化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
3期
668-672
,共5页
王东旭%肖显斌%高静%詹芳蕾%覃吴%董长青
王東旭%肖顯斌%高靜%詹芳蕾%覃吳%董長青
왕동욱%초현빈%고정%첨방뢰%담오%동장청
生物质%气化%镍基%催化剂%焦油%积炭%助剂钾
生物質%氣化%鎳基%催化劑%焦油%積炭%助劑鉀
생물질%기화%얼기%최화제%초유%적탄%조제갑
biomass%gasification%nickel-based%catalyst%tar%carbon deposition%potassium
镍基催化剂是生物质气化及焦油转化过程中活性最高的催化剂之一,但容易因积炭失活影响寿命,降低制氢过程的经济性。添加助剂不仅可以有效提高催化剂的抗积炭能力,还可以提高催化剂的稳定性。本文综述了助剂钾对镍基催化剂抗积炭能力及反应活性的影响,分析了助剂钾影响积炭生成和积炭气化的机理。助剂钾能够提高镍基催化剂的抗积炭能力,抑制催化剂的烧结,提高催化剂的稳定性。未来的研究方向是进一步考察助剂钾的种类、添加方式对镍基催化剂的抗积炭能力及焦油转化活性的影响与本质原因,以制备出具有高活性、高抗积炭能力、长寿命的生物质气化镍基催化剂。
鎳基催化劑是生物質氣化及焦油轉化過程中活性最高的催化劑之一,但容易因積炭失活影響壽命,降低製氫過程的經濟性。添加助劑不僅可以有效提高催化劑的抗積炭能力,還可以提高催化劑的穩定性。本文綜述瞭助劑鉀對鎳基催化劑抗積炭能力及反應活性的影響,分析瞭助劑鉀影響積炭生成和積炭氣化的機理。助劑鉀能夠提高鎳基催化劑的抗積炭能力,抑製催化劑的燒結,提高催化劑的穩定性。未來的研究方嚮是進一步攷察助劑鉀的種類、添加方式對鎳基催化劑的抗積炭能力及焦油轉化活性的影響與本質原因,以製備齣具有高活性、高抗積炭能力、長壽命的生物質氣化鎳基催化劑。
얼기최화제시생물질기화급초유전화과정중활성최고적최화제지일,단용역인적탄실활영향수명,강저제경과정적경제성。첨가조제불부가이유효제고최화제적항적탄능력,환가이제고최화제적은정성。본문종술료조제갑대얼기최화제항적탄능력급반응활성적영향,분석료조제갑영향적탄생성화적탄기화적궤리。조제갑능구제고얼기최화제적항적탄능력,억제최화제적소결,제고최화제적은정성。미래적연구방향시진일보고찰조제갑적충류、첨가방식대얼기최화제적항적탄능력급초유전화활성적영향여본질원인,이제비출구유고활성、고항적탄능력、장수명적생물질기화얼기최화제。
Nickel-based catalyst is one of the most promising catalysts in biomass gasification and tar reforming,but it deactivates fast due to carbon deposition,compromising its economic efficiency. Promoter addition can improve both its resistance to carbon deposition and stability. Potassium can be used as a catalyst for biomass gasification and tar reforming,and it significantly suppresses the coke deposition on catalyst. The present review is focused on the influence of potassium promoter on the performance of nickel-based catalyst,including its resistance to carbon deposition,catalytic activity, coke formation and gasification mechanism. The addition of potassium promoter can significantly suppress coke formation and catalyst sintering,and improve its thermal stability. Investigations on various species of potassium promoter and different addition methods are suggested for future research,in order to obtain essential mechanism and performance details,and to produce a novel nickel-based catalyst with high activity,high resistance to carbon deposition and long lifetime for biomass gasification.
