聚氯乙烯
聚氯乙烯
취록을희
POLYVINYL CHLORIDE
2011年
9期
22-23
,共2页
氯化氢%乙炔%混合气%干燥%硫酸组合干燥塔
氯化氫%乙炔%混閤氣%榦燥%硫痠組閤榦燥塔
록화경%을결%혼합기%간조%류산조합간조탑
hydrogen chloride%acetylene%mixture gas%drying%sulfuric acid combination dr-ying tower
介绍了氯化氢、乙炔混合气干燥效果对后续系统的影响及传统混合气干燥工艺流程,并提出了混合气干燥新工艺。该工艺采用硫酸组合干燥塔对混合气进行干燥,混合气含水质量分数可降至1×10。左右。
介紹瞭氯化氫、乙炔混閤氣榦燥效果對後續繫統的影響及傳統混閤氣榦燥工藝流程,併提齣瞭混閤氣榦燥新工藝。該工藝採用硫痠組閤榦燥塔對混閤氣進行榦燥,混閤氣含水質量分數可降至1×10。左右。
개소료록화경、을결혼합기간조효과대후속계통적영향급전통혼합기간조공예류정,병제출료혼합기간조신공예。해공예채용류산조합간조탑대혼합기진행간조,혼합기함수질량분수가강지1×10。좌우。
Influences of drying effects of gas mixture of hydrogen chloride and acetylene on the downstream processes were introduced as well as the traditional mixture gas drying process flow, and a new process for drying of the mixture gas was proposed. In the new process, sulfuric acid combination towers were adopted, and the content of water in the gas mixture could be reduced to about 100 ppm.
