Abstract
As one of the world’s largest producers of plastics and chemicals, LyondellBasell recognizes the responsibility and opportunity to drive positive environmental impact across its value chains. The company is committed to addressing pressing global challenges, including reducing plastic waste, mitigating climate change, and fostering a more sustainable society for its employees, communities, and customers.
In alignment with its ambition to achieve Net Zero by 2050, LyondellBasell is accelerating the scale-up and deployment of breakthrough technologies to decarbonize chemical processes, enable low-carbon feedstocks, and enhance circularity. As part of this effort, the company is actively evaluating carbon capture and conversion pathways for integration into its operations.
This project focuses on developing baseline techno-economic models for pre-combustion carbon capture in syngas and hydrogen production. The findings will contribute to identifying cost-effective and scalable solutions for deep decarbonization in the chemical industry.
In alignment with its ambition to achieve Net Zero by 2050, LyondellBasell is accelerating the scale-up and deployment of breakthrough technologies to decarbonize chemical processes, enable low-carbon feedstocks, and enhance circularity. As part of this effort, the company is actively evaluating carbon capture and conversion pathways for integration into its operations.
This project focuses on developing baseline techno-economic models for pre-combustion carbon capture in syngas and hydrogen production. The findings will contribute to identifying cost-effective and scalable solutions for deep decarbonization in the chemical industry.
| Original language | English |
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| Place of Publication | Eindhoven |
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| Publication status | Published - 27 Feb 2025 |
