行數據中發掘的有用信息,提高現有典型熱工過程式控制制系統的性能,內容包括:首次提出了借鑒數據信息採掘技術的思路和方法,用於完善現有的熱力系統優化控制方案;在此基礎上結合生產實際,提出了運用多模型自適應策略實施鍋爐負荷控制,並利用關聯規則的數據信息採掘方法,通過對燃料發熱量信息的在線診斷,優化控制器結構,同時實現鍋爐燃燒配風的自適應調整,提高負荷、燃燒控制系統性能。Now design efficiency of common gas boiler can reach 90 percent or so, but various factors such as load, fuel quality, work condition and pressure which result in uncompleted burning of gas and excess air, decrease boiler hot efficiency and cause resources waste and environment pollution. considering these it is essential to adopt closed loop feedback control to boiler burning system
現今,一般的燃氣鍋爐設計效率均能達到90 %左右,但在實際運行中,因負荷、燃料品質、工作環境、壓力、混合情況等因素的影響,往往造成燃氣不完全燃燒或空氣過量,使鍋爐熱效率降低,造成能源浪費與環境污染,在這樣一種背景下,有必要對其燃燒系統進行閉環反饋控制。Secondly, the mechanism and control objective of boiler burning system are analyzed. based on this theory, the paper designs the fuel system, blasting system and deflating system
然後,分析了鍋爐燃燒過程機理及控制目標,在此基礎上,針對糖廠鍋爐控制的任務,對鍋爐燃燒系統的燃料、送風、引風進行設計。分享友人