Stephen McCord scite author profile

Carbon Capture and Utilization (CCU) is an emerging technology field that can replace fossil carbon value chains, and that has a significant potential to achieve emissions mitigation or even "negative emissions"-however in many cases with challenging technology feasibility and economic viability. Further challenges arise in the decision making for CCU technology research, development, and deployment, in particular when allocating funding or time resources. No generally accepted techno-economic assessment (TEA) standard has evolved, and assessment studies often result in "apples vs. oranges" comparisons, a lack of transparency and a lack of comparability to other studies. A detailed guideline for systematic techno-economic (TEA) and life cycle assessment (LCA) for CCU technologies was developed; this paper shows a summarized version of the TEA guideline, which includes distinct and prioritized (shall and should) rules and which allows conducting TEA in parallel to LCA. The TEA guideline was developed in a co-operative and creative approach with roughly 50 international experts and is based on a systematic literature review as well as on existing best practices from TEA and LCA from the areas of industry, academia, and policy. To the best of our knowledge, this guideline is the first TEA framework with a focus on CCU technologies and the first that is designed to be conducted in parallel to LCA due to aligned vocabulary and assessment steps, systematically including technology maturity. Therefore, this work extends current literature, improving the design, implementation, and reporting approaches of TEA studies for CCU technologies. Overall, the application of this TEA guideline aims at improved comparability of TEA studies, leading to improved decision making and more efficient allocation of funds and time resources for the research, development, and deployment of CCU technologies.

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Dimethyl ether synthesis via captured CO2 hydrogenation within the power to liquids concept: A techno-economic assessment

Michailos

McCord

Sick

et al. 2019

Energy Conversion and Management

155

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The Need for and Path to Harmonized Life Cycle Assessment and Techno‐Economic Assessment for Carbon Dioxide Capture and Utilization

et al. 2019

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The use of carbon dioxide as a feedstock for a broad range of products can help mitigate the effects of climate change through long‐term removal of carbon or as part of a circular carbon economy. Research on capture and conversion technologies has intensified in recent years, and the interest in deploying these technologies is growing fast. However, sound understanding of the environmental and economic impacts of these technologies is required to drive fast deployment and avoid unintended consequences. Life cycle assessments (LCAs) and techno‐economic assessments (TEAs) are useful tools to quantify environmental and economic metrics; however, these tools can be very flexible in how they are applied, with the potential to produce significantly different results depending on how the boundaries and assumptions are defined. Built on ISO standards for generic LCAs, several guidance documents have emerged recently from the Global CO2 Initiative, the National Energy Technology Laboratory, and the National Renewable Energy Laboratory that further define assessment specifications for carbon capture and utilization. Overall agreement in the approaches is noted with differences largely based on the intended use cases. However, further guidance is needed for assessments of early‐stage technologies, reporting details, and reporting for policymakers and nontechnical decision‐makers.

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Developing a triple helix approach for CO₂ utilisation assessment

2021

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5. Techno-economic assessment and life cycle assessment for CO₂ utilisation

Armstrong¹,

Zimmermann²,

Müller³

et al. 2019

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Stephen McCord

Techno-Economic Assessment Guidelines for CO2 Utilization

Dimethyl ether synthesis via captured CO2 hydrogenation within the power to liquids concept: A techno-economic assessment

The Need for and Path to Harmonized Life Cycle Assessment and Techno‐Economic Assessment for Carbon Dioxide Capture and Utilization

Developing a triple helix approach for CO₂ utilisation assessment

5. Techno-economic assessment and life cycle assessment for CO₂ utilisation

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About

Stephen McCord

Techno-Economic Assessment Guidelines for CO2 Utilization

Dimethyl ether synthesis via captured CO2 hydrogenation within the power to liquids concept: A techno-economic assessment

The Need for and Path to Harmonized Life Cycle Assessment and Techno‐Economic Assessment for Carbon Dioxide Capture and Utilization

Developing a triple helix approach for CO2 utilisation assessment

5. Techno-economic assessment and life cycle assessment for CO2 utilisation

Contact Info

Product

Resources

About

Developing a triple helix approach for CO₂ utilisation assessment

5. Techno-economic assessment and life cycle assessment for CO₂ utilisation