Carbon reduction potential of China's coal-fired power plants based on a CCUS source-sink matching model
Abstract
A high precision CCUS source-sink matching model was proposed. Deployment potential of CCUS in coal-fired power plants in China was evaluated. Early opportunities for China to develop CCUS were identified. Suggestions on CCUS deployment in China were put forward.
- Publication:
-
Resources, Conservation and Recycling
- Pub Date:
- May 2021
- DOI:
- 10.1016/j.resconrec.2020.105320
- Bibcode:
- 2021RCR...16805320F
- Keywords:
-
- Source-sink matching;
- Carbon capture utilization and storage;
- Coal-fired power plant;
- CO<SUB loc="post">2</SUB>storage potential;
- CO<SUB loc="post">2</SUB>injection capacity;
- CO<SUB loc="post">2</SUB>;
- Carbon dioxide;
- Gt;
- Gigatons;
- CCS;
- Carbon capture and storage;
- CCUS;
- Carbon capture utilization and storage;
- Mt;
- Million tons;
- BECCS;
- Bio-energy with carbon capture and storage;
- FEED;
- Front-end engineering design;
- CFPPs;
- Coal-fired power plants;
- IEA;
- International Energy Agency;
- IPCC;
- Intergovernmental Panel on Climate Change;
- GCCSI;
- Global CCS Institute;
- ADB;
- Asian Development Bank;
- EOR;
- Enhanced oil recovery;
- EWR;
- Enhanced water recovery;
- GCPT;
- Global Coal Plant Tracker;
- km;
- Kilometer;
- GW;
- Gigawatts;
- RD&D;
- Research;
- development;
- and demonstration