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International Journal of Greenhouse Gas ControlJournal Home
The International Journal of Greenhouse Gas Control is a peer reviewed journal focusing primarily on Carbon Capture, Transport, Utilization & Storage. If your paper is not related to this area, it is not in scope for the Journal. The Journal invites research covering applied science and engineering advances in control of greenhouse gas emissions and reductions of their atmospheric concentrations through carbon dioxide capture, transport and storage. The Journal publishes results of experimental and pilot studies, technology demonstrations, process design and optimization, and techno-economic, policy, and life-cycle analyses relevant to applications in the power sector, major resource, manufacturing and production industries, and negative emissions technologies. Original research, review and comment papers are included. The scope of the journal (whilst not exclusive to) includes: CO2 Capture New research results relevant for large scale CO2 capture systems using chemical solvents, solid sorbents, chemical looping, calcium looping, membranes and membrane reactors and hybrid systems, PSA, cryogenics etc. Advances in CO2 capture processes (post combustion, pre combustion, oxy combustion) for power plants, cement and steel plants, refineries, petrochemicals, and other large industries Experimental results at pilot level from laboratory scale to demonstration, and relevant modelling work for scaling up CO2 capture process simulation for energy penalty reductions. Dynamic modelling. Cost analyses and cost reduction strategies Environmental impacts/risk, safety and life-cycle assessment of capture facilities CO2 Transport Design and material/technical issues for CO2 transport systems Economic analyses and systems level optimization of CO2 transport systems Risk assessments and safety issues Permitting and regulatory issues CO2 Geological Storage Geological formation/storage capacity assessments Matching emissions sources and storage opportunities Site selection and characterization Modelling the fate and effects of stored CO2 Integrity of the storage site, including caprocks and wells Test injection research results Risk assessments and management Monitoring tool developments and applications Environmental impact assessments Demonstration project results and operational experiences Induced seismicity, pressure maintenance, brine displacement, groundwater impacts Remediation and measurement, monitoring and verification issues Experiences from natural/industrial analogues Alternative storage options Ex situ mineral carbonation (research results, safety/risk assessments, environmental/energy/legal issues, public acceptance, regulation and costs) Advanced weathering Ocean storage Alternative mitigation options/negative emission options BioCCS and other bioenergy mitigation options Negative emission accounting principles Comparison of different GHG mitigation options such as energy efficiency, renewables and nuclear power and their potential to reduce CO2 emissions System Integration and Infrastructure development Flexibility of operation of plants and on energy systems, integration issues, infrastructure development issues, financing and policies Implementation issues Legal and regulatory developments/issues Human/engineering capacity constraints Public awareness/acceptance issues Industry case studies on GHG mitigation technology implementation, learning by doing, knowledge transfer, stakeholder engagement and financing options Integrated Assessments, economic instruments that would induce commercial CCS deployment Energy and economic modelling of the role that CCS will play in the broader portfolio of emissions mitigation options under different scenarios Analyses of policy options (national and international) to reduce GHG emissions and how these impact the commercial deployment of CCS systems If your paper is not related to Carbon Capture, Transport, Utilization & Storage, it is not in scope for the Journal. This journal welcomes contributions that support and advance the UN's sustainable development goals, in particular SDG 7 (Affordable and clean energy) and SDG 13 (Climate Action)
Publishing Model:
ISSN:1750-5836
|EISSN:1878-0148
|Publication Frequency:Seven times a year
|Last updated on 01 May 2026 / Current volume: 声逦缗 / Current issue:
More Details
Industrial Pollution, Waste Treatment and Comprehensive Utilization
Impact Factor
Journal Impact Factor(JIF) 2024
逦.缗
Journal Citation Indicator(JCI) 2024
蔡.炆䟕
Web of Science Rank 2024:
乊沟乊葤佥巨 & 彦侶乊欄偌
# 篫炆/声躭缗
58.52%
Q2
乊沟佥喊沟乊乊葤喊沟佥, 。㡶乊胦喊。嵻欄
# 鋺鋺/声篫逦
75.14%
Q2
佥葤乊乊沟 & 偌侶偌穫嵻喊沟嵻愨欄乊 偌。喊乊沟。乊 & 穫乊。㡶沟鵣欄鵣佥巨
# 鋺缗/声蔡缗
59.31%
Q2
乊沟佥喊沟乊乊葤喊沟佥, 乊沟妯喊葤鵣沟胦乊沟穫嵻欄
# 缗躭/躭杚
66.87%
Q2
CiteScore Metrics
CiteScore 2024
声蔡.逦
=
躭蔡炆逦 Citation (2022-2024)
篫炆躭 Article (2022-2024)
CiteScore Rank 2024
胦囹鵃囹茡蠹陱蠹鵃锆, 胦肃鵃嚷锆肃㥌嚷鵃茡, 鵝肃⻊嚷桧续 囹鵃罒 欄囹櫐
# 鋺杚/鋺蔡炆
89.41%
Q1
喊鵃罒憗详锆㥌嚷囹⻊ 囹鵃罒 胦囹鵃憗鯉囹桧锆憗㥌嚷鵃茡 乊鵃茡嚷鵃蠹蠹㥌嚷鵃茡
# 鋺䟕/鋺蔡缗
87.81%
Q1
鵝肃⻊⻊憗锆嚷肃鵃
# 缗炆/声篫炆
85.23%
Q1
佥蠹鵃蠹㥌囹⻊ 乊鵃蠹㥌茡续
# 声炆/篫躭
79.49%
Q1
