氯碱工业
氯堿工業
록감공업
CHLOR-ALKALI INDUSTRY
2013年
10期
29-30,42
,共3页
三氯乙烯%生产工艺%催化重整%四氯乙烷%氯乙烯
三氯乙烯%生產工藝%催化重整%四氯乙烷%氯乙烯
삼록을희%생산공예%최화중정%사록을완%록을희
trichloroethylene%production process%catalytic reformation%tetrachloroethane%vinyl chloride
介绍以乙炔、氯气为原料生产四氯乙烷,四氯乙烷再与乙炔催化重整生成三氯乙烯联产氯乙烯的工艺方法,并通过试验得到三氯乙烯收率较高的工艺条件:四氯乙烷流量为2.8 mL/min,四氯乙烷与乙炔的摩尔比为1∶1,温度为200℃,压力为0.1 MPa。
介紹以乙炔、氯氣為原料生產四氯乙烷,四氯乙烷再與乙炔催化重整生成三氯乙烯聯產氯乙烯的工藝方法,併通過試驗得到三氯乙烯收率較高的工藝條件:四氯乙烷流量為2.8 mL/min,四氯乙烷與乙炔的摩爾比為1∶1,溫度為200℃,壓力為0.1 MPa。
개소이을결、록기위원료생산사록을완,사록을완재여을결최화중정생성삼록을희련산록을희적공예방법,병통과시험득도삼록을희수솔교고적공예조건:사록을완류량위2.8 mL/min,사록을완여을결적마이비위1∶1,온도위200℃,압력위0.1 MPa。
A process for production of trichloroethylene and vinyl chloride by catalytic reformation of acetylene and tetrachloroethane , which was produced from acetylene and chlorine gas , was introduced . The following process conditions were established by experiment:flow of tetrachloroethane 2.8 mL/min, the mole ratio of tetrachloroethane to acetylene 1∶1, temperature 200 ℃, and pressure 0.1 MPa.The yield of trichloroethylene was higher under the above conditions .