Litcius/Paper detail

An optimal sustainable planning strategy for national carbon capture deployment: A review on the state of<scp>CO<sub>2</sub></scp>capture in Canada

Samantha A Usas, Luis Ricardez‐Sandoval

2024The Canadian Journal of Chemical Engineering18 citationsDOIOpen Access PDF

Abstract

Abstract This study reviews the steps Canada is taking to address sustainable decarbonization in the context of carbon capture. This work also presents a new optimal framework for national optimal deployment in need of strategic carbon capture implementation. This framework considers external environmental and social considerations often missing from implementation frameworks, which will aid policy makers in more well‐rounded deployment decisions. Thus far, Canada's carbon projects have captured a total of 36.3 Mt of CO 2 which has cost over $2.7 billion to implement. The Canadian case study utilizing the proposed optimal planning strategy shows that implementation of 58 post‐combustion carbon capture (PCC) plants located in seven provinces (Alberta, British Columbia, New Brunswick, Nova Scotia, Ontario, Quebec, and Saskatchewan) would result in Canada meeting the national targets. This implementation includes 16 plants removing emissions from the Electricity sector, 16 from the Heavy Industry sector, and 26 from the Oil and gas sector resulting in new emissions levels of 11.82 MtCO 2 , 27.63 MtCO 2 , and 107.01 MtCO 2 in each sector, respectively. Additional case studies examined the impact of Alberta's emissions and varying the national targets resulting in different optimal implementations plans. Through a sensitivity analysis on these targets, it was determined that plant distribution is heavily dependent on provincial energy and CO 2 transport prices. Additionally, if Alberta were to reduce their GHG emissions by 50% through alternative sustainable methods, only 35 PCC plants would be required to meet national targets. This framework provides a sustainable tool for decision‐makers to accelerate decarbonization.

Topics & Concepts

Software deploymentGreenhouse gasContext (archaeology)Carbon capture and storage (timeline)ImplementationEnvironmental economicsWork (physics)ElectricityBusinessNova scotiaEnvironmental resource managementEnvironmental scienceEngineeringClimate changeEconomicsGeographyArchaeologySoftware engineeringBiologyElectrical engineeringMechanical engineeringEcologyCarbon Dioxide Capture TechnologiesAtmospheric and Environmental Gas DynamicsCO2 Sequestration and Geologic Interactions