Preliminary Design of CRP Carbon Capture Test Platform Research on Compatibility Design of Carbon Capture Units

16 Pages Posted: 16 Apr 2019 Last revised: 30 Apr 2019

See all articles by Lihua Ren

Lihua Ren

UK-China (Guangdong) CCUS Centre

Xi Liang

University of Edinburgh; Energy Policy Group; electricity policy research group

Haizhong Luo

China Energy Engineering Group Guangdong Electric Power Design Institute

Li Wang

UK-China (Guangdong) CCUS Centre

Jia Li

Shanghai Jiao Tong University (SJTU)

Abstract

The purpose of this report is to discuss the compatibility of the carbon capture units of the China Resources Power (Haifeng) Plant Carbon Capture Test Platform Project (CCTP) , which is located on the southern coast of Guangdong Province in China. The preliminary design report has been submitted to CRP and detailed design and construction are in progress. The project will be put into operation in March 2019. The CCTP is the first phase of Guangdong Offshore CCUS Project, which is a large-scale integrated CCUS demonstration project at a million tons level. The CCTP is designed to test various carbon capture technologies in parallel using real flue gas from the power plant, and support technology selection for future million tons capture projects based on the experience gained from the test platform and test results. The CCTP will be the first carbon capture technology test centre in Asia, the third multi-technology platform after the National Carbon Capture Centre in U.S. and the CO2 Technology Centre Mongstad in Norway. It is also the first of its kind built in an ultra-supercritical coal-fired power plant. Shell CANSOLV amine-based absorption technology and MTR membrane separation technology are selected as the first technologies tested at the CCTP. The Amine Capture Unit and Membrane Separation Unit of the CCTP are designed based on the Process Packages provided by the above-mentioned two technology providers, integrated with compatibility design for testing emerging process configurations and solvents from international and domestic technology providers in the future. The site space, pre-treatment system capacity, and the interfaces of common infrastructure and utilities are reserved for small-scale test devices of innovational carbon capture technologies.

Keywords: PCC: Amine pilot plants, GHGT-14, Carbon Capture Test Platform, Compatibility Design, Amine-based CO2 capture, 30% MEA baseline test, Membrane CO2 separation, MTR, Shell CANSOLV

Suggested Citation

Ren, Lihua and Liang, Xi and Luo, Haizhong and Wang, Li and Li, Jia, Preliminary Design of CRP Carbon Capture Test Platform Research on Compatibility Design of Carbon Capture Units. 14th Greenhouse Gas Control Technologies Conference Melbourne 21-26 October 2018 (GHGT-14) . Available at SSRN: https://ssrn.com/abstract=3365790

Lihua Ren

UK-China (Guangdong) CCUS Centre ( email )

1 Tiantaier Rd.
Huangpu
Guangzhou, Guangdong
China

Xi Liang

University of Edinburgh ( email )

29
Buccleuch Place
Edinburgh, Scotland EH8 9JS
United Kingdom

Energy Policy Group ( email )

29
Buccleuch Place
Edinburgh, Scotland EH8 9JS
United Kingdom

electricity policy research group ( email )

Trinity Ln
Cambridge, CB2 1TN
United Kingdom

Haizhong Luo

China Energy Engineering Group Guangdong Electric Power Design Institute ( email )

1 Tianfeng Rd.
Huangpu
Guangzhou, Guangdong 510000
China

Li Wang (Contact Author)

UK-China (Guangdong) CCUS Centre ( email )

1 Tiantaier Rd.
Huangpu
Guangzhou, Guangdong
China

Jia Li

Shanghai Jiao Tong University (SJTU) ( email )

China

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