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Process Modeling of an Innovative Power to LNG Demonstration Plant
Author(s) -
Eduard Alexandru Morosanu,
Andrés Saldivia,
Massimiliano Antonini,
Samir Bensaid
Publication year - 2018
Publication title -
energy and fuels
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.861
H-Index - 186
eISSN - 1520-5029
pISSN - 0887-0624
DOI - 10.1021/acs.energyfuels.8b01078
Subject(s) - methanation , process engineering , liquefaction , power to gas , methane , air separation , environmental science , renewable energy , chemical engineering , waste management , materials science , chemistry , nuclear engineering , electrolysis , engineering , organic chemistry , electrical engineering , electrolyte , electrode , oxygen
The continuous increase in electricity production from renewable energy sources (RESs) introduces the intrinsic fluctuating characteristic of RESs in the electric power grid, causing nontrivial grid management issues (e.g., grid congestion). In this work, an innovative power to liquefied methane concept was developed, and process simulations for a 200 kWel demonstration plant were carried out. The proposed concept is based on water electrolysis to produce hydrogen, CO2 capture from air using solid adsorption materials, catalytic CO2 methanation, gas separation, and a single mixed refrigerant (SMR) liquefaction process. The gas separation unit produces an exhaust stream, rich in not only hydrogen and carbon dioxide but also methane, that is recycled to the methanation unit inlet. A thermodynamic analysis excluded the possibility of carbon deposition formation in the methanation reactor due to methane recirculation. The gas separation system was designed using a combination of temperature swing adsorption t...

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