Evaluation of energy consumption for separation of CO_2 in flue gas by hollow fiber facilitated transport membrane module with permeation of amine solution

摘要

Energy consumption for the separation of CO_2 in flue gas by a novel hollow fiber facilitated transport membrane module was evaluated and compared with those by conventional separation processes such as gas absorption and polymeric membrane separation.In the novel facilitated transport membrane system,both a feed gas (CO_2/N_2 mixture) and a carrier solution (aqueous diethanolamine solution) are supplied to the lumen side (feed side,high pressure side) of the hollow fiber ultrafiltration membrane module and flow upward.The carrier solution,which contains dissolved solute gas,CO_2 in the present case,permeates the membrane to the permeate side (low pressure side,shell side),where the solution liberates dissolved gas to become a lean solution and the lean solution is returned to the lumen side by a pump.The feed side pressure was atmospheric and the permeate side pressure was controlled in the range from 10 to 27kPa.CO_2 in the feed gas consisting of 10% CO_2 and 90% N_2 was concentrated to higher than 99%.The effects of various system parameters,such as permeate side pressure,temperature,gas and liquid flow rates and the inner diameter of hollow fiber membrane,on the energy consumption for CO_2 recovery were investigated.Energy consumption decreased with increasing temperature and had a minimum at an optimum permeate side pressure.The minimum energy consumption was estimated as 0.211 kWh kg-CO_2~(-1) when the inner diameter of the hollow fiber was 0.8 mm.The energy consumption increased with feed gas flow rate,however,it was little influenced by liquid flow rate.The energy consumption decreased remarkably with increasing the inner diameter of the hollow fiber,and it was estimated as 0.072 k Wh kg-CO_2~(-1) when hollow fibers of 1.4 mm in inner diameter were used.This value is the lowest among those reported so far.