StoreGridSoftware - Uma Ferramenta para Avaliação de Impacto Econômico na Extração de Petróleo
Palavras-chave:
Software CCS, EOR-CO₂, Simulação Termodinâmica, Análise de Viabilidade Econômica, PMEs.Resumo
The increase in the concentration of carbon dioxide (CO₂) 420 ppm in 2024 - NOAA in the atmosphere is one of the main factors contributing to global warming. One of the ways to mitigate this problem is the capture and storage of CO₂, which consists of separating the gas from emission sources, compressing it and injecting it into suitable geological reservoirs. This technology can be applied in different sectors, such as oil extraction, where CO₂ can be used to increase oil recovery and reduce emissions. However, implementing CCS involves high costs and technical, economic and environmental uncertainties. Therefore, it is necessary to evaluate the feasibility and impact of this solution in each specific case. The capture and storage of CO₂ in oil reservoirs appears as a dual solution, increasing oil recovery by 15-20% and sequestering 50-60% of emissions. This work presents STORGRIDSoftware, a computational tool that integrates scientific models for economic analysis of CCS-EOR projects, with a margin of error of 10% in preliminary tests (Petra Nova case). Developed for small and medium-sized businesses (SMEs), the software reduces assessment costs by 40% and analysis time by 50%.
Referências
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DNV GL. (2022). Recommended practice for CO₂ storage monitoring. Høvik: DNV AS.
Global CCS Institute. (2021). Global status of CCS 2021: Technical report. Melbourne: Global CCS Institute.
Intergovernmental Panel on Climate Change. (2005). IPCC special report on carbon dioxide capture and storage. Cambridge: Cambridge University Press.
NOAA. (2024). Annual greenhouse gas index (AGGI). Boulder: NOAA Global Monitoring Laboratory.
Peck, W. (2018). Economic modeling of CCS-EOR projects. Journal of Petroleum Science, 12(3), 110-125.
Span, R., & Wagner, W. (1996). A new equation of state for carbon dioxide covering the fluid region from the triple-point temperature to 1100 K at pressures up to 800 MPa. Journal of Physical and Chemical Reference Data, 25(6), 1509-1596.
Zhang, L., Chen, Y., & Li, X. (2020). Advances in numerical simulation for CO₂-EOR: A decade review. Energy Proceedings, 45(2), 200-215.
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