当代化工
噹代化工
당대화공
CONTEMPORARY CHEMICAL INDUSTRY
2013年
5期
608-610
,共3页
干馏炉%油页岩%低温干馏%脱硫
榦餾爐%油頁巖%低溫榦餾%脫硫
간류로%유혈암%저온간류%탈류
Carbonization furnace%Oil shale%Low temperature carbonization%Desulfurization
对干馏炉加料系统、炉内瓦斯导出系统、循环瓦斯系统、排灰系统以及页岩油回收系统进行工艺改造。改造后使干馏炉结构更加合理,生产操作省时、省力、高效、安全;页岩油回收系统的改造提高了页岩油回收率;发电以及脱硫项目的投入,节约能源保护环境。
對榦餾爐加料繫統、爐內瓦斯導齣繫統、循環瓦斯繫統、排灰繫統以及頁巖油迴收繫統進行工藝改造。改造後使榦餾爐結構更加閤理,生產操作省時、省力、高效、安全;頁巖油迴收繫統的改造提高瞭頁巖油迴收率;髮電以及脫硫項目的投入,節約能源保護環境。
대간류로가료계통、로내와사도출계통、순배와사계통、배회계통이급혈암유회수계통진행공예개조。개조후사간류로결구경가합리,생산조작성시、성력、고효、안전;혈암유회수계통적개조제고료혈암유회수솔;발전이급탈류항목적투입,절약능원보호배경。
The feeding system,gas emission system,gas circulatory system, dust disposing system and shale oil recovery system of the carbonization furnace for oil shale were reformed. After the reformation, the furnace structure was more reasonable,the production operation became time saving and energy saving, high efficiency and safety. The recovery rate of shale oil increased after improving the shale oil recovery system. The utilization of power generation facilities and desulfurization facilities saved more energy and protected environment.