| Title | An integrated techno-economic and environmental assessment for carbon capture in hydrogen production by biomass gasification |
|---|---|
| ID_Doc | 7929 |
| Authors | Wu, N; Lan, K; Yao, Y |
| Title | An integrated techno-economic and environmental assessment for carbon capture in hydrogen production by biomass gasification |
| Year | 2023 |
| Published | |
| Abstract | Bioenergy with carbon capture and storage (BECCS) is a potential solution addressing climate change andre-gional wildfires, and supporting circular economy. This study investigates the economic and environmental performance of a BECCS pathway implementing carbon capture (CC) in hydrogen production via gasifying forest residues in the American West, by developing a framework that integrates process simulations, techno-economic analysis (TEA), and life cycle assessment (LCA). The results show that forest residue-derived hydrogen is economically competitive ($1.52- 2.92/kg H2) compared with fossil-based hydrogen. Incorporating CC increases environmental impact due to additional energy and chemical consumption, which can be mitigated by the energy self-sufficiency design that reduces CC cost to $75/tonne of CO2 for a 2,000 dry short ton/day plant, or by using renewable energy such as solar and wind. Compared to electrolysis and fossil-based routes with CC, only BECCS can provide carbon-negative hydrogen and is more favorable regarding human health impact and near-term economics. |
| http://manuscript.elsevier.com/S0921344922005262/pdf/S0921344922005262.pdf |
Similar Articles
| ID | Score | Article |
|---|---|---|
64480
|
Buffi, M; Prussi, M; Scarlat, N Energy and environmental assessment of hydrogen from biomass sources: Challenges and perspectives(2022) | |
| 16462
|
Ubando, AT; Chen, WH; Hurt, DA; Conversion, A; Rajendran, S; Lin, SL Biohydrogen in a circular bioeconomy: A critical review(2022) | |
| 2704
|
Wen, D; Kuo, PC; Saeidi, S; Özdemir, F; Maréchal, F Renewable synthesis fuels for a circular economy: A life cycle assessment(2024) | |
| 5446
|
González-Arias, J; Torres-Sempere, G; González-Castaño, M; Baena-Moreno, FM; Reina, TR Hydrochar and synthetic natural gas co-production for a full circular economy implementation via hydrothermal carbonization and methanation: An economic approach(2024) | |
| 5161
|
Qian, QM; Ren, JZ; He, C; Azzaro-Pantel, C Approaching circular economy through waste-to-blue hydrogen: Systems modeling and multi-objective optimization(2024) | |
| 27157
|
Eloffy, MG; Elgarahy, AM; Saber, AN; Hammad, A; El-Sherif, DM; Shehata, M; Mohsen, A; Elwakeel, KZ Biomass-to-sustainable biohydrogen: Insights into the production routes, and technical challenges(2022) | |
| 686
|
Kabir, MM; Akter, MM; Huang, ZG; Tijing, L; Shon, HK Hydrogen production from water industries for a circular economy(2023) | |
| 9081
|
Ipsakis, D; Varvoutis, G; Lampropoulos, A; Papaefthimiou, S; Marnellos, GE; Konsolakis, M Techno-economic assessment of industrially-captured CO2 upgrade to synthetic natural gas by means of renewable hydrogen(2021) | |
| 25373
|
Mahabir, J; Bhagaloo, K; Koylass, N; Boodoo, MN; Ali, R; Guo, M; Ward, K What is required for resource-circular CO2 utilization within Mega-Methanol (MM) production?(2021) | |
| 6226
|
Ayub, Y; Ren, JZ; He, C; Azzaro-Pantel, C Co-gasification of biomass and plastic waste for green and blue hydrogen Production: Novel process development, economic, exergy, advanced exergy, and exergoeconomics analysis(2024) |