1) coke-oven gas-to-methanol
焦炉煤气制甲醇
1.
Based on the dry purification process flow in the production of coke-oven gas-to-methanol, and in the light of some problems occurring in the running gears, this paper makes corresponding theoretical analysis, and puts forward some improvement measures for increasing the stability of the operation of production facilities and improving the products quality.
基于焦炉煤气制甲醇生产中干法净化工艺流程,针对在运行装置中发现的一些问题进行相应的理论分析并提出改进措施,以提高生产装置运行的稳定性,提高产品质量。
2) producing of coal oven gas
焦炉煤气制取
3) coke gas
焦炉煤气
1.
Environment problems in production of methyl alcohol with coke gas system;
焦炉煤气制甲醇生产中的环境问题分析
2.
Practice of coke gas in the flash calciner;
闪速焙烧炉燃用焦炉煤气的实践
3.
Recycling of coke gas was the efficient way to extend the coal processing products,which conformed to the current circular economy,green industry and the construction of a conservation-oriented sociedy.
焦炉煤气的回收利用,是延伸煤炭加工产品链的有效途径,符合当前循环经济、绿色工业和建设节约型社会的发展方向,而焦炉煤气的净化是其综合利用的最为关键的工艺过程。
4) coke oven gas
焦炉煤气
1.
Catalytic conversion of CO_2 and CH_4 in simulating coke oven gas without H_2;
焦炉煤气中富甲烷气与二氧化碳催化转化制合成气
2.
Analysis on energy-saving for the application of coke oven gas for flow bed flashing calciner of alumina hydrate;
焦炉煤气在氢氧化铝流态化闪速焙烧炉应用的节能分析
3.
Development of process of pressure swing adsorption for hydrogen production from coke oven gas and its application;
焦炉煤气变压吸附制氢新工艺的开发与应用
5) coke-oven gas
焦炉煤气
1.
Research on DME-power co-generation from coal gas and coke-oven gas;
气化煤气与焦炉煤气DME-电联产方案的研究
2.
Error analysis of naphthalene content in coke-oven gas determination;
焦炉煤气中萘含量测定的误差浅析
3.
Simulation for hydrogen production from sorption enhanced coke-oven gas steam reforming based on chemical looping combustion;
基于化学链燃烧的吸收剂引导的焦炉煤气水蒸气重整制氢过程模拟
6) COG
[英][kɔɡ] [美][kɑg]
焦炉煤气
1.
Discussion on Measurement of H2S in COG;
焦炉煤气中硫化氢测定方法的探讨
2.
Determination of the Tar Content in the COG by UV Spectrophotometer
紫外分光光度法测定焦炉煤气中焦油含量
3.
The coke oven gas(COG) is the important sub-production of coking industry,H2 and CH4 in COG are important valuable industry resource,but at present in China,the proportion of upper efficient utilization of COG is little.
焦炉煤气是焦化行业重要的副产品,其中的氢气和甲烷是工业行业极其宝贵的资源,但是目前我国高附加值利用焦炉煤气的比例很少。
补充资料:焦炉煤气
简称焦炉气。煤焦化过程得到的可燃气体。其产率和组成因炼焦煤质和焦化过程条件不同而有所差别,一般每吨干煤可产焦炉煤气300~350m3(标准状态)。煤气组成(体积%)为:氢55~60,甲烷23~27,一氧化碳5~8,C2以上不饱和烃2~4,二氧化碳1.5~3,氮3~7,氧0.3~0.8。
焦炉煤气属于中热值煤气,其热值每标准立方米约为17~19MJ,适合作高温工业炉的燃料和城市煤气。焦炉煤气含氢量高,分离后用于合成氨,其他成分如甲烷和乙烯等可用作有机合成原料。焦炉煤气为有毒和易爆性气体,空气中的爆炸极限为6%~30%(体积)。
焦炉煤气属于中热值煤气,其热值每标准立方米约为17~19MJ,适合作高温工业炉的燃料和城市煤气。焦炉煤气含氢量高,分离后用于合成氨,其他成分如甲烷和乙烯等可用作有机合成原料。焦炉煤气为有毒和易爆性气体,空气中的爆炸极限为6%~30%(体积)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条