Modeling and optimization of hydrogen recovery from desulfurized hydrogenation tail gas via hydrate method
Author:
Publisher
Elsevier BV
Subject
Energy Engineering and Power Technology,Condensed Matter Physics,Fuel Technology,Renewable Energy, Sustainability and the Environment
Reference30 articles.
1. Assessing the effectiveness of hydrogen pathways: a techno-economic optimisation within an integrated energy system;Bellocchi;Energy,2023
2. Environmental and energy life cycle analyses of passenger vehicle systems using fossil fuel-derived hydrogen;Hienuki;Int J Hydrogen Energy,2021
3. A review on upgrading and viscosity reduction of heavy oil and bitumen by underground catalytic cracking;Zhao;Energy Rep,2021
4. Environmental life cycle assessment of olefins and by-product hydrogen from steam cracking of natural gas liquids, naphtha, and gas oil;Young;J Clean Prod,2022
5. Study on a numerical model and PSA (pressure swing adsorption) process experiment for CH4/CO2 separation from biogas;Kim;Energy,2015
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1. Self-supporting hydrate template with hydrate seeds and promoter liquids for semi-continuous formation of hydrogen hydrates;Applied Energy;2024-11
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