Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia

Growing concern on global warming directly related to CO2 emissions is steering the implementation of carbon capture and storage (CCS). With Malaysia having an estimated 37 Tscfd (Trillion standard cubic feet) of natural gas remains undeveloped in CO2 containing natural gas fields, there is a need t...

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Main Authors: Sukor N.R., Shamsuddin A.H., Mahlia T.M.I., Isa M.F.M.
Other Authors: 57215822028
Format: Article
Published: MDPI AG 2023
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spelling my.uniten.dspace-255572023-05-29T16:10:52Z Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia Sukor N.R. Shamsuddin A.H. Mahlia T.M.I. Isa M.F.M. 57215822028 35779071900 56997615100 57200294700 Growing concern on global warming directly related to CO2 emissions is steering the implementation of carbon capture and storage (CCS). With Malaysia having an estimated 37 Tscfd (Trillion standard cubic feet) of natural gas remains undeveloped in CO2 containing natural gas fields, there is a need to assess the viability of CCS implementation. This study performs a techno-economic analysis for CCS at an offshore natural gas field in Malaysia. The framework includes a gas field model, revenue model, and cost model. A techno-economic spreadsheet consisting of Net Present Value (NPV), Payback Period (PBP), and Internal Rate of Return (IRR) is developed over the gas field's production life of 15 years for four distinctive CO2 capture technologies, which are membrane, chemical absorption, physical absorption, and cryogenics. Results predict that physical absorption solvent (Selexol) as CO2 capture technology is most feasible with IRR of 15% and PBP of 7.94 years. The output from the techno-economic model and associated risks of the CCS project are quantified by employing sensitivity analysis (SA), which indicated that the project NPV is exceptionally sensitive to gas price. On this basis, the economic performance of the project is reliant on revenues from gas sales, which is dictated by gas market price uncertainties. � 2020 by the authors. Final 2023-05-29T08:10:52Z 2023-05-29T08:10:52Z 2020 Article 10.3390/pr8030350 2-s2.0-85081975331 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081975331&doi=10.3390%2fpr8030350&partnerID=40&md5=7103945739bce630289ef06e8ef10077 https://irepository.uniten.edu.my/handle/123456789/25557 8 3 350 All Open Access, Gold, Green MDPI AG Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Growing concern on global warming directly related to CO2 emissions is steering the implementation of carbon capture and storage (CCS). With Malaysia having an estimated 37 Tscfd (Trillion standard cubic feet) of natural gas remains undeveloped in CO2 containing natural gas fields, there is a need to assess the viability of CCS implementation. This study performs a techno-economic analysis for CCS at an offshore natural gas field in Malaysia. The framework includes a gas field model, revenue model, and cost model. A techno-economic spreadsheet consisting of Net Present Value (NPV), Payback Period (PBP), and Internal Rate of Return (IRR) is developed over the gas field's production life of 15 years for four distinctive CO2 capture technologies, which are membrane, chemical absorption, physical absorption, and cryogenics. Results predict that physical absorption solvent (Selexol) as CO2 capture technology is most feasible with IRR of 15% and PBP of 7.94 years. The output from the techno-economic model and associated risks of the CCS project are quantified by employing sensitivity analysis (SA), which indicated that the project NPV is exceptionally sensitive to gas price. On this basis, the economic performance of the project is reliant on revenues from gas sales, which is dictated by gas market price uncertainties. � 2020 by the authors.
author2 57215822028
author_facet 57215822028
Sukor N.R.
Shamsuddin A.H.
Mahlia T.M.I.
Isa M.F.M.
format Article
author Sukor N.R.
Shamsuddin A.H.
Mahlia T.M.I.
Isa M.F.M.
spellingShingle Sukor N.R.
Shamsuddin A.H.
Mahlia T.M.I.
Isa M.F.M.
Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia
author_sort Sukor N.R.
title Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia
title_short Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia
title_full Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia
title_fullStr Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia
title_full_unstemmed Techno-economic analysis of CO2 capture technologies in offshore natural gas field: Implications to carbon capture and storage in Malaysia
title_sort techno-economic analysis of co2 capture technologies in offshore natural gas field: implications to carbon capture and storage in malaysia
publisher MDPI AG
publishDate 2023
_version_ 1806427727419408384
score 13.222552