Research Info

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Title
Thermodynamic and economic evaluation of biomethane and carbon dioxide liquefaction process in a hybridized system of biogas upgrading process and mixed fluid cascade liquefaction cycle
Type Article
Keywords
Process integration Biogas upgrading process Mixed fluid cascade liquefaction cycle Liquified biomethane Liquid bioCO2 Economic and exergy analyses
Abstract
In recent years, the use of liquefied biogas in the power plant for peak shaving and transportation indus- tries from an environmental and economic perspective has been considered. Simultaneous design of biogas purification and liquefaction processes reduces the number of equipment required and energy consumption. In this paper, a novel purification and liquefaction integrated structure includes a biogas upgrading process by cryogenic separation and amine scrubbing methods and a biomethane liquefaction cycle based on the mixed fluid cascade. In this integrated structure, 2.393 kg/s biogas and 2730 kW power are consumed and 0.5387 kg/s bioLNG, 0.1280 kg/s bioCH4, and 0.2102 kg/s liquid bioCO2 are produced along with 1.625 kg/s hot water. The required cooling of cryogenic biogas upgrading and required heat for the biogas upgrading by amine scrubbing method are provided through mixed refrigerant cascade cycles and waste heat in the integrated structure, respectively. The total thermal energy and exergy efficiencies are 73.11 % and 72.58 %, respectively. The specific power consumption and coefficient of performance of the mixed fluid cascade cycle are calculated to be 0.4761 kW h/kg bioLNG and 3.675, respectively. The economic analysis illustrates that the prime cost of product and return period are 0.2399 US$/kg LNG and 2.122 years, respectively.
Researchers Bahram Ghorbani (First researcher) , Armin Ebrahimi (Second researcher) , Masoud Ziabasharhagh (Third researcher)