Carbon circular utilization and sequestration in depleted hydrocarbon reservoirs: Towards a carbon-neutral China

Carbon circular utilization and sequestration in depleted hydrocarbon reservoirs: Towards a carbon-neutral China

The technology of carbon dioxide (CO2) enhanced hydrocarbon recovery is favored over other Carbon Capture, Utilization, and Sequestration (CCUS) methods for achieving the “double carbon” goal in China due to its ability to sequester CO2 geologically while enhancing the recovery rates of oil and gas...

Full description

Saved in:
Bibliographic Details
Main Authors: Lin Wu, Zhengmeng Hou, Yang Li, Weidong Wang, Long Cheng, Junzhang Lin, Zhifeng Luo, Liangchao Huang
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2025-03-01
Series:Energy Geoscience
Subjects:
Carbon neutrality
CCUS
CCCUS
Circular carbon economy
Renewable natural gas (RNG)
Online Access:http://www.sciencedirect.com/science/article/pii/S2666759224000581
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The technology of carbon dioxide (CO2) enhanced hydrocarbon recovery is favored over other Carbon Capture, Utilization, and Sequestration (CCUS) methods for achieving the “double carbon” goal in China due to its ability to sequester CO2 geologically while enhancing the recovery rates of oil and gas resources. However, current technologies face significant challenges, such as limited recovery enhancement capacity, as well as high costs and low efficiency in carbon utilization and sequestration. To address these issues, an innovative carbon-negative technology termed Carbon Capture, Circular Utilization, and Sequestration (CCCUS) is proposed. This technology integrates CO2-microbial enhanced hydrocarbon recovery, CO2 underground bio-methanation, and CO2 sequestration in depleted hydrocarbon reservoirs. Compared to conventional CCUS technologies, CCCUS stands out through both its modes of carbon utilization and the forms in which carbon exists, by cyclically biochemically converting endogenous and exogenous CO2 into renewable natural gas (RNG). A preliminary assessment indicates that CCCUS holds significant developmental potential in China, with 661 million tonnes of CO2 utilized per cycle and 3.47 billion tonnes ultimately sequestered. However, there is a significant lack of research on the core technology of CCCUS, specifically CO2 underground bio-methanation, in China. To bridge this gap and mitigate potential challenges during the development of CCCUS, targeted proposals have been formulated. This paper provides new insights into advancing the development of a circular carbon economy and accelerating the achievement of carbon neutrality in China.
ISSN:2666-7592

Similar Items