Abstract
This study is focused on the natural gas production in the pre-salt area, in Brazil, where much of the expansion of the Brazilian oil industry is projected to occur. The oil production is based on a previous study, which indicates that in 2050 the pre-salt oil production can reach up to 3,160,000 bpd, and the total Brazilian oil production can be up to 3,765,000 bpd. Simulations were made to try to estimate the natural gas production for the period between 2015 and 2050. One great challenge of the petroleum production in this area is to deal with the large amount of CO2 present in these fields. This study considered Carbon Capture and Storage (CCS) as a mitigating option for the CO2 that would be emitted during the petroleum extraction. Carbon capture and storage (CCS) is recognised as a technology capable of reducing the large-scale emissions of carbon dioxide (CO2), which is an important part of the portfolio of alternatives necessary to achieve significant reductions in the global emissions of greenhouse gases (GHG). This study identified that the most suitable carbon capture method for the platforms (Floating Production, Storage, and Offloading (FPSOs)) that will operate in Brazil’s pre-salt fields is the use of membranes. Based on this capture method (membranes), the UOP Separex™ module system is selected as the standard to be tested. It is a compact module that can be installed on FPSOs. Because there remains considerable uncertainty over the precise amount of CO2 present in the natural gas from the pre-salt fields, a wide range, between 10 and 45 %mol of CO2 content was considered. The membrane area for each module was considered to be equal for both 10 %mol and for 45 %mol of CO2. The results show that in 2050, the gas production in the pre-salt region can be around 35,000 Mm3 per year, considering that the amount of CO2 in the natural gas is 10 %mol. However, it can be up to 20,000 Mm3 when considering that the amount of CO2 present in the natural gas is around 45 % mol.
Keywords
- Membrane Module
- Geological Storage
- Energy Penalty
- Compressor Power
- Ultimately Recoverable Resource
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, access via your institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
ANP. (2013b). Anuário estatístico brasileiro do petróleo, gás natural e biocombustíveis. http://www.anp.gov.br/?pg=66833.
ANP, Agência Nacional do Petróleo, Gás Natural e Biocombustíveis. (2013a). Dados Estatísticos Mensais. http://www.anp.gov.br/?pg=56046&m=&t1=&t2=&t3=&t4=&ar=&ps=&cachebust=1311692440338.
BDEP-ANP. (2014). Base de dados. http://www.bdep.gov.br/?lng=br.
BNDES. (2008). Mercado de embarcações de apoio marítimo às plataformas de petróleo: oportunidades e desafios.
BNDES. (2010). Perspectivas e desafios no setor de petróleo e gás.
Castelo Branco, D. (2008). Análise Técnica e Econômica da Aplicação da Tecnologia GTL de pequena escala para monetização do gás natural associado remoto offshore no Brasil. Master Dissertation, Energy Planning Program—COPPE/UFRJ, Rio de Janeiro, RJ, Brasil.
Costa, I. V. L. (2009). Análise do Potencial Técnico do Sequestro Geológico de CO 2 no Setor Petróleo no Brasil. Master Dissertation, Energy Planning Program—COPPE/UFRJ, Rio de Janeiro, RJ, Brazil.
Costa, I. V. L. (2014). Proposta de Estrutura Regulatória para Sequestro Geológico de CO 2 no Brasil e uma Aplicação para o Estado do Rio de Janeiro. PhD Thesis, Energy Planning Program—COPPE/UFRJ, Rio de Janeiro, RJ, Brazil.
Credit Suisse. (2014). Brazil Upstream Tracker. In: Connections Series.
Dino, R., (2014). Personal communication. CENPES, PETROBRAS.
Echt, W., & Meister, P. (2009). Design, fabrication and startup of an offshore membrane CO2 removal system. 88th Annual Convention, Gas Processors Association, P-28, Texas, EUA, Retrieved March 8–11, 2009.
Formigli, J. (2008). O pólo Pré-sal da Bacia de Santos—Desafios Tecnológicos para a área de Engenharia. Presented at Rio Oil and Gas, November/2008.
Goldemberg, J., Schaeffer, R., Szklo, A., & Lucchesi, R. (2014). Oil and natural gas prospects in South America: Can the petroleum industry pave the way for renewables in Brazil? Energy Policy, 64, 58–70.
Harness, J., & Sharma, B. (2012). UOP Separex TM membrane systems. 2012 AIChE Spring Meeting, Houston, TX.
IEA. (2008). CO 2 capture and storage—A key carbon abatement option. International Energy Agency.
IEA. (2014). Brazil Energy Outlook, in: World Energy Outlook 2013. International Energy Agency.
IPCC. (2007). Special Report on Carbon Dioxide Capture and Storage. Cambridge: Cambridge University Press, 2005. Preparado pelo Grupo de Trabalho III do IPCC.
Kuramochi, T., Ramirez, A., Tukenburg, W., & Faaji, A. (2012). Comparative assessment of CO2 capture technologies for carbon-intensive industrial processes”. Progress in Energy and Combustion Science, 38, 87–112.
Maia, J. L. P. (2007). Separação e captura do dióxido de carbono em instalações marítimas de produção de petróleo. PhD Thesis. School of Engineering of the University of São Paulo, São Paulo, SP, Brazil.
Mathieson, A., Midgely, J., Wright, I., Saoula, N., & Ringrose, P. (2010). In Salah CO2 Storage JIP: CO2 sequestration monitoring and verification technologies applied at Krechba, Algeria. Energy Procedia, 4, 1063–1070.
Nascimento, J. T. (2012). Avaliação técnico-econômica de ultracentrífugas a gás para remoção de CO2 em poços do pré-sal. Master Dissertation. Rio de Janeiro: School of Chemistry, Federal University of Rio de Janeiro.
Nogueira, L., Lucena, A., Rathmann, R., Rochedo, P., Szklo, A., & Schaeffer, R. (2014). Will thermal power plants with CCS play a role in Brazil's future electric power generation? International Journal of Greenhouse Gas Control., 24, 115–123.
Petrobras. (2011). Energia e Tecnologia. http://www.petrobras.com.br/pt/energia-e-tecnologia/.
Petrobras. (2013). Relatório de Sustentabilidade 2013. Disponível em http://www.investidorpetrobras.com.br/pt/plano-de-negocios-e-gestao/apresentacao-plano-estrategico-2030-e-png-2014-2018.htm. Acessado em 22/07/2014.
Petrobras. (2014). Plano Estratégico Petrobras 2030. http://www.investidorpetrobras.com.br/pt/plano-de-negocios-e-gestao/apresentacao-plano-estrategico-2030-e-png-2014-2018.htm.
Reuters Brasil. (2014). Petrobras perde participação na produção brasileira de petróleo e gás. http://br.reuters.com/article/topNews/idBRKBN0EE22V20140603.
Rochedo, P. R. R. (2011). Análise Econômica sob Incerteza da Captura de Carbono em Termoelétricas a Carvão: Retrofitting e Capture-Ready. Dissertação de Mestrado, Programa de Planejamento Energético—COPPE/UFRJ, Rio de Janeiro, RJ, Brasil.
Roddy, D. (2011). Development of a CO2 network for industrial emissions. Applied Energy, 91(1), 459–465.
Saraiva, T. A. (2013). Uma Aplicação de um Modelo Multi-Hubbert Modificado para a Elaboração de Cenários de Produção de Petróleo no Brasil, Dissertação de Mestrado, Programa de Planejamento Energético—COPPE/UFRJ, Rio de Janeiro, RJ, Brasil.
Schendel, R., (1984). Gas separation membranes and the gas industry. Apresentação em PCGA Transmission Conference. San Jose, CA.
Statoil. (2013a). http://engeprojnews.blogspot.com.br/2013/10/armazenamento-geologico-de-co2-eor-no.html.
Statoil. (2014a). Sleipner Vest. http://www.statoil.com/en/EnvironmentSociety/Sustainability/2007/Environment/Climate/CarbonCapture/Capture/Pages/SleipnerVest.aspx.
Statoil. (2014b). In Salah. http://www.statoil.com/en/technologyinnovation/newenergy/co2capturestorage/pages/insalah.aspx.
UOP. (2013). http://www.uop.com/?press_release=honeywells-uop-technology-selected-by-petrobras-for-natural-gas-processing-in-brazil.
Wood Mackenzie. (2013). Brazil Country Overview. Report on oil and gas production areas.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2016 Springer International Publishing Switzerland
About this chapter
Cite this chapter
da Costa, I.V.L., Rochedo, P., Império, M., Szklo, A.S., Schaeffer, R. (2016). Geo.: Gas Production in Offshore Reservoirs in Brazil’s Pre-salt Region. In: Grammelis, P. (eds) Energy, Transportation and Global Warming. Green Energy and Technology. Springer, Cham. https://doi.org/10.1007/978-3-319-30127-3_45
Download citation
DOI: https://doi.org/10.1007/978-3-319-30127-3_45
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-30126-6
Online ISBN: 978-3-319-30127-3
eBook Packages: EnergyEnergy (R0)