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CO在超临界水中的转化以及碱性钾盐的影响
引用本文:丁启忠,张军,赵亮,陆柒安. CO在超临界水中的转化以及碱性钾盐的影响[J]. 燃料化学学报, 2019, 47(8): 980-986
作者姓名:丁启忠  张军  赵亮  陆柒安
作者单位:1. Key Laboratory of Energy Thermal Conversion and Control of Ministry of Education, Southeast University, Nanjing 210096, China;;2. School of Materials Science and Engineering, Nanjing Forestry University, Nanjing 210037, China
基金项目:国家自然科学基金(51606103),能源高效清洁利用湖南省高校重点实验室开放基金项目(2017NGQ005)和湖南省教育厅创新平台开放基金项目(17K002)资助
摘    要:构建了CO高压溶解的进气系统,在连续式反应系统中对超临界水条件下CO的转化规律进行了研究;针对生物质超临界水气化中钾盐的多样性,选择KHCO3、K2CO3和KOH等三种钾盐成分,研究了它们在不同工艺条件(450-600℃、23-29 MPa、停留时间3-6 s)下对超临界水中水煤气转化过程的影响。结果表明,在无催化条件下,提高反应温度、延长停留时间均提高了CO的转化率,而压力对其影响在低压下(23-25 MPa)比较大,高压下(25-29 MPa)比较小,水煤气转化的反应动力学方程为k=103.75×exp(-0.66×105/RT)(s-1)。碱性钾盐均能显著提高CO转化率,其催化促进程度从大到小依次为:KHCO3>K2CO3>KOH。添加碱性钾盐时,提高反应温度、延长停留时间均提高CO转化率,而压力的影响比较复杂。碱性盐对水煤气转化反应的催化是通过草酸盐(HC2O4-)和甲酸盐(HCOO-)作为中间产物进行的。

关 键 词:碱性钾成分  水煤气转化  超临界水  CO转化  
收稿时间:2019-04-22

Conversion of carbon monoxide in supercritical water and the influence of alkaline potassium salts
DING Qi-zhong,ZHANG Jun,ZHAO Liang,LU Qi-an. Conversion of carbon monoxide in supercritical water and the influence of alkaline potassium salts[J]. Journal of Fuel Chemistry and Technology, 2019, 47(8): 980-986
Authors:DING Qi-zhong  ZHANG Jun  ZHAO Liang  LU Qi-an
Abstract:The conversion of carbon monoxide in supercritical water was investigated in a continuous reaction system which could dissolve carbon monoxide in water at high pressure. Meanwhile, due to the diversity of potassium salts in biomass supercritical water gasification, the influence of various alkaline potassium salts (KHCO3, K2CO3 and KOH) on the water gas shift reaction were investigated at 450-600 ℃, 23-29 MPa and with a residence time of 3-6 s. The results show that under non-catalytic conditions, the increases in reaction temperature and residence time both lead to higher CO conversion. The effect of pressure on CO conversion is distinct at low pressure (23-25 MPa), but rather minor at higher pressure (25-29 MPa). The rate expression for the non-catalytic water gas shift reaction is k=103.75×exp(-0.66×105/RT)(s-1). The potassium salts can promote the CO conversion significantly and the activity of three salts follows the order of KHCO3 > K2CO3 > KOH; the conversion of CO is enhanced at higher temperature and longer reaction time, whereas the effect of pressure on CO conversion is much complicated. The catalytic effect of alkaline potassium salts in the CO conversion may be explained by the formation of oxalate (HC2O4-) and formate (HCOO-) intermediates.
Keywords:alkaline potassium salts  water gas shift  supercritical water  CO conversion  
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