Published date: Oct 14 2018

Journal Title: KnE Materials Science

Issue title: Sino-Russian ASRTU Conference Alternative Energy: Materials, Technologies, and Devices

Pages: 45-55

DOI: 10.18502/kms.v4i2.3037

N R Liu752981728@qq.com

P F Niu

C R Li

Y M Han

H D Shang

To the 2×40 t/h heating boiler flue gas, ethanolamine was used for absorption, carbamate – for desorption. The waste heated boiler flue gas was used to heat the absorption and the desorption; the pump was driven by the solar energy. The results showed that the best absorption rate was 82.28%, when the ethanolamine concentration was 40% and the temperature was 40∘C; the energy consumption was 59.82 KJ/mol. The best desorption temperature was 115∘C, the desorption rate was 55%, and its energy consumption was 694.30 KJ/mol. The pump needed 1.49 KJ/h, reduced 42.8 t/year of CO2 and regenerated 23.54 t/year of CO2.

Keywords: CO2 absorption rate, CO2 desorption rate, CO2 regeneration rate, energy conservation, emission reduction

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