Lan-Cui Liu

Toward a framework of environmental risk management for CO2 geological storage in china: gaps and suggestions for future regulations

China encourages the demonstration of carbon capture and storage (CCS) projects. In an effort to identify gaps and provide suggestions for environmental risk management of carbon dioxide (CO2) geological storage in China, this article presents a concise overview of potential health, safety and environmental (HSE) risks and environmental management regulations for CO2 geological storage in Australia, Japan, the United States (USA), the European Union (EU), and the United Kingdom (UK). The environmental impact assessment (EIA) experience of Shenhua Ordos Coal-to-Liquid (CTL) Project and PetroChina Jilin Oil Field enhanced oil recovery (EOR) is subsequently analyzed in light of our field investigation, and gaps in current EIA guidelines that are applicable to CO2 geological storage projects are identified. It is found that there are no specific environmental risk regulations suitable for CO2 storage in China, and environmental risk management lags behind the development of CCS technology, which presents a challenge to demonstration enterprises in terms of assessing environmental risk. One major challenge is the overestimation or underestimation of this risk on the part of the enterprise, and another is a lack of applicable regulations for government sectors to supervise the risk throughout CCS projects. Therefore, there is a pressing need for China to formulate environmental management regulations that include environmental risk assessment, mandatory monitoring schemes, environmental emergency plans, and related issues.

High Resolution Carbon Dioxide Emission Gridded Data for China Derived from Point Sources

A high spatial resolution carbon dioxide (CO2) emission map of China is proving to be essential for Chinas carbon cycle research and carbon reduction strategies given the current low quality of CO2 emission data and the inconsistencies in data quality between different regions. Ten km resolution CO2 emission gridded data has been built up for China based on point emission sources and other supporting data. The predominance of emissions from industrial point sources (84% of total emissions) in China supports the use of bottom-up methodology. The resultant emission map is informative and proved to be more spatially accurate than the EDGAR data. Spatial distribution of CO2 emissions in China is highly unbalanced and has positive spatial autocorrelation. The spatial pattern is mainly influenced by key cities and key regions, i.e., the Jing-Jin-Ji region, the Yangtze River delta region, and the Pearl River delta region. The emission map indicated that the supervision of 1% of total land could enable the management of about 70% of emissions in China.

Environmental concern-based site screening of carbon dioxide geological storage in China

Environmental impacts and risks related to carbon dioxide (CO2) capture and storage (CCS) projects may have direct effects on the decision-making process during CCS site selection. This paper proposes a novel method of environmental optimization for CCS site selection using China’s ecological red line approach. Moreover, this paper established a GIS based spatial analysis model of environmental optimization during CCS site selection by a large database. The comprehensive data coverage of environmental elements and fine 1 km spatial resolution were used in the database. The quartile method was used for value assignment for specific indicators including the prohibited index and restricted index. The screening results show that areas classified as having high environmental suitability (classes III and IV) in China account for 620,800 km2 and 156,600 km2, respectively, and are mainly distributed in Inner Mongolia, Qinghai and Xinjiang. The environmental suitability class IV areas of Bayingol Mongolian Autonomous Prefecture, Hotan Prefecture, Aksu Prefecture, Hulunbuir, Xilingol League and other prefecture-level regions not only cover large land areas, but also form a continuous area in the three provincial-level administrative units. This study may benefit the national macro-strategic deployment and implementation of CCS spatial layout and environmental management in China.

Public awareness of the environmental impact and management of carbon dioxide capture, utilization and storage technology: the views of educated people in China

Carbon dioxide capture, utilization and storage (CCUS) is regarded as an important carbon emissions reduction technology response to climate change. Though some full-chain CCUS pilot projects have operated in China, many barriers exist when stepping up to commercial applications, including significant negative perceptions of the environmental risk of CCUS. Therefore, to tailor constructive training or outreach programs for public acceptance of CCUS in China, a large national survey of public perceptions of CCUS technology was conducted in 2013. The questionnaire contained four themes focusing on people with a tertiary education. Six hundred paper–pencil questionnaires were dispatched to 22 universities/enterprises across 19 provinces and 2 municipalities, with a response rate of 95%. The results show that 91.4% of the participants agreed that the earth was experiencing climate change, and 74.3% were interested in low-carbon technologies, but while 22% had heard of CCUS, although with limited knowledge, only 3.6% had a good understanding of the technology. The results from the second part of the questionnaire show that 80.4% of participants believed that CCUS may help to mitigate the impacts of global warming, but the “Not in My Back Yard” (NIMBY) phenomenon was obvious from the location-based objections to transportation and storage processes. In addition, ten listed CCUS environmental management policies received extensive recognition from the participants, and about half of the participants considered that the related government departments should be responsible for environmental management as a first priority. The survey also indicates that the most trusted sources through which the survey participants obtain CCUS information are academic journals and textbooks, television, radio and newspapers, expert lectures and brochures on CCUS demonstration projects. According to the survey of public awareness of the environmental impact and management of CCUS technology in China, CCUS technology rates well for environmental benefits, but high environmental risk perceptions of CCUS lead to a lower acceptance of this carbon emissions reduction technology.