乙炔氢氯化反应制备氯乙烯低固汞催化剂失活机理
을결경록화반응제비록을희저고홍최화제실활궤리
Deactivation Mechanism of Low-Mercury Catalyst for Acetylene Hydrochlorination
  • 万方数据
    化学反应工程与工艺 화학반응공정여공예
    Chemical Reaction Engineering and Technology
    2015年 4期 343-351 ,共9页

    支林轩%李瑛%唐浩东%刘化章%裴文俊

    지림헌%리영%당호동%류화장%배문준

    乙炔氢氯化%氯乙烯%低固汞催化剂%失活机理%积炭%中毒 乙炔氫氯化%氯乙烯%低固汞催化劑%失活機理%積炭%中毒
    을결경록화%록을희%저고홍최화제%실활궤리%적탄%중독
    acetylene hydrochlorination%vinyl chloride%low-mercury catalyst%deactivation%coking%poisoning
    采用氮气吸附脱附技术、扫描电镜(SEM)、程序升温脱附-质谱联用(TPD-MS)、程序升温氧化-质谱联用(TPO-MS)和热重分析仪(TG)等对新鲜及反应800 h后的乙炔氢氯化低固汞催化剂进行了表征及失活机理分析.结果表明,反应后的低固汞催化剂的HgCl2的流失仅为1.6%,积炭量为13.5%,并测得含硫化合物,说明硫中毒和积炭是催化剂失活的主要原因.
    채용담기흡부탈부기술、소묘전경(SEM)、정서승온탈부-질보련용(TPD-MS)、정서승온양화-질보련용(TPO-MS)화열중분석의(TG)등대신선급반응800 h후적을결경록화저고홍최화제진행료표정급실활궤리분석.결과표명,반응후적저고홍최화제적HgCl2적류실부위1.6%,적탄량위13.5%,병측득함류화합물,설명류중독화적탄시최화제실활적주요원인.
    The fresh and deactivated low-mercury catalysts were characterized by low-temperature nitrogen adsorption-desorption technique, scanning electron microscopy(SEM), temperature programmed desorption- mass spectrometry(TPD-MS), temperature programmed oxidation-mass spectrometry(TPO-MS) and thermal gravimetric analysis(TG). The results showed that HgCl2 of deactivated catalyst lost by 1.6%, deposited carbon reached 13.5% and sulfocompounds were detected. The coking and sulfur poisoning were the main reasons for the new low-mercury catalyst.
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