NICE: New Study suggests CO2 capture from a significant fraction of coal-fired power plants in China could be less expensive than previously thought

MOUNTAIN VIEW, Calif., Sept. 13, 2019 /PRNewswire/ -- China contributes about 30% of global anthropogenic CO(2) emissions with coal-fired power plants accounting for about half of this total. There is about 1000 GW of coal-fired capacity in China, and about half of these power plants are less than half way through their service life. While renewable energy generation is growing in China, wind and solar will only account for 20% of China's generating capacity by 2020. This points to a pressing need to address CO(2) emissions from operating coal power plants across the country as part of its path towards meeting its Paris agreement commitments.

A new study to be published in Joule, a flagship journal of Cell Press, in September 2019 titled "Large-scale affordable CO(2) capture is possible by 2030," analyzes the costs of retrofitting CO(2) capture at power plants across China and finds that the distribution is wider than previously thought. The study further considers several avenues are available in the existing policy and market regime to further reduce the net avoided cost of capture and that over 100 million tCO(2)/year could be mitigated using carbon capture and storage (CCS) for an avoided cost of less than $37/tCO(2) and to as low as $25/tCO(2) for some plants.

Given renewed global interest in CCS the results of this study suggest that CCS can play an important role in China's efforts to reduce its CO(2) emissions, alongside renewable energy, demand response and other options. The results of the study suggest that the rate of deployment of CCS in China will likely be limited by the maturation of transport and storage, rather than the cost of capture.

Mr. Shuhua Mi, Senior VP of China Energy, the world's largest electric utility and operator of the plants examined in this study, said, "these results show that CO(2) capture can be important option in reducing the carbon intensity of our generating fleet, and point out interesting directions that will be explored as part of our strategic planning." Dr. Chang Wei, CEO of NICE, and a co-author of the study noted that "references cases used internationally for analyzing costs are important for comparing different technologies and the next step, which we have taken, is to understand cost distributions across real-world power plant fleets to plan out a lowest cost pathway for action."

Dr. Anthony Ku, one of the corresponding authors, pointed out "some of the avenues for cost reduction in this study have been used as part of China's recent efforts to control air pollution and urban haze. The possibility of adapting them to CO(2) management presents a chance for China to continue showing leadership in this area." While many of the factors driving a significant opportunity with absolute costs below $30/tCO(2) are unique to the Chinese system, incentives also exist in other parts of the world. For example, CCS in the US might focus on natural gas power plants and take into account available tax incentives such as the 45Q or 48A tax credits.

Ultimately, lowest potential costs will depend on the width of the cost distribution and the value of applicable incentives. Globally, this approach could be used to identify lower cost opportunities to accelerate CCS deployment in other countries but could have the most impact through its contribution to maturation of the CCS supply chain in China.

The study's authors include: Surinder P. Singh, Pingjiao Hao, and Anthony Ku of NICE America Research; Xiao Liu, Chang Wei, Wayne Qiang Xu of National Institute of Clean and low-carbon Energy; Ning Wei, Xiaochun Li of Chinese Academy of Sciences and Haoren Lu from Nexant (previously from NICE America).

Contact Information: Surinder Singh
Direct / Cell: +1 650 448 9390

About China Energy

China Energy Investment Corporation (China Energy) was formally established in 2017, following the merger of China Guodian Corporation and Shenhua Group, both Fortune Global 500 companies. Ranked 101st among the Fortune Global 500 in 2018, the company is one of the largest energy companies in the world. China Energy has 1.8 trillion yuan in assets and 350,000 employees. It operates in various business segments including coal and coal based products, renewable energy, thermal power, chemicals, transportation, environmental technologies and finance.

About NICE

National Institute of Clean-and-Low-Carbon Energy (NICE) was established in 2009 as a R&D institute affiliated to China Energy. It is a global R&D organization headquartered in Beijing, China and has become an emerging power in clean energy arena. Focusing on the strategic goal of building China Energy a world-class energy conglomerate with global competitiveness, NICE is dedicated to the development of low carbon and clean energy technologies. NICE has been working on innovative technologies to support the core businesses of China Energy and carrying out R&D to branch out new growth drivers for China Energy while developing world-class technologies of global impact and competitiveness.

About NICE America Research Inc.

NICE America Research, founded in 2016, is a U.S. subsidiary and cleantech incubator of the NICE. NICE America is focused on research in CCS, hydrogen energy, energy storage and energy systems, fuel cells and shale gas conversion. For more information, please visit

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