活性煤AG-3对氨的吸附

N. V. Ksandrov, O. R. Ozhogina
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引用次数: 0

摘要

从湿气中提取NH3并将其返回到工艺中的问题可能发生在使用氨水溶液的技术中。用氯化铵和氨在水中的溶液从工业废物中提取形成可溶性氨的有色金属氧化物就是这种技术的一个例子。有色金属的氧化物随后沉淀,将水蒸气和氨的混合物从溶液中排出。废物净化减少了对自然水资源的污染,扩大了铜锌冶炼的原料基础。为了使NH3返回到废物处理中,利用从气体-蒸汽混合物中吸附氨是有效的。氨厂中使用的硅胶不适用于吸收湿气中的NH3。关于疏水活性煤从气体蒸汽混合物中吸附NH3的数据不足以用于实际目的。用动力学方法研究了活性煤AG-3在0.1−15kPa和288−323K温度下吸附湿气中氨时,对氨气的平衡吸附能力与分压的关系。煤样品的微孔体积等于0.31±0.02 cm3/g。所提出的方程提供了在所研究的吸附参数变化范围内煤的吸附能力的计算,每个等温线的平均误差小于5%。吸附热等于37-39kJ/mol,比氨蒸汽的冷凝热大约20kJ/mol,这是物理吸附的典型值。在吸收氨的煤的再生过程中,吸附能力是稳定的。
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ADSORPTION OF AMMONIA WITH ACTIVATED COAL AG-3
The problem of NH3 extraction from wet gases and returning it to the process may take place in the technologies which use aqueous ammonia solutions. The extraction of non-ferrous metal oxides forming soluble ammoniates from industrial wastes with the solution of ammonium chloride and ammonia in water is an example of such technologies. The oxides of non-ferrous metals are then precipitated, driving the mixture of water vapor and ammonia off the solution. Waste purification reduces the pollution of natural water resources and expands the raw material base of metallurgy of copper and zinc. To return NH3 to the waste treatment it is efficient to use adsorption of ammonia from the gas-vapor mixture. The silica gel used in ammonia plants is not applicable to absorption NH3 from wet gases. The data on the adsorption NH3 from the gas-vapor mixture with hydrophobic activated coals are not sufficient for practical purposе. The dependence of the equilibrium adsorption capacity of activated coal AG-3 on ammonia wapors on their partial pressure at 0.1−15 kPa and a tempеrature of 288−323 K in the sorption of ammonia from wet gases is studied with a dynamic method. The micropore volume of the coal samples is equal to 0.31±0.02 cm3/g. The presented equation provides the calculation of the sorption capacity of coal in the studied range of adsorption parameter change with an average error less than 5% for each isotherme. The heat of adsorption is equal to 37 -39 kJ/mol which is larger than the heat of condensation of ammonia vapors by about 20 kJ/mol, which is typical for physical adsorption. During the regeneration of the coal which absorbed the ammonia the adsorption capacity was stable.
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来源期刊
CiteScore
1.40
自引率
44.40%
发文量
83
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