International CCS Knowledge Centre appoints James Millar President and CEO

Regina, SK, May 02, 2022 (GLOBE NEWSWIRE) — The International CCS Knowledge Centre has appointed James Millar to the position of President and Chief Executive Officer, effective May 24. A highly respected executive with deep experience in energy, industrial infrastructure, and public policy, Millar arrives at a critical inflection point in the development of carbon capture and storage technology in Canada and around the world.

"We need deep cuts in greenhouse gas emissions if we're going to meet our ambitious climate goals over the next few decades," Millar says. "Many global organizations including the International Energy Agency and the UN Intergovernmental Panel on Climate Change agree that without CCS the world cannot meet its emission reduction targets. I'm excited to lead this organization at a time when widespread investment and interest in CCS is scaling up."

A native of Calgary, James Millar began his career in Saskatchewan, where he was a senior advisor in government before being appointed Director of Public Affairs for the Calgary Health Region. He transitioned to the energy industry, providing public affairs direction to TransCanada Corporation (now TC Energy) during planning and development of major infrastructure projects including the Keystone XL and Energy East pipelines. Most recently, he managed public affairs for Pieridae Energy, working on a $10–billion LNG project off Canada's east coast, and Pieridae's planned carbon capture initiative, to sequester three million tonnes of carbon dioxide annually.

With a mandate to advance the global understanding and deployment of large–scale CCS to reduce global GHG emissions, the International CCS Knowledge Centre provides the know–how to implement large–scale CCS projects as well as CCS optimization through the base learnings from both the fully–integrated Boundary Dam 3 CCS Facility and the comprehensive second–generation CCS study, known as the Shand CCS Feasibility Study. Our expertise crosses industries including cement, potash and natural gas combustion. Operating since 2016 under the direction of an independent board, the Knowledge Centre was established by BHP and SaskPower. With growing private and public investment in CCS, the Knowledge Centre is uniquely positioned to advise industries in Canada and around the world in planning, developing and managing this important technology. For more info: https://ccsknowledge.com/


GLOBENEWSWIRE (Distribution ID 8533438)

China-Canada Collaboration on CO2 Capture for Cement

REGINA, Saskatchewan, July 08, 2021 (GLOBE NEWSWIRE) — A new collaboration between the China Building Materials Academy, (CBMA) and Canadian based, International CCS Knowledge Centre (Knowledge Centre) will see simultaneous advancements in understanding and knowledge sharing of carbon capture technology designed specifically to see substantial emission reductions from the global cement industry.

The first initiative under the agreement, Carbon Capture Use Piloting with Cement Kiln Project will aid CBMA in applying the Knowledge Centre's model and Front End Engineering Design (FEED) of a test platform – which has a carbon dioxide (CO2) capture capacity of approximately 155 kg CO2/per day. The project will be built and piloted on a carbon capture system that utilizes the post combustion flue gas from a producing cement kiln.

The Knowledge Centre will have an observer role to learn and gain insight on the characteristics of a cement kiln operation and its integration with a post combustion carbon capture system. The agreement grants the Knowledge Centre access to the operational data, such as further design, testing, data based on the modelling, emission–related information, and any improvements made to the CO2 capture test platform.

This collaboration agreement is part of a bilateral science and technology cooperation between Canada and China, the China–Canada Science & Technology Cooperative Action Plan. The agreement also syncs with goals of the Chinese government to achieve carbon peaking before 2030 and carbon neutrality before 2060 with efforts of the cement industry in China to accelerate innovation in low carbon technologies.

Through the carbon capture pilot platform, the CBMA is expected to adapt the application for potential scale–up to commercial demonstration with know–how that could be applied across the sizable fleet of China National Building Materials Ltd. (CNBM), the world's largest cement producer and the parent of CBMA.

The Knowledge Centre is currently completing a feasibility study on a full–scaled post–combustion carbon capture system on Lehigh's Cement plant in Edmonton, Canada by applying the same model based on large–scale CCS experiences from the commercial coal–fired power plant, at the famed Canadian based Boundary Dam 3 CCS Facility.

Quotes

"The International Knowledge Centre is proud to be a partner in assisting the CBMA on its CCS development and deployment journey to help China realize its ambitious goals of carbon peaking and carbon neutrality, which is positive for the world."

– Conway Nelson, VP Strategy & Stakeholder Relations, International CCS Knowledge Centre

"The cement industry could only achieve carbon neutrality by carbon capture approaches. Deep GHG emission reduction objectives can only be achieved by adhering to the decarbonization technology route, by applying CCS technologies to capture the carbon dioxide emissions from various aspects of the production process."
'''·"CCS""'"·'

– Chairman Zhou Yuxian, Chairman of China Building Materials Group (CNBM)

ADDITIONAL INFORMATION

Cement Emission Overview

  • Concrete, a product of cement, is the second most consumed substance on the planet, next to water, with roughly attributing three tonnes of concrete yearly by every person on earth (State of the Planet, Earth Institute, Columbia University).
  • Total emissions from the cement industry contribute as much as 7–8% of global CO2 emissions.
  • Two thirds or 5% of global emissions result from the chemical reactions in the cement production process and therefore cannot be eliminated through gains in energy efficiency.
  • Global demand for cement is expected to increase 12–23% by 2050 (IEA Report: Transforming Industry through CCUS)
  • As the largest cement producer, China accounts for about 55% of global production, followed remotely by India at 8%.
  • China's cement industry is estimated about 1.2 Gt of CO2 emissions to their national GHG emissions, annually.

China–Canada Science & Technology Cooperative Action Plan

  • China–Canada Science & Technology Cooperative Action Plan is a framework for cooperation in scientific and technological research, which will extend and strengthen the conduct of cooperative activities in areas of common interest and encourage the application of the results of such cooperation to their economic and social benefit.

MEDIA CONTACTS

International CCS Knowledge Centre
Jodi Woollam
Head of Communications & Media Relations
jwoollam@ccsknowledge.com
T: +1–306–565–5956 / M: +1–306–520–3710
ccsknowledge.com
@CCSKnowledge

About the International CCS Knowledge Centre (Knowledge Centre): with a mandate to advance the global understanding and deployment of large–scale CCS to reduce global GHG emissions, the Knowledge Centre provides the know–how to implement large–scale CCS projects as well as CCS optimization through the base learnings from both the fully–integrated Boundary Dam 3 CCS Facility and the comprehensive second–generation CCS study, known as the Shand CCS Feasibility Study. Operating since 2016 under the direction of an independent board, the Knowledge Centre was established by BHP and SaskPower. For more info: https://ccsknowledge.com/

About the China Building Materials Academy (CBMA): is the largest state–owned comprehensive research development and design firm of the industry sector in China and operates as the technology innovation platform of the China National Building Materials Group Corporation (CNBM), which is the largest comprehensive building materials industry group in China. CBMA undertakes a large number of research and development programmes of national significance and advances the technology for energy–saving and emission reduction in building materials industry. With dozens of labs and testing centres, CBMA is the standard bearer of the building materials industry sector for technology innovation covering cement, concrete, wall material, glass, ceramics, refractory and new materials. For more info: http://cbma.com.cn/en/index.jsp

A photo accompanying this announcement is available at https://www.globenewswire.com/NewsRoom/AttachmentNg/84fbcfdd–0f35–4299–af06–d694a269dba0


GLOBENEWSWIRE (Distribution ID 8276961)

Pre-feasibility Study Looking to Progress CO2 Capture

REGINA, Saskatchewan, June 01, 2021 (GLOBE NEWSWIRE) — Amplifying the impact of emission reductions through carbon capture and storage (CCS) is the focus of a new pre–feasibility study exploring the potential application of carbon dioxide (CO2) capture on 750–megawatt coal–fired power plants. This project is part of a broad study examining the viability of a regional commercial–scale geologic CO2 storage hub in the Southeastern U.S. The International CCS Knowledge Centre (Knowledge Centre), based in Regina, SK Canada, is collaborating with an international team on the U.S. Department of Energy (DOE)–funded project to develop the conceptual designs and capital cost estimates evaluating the installation of post combustion carbon dioxide (CO2) capture on a Southern Company electrical generating station.

The project would represent a significant scale–up and is a natural progression in the maturation of carbon capture technology. By bringing leadership, vision and experience based on its substantive learnings from both the fully integrated Boundary Dam 3 CCS Facility and its comprehensive second–generation CCS study (Shand CCS Feasibility Study), the Knowledge Centre is performing the carbon capture pre–feasibility study of the scenario. This study is being conducted through a cooperative agreement with the project manager, Southern States Energy Board, and a team that includes Southern Company, Mitsubishi Heavy Industries (MHI) Group, and Stantec Consulting Ltd.

This study is part of the project, Establishing An Early Carbon Dioxide Storage: Project ECO2S, under a broad DOE National Energy Technology Laboratory initiative, Carbon Storage Assurance Facility Enterprise (CarbonSAFE). CarbonSAFE addresses key gaps on the critical path toward CCUS deployment by reducing technical risk, uncertainty, and cost of a geologic storage complex for more than 50 million metric tons of CO2 over a 30–year time frame from industrial sources.

The pre–feasibility study will look at carbon capture design and cost. It will include details such as an analysis on steam integration options between the generating unit and the capture plant, as well as the identification of potential impacts of the new processes on existing plant environmental permitting. The theoretical installation of carbon capture systems at power plants would not only ensure reliable baseload electricity, it would preserve the value of the existing facility, while also actively making significant strides in reducing anthropogenic greenhouse gas emissions.

Quote

"With the megatonne potential in CO2 reduction, we are excited to work with a great team on this important and next step project for large–scale carbon capture and storage. We applaud both the US Department of Energy and the Southern States Energy Board for their commitment to taking significant strides toward climate action."

– Conway Nelson, VP, Project Development & Advisory Services, International CCS Knowledge Centre

"Stantec is proud to play a role in the first–of–its kind carbon capture and storage work in Saskatchewan as the Engineer of Record on this project. Stantec's team of experts will provide engineering expertise alongside our partners to execute the pre–feasibility study stage of this project."

– Mark Griffiths, Senior Principal, Energy & Resources, Stantec, Saskatchewan

ADDITIONAL INFORMATION

Climate Change Links

  • CCS is considered essential in three of the four pathways to keep global warming within 1.5 C – Intergovernmental Panel on Climate Change: Global Warming of 1.5 Degrees Celsius
  • Most of the world cannot meet emissions targets without CCS "" and for those that can, the median increase in mitigation cost is 138% – Intergovernmental Panel on Climate Change: IPCC AR5 2014

About CarbonSAFE & Project ECO2S

  • CarbonSAFE Carbon Storage Assurance Facility Enterprise Initiative – is a DOE–led program designed to accelerate commercial–scale use of CCS technology to reduce greenhouse gas emissions to the atmosphere from industrial and power generation sources by focusing on the development of permanent and safe geologic CO2 storage sites capable of several decades of usage.
  • Project ECO2SEstablishing an Early CO2 Storage Complex – is one of five selected projects for Phase 3 of CarbonSAFE.
    • Project ECO2S lead by Southern States Energy Board is working with collaborators to explore establishing a commercial–scale, regional, secure geologic area capable of securely storing over 900 million metric tons of CO2.
    • The current pre–feasibility study to install post combustion CO2 capture on a Southern Company generating unit is part of the assessment required to confirm one of several point source emitters of CO2 for the storage site.

MEDIA CONTACTS

International CCS Knowledge Centre
Jodi Woollam
Head of Communications & Media Relations
jwoollam@ccsknowledge.com
T: +1–306–565–5956 / M: +1–306–520–3710
ccsknowledge.com
@CCSKnowledge

About the International CCS Knowledge Centre (Knowledge Centre): with a mandate to advance the global understanding and deployment of large–scale CCS to reduce global GHG emissions, the Knowledge Centre provides the know–how to implement large–scale CCS projects as well as CCS optimization through the base learnings from both the fully–integrated Boundary Dam 3 CCS Facility and the comprehensive second–generation CCS study, known as the Shand CCS Feasibility Study. Operating since 2016 under the direction of an independent board, the Knowledge Centre was established by BHP and SaskPower. For more info: https://ccsknowledge.com/


GLOBENEWSWIRE (Distribution ID 8246985)

BD3 CCS Facility Reaches 4 Million Tonne Milestone

The following commentary by Brent Jacobs, P.Eng. is a statement on behalf of the International CCS Knowledge Centre.

It takes courage to be first. And now with SaskPower's ground–breaking Boundary Dam 3 CCS Facility (BD3) having captured and prevented four million tonnes (4Mt) of CO2 from entering the atmosphere, it is a milestone worth celebrating.

REGINA, Saskatchewan, March 31, 2021 (GLOBE NEWSWIRE) — This amount of carbon mitigation not only has the equivalent emissions impact of taking approximately 865,000 cars off the road for a yeari, but it also underscores the value and large–scale impact of being tenacious in application–based learning and advancements.

I have the privilege of being part of the team at the International CCS Knowledge Centre (Knowledge Centre) where we work to advance the use of large–scale carbon capture and storage (CCS) as a means of greatly reducing global greenhouse gasses. What is particularly unique about this work is that we do this by sharing our experience and acquired knowledge from progressing along the learning curve. It's our aim to ensure that others have assurance of expertise; a strong and reliable basis of know how before they start.

The CCS story at BD3 is one of significant progress and inspiration for future CCS initiatives. BD3's carbon capture performance continues to improve and demonstrate the real–world application of CCS to substantially reduce emissions in the energy and industry sectors.

With the experience gained through the design, construction, operation, and subsequent improvements of the BD3 CCS Facility, the Knowledge Centre developed two major studies that continue to be at the forefront of post–combustion capture processes globally. The Shand CCS Feasibility Study (Shand Study, Nov.2018), shows major improvements in CCS project costs, risks, and efficiencies, and provides the foundation for the Lehigh CCS Feasibility Study, (anticipated in the autumn 2021), which directly applies these advancements to the cement sector.

Our analysis of daily operational data from the BD3 CCS facility, from the time it began capture operations in October of 2014, were recently shared on the world stage at the IEA Greenhouse Gas R&D Programme GHGT–15 conference in March 2021.ii The results are more than promising.

As with most "first of a kind" facilities, unforeseen barriers can be expected to impact performance. These real application–based studies address specific challenges experienced with the capture system at BD3 CCS Facility and the corrective actions taken to improve its performance, reliability, and availability. These corrective actions are directly transferable to the next installations of CCS.

It's encouraging to see steady improvement of operations over such a short trajectory of time. CCS is a viable and essential option for industries to mitigate their CO2 emissions and we must apply the value from BD3 learnings and use this know–how to identify and eliminate existing barriers that are key to achieving and maintaining optimal performance.

Performance evaluation is essential as CCS technologies seek increased deployment across sectors. With each year, optimization of the BD3 CCS Facility continues to help refine improvements in efficiency and cost effectiveness. These enhancements in performance yield a stronger foundation for next out–the–gate projects by ensuring reductions in project costs and risks as well increasing operational predictability and certainty.

BD3 CCS Facility, with its courage to be first, has paved the way for significant capital and operating cost reductions paired with increased efficiencies to further improve the next generation of CCS installations.

Brent Jacobs is the Engineering Team Leader at the International CCS Knowledge Centre and has hands–on expertise in working on the BD3 CCS facility and is an author of the Shand CCS Feasibility Study and Leigh CCS Feasibility Study.

About the International CCS Knowledge Centre (Knowledge Centre): with a mandate to advance the global understanding and deployment of large–scale CCS to reduce global GHG emissions, the Knowledge Centre provides the know–how to implement large–scale CCS projects as well as CCS optimization through the base learnings from both the fully–integrated Boundary Dam 3 CCS Facility and the comprehensive second–generation CCS study, known as the Shand Study. Operating since 2016 under the direction of an independent board, the Knowledge Centre was established by BHP and SaskPower. For more info: https://ccsknowledge.com/

About SaskPower's Boundary Dam 3 CCS Facility (BD3), located near Estevan, Saskatchewan, Canada is the world's first fully–integrated and full–chain carbon capture and storage (CCS) facility on a coal–fired power plant. The full chain cluster of facilities is within close proximity to the BD3 facility, providing for a full demonstration and operation of proven and safe CCS. This comprehensive commercial operating experience provides insight into technology and other requirements which are not available anywhere else. The full–chain of integrated operation includes: Carbon Capture Facility; Transportation to Enhanced Oil Recovery; CO2 Storage at Aquistore; Carbon Capture Test Facility; Emissions Control Research Facility. To learn more, visit: www.ccsknowledge.com

Media Contacts

International CCS Knowledge Centre
Jodi Woollam
Head of Communications & Media Relations
jwoollam@ccsknowledge.com
T: +1–306–565–5956 / M: +1–306–520–3710

ccsknowledge.com
Twitter: @CCSKnowledge
198 – 10 Research Drive Regina, SK S4S 7J7 Canada

i United States Environmental Protection Agency. Greenhouse Gases Equivalencies Calculator – Calculations and References. https://www.epa.gov/energy/greenhouse–gases–equivalencies–calculator–calculations–and–references
ii International CCS Knowledge Centre. 2021. "Derate Analysis for SaskPower's Boundary Dam Unit 3 During the First Four Years of Operation;" 2021. "Reliability Improvements of SaskPower's BD3 Capture Facility Through Operational and Process Design Changes: Experiencing the First Four Years of Operations."

A photo accompanying this announcement is available at https://www.globenewswire.com/NewsRoom/AttachmentNg/813d913e–25ca–4401–9185–50152d2b1478


GLOBENEWSWIRE (Distribution ID 8209736)

BD3 CCS Facility Reaches 4 Million Tonne Milestone

The following commentary by Brent Jacobs, P.Eng. is a statement on behalf of the International CCS Knowledge Centre.

It takes courage to be first. And now with SaskPower's ground–breaking Boundary Dam 3 CCS Facility (BD3) having captured and prevented four million tonnes (4Mt) of CO2 from entering the atmosphere, it is a milestone worth celebrating.

REGINA, Saskatchewan, March 31, 2021 (GLOBE NEWSWIRE) — This amount of carbon mitigation not only has the equivalent emissions impact of taking approximately 865,000 cars off the road for a yeari, but it also underscores the value and large–scale impact of being tenacious in application–based learning and advancements.

I have the privilege of being part of the team at the International CCS Knowledge Centre (Knowledge Centre) where we work to advance the use of large–scale carbon capture and storage (CCS) as a means of greatly reducing global greenhouse gasses. What is particularly unique about this work is that we do this by sharing our experience and acquired knowledge from progressing along the learning curve. It's our aim to ensure that others have assurance of expertise; a strong and reliable basis of know how before they start.

The CCS story at BD3 is one of significant progress and inspiration for future CCS initiatives. BD3's carbon capture performance continues to improve and demonstrate the real–world application of CCS to substantially reduce emissions in the energy and industry sectors.

With the experience gained through the design, construction, operation, and subsequent improvements of the BD3 CCS Facility, the Knowledge Centre developed two major studies that continue to be at the forefront of post–combustion capture processes globally. The Shand CCS Feasibility Study (Shand Study, Nov.2018), shows major improvements in CCS project costs, risks, and efficiencies, and provides the foundation for the Lehigh CCS Feasibility Study, (anticipated in the autumn 2021), which directly applies these advancements to the cement sector.

Our analysis of daily operational data from the BD3 CCS facility, from the time it began capture operations in October of 2014, were recently shared on the world stage at the IEA Greenhouse Gas R&D Programme GHGT–15 conference in March 2021.ii The results are more than promising.

As with most "first of a kind" facilities, unforeseen barriers can be expected to impact performance. These real application–based studies address specific challenges experienced with the capture system at BD3 CCS Facility and the corrective actions taken to improve its performance, reliability, and availability. These corrective actions are directly transferable to the next installations of CCS.

It's encouraging to see steady improvement of operations over such a short trajectory of time. CCS is a viable and essential option for industries to mitigate their CO2 emissions and we must apply the value from BD3 learnings and use this know–how to identify and eliminate existing barriers that are key to achieving and maintaining optimal performance.

Performance evaluation is essential as CCS technologies seek increased deployment across sectors. With each year, optimization of the BD3 CCS Facility continues to help refine improvements in efficiency and cost effectiveness. These enhancements in performance yield a stronger foundation for next out–the–gate projects by ensuring reductions in project costs and risks as well increasing operational predictability and certainty.

BD3 CCS Facility, with its courage to be first, has paved the way for significant capital and operating cost reductions paired with increased efficiencies to further improve the next generation of CCS installations.

Brent Jacobs is the Engineering Team Leader at the International CCS Knowledge Centre and has hands–on expertise in working on the BD3 CCS facility and is an author of the Shand CCS Feasibility Study and Leigh CCS Feasibility Study.

About the International CCS Knowledge Centre (Knowledge Centre): with a mandate to advance the global understanding and deployment of large–scale CCS to reduce global GHG emissions, the Knowledge Centre provides the know–how to implement large–scale CCS projects as well as CCS optimization through the base learnings from both the fully–integrated Boundary Dam 3 CCS Facility and the comprehensive second–generation CCS study, known as the Shand Study. Operating since 2016 under the direction of an independent board, the Knowledge Centre was established by BHP and SaskPower. For more info: https://ccsknowledge.com/

About SaskPower's Boundary Dam 3 CCS Facility (BD3), located near Estevan, Saskatchewan, Canada is the world's first fully–integrated and full–chain carbon capture and storage (CCS) facility on a coal–fired power plant. The full chain cluster of facilities is within close proximity to the BD3 facility, providing for a full demonstration and operation of proven and safe CCS. This comprehensive commercial operating experience provides insight into technology and other requirements which are not available anywhere else. The full–chain of integrated operation includes: Carbon Capture Facility; Transportation to Enhanced Oil Recovery; CO2 Storage at Aquistore; Carbon Capture Test Facility; Emissions Control Research Facility. To learn more, visit: www.ccsknowledge.com

Media Contacts

International CCS Knowledge Centre
Jodi Woollam
Head of Communications & Media Relations
jwoollam@ccsknowledge.com
T: +1–306–565–5956 / M: +1–306–520–3710

ccsknowledge.com
Twitter: @CCSKnowledge
198 – 10 Research Drive Regina, SK S4S 7J7 Canada

i United States Environmental Protection Agency. Greenhouse Gases Equivalencies Calculator – Calculations and References. https://www.epa.gov/energy/greenhouse–gases–equivalencies–calculator–calculations–and–references
ii International CCS Knowledge Centre. 2021. "Derate Analysis for SaskPower's Boundary Dam Unit 3 During the First Four Years of Operation;" 2021. "Reliability Improvements of SaskPower's BD3 Capture Facility Through Operational and Process Design Changes: Experiencing the First Four Years of Operations."

A photo accompanying this announcement is available at https://www.globenewswire.com/NewsRoom/AttachmentNg/813d913e–25ca–4401–9185–50152d2b1478


GLOBENEWSWIRE (Distribution ID 8209736)

Low Carbon on Cement Possible with CCS

EDMONTON, Alberta, Jan. 21, 2021 (GLOBE NEWSWIRE) — A low carbon future for cement is advancing through a unique feasibility study to see carbon capture and storage (CCS) on Lehigh Cement's plant in Edmonton, Alberta. Recognizing the substantial role that large–scale CCS has in reducing greenhouse (GHG) emissions, Lehigh Cement, the International CCS Knowledge Centre (Knowledge Centre), and Mitsubishi Heavy Industries (MHI) Group are moving forward with the engineering design for this feasibility study of the cement plant's carbon capture system.

A first for the North American cement industry, the Lehigh CCS Feasibility Study looks at the viability of capturing 90–95 per cent of the carbon dioxide (CO2) – an estimated 600,000 tonnes of CO2 annually – from the cement plant's flue gas. The study is also a first for each of these organizations in North America all of whom pledge to actively work toward decarbonization.

The study is timely as the recently released Canada Climate Plan specifically indicates that it will develop a comprehensive CCS strategy and explore other opportunities to help keep Canada globally competitive in this growing industry.

With experience gained through the design, construction, operation, and subsequent enhancements/modifications of the SaskPower Boundary Dam 3 CCS Facility (BD3 Facility), the Knowledge Centre, along with MHI Group and their collaborative work on the Shand CCS Feasibility Study, continue to be at the forefront of post–combustion capture processes globally and see an opportunity for CCS across post–combustion industries.

Due to the remarkable similarities in flue gases, the expertise acquired at the BD3 Facility can be adapted to the cement sector with experienced–based guidance from the Knowledge Centre. The Lehigh CCS Feasibility Study will look to an engineering design that tailors the carbon capture technology owned by Mitsubishi Heavy Industries Engineering (MHIENG), part of MHI Group, so called KM CDR ProcessTM being deployed at 13 commercial plants globally, for integration with Lehigh's plant and output specifications, such as a flue gas pretreatment system and the carbon capture and compression process.

With cement demand on the rise and as a sector that is challenged with further abating emissions, large–scale CCS could well become the definitive solution to cut GHGs. The Lehigh CCS Feasibility Study explores the value of this for the cement industry, by encompassing engineering designs, cost estimation and an in–depth business case analysis.

Quotes

"Advancements for large–scale CCS on cement is important in the broader deployment of CCS facilities across sectors so that we, as global citizens, can make meaningful impact on emission reductions worldwide."
– Beth (Hardy) Valiaho, VP Strategy & Stakeholder Relations, International CCS Knowledge Centre

“The path to achieving a carbon–neutral world by 2050 requires the ability to decarbonize hard to abate sectors. By exploring and unlocking ways to expand our proven carbon capture technology to new markets and applications, we can face the challenge head–on."
– Yoshihiro Shiraiwa, President & CEO, Mitsubishi Heavy Industries America

"This CCS feasibility study is essential for understanding how our industry can continue to meet growing production demands, while also meeting equally important climate targets. We are proud to be in a position to lead a global change with a crucial clean technology in our industry."
–Joerg Nixdorf, President, Lehigh Hanson Canada Region

QUICK FACTS & LINKS

Lehigh CCS Feasibility Study

  • The Lehigh CCS Feasibility Study is being jointly conducted by the Knowledge Centre and Lehigh Cement with a target delivery of fall 2021.
  • The objectives of the study are to deliver a Class 4 cost estimate; to work with a capture technology provider (MHI Group) to perform engineering design tailored to the Lehigh plant; to manage the process and engage third parties, as necessary; to complete a detailed business case; and to develop the budget for Front End Engineering Study (FEED).
  • This initiative has received $1.4M in funding from Emissions Reduction Alberta (ERA) through its Partnership Intake Program. ERA's investments help innovators develop and demonstrate GHG–reducing technologies that lower costs, improve competitiveness and accelerate Alberta's transformation to a low carbon economy.

Cement Emission Overview

  • Concrete, a product of cement, is the second most consumed substance on the planet, next to water, with roughly attributing three tonnes of concrete yearly by every person on earth (State of the Planet, Earth Institute, Columbia University).
  • Total emissions from the cement industry contribute as much as 7–8% of global CO2 emissions.
  • Two thirds or 5% of global emissions result from the chemical reactions in the cement production process and therefore cannot be eliminated through gains in energy efficiency.
  • Global demand for cement is expected to increase 12–23% by 2050 (IEA Report: Transforming Industry through CCUS)

About the International CCS Knowledge Centre (Knowledge Centre): with a mandate to advance the global understanding and deployment of large–scale CCS to reduce global GHG emissions, the Knowledge Centre provides the know–how to implement large–scale CCS projects as well as CCS optimization through the base learnings from both the fully–integrated Boundary Dam 3 CCS Facility and the comprehensive second–generation CCS study, known as the Shand CCS Feasibility Study. Operating since 2016 under the direction of an independent board, the Knowledge Centre was established by BHP and SaskPower. For more info: https://ccsknowledge.com/

About Mitsubishi Heavy Industries Group:
Mitsubishi Heavy Industries (MHI) Group is a global leader in engineering and manufacturing. With more than 80.000 employees working in over 300 companies worldwide. MHI Group is a major global force in power systems, industry and infrastructure, and the aircraft defense and space industries. Mitsubishi Heavy Industries Engineering (MHIENG), together with Kansai Electric Power Co., Inc. (KEPCO) started the development of the Kansai Mitsubishi Carbon Dioxide Recovery KM CDR ProcessTM, a post–combustion carbon capture technology, in 1990. As of November 2020, MHIENG has delivered a total of 13 commercial plants with the KM CDR ProcessTM, making it a global leader in carbon capture technology deployment. Two more plants are currently under construction. For more info: https://www.mhi.com/products/engineering/co2plants.html

About Lehigh Cement & Lehigh Hanson:
Since 1956, Lehigh Cement has been an innovator, partner and collaborator in advancing the cement and concrete industry, and supporting Alberta's economy. Lehigh Cement is an affiliated company of Lehigh Hanson, the North American operations of HeidelbergCement. For more info: https://www.lehighhanson.com.

Lehigh Hanson is part of HeidelbergCement, one of the world's largest integrated manufacturers of building materials and solutions, with leading market positions in aggregates, cement, and ready mixed concrete. Around 54,000 employees at more than 3,000 locations in over 50 countries deliver long–term financial performance through operational excellence and openness for change. At the center of actions lies the responsibility for the environment. As forerunner on the path to carbon neutrality, HeidelbergCement crafts material solutions for the future.

About Emissions Reduction Alberta (ERA):
For more than 10 years, ERA has been investing the revenues from the carbon price paid by large final emitters to accelerate the development and adoption of innovative clean technology solutions. Since ERA was established in 2009, they have committed $616 million toward 186 projects worth $4.55 billion that are helping to reduce GHGs, create competitive industries and are leading to new business opportunities in Alberta. These projects are estimated to deliver cumulative reductions of 35 million tonnes of CO by 2030. For more info: https://eralberta.ca/

MEDIA CONTACTS

International CCS Knowledge Centre
Jodi Woollam
Head of Communications & Media Relations
jwoollam@ccsknowledge.com
T: +1–306–565–5956 / M: +1–306–520–3710
ccsknowledge.com
@CCSKnowledge

Mitsubishi Heavy Industries Group
mediacontact_global@mhi.co.jp

Lehigh Hanson
Jeff Sieg
Director, Corporate Communications
972–653–6011
jeff.sieg@lehighhanson.com

A photo accompanying this announcement is available at https://www.globenewswire.com/NewsRoom/AttachmentNg/b4540ab2–8b97–40d5–a10b–4ee2b47697d6


GLOBENEWSWIRE (Distribution ID 8139663)