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Carbon Capture, Utilization, and Storage (CCUS) Technologies: Net-Zero Strategies
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Author(s): Tushar (United College of Engineering and Research, Prayagraj, India), Pooja Jaiswal (University of Allahabad, Prayagraj, India), Prabhat Chandra Shrivastava (University of Allahabad, Prayagraj, India)and Nandita Pradhan (United College of Engineering and Research, Prayagraj, India)
Copyright: 2026
Pages: 32
Source title:
The Future of Green Energy: Storage, Materials, Alternative Fuels, and Net-Zero Strategies
Source Author(s)/Editor(s): Shaik Mazhar Hussain (Middle East College, Oman), Shafiq Ul Rehman (Kingdom University, Bahrain), Anupam Srivastav (Middle East College, Oman), Anilloy Augustine Frank (Presidency University, India)and Ahmed Nawaz Hakro (Middle East College, Oman)
DOI: 10.4018/979-8-3373-3226-0.ch009
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Abstract
Global climate change initiatives must include carbon capture, use, and storage (CCUS). It will significantly reduce unavoidable carbon emissions. The nations have effectively implemented carbon pricing, tax credits, and procurement programs for low carbon items to make CCUS economically feasible. Countries like India have submitted net-zero emission objectives. Hard-to-abate sectors like factories and irreplaceable coal power plants, which produce roughly 80% of CO2 emissions, can only reach net-zero with negative emission technologies like CCUS. Different CO2 collecting and separation methods are possible with CCUS technology. Pipelines, trains, trucks, and ships carry CO2. Captured CO2 can be turned into goods for storage and use. CCUS technologies with diverse CO2 separation and carbon capture processes are described. This chapter reviews the research on CCUS system problems, highlighting the need to expand low technological readiness level (TRL) technologies for commercial application. Finally, we want to help scale up and build global CO2 emission reduction programs.
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