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    • 10. 发明申请
    • Processes, Apparatus, Compositions and Systems for Reducing Emissions of HCl and/or Sulfur Oxides
    • 用于减少HCl和/或硫氧化物排放的方法,装置,组合物和系统
    • US20140314650A1
    • 2014-10-23
    • US14190451
    • 2014-02-26
    • FUEL TECH, INC.
    • Christopher R. SmyrniotisKent W. SchulzEmelito P. RiveraIan SaratovskyVasudeo S. Gavaskar
    • B01D53/68B01D53/50
    • B01D53/68B01D53/507B01D2251/60B01D2251/80B01D2257/2045B01D2258/0283B01D2259/124F23J2215/20F23J2215/30
    • The description relates to reducing emissions of HCl and sulfur oxides by treating combustion gases with an aqueous copper compound referred to as copper-based chloride remediator (CBCR). The process is preferably implemented by identifying locations within a combustor for feeding the CBCR, determining the physical form and injection parameters for the CBCR and injecting the CBCR under conditions effective to reduce HCl and/or sulfur oxides. Effective temperatures for introducing the copper-based chloride remediators are preferably within the range of from about 250° to 900° F. where the objective is to reduce HCl, while temperatures up to about 2200° F. can be employed where the objective is to reduce sulfur oxides. Among the more preferred CBCRs are copper compositions including copper and an ammonia moiety. One composition of this type that was tested was copper diammonium diacetate, which has an empirical formula of C2H7CuNO2. These CBCR compositions are not sorbents, and chemically convert HCl from a gaseous to a solid form.
    • 该描述涉及通过用称为铜基氯化物修复剂(CBCR)的含水铜化合物处理燃烧气体来减少HCl和硫氧化物的排放。 该方法优选通过识别用于供给CBCR的燃烧器内的位置,确定CBCR的物理形式和注入参数并在有效降低HCl和/或硫氧化物的条件下注入CBCR来实现。 用于引入铜基氯化物修复剂的有效温度优选在约250°至900°F的范围内,其目的是减少HCl,而可以使用高达约2200°F的温度,其目的是 减少硫氧化物。 更优选的CBCR是铜组合物,包括铜和氨部分。 测试的这种类型的一种组合物是二乙酸铜铵,其具有C2H7CuNO2的经验式。 这些CBCR组合物不是吸附剂,并且将HCl从气态化学转化成固体形式。