Artigo Revisado por pares

Life-cycle GHG assessment of carbon capture, use and geological storage (CCUS) for linked primary energy and electricity production

2015; Elsevier BV; Volume: 42; Linguagem: Inglês

10.1016/j.ijggc.2015.07.017

ISSN

1750-5836

Autores

Rodolfo Lacy, Mario J. Molina, Mabel Vaca, Carlos Serralde, Graciela Hernandez, Gerardo Ríos, Erika Guzman, Rubén Paz, Ricardo Requena Pérez,

Tópico(s)

Carbon Dioxide Capture Technologies

Resumo

Carbon capture, use and geological storage (CCUS) could be feasible when fossil fuel-power plants are close to oil and gas reservoirs where CO2-enhanced oil recovery (EOR) technologies are applicable. In this research, we used a novel “well-to-well” approach that included the operations from natural gas production at oil field to CO2 injection for EOR operations at depleted oil fields. This paper includes estimates for greenhouse gas (GHG) emissions arising from a hypothetical CCUS case with a natural gas combined cycle power plant (NGCC) and Global Warming Potential (GWP) impact, by using Life-Cycle Assessment (LCA) methodology. Our research comprises a comparison with other electricity-generation technologies, including super critical pulverized carbon (SCPC), NGCC without CO2 capture, geothermal, mini-hydro, wind and nuclear. The LCA stages that were undertaken in this study were natural gas supply system, electricity generation, CO2 capture, CO2 transport, EOR operations and environmental monitoring. Three different functional units were used in this study: MJ, kW h and produced oil barrel (bbl). Results indicate that the energy produced by the described CCUS system had an environmental impact on climate change (global warming potential) of 0.044 kg CO2e/MJ. The NGCC power plant with carbon capture unit would produce 0.177 kg CO2e/kW h, representing about 21% and 36% of the estimated values for the SCPC and NGCC (without CCS) cases respectively, and about 24% less greenhouse gas emissions than the geothermal scenario. The oil produced in the EOR stage had a greenhouse gas emission rate of 38 kg CO2e per oil barrel and 251 kg CO2e per oil barrel in the whole CCUS system.

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