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The APPEA Journal The APPEA Journal Society
Journal of Australian Energy Producers
RESEARCH ARTICLE (Non peer reviewed)

Create a new carbon capture and storage (CCS) industry – unlock Australian CO2 storage by using CO2 carriers for transport and floating CCS hub facilities

Daein Cha A * and Matthew Holding A
+ Author Affiliations
- Author Affiliations

A deepC Store Limited, Perth, WA, Australia.

* Correspondence to: getintouch@deepcstore.com

The APPEA Journal 62 S7-S11 https://doi.org/10.1071/AJ21208
Accepted: 17 March 2022   Published: 13 May 2022

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of APPEA.

Abstract

Carbon capture and storage (CCS) is central to a clean energy transition. According to the UN’s IPCC and IEA, CCS needs to attain a global CO2 reduction capacity of ~4 billion tonnes per annum by 2050 to achieve Paris Agreement targets. To date, only 27 large-scale CCS facilities are operating worldwide, totalling 36.6 million tonnes per annum of CO2 reduction. Massive number of new projects are needed. Australia has a potential CO2 storage capacity of 434 billion tonnes, with 316 billion tonnes (73%) residing in offshore oil and gas fields and aquifers. A key constraint to unlock this potential is that the CO2 storage sites and emitter sources are not necessarily located close by. Since CCS projects considered to date in Australia use pipeline transportation, this limits the number of developments to those that have the emission sources and storage sites in proximity. By utilising the Floating CCS Hub development concept, which includes CO2 carriers and floating CCS hub facilities, CCS can be provided to a broader range of emission sources. The transportation cost using CO2 carriers is not as sensitive to transport distance as pipelines, which have a linear relationship between distance and cost. In addition, the CO2 carriers costs are reducing substantially as technology allows for CO2 to be transported in lower pressure states enabling larger parcel sizes, and manufacturing efficiencies further reducing costs. CO2 carriers and CCS hub facilities minimise development constraints related to pipeline distances and land use, and enable replicability and scalability for multiple CCS projects.

Keywords: carbon capture and storage, carbon capture and storage APAC, carbon capture and storage Asia Pacific, carbon capture and storage Australia, CCS, CCS APAC, CCS Asia Pacific, CCS Australia, CO2 carriers, Floating CCS Hub.

Daein Cha with over 20 years of oil and gas (O&G) and liquefied natural gas (LNG) industry experience combined with extensive for-profit and non-profit venture start up and management experience, Daein specialises in small- and big-scale energy business development, major capital project management, commodity sales and trading, and entrepreneurship. Daein joined Tokyo Gas Co., Ltd in 1998 and has since served roles of increasing responsibilities including Manager of LNG procurement and trading, and Manager of LNG upstream business development. Daein joined Chevron Australia (Chevron) in 2012 as Deputy Business Manager and in 2014 as Deputy Project Manager for the Gorgon Expansion Project. He also served on the Project Leadership Team to manage the development of Chevron’s Gorgon Stage 2 and Jansz-Io Compression projects. Daein has taken on the role as the Founder and Director of Transborders Energy since November 2016, and as Founder, Managing Director and CEO of deepC Store since August 2021. Daein received his Bachelor’s degree in Management from the International Christian University (Japan), Masters in Business Administration (MBA) from the University of Virginia Darden Graduate School of Business Administration (USA), and qualification as Certified Cost Professional (CCP) of AACE International accredited by the Council of Engineering and Scientific Speciality Boards. Daein is also a member of the Association of International Petroleum Negotiators (AIPN).

Matt Holding as a professional, passionate about emissions reduction, and environmentally and socially sustainable development, Matt provides advisory to deepC Store for the development of its CStore1 project. Matt has more than a decade of technical and leadership experience in government relations, health, environment and safety (HES) management and stakeholder management. Matt’s career has included experience within engineering, procurement and construction management contractor organisations, international oil companies and government regulatory agencies. Matt has a Bachelor of Science with distinction, majoring in Environmental Biology from Curtin University, Western Australia.


References

Al Baroudi H, Awoyomi A, Patchigolla K, Jonnalagadda K, Anthony EJ (2021) A review of large-scale CO2 shipping and marine emissions management for carbon capture, utilisation and storage. Applied Energy 287, 116510
A review of large-scale CO2 shipping and marine emissions management for carbon capture, utilisation and storage.Crossref | GoogleScholarGoogle Scholar |

Altera Infra (2021) CCS Scaling Up! Available at https://alterainfra.com/articles/ccs-scaling-up

Carbon Storage Taskforce (2009) National Carbon Mapping and Infrastructure Plan – Australia, p. 28 and 31. Available at https://www.parliament.wa.gov.au/parliament/commit.nsf/($lookupRelatedDocsByID)/518FAC2BBA6C246648257C29002DB8E6/$file/NCM_Full_Report.pdf

deepC Store Limited (2021) CStore1 (project). Available at https://www.deepcstore.com/cstore1

Gates B (2021) ‘How to Avoid a Climate Disaster.’ p. 3. (Allen Lane: UK).

Global CCS Institute (2021) Global status of CCS 2021 – CCS accelerated to Net Zero, p. 14, 71–72. Available at https://www.globalccsinstitute.com/wp-content/uploads/2021/10/2021-Global-Status-of-CCS-Report_Global_CCS_Institute.pdf

IEAGHG (2020) The status and challenges of CO shipping infrastructures IEAGHG Technical Report 2020-10 July 2020. Available at https://ieaghg.org/ccs-resources/blog/new-ieaghg-report-the-status-and-challenges-of-co2-shipping-infrastructures

International Energy Agency (2020) CCUS in the transition to net-zero emissions. Available at https://www.iea.org/reports/ccus-in-clean-energy-transitions/ccus-in-the-transition-to-net-zero-emissions