摘要
为改善高浓度CH_4瓦斯水合分离效果,利用瓦斯快速水合喷雾实验装置开展了雾化喷嘴夹角影响下高浓度CH_4瓦斯水合分离实验,结合瓦斯水合结束气-固相色谱分析结果,探讨喷嘴夹角对CH_4回收率和分离因子的影响。结果表明:60%CH_4瓦斯气样,喷嘴夹角30°、45°、60°、90°对应的CH_4回收率分别为20.69%、24.23%、16.83%、15.39%,分离因子分别为1.69、1.89、1.55、1.49;70%CH_4瓦斯气样,喷嘴夹角30°、45°、60°、90°对应的CH_4回收率分别为22.44%、25.27%、19.63%、17.87%,分离因子分别为1.67、1.83、1.52、1.41;80%CH_4瓦斯气样,喷嘴夹角30°、45°、60°、90°对应的CH_4回收率分别为22.36%、24.51%、18.81%、16.14%,分离因子分别为1.90、1.95、1.76、1.75。3种瓦斯气样的CH_4回收率和分离因子均随雾化喷嘴夹角的升高先增大后减小,其影响顺序为:45°>30°>60°>90°。
In order to improve the hydration separation effect of high concentration CH4 gas, the separation experiment of high concentration CH4 gas hydrate under the influence of spray nozzle angle was carried out by using the gas rapid hydrating spray experiment device. The influence of nozzle angle on recovery and separation factor of CH4 was discussed by combining gas hydration with the end gas-solid chromatography. The results show that: CH4 gas samples with concentration of 60% and nozzle angles of 30°, 45°, 60°, 90° corresponding CH4 recovery rates are 20.69%, 24.23%, 16.83% and 15.39%, respectively, and the separation factors are 1.69, 1.89, 1.55, 1.49; CH4 gas samples with concentration of 70% and nozzle angles of 30°, 45°, 60° 90°corresponding recovery rates of CH4 are 22.44%, 25.27%, 19.63% and 17.87%, respectively, the separation factors are 1.67,1.83,1.52, 1.4; CH4 gas samples with concentration of 80% and nozzle angles of 30°, 45°, 60° and 90° corresponding recovery rates of CH4 are 22.36%, 24.51%, 18.81% and 16.14%, respectively, and the separation factors were 1.90, 1.95, 1.76, 1.75. The three kinds of CH4 gas recovery and separation factors increase first and then decrease with the increase of the nozzles angle, and the influence sequence is 45°〉 30°〉 60°〉 90°.
作者
刘传海
吴强
张保勇
张家豪
张强
吴琼
LIU Chuanhai1,2, WU Qiang1,2, ZHANG Baoyong1,2, ZHANG Jiahao1,2, ZHANG Qiang1,2, WU Qiong1,2(1.College of Safety Engineering, Heilongjiang University of Science and Technology, Harbin 150022, China;2.Natianal Professional Center Lab of Safety Basic Research for Hydrocarbon Gas Pipeline Transportation Network, Harbin 150022, Chin)
出处
《煤矿安全》
CAS
北大核心
2018年第3期1-4,8,共5页
Safety in Coal Mines
基金
国家自然科学基金资助项目(51704103
51334005
51674108
51404102)
中国地质调查资助项目(DD20160216)
黑龙江省普通本科高等学校青年创新人才培养计划资助项目
关键词
瓦斯水合物
喷雾
分离因子
回收率
水合分离
gas hydrate
spray
separation thctor
recovery rate
hydration separation
