山东化工
山東化工
산동화공
SHANDONG CHEMICAL INDUSTRY
2014年
9期
158-160
,共3页
高效催化剂%含盐废水%装置优化
高效催化劑%含鹽廢水%裝置優化
고효최화제%함염폐수%장치우화
efficient catalysts%saline wastewater%system optimization
本文主要介绍神华煤直接液化制备高效催化剂工艺现状,对催化剂制备过程产生的含盐废水(催化剂废水)来源进行了分析,研究通过催化剂制备工段的操作优化及装置改进,降低催化工段废水产生量。结果表明,在该改进装置条件下催化剂制备工段产生的含盐废水量每小时降低14.5 t。
本文主要介紹神華煤直接液化製備高效催化劑工藝現狀,對催化劑製備過程產生的含鹽廢水(催化劑廢水)來源進行瞭分析,研究通過催化劑製備工段的操作優化及裝置改進,降低催化工段廢水產生量。結果錶明,在該改進裝置條件下催化劑製備工段產生的含鹽廢水量每小時降低14.5 t。
본문주요개소신화매직접액화제비고효최화제공예현상,대최화제제비과정산생적함염폐수(최화제폐수)래원진행료분석,연구통과최화제제비공단적조작우화급장치개진,강저최화공단폐수산생량。결과표명,재해개진장치조건하최화제제비공단산생적함염폐수량매소시강저14.5 t。
The paper introduced the current situation of directly liquidating deification coal to prepare effective catalyst. It analyzed the source of salinity wastewater produced during the process and studies how to reduce the amount of wastewater by improving catalytic section and equipment. The result showed that under the condition of improvement,the salinity wastewater produced during catalytic section could reduce 14. 5 tons per hour.