高爐煉操作 的英文怎麼說
中文拼音 [gāolúliàncāozuò]
高爐煉操作
英文
blast furnace melting operation- 高 : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
- 煉 : 動1. (用加熱等辦法使物質純凈或堅韌) refine; smelt; work 2. (燒) temper with fire 3. (使詞句精美簡潔) polish
- 操 : Ⅰ動詞1 (抓在手裡; 拿; 掌握) hold; grasp 2 (做; 從事) act; do; operate 3 (用某種語言、方言說...
- 操作 : 1 (按照一定的程序和技術要求進行活動) operate; manipulate; handle 2 (所進行的若干連續生產活動的...
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For large blast furnaces, the change of main operation parameters are analyzed and gas channels in high temperature and lower part of blast furnace an discussed for three modes
在大型高爐工況條件下,解析了3種富氧操作方式下主要冶煉參數的變化規律,以及高爐下部高溫區煤氣通道狀況。Abstract : coke saving measures in the recent , years at pangang are summarized according to various ways of beneficiated materials , high blast temperature , oxygen - enriched blast , pulverized coal injection rate and improvement of blast furnace operation , the effect of related smelting factors on coke rate is investigated in combination with the production data and moreover further measures for reduction of coke rate are proposed
文摘:從精料、風溫、富氧和噴煤量以及改善高爐操作等方面總結了攀鋼近幾年來採取的節焦措施,並結合生產數據分析了有關冶煉因素對焦比的影響,同時提出了進一步降低焦比的措施。If coreless melting furnace mainly for steel , alloy steel , cast iron , and other ferrous metal materials and stainless steel , copper , aluminum , zinc and other non - ferrous metal materials melting , melting with high efficiency , energy - saving , metal components uniform , burning less temperature or block , simple operation , easy to supporting the advantages of production lines
中頻無芯熔煉爐主要用於鋼、合金鋼、鑄鐵等黑色金屬材料以及不銹鋼、銅、鋁、鋅等有色金屬材料的熔煉,具有融化效率高、節電、金屬成分均勻、燒損少、溫升塊、操作簡單、易於配套生產線等優點。Based on the mechanism analysis and ai technique, an optimization and decision - making model about operating parameters and an on - line simulation and detection model in the copper matte blowing process are built. a model to forecast the copper - making end point is also built by using smoke temperature in a factory. on the research mentioned above, the intelligent decision support system of the operation - optimization is developed
在上述研究基礎上,開發了銅鋶吹煉爐優化操作智能決策支持系統,將其應用於生產實踐,使粗銅產量提高了6 . 0 ,冷料處理量提高了7 . 8 ,爐襯壽命由原來的213爐提高到235爐,提高了10 . 3 。This text describes the project basic principle and system structure and capabilities of production equipment for mechanism and electric, according as require of blast furnace automation, analyzes the chemical reactions in blast furnace by principle, according as mass and energy balance principle build on process models and technology calculate, according as process optimization principle build on process system optimization models, and technology calculate, as one time, expert system command any model. the expert system contains a knowledge base, which already represents the concentrated know - how of blast furnace operation, gathered from many installations world - wide
本文在介紹了項目的基本原理和系統構成以及相關的生產工藝的基礎上,根據高爐過程優化的要求,從機理上分析了高爐冶煉過程的化學反應,並依據質量能量平衡原理建立了工藝模型和技術計算,按照優化原理建立了過程系統優化模型,並在專家系統的調度下協調工作。系統還包括知識庫,它總結了普通高爐操作的理論知識和控制理念,同時,結合釩鈦磁鐵礦的冶煉知識,形成具有攀鋼冶煉特點的知識庫。Some tests for liangang sinter adding bos slag have be done in the laboratory and plant trial. the results show that in the range of bos slag percentage, from 0 % to 8 %, with the increase of bos slag percentage, the sinter speed has been lower, but the sinter strength and productivity of sinter product have been higher, the sinter productivity will be the maximum when bos slag percentage is 4 % ; the siner reducibility has been improved, the normal operation of bof will not be effected anymore because of the circulation of p form bos slag
對燒結礦配加轉爐鋼渣進行了實驗室研究和工業試驗,在鋼渣配比0 % 8 %的范圍內進行的研究表明:隨著鋼渣配比的增加,燒結速度稍有下降,燒結礦強度、燒結成品率均有所提高,利用系數在4 %左右時達到最大值;燒結礦還原性得到改善;鋼渣中帶入的p的循環富集不會影響煉鋼的現行操作。This paper analyzes mainfactors that influence the dephosphorization of medium - high carbon steels in con - verter steelmaking process. bytaking effective measuresto optimize steelmaking process better dephosphorizationresults wereachieved at anyang steel
分析了轉爐冶煉中高碳鋼條件下影響脫磷的主要因素。通過採取相應措施,優化工藝操作,保證了較好的脫磷效果。Abstract : it is pointed out that selecting rational reductants and silica, adopting appropriate technological parameter, proper proportions of reductants and sizes, strengthening smelting operation are the ways to increase fesi production, quality and heat efficiency, and to reduce electricity consumption
文摘:選擇合理的還原劑和硅石,採用合適的電爐參數並通過還原劑品種、粒度的合理搭配和加強冶煉操作是提高75硅鐵產量、質量及熱效率,降低電耗的方向。分享友人