sofc 中文意思是什麼

sofc 解釋
固體氧化物燃料電池
  1. More recently, the perovskite manganite compounds, la1 - xsrxmno3 have been used as the cathode of the solid oxide fuel cell ( sofc ) because of their electro - ion conductivity properties. in manganite perovskites, substitution of divalent ions ( alkaline earth metals viz

    近幾年來, la _ ( 1 - x ) sr _ xmno _ 3這類鈣鈦礦型結構的氧化物材料因為其具有混合電子-離子導電特性而被廣泛的應用於固體氧化物燃料電池陰極材料。
  2. Ysz - ni ( nickel - yttria stabilized zirconia ) cermets have been widely used in the solid oxide fuel cells ( sofc ) and functionally gradient materials ( fgm ) areas

    Ysz - ni (鎳-氧化釔穩定的氧化鋯)金屬陶瓷可以應用於固體氧化物燃料電池( sofc )和功能梯度材料( fgm )中。
  3. Air plasma spray forming of sofc anode layer by using charcoal mixture

    陽極層的等離子噴塗混合炭粉成孔工藝
  4. The key point lays on the technology of fuel cell stack. on the basis of accumulation in mcfc experimentation, some technology will be more easily transplanted on sofc

    燃料電池堆技術是燃料電池發電站的關鍵技術,在mcfc積累的運行經驗能夠比較容易地移植到sofc 。
  5. The status and progress of the anode materials for sofc are reviewed in this paper

    本文綜述了固體氧化物燃料電池陽極材料的研究現狀和進展。
  6. The intermediate - temperature sofc ( solid oxide fuel cell ) ’ s electrolyte with perovskite - type lsgm ( la _ ( 0. 9 ) sr _ ( 0. 1 ) ga _ ( 0. 8 ) mg _ ( 0. 2 ) o _ ( 3 - ) ) was synthesized using advanced pechini method and solidification method. the thermal and electrical properties of the sintered samples ( synthesized by two different methods ) were measured and compared by thermal expansion and ac impedance spectroscopy ; the phase transformation process and inner structure were measured and compared by xrd, dta - tg and ac impedance spectroscopy. the research results show that the electrolyte synthesized by advanced pechini method has several advantages, such as fine pre - powders, low sintering temperature, reduced or eliminated impurity phases and high conductivity etc. so, the apm is ideal method to synthesize lsgm

    採用改進的檸檬酸法(以檸檬酸和edta乙二氨四乙酸為復合絡和劑,檸檬酸為燃料)和固相法分別制備了具有鈣鈦礦結構的中溫固體氧化物燃料電池的電解質材料lsgm ( la _ ( 0 . 9 ) sr _ ( 0 . 1 ) ga _ ( 0 . 8 ) mg _ ( 0 . 2 ) o _ ( 3 - ) ) ,用差熱?熱重分析( dta / tg ) 、 x光衍射分析( xrd ) 、交流阻抗譜技術( ac - impedancespectra ) 、比表面積分析( bet )和燒結收縮率曲線等手段對產物的熱分解過程、物相轉變和內部結構等進行了表徵,並對由這些粉體燒結而成的固體氧化物燃料電池的電解質材料的電導率進行了檢測。
  7. Perovskite - type solid electrolytes in sofc

    燃料電池中的鈣鈦礦型固體電解質
  8. Perovskite - type complex oxides of la1 - xcaxcro3 compositions are attracting growing attention because of their superior electronic conductivity and excellent chemical stability in both oxidizing and reducing atmospheres, which makes them promising candidate materials for many important applications, such as interconnectors for solid oxide fuel cells ( sofc ), heating elements for high temperature furnaces, and current collecting electrodes in magneto - hydrodynamics ( mhd ). in this dissertation, the gnp ( glycine - nitrate process ) method has been employed to synthesize la1 - xcaxcro3 oxides. the synthesis and preparation, sinterability, electrical conducting properties and thermal expansion properties of la1 - xcaxcro3 oxides have been investigated

    本文採用gnp ( glycine - nitrateprocess )法制備了la _ ( 1 - x ) ca _ xcro _ 3材料,對制備方法與工藝參數、材料燒結性能、電性能以及熱膨脹性能進行了研究,分析了ca ~ ( 2 + )含量、粉體顆粒形態對材料燒結行為、燒結緻密化溫度的影響,並研究了ca ~ ( 2 + )含量、粉體顆粒形態對材料晶體結構、顯微結構和物理性能的影響,其目的在於為該類高溫電子導體的進一步研究利應用提供實驗和理論依據。
  9. Sofc is mainly composed of three parts : electrolyte, anode and cathode

    Sofc材料主要包括固體電解質材料、陽極材料和陰極材料三大類。
  10. Solid oxide fuel cells ( sofc ) is one of the most attractive energy conversion system because of its high efficiency, low pollution and fuel flexibility

    固體氧化物燃料電池( sofc )因其具有能量轉換效率高、低污染、對燃料的適應范圍寬而備受關注。
  11. Intermediate - low temperature solid oxide fuel cell ( iltsofc ) is the tendency of the solid oxide fuel cell ( sofc ) commercializing development, and one key problem is the study of cathode materials

    摘要中低溫固體氧化物燃料電池的研製是固體氧化物燃料電池商業化的必然趨勢,陰極材料的研製是影響其發展的關鍵問題之一。
  12. Material scientists over the world are having been working earnestly and consciously to seek out materials having both qualities of metal and nonmetal. zro2 - ni cermet materials have been widely used in the sofc and fgm areas

    將金屬的高強度、高韌性、高電導與陶瓷的高硬度、耐高溫、耐腐蝕性能完美結合,從而制備出金屬陶瓷是各國材料研究者夢寐以求的目標。
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