化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
11期
2843-2847
,共5页
余贺%赵基钢%侯晓明%沈本贤
餘賀%趙基鋼%侯曉明%瀋本賢
여하%조기강%후효명%침본현
S Zorb%吸附%加氢%Benson法%热力学性质
S Zorb%吸附%加氫%Benson法%熱力學性質
S Zorb%흡부%가경%Benson법%열역학성질
S Zorb%adsorption%hydrogenation%Benson method%thermodynamic properties
S Zorb技术可以将FCC汽油的硫含量降至小于10μg/g,但在反应吸附脱硫过程中,由于反应体系中引入了 H2,在反应器中不仅发生了硫化物的脱硫反应,还会发生不饱和烃的加氢饱和反应、加氢异构化反应和烯烃与H2S生成硫醇的反应。本文采用基团贡献法Benson法分析了这些反应的热力学性质,计算了这些反应的反应焓变ΔrHm、反应吉布斯自由能ΔrGm和反应平衡常数K及平衡转化率。计算结果表明,本文所列举的7个典型反应都是放热反应,且有芳烃加氢放热>噻吩化合物脱硫放热>烯烃加氢放热>烯烃与 H2S 生成硫醇放热>烯烃加氢异构放热;在S Zorb反应吸附过程中,体系中H2S含量较少,因此噻吩脱硫后不会继续生成硫醇。
S Zorb技術可以將FCC汽油的硫含量降至小于10μg/g,但在反應吸附脫硫過程中,由于反應體繫中引入瞭 H2,在反應器中不僅髮生瞭硫化物的脫硫反應,還會髮生不飽和烴的加氫飽和反應、加氫異構化反應和烯烴與H2S生成硫醇的反應。本文採用基糰貢獻法Benson法分析瞭這些反應的熱力學性質,計算瞭這些反應的反應焓變ΔrHm、反應吉佈斯自由能ΔrGm和反應平衡常數K及平衡轉化率。計算結果錶明,本文所列舉的7箇典型反應都是放熱反應,且有芳烴加氫放熱>噻吩化閤物脫硫放熱>烯烴加氫放熱>烯烴與 H2S 生成硫醇放熱>烯烴加氫異構放熱;在S Zorb反應吸附過程中,體繫中H2S含量較少,因此噻吩脫硫後不會繼續生成硫醇。
S Zorb기술가이장FCC기유적류함량강지소우10μg/g,단재반응흡부탈류과정중,유우반응체계중인입료 H2,재반응기중불부발생료류화물적탈류반응,환회발생불포화경적가경포화반응、가경이구화반응화희경여H2S생성류순적반응。본문채용기단공헌법Benson법분석료저사반응적열역학성질,계산료저사반응적반응함변ΔrHm、반응길포사자유능ΔrGm화반응평형상수K급평형전화솔。계산결과표명,본문소열거적7개전형반응도시방열반응,차유방경가경방열>새분화합물탈류방열>희경가경방열>희경여 H2S 생성류순방열>희경가경이구방열;재S Zorb반응흡부과정중,체계중H2S함량교소,인차새분탈류후불회계속생성류순。
S Zorb process can reduce the sulfur content in gasoline to less than 10μg/g. But because of the addition of H2,not only the desulfurization reactions of sulfur compounds occur on the surface of the adsorption , but also the hydrogenation reactions of olefins and aromatics and the hydroisomerization reactions are associated during S Zorb reaction adsorption desulfurization. The thermodynamic properties of these reactions were analyzed in this paper,including reaction enthalpy, Gibbs free energy,equilibrium constant and thermodynamic conversion. The results show that all these typical reactions are exothermic and the order of heat release is as follows:aromatic hydrogenation>thiophene desulfurization>olefin hydrogenation>the generation of mercaptan>olefin isomerization. The results also show that mercaptan could not be produced after the thiophene desulfurization because of the less content of H2S in the reaction system during S Zorb reaction adsorption desulfurization.
