熔融鹽 的英文怎麼說
中文拼音 [róngróngyán]
熔融鹽
英文
fused salt-
Mcfc ( molten carbonate fuel ceil ), which is one of two kinds of high temperature fuel cells, have been researched in most of countries
高溫燃料電池熔融碳酸鹽燃料電池( mcfc )或者固體氧化物燃料電池( sofc )和汽輪機組成的聯合循環發電系統更具吸引力。The ion exchange quomodo was innovated, and the idea was first brought forward that the ion exchange reaction were occurred after the precursors were pretreated. the ion exchange reaction in molt salt was further studied
本論文對離子交換反應的方式進行了創新,首次提出先將前驅體進行預處理再離子交換的思想,並對熔融鹽介質中進行的離子交換反應做了深入研究。Much work has been done to prompt the rapid establishment of fuel cell technology in china. with the help of the visiting scholar, p. j. van den enden, the standard performance test of single mcfc has been done smoothly
重建了荷蘭delft大學熔融碳酸鹽燃料電池單電池試驗系統,並以標準氣體、水煤氣、甲烷等氣體作為燃料氣體,獲得了單電池的性能。The powered application and commercialisation of molten carbonate fuel cell
熔融碳酸鹽燃料電池發電的應用與商業化In chapter 5, the principle of molten carbonate fuel cell power system is introduced. the development of the system, such as the improvement of cell components including electrodes and electrolyte, the fuel processing, the heat recovery, the power conditioning and grid interconnection, the control system and the combine generation
第五章在簡要敘述了熔融碳酸鹽燃料電池發電系統原理后,從以下幾個方面對系統的開發進行了論證:單體元件(電極和電解質)性能的提高,燃料的處理,余熱利用,電力調節和並網,燃料電池/燃氣輪機/汽輪機聯合發電以及系統控制與優化。However, when aa content exceeded 10wt. - %, the increment of the extent of grafting level off and the grafting efficiency decreased remarkably. afterward hdpe - g - aa / mmt composites and hdpe / mmt composites were prepared via melt compounding
然後用十八烷基季胺鹽處理過的鈉基蒙脫土( mmt )分別與hdpe以及hdpe - g - aa熔融插層后制備了兩種復合材料。Output - voltage m odeling of molten carbonate fuel cell st ack
熔融碳酸鹽燃料電池電堆的輸出電壓模型Study on the optical properties of transparent epoxy / clay nanocomposites a new type transparent epoxy based nanocomposites has been prepared by the reaction of alkylammonium exchanged montmorillonite ( amt ) with diglycidyl ether of bisphenol a ( dgeba ) and triethylamine as the curing agent. the morphology of amt in the epoxy matrix was characterized with x - ray diffraction ( xrd ), scanning electron microscopy ( sem ) and transmission electron microscopy ( tem )
光學透明環氧樹脂粘土納米復合材料光學性能採用十八烷基伯胺鹽、十六烷基三甲基溴化胺處理na基蒙脫土製備出兩種不同的有機土,以三乙胺為固化劑,有機土與雙酚a型環氧樹脂熔融插層聚合后制備出剝離型和插層型兩種結構的環氧樹脂粘土納米復合材料。The fuel cells models are presented in chapter 3. based on the balance conditions in fuel cells stack, the dynamic performance is analyzed. the dynamic model is developed with a set of correlation equations of voltage, fuel utilization, current density and other variables involved in the operating course, which are some partial differential equations with variable coefficients
第三章以熔融碳酸鹽燃料電池為例,以數值分析的方法,根據mcfc電堆發電過程中物質與電量平衡,分析了電堆的內部動態特性,就輸出電壓與燃料氣體利用率和電流密度等相關量建立了由一組變系數偏微分方程和積分方程描述的數學模型。Xrd results revealed that melt intercalation of compatibilizers into organo - mmt followed by blending with ldpe was preferred to the dispersion of the silicate layers in ldpe matrix. moreover, the dispersion of mmt was dependent on the interaction among organo - mmt, surfactants and compatibilizers
研究發現,該體系採用相容劑有機蒙脫土先復合再與基體熔融擠出的分步插層技術,可使硅酸鹽片層達到很好的分散效果。Studying the heat - mass transfer and multi - spices electric - chemical reaction, a dynamic temperature model was deduced for molten - carbonate fuel cell stack. the thermal radiation, shift reaction, and the change of gas spices were considered in this model. establishing momentum equation, the paper has developed a 3d temperature and flow fields model for mcfc stack based on cfd technique
建立了熔融碳酸鹽燃料電池堆內部單體的暫態溫度模型,並考慮了電堆的輻射換熱、轉換反應、反應氣體組分變化對溫度場的影響;根據mcfc的微分控制方程組,考慮氣體組分的熱力學性質及動量變化的影響,利用數值分析方法求解熔融碳酸鹽燃料電池堆的三維流場與溫度場,分析了各作用因素對熔融碳酸鹽燃料電池堆溫度分佈的影響機制。Proton exchange memebrane fuel cell ( pemfc ) is the fifth generation of fuel cell after the alkaline fuel cell, phosphorous fuel cell, molten carbonate fuel cell and solid oxide fuel cell
質子交換膜燃料電池是繼堿性燃料電池、磷酸燃料電池、熔融碳酸鹽燃料電池和固體氧化物燃料電池之後發展起來的第五代燃料電池。Tow types of fuel - cell models can be distinguished : microscopic and macroscopic. this paper adopt agglomerate microscopic model to analyze the fuel cell ' s performance. according to the computation, it can be concluded that the performances are determined by the thickness of the electrode, the effective ionic conductivity, the radius of agglomerate and other parameters
對燃料電池單體,建立了微觀的數學模型? ?聚塊模型,用nenmanbandj方法計算熔融碳酸鹽燃料電池陽極和陰極的過電位,分析了各種參數的影響,對電極的制備,提高單電池的性能,有一定的指導意義。The process of absorbing coating of moo3 - v2o5 - p2o5 - fe2o3 glasses doped with nano powder and the properties was researched. the main researches including : 1
探索低熔融溫度的磷酸鹽系統玻璃的形成區域以及該系統玻璃的某些性能變化規律; 2The unstable stacking of layers of org - mmt was easily damaged under force and heat. hence, it is very important to decide the process temperature for preparing the composites, and it was found that 200 was a upper limitation of temperature
由於在高熱( 200以上)或強機械剪切作用下,蒙脫土層狀堆疊結構會坍塌,導致不能與聚合物分子作用生成聚合物?層狀硅酸鹽納米復合材料,因此熔融插層的溫度選擇顯得十分重要。Releasing characteristic of zeolite nitrogen on briquetting and molten station
壓片法和熔融鹽法制備沸石氮肥的養分釋放特性Moreover when aa content exceeded 10wt. - %, the increment of the extent of grafting level off and the grafting efficiency decreased remarkably. then hdpe - g - ydh151 / mmt composites and hdpe / mmt composites were prepared via melt compounding. ftir proved that there were interactions between ydh151 and mmt sheets
接著用十八烷基季胺鹽處理過的鈉基蒙脫土分別與hdpe以及兩種hdpe一物h151熔融插層后制備了三種復合材料,研究了mmt和ydh151間的相互作用對分散和性能的影響。Polymer melt intercalation is a promising new way to fabricate polymer layered - silicate nanocomposite by using conventional polymer melt blending technology. this method is simple and does n ' t need any solvents, so it is convenient to be put into production
熔融插層是應用傳統聚合物共混加工工藝制備聚合物基硅酸鹽粘土納米復合材料的一種新方法,這種方法不需要任何溶劑,工藝簡單,更易於工業化應用。In this paper, high density polyethylene / bentonite nanocomposites were prepared by simple melt compounding, their structures were demonstrated with x - ray diffraction, ft - ir spectra and dta. it was proved that the molecular chain of pe could be intercalated in layered silicate of organobentonite , the intercalation nanocomposites were obtained
本文採用簡單熔融插層復合法制備高密度聚乙烯/膨潤土納米復合材料,用x -射線衍射、紅外光譜和差熱分析等手段表徵了復合材料的結構,證實聚乙烯分子鏈確已進入有機膨潤土的硅酸鹽片層間,形成插層型納米復合材料。Development of molten carbonate fuel cell and its matrices
熔融碳酸鹽燃料電池隔膜材料和電池的開發分享友人