Abstract
Upgrading raw biogas to methane (CH4) is a vital prerequisite for the utilization of biogas as a vehicle fuel or the similar field as well. In this work, biogas yield from the anaerobic fermentation of food waste containing methane (CH4, 60.4%), carbon dioxide (CO2, 29.1%), hydrogen sulfide (H2S, 1.5%), nitrogen (N2, 7.35%) and oxygen (O2, 1.6%) was upgraded by dynamic adsorption. The hydrogen sulfide was removed from the biogas in advance by iron oxide (Fe2O3) because of its corrosion of the equipment. Commercial 13X zeolite and carbon molecular sieve (CMS) were used to remove the other impurity gases from wet or dry biogas. It was found that neither 13X zeolite nor CMS could effectively remove each of the impurities in the wet biogas for the effect of water vapor. However, 13X zeolite could effectively remove CO2 after the biogas was dried with silica and showed a CO2 adsorption capacity of 78 mg/g at the condition of 0.2 MPa and 25 °C. Additionally, 13X zeolite almost did not adsorb nitrogen (N2), so the CH4 was merely boosted to ac. 91% after the desulfurated dry biogas passed through 13X zeolite, nitrogen remaining in the biogas. CMS would exhibit superior N2 adsorption capacity and low CO2 adsorption capacity if some N2 was present in biogas, so CMS was able to remove all the nitrogen and fractional carbon dioxide from the desulfurated dry biogas in a period of time. Finally, when the desulfurated dry biogas passed through CMS and 13X zeolite in turn, the N2 and CO2 were sequentially removed, and then followed the high purity CH4 (≥96%).
Highlights
Human civilization relies heavily on the use of fossil fuels, which has resulted in a rapid depletion of natural energy sources, serious environmental pollution and climate change, so there is growing demand to develop renewable energy in the world
N2 adsorption capacity and low CO2 adsorption capacity if some N2 was present in biogas, so carbon molecular sieve (CMS)
CO2 adsorption performance on 13X zeolite and CMS were investigated at 25 °C under a gas containing 10%
Summary
Human civilization relies heavily on the use of fossil fuels, which has resulted in a rapid depletion of natural energy sources, serious environmental pollution and climate change, so there is growing demand to develop renewable energy in the world. Biogas, generated from the anaerobic digestion of organic waste, is considered a renewable energy and can maintain the carbon cycle in nature. Improving biogas projects can provide energy and prevent the emission of CH4 , a much more powerful greenhouse gas than CO2 , so this field has attracted worldwide attention due to its dual benefits for energy and the environment [1,2,3]. Take vehicle fuel for example—this field has attracted a growing interest [4,5,6,7]. It is widely acknowledged that transportation is a large energy consuming and CO2 emitting sector
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