China Building Material Academy (CBMA)
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.”
中国建材集团 周育先董事长:水泥行业要实现碳中和必然通过碳捕捉的方式,
– 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
[email protected]
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/
A photo accompanying this announcement is available at https://www.globenewswire.com/