過熱蒸汽鍋爐 的英文怎麼說

中文拼音 [guòzhēngguō]
過熱蒸汽鍋爐 英文
superheated steam boiler
  • : 過Ⅰ動詞[口語] (超越) go beyond the limit; undue; excessiveⅡ名詞(姓氏) a surname
  • : 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1. (由液體或某些固體變成的氣體) vapour2. (水蒸氣) steam
  • : 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. )
  • 蒸汽 : vapour; reek; breath; steam蒸汽採暖 steam heating; 蒸汽錘 [機械工程] steam hammer; 蒸汽打樁鍾 ste...
  • 鍋爐 : boiler; furnace
  1. Uncontrolled superheat boiler

    不可調式過熱蒸汽鍋爐
  2. Has designed one boiler superheat vapor temperature online fuzzy pid double model control method based on this, and has given the detailed design proposal

    基於此設計一種溫度在線模糊pid雙模控制方法,並給出詳細設計方案。
  3. Traditional control system for boiler superheated steam temperature regulates desuperheating water flow through testing the superheated steam temperature and its variation trend, thus keeping the temperature of superheated steam within a permissible range

    摘要傳統的溫度控制系統通檢測溫度及其變化趨勢來調節減溫水量,從而維持溫度在允許的范圍之內。
  4. 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包自然循環吹灰)為具體分析對象,分別建立其水冷壁、器、省煤器、空預器的積灰損失和各受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,通模擬計算及與現場數據作比較的方法,驗證其可用程度。
  5. The mainly works had been done as follows : 1. in order to keep commonality, the modules who have similar thermodynamic process had been classed. such as evaporating module ( including furnace, drum, system of boiler recycled water ), single - phase heat exchange module ( including superheater, reheater, ecomomizer ), lubricating oil system module ( can be used for any lubricating oil system of rotation mechanical impedance ), pump and fan module, ect

    本文所作的主要工作如下: 1 、為保證模塊的通用性,對有相似力環節的模塊進行分類,建立模塊庫,便於模塊調用,如發區模塊(包括膛、包和水循環系統) ,單相換模塊(包括器,再器,省煤器等) ,潤滑油系統模塊(可用於各種轉機軸承潤滑油的動態特性的計算) ,泵與風機的動態計算模塊等。
  6. With fast development of our country " s gas industry and air ' s increasingly serious contamination in city, using gas instead of coal and supplying energy in high efficiency and cleanliness has become necessary way in city. there are different problems in the current heating ( air conditioning ) systems. in the cogeneration system, heat and power affect each other, heating - pump heating ( aie conditioning ) system can not satisfy the peak load very well, the cost of gas fuel in boilor heating sestem is so high. the high generating efficiency of the diesel - engine two - sourse heating ( air conditioning ) systems is limited in range of 100kw - 1000kw, the heating scope is so limited. combined cycle of two sourse heating ( air conditioning ) system is most suitable selection to buesness community with big scope my paper aim at this syetem ' s primary question when it is applied in our country - - - - bringing project into execution and technology economy feasibility and off - design performence, combined with a certain demonstrating project in beijing buesness community, going along with calculating and analyzing, drawing out some efficient datas and conclusions, based on this, bringing out primary alements affecting combined cycle of two sourse heating ( air conditioning ) system " economics

    電聯產系統電相互牽連,泵供暖(空調)系統不容易很好地滿足尖峰負荷,供暖系統供中天然氣燃料構成的成本高,內燃機雙源供暖(空調)系統的高發電效率僅限於100kw - 1000kw負荷范圍,供面積有限。對于大面積的商業園區、居民小區,燃燒天然氣的燃氣-聯合循環雙源供暖(空調)系統是最佳選擇之一。本論文針對該系統在我國應用時的主要問題- - -方案的技術實施與技術經濟可行性,結合北京某一商業園區示範工程,進行了系統的計算與分析,得到了有效的數據與結論,在此基礎上,提出影響聯合循環雙源供暖(空調)系統經濟性的主要因素,並進行敏感性分析,得出有益的結論;最後通各種供暖方案的比較分析回答了某些人對該系統的疑慮和不解,並指出系統的優化方向。
  7. The original design was intermediate vapor 42t / h, but the actual output is 30 - 35t / h, at the same time the temperature and pressure of the vapor are unstable, it affects the economic efficiency, the reason were the collecting dust on the heat area and serious corrision, they led to the decrease of the boiler load, and need stop to washing the dust, the article deals with the reform of the exhaust gas boiler, at the basic of the design condition, after thermo calculation, flute gas, resistence calculationand strenth calculation, the structure of the heat surface had been rearranged, then the proof calculation was done

    原設計產中壓42噸時,但投運后只產30 - 35噸時,並且溫度和壓力均不穩定,影響到經濟效益。其原因是受面積灰和腐蝕嚴重,影響傳使負荷下降,不能長時間運行,需停產清理積灰。本論文針對此余的技術改造,在給定設計條件基礎上,通力計算,煙氣阻力計算和強度計算,對面結構重新布置,然後再作校核計算。
  8. Through analysis and comparison of formation mechanisms for slagging and fouling on beating surfaces of coal - fired boilers, as well as experiences of applying steam sootblowers, hydraulic sootblowers, and fuel - gas pulsating sootblowers on boiler no. 6 in dezhou power plant, in has pointed selected type of sootblowers should be directed against the fouling property and soot cleaning requirements of different heating surfaces in the large - scale coalfired boiler

    摘要通吹灰器、水力吹灰器、燃氣脈沖吹灰器在德州電廠6號應用結果的分析比較,指出大型燃煤應根據不同受面的積灰特點及清灰需要,有針對性的選擇吹灰器類型。
  9. Has analyzed the existing thermal power plant boiler superheat vapor temperature governign system control strategy, proposed exports the vapor temperature using the boiler the rate of change and the chamber exports the haze temperature to take the forward feed signal, the solution superheat vapor temperature adjustment hysteresis quality

    分析現有電廠溫度調節系統的控制策略,提出利用出口溫度的變化率和膛出口煙氣溫度作為前饋信號,解決溫度調節的滯后性。
  10. Insdustrial heating equipments. safety of steam or superheated steam generators, permanently manned or not. part 5 : specific requirements for non - pulverized coal - fuelled installations

    發生器.過熱蒸汽鍋爐的使用安全性.第5部分:工業燃氣設備的特殊要求
  11. Further, waste heat recovery boiler and steam turbine are combined to improve system efficiency, resulting combined cycle generation. main characteristics of this technology are as follows

    為進一步提高系統效率,可利用氣化系統和內燃機產生的余,通輪機實現聯合循環發電。
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