Assessment of the impacts of process-level energy efficiency improvement on greenhouse gas mitigation potential in the petroleum refining sector

Process-level energy efficiency improvement is regarded as an effective technique for emissions reduction from the petroleum refining industry. Assessing the systems-level impacts of these energy efficiency improvements is crucial for effective long-term climate change policy- and decision-making. I...

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Bibliographic Details
Published in:Energy (Oxford) 2020-01, Vol.191, p.116243, Article 116243
Main Authors: Talaei, Alireza, Oni, Abayomi Olufemi, Ahiduzzaman, Mohammed, Roychaudhuri, Pritam Sankar, Rutherford, Jeff, Kumar, Amit
Format: Article
Language:English
Subjects:
Climate change
Climate policy
Decision making
Emissions
Emissions control
Energy efficiency
Energy modelling
Environmental policy
Evaluation
GHG abatement cost curves
GHG mitigation scenarios
Greenhouse effect
Greenhouse gases
Mitigation
Petroleum
Petroleum industry
Petroleum refining
Power efficiency
Process simulation
Refining
System effectiveness
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Summary:Process-level energy efficiency improvement is regarded as an effective technique for emissions reduction from the petroleum refining industry. Assessing the systems-level impacts of these energy efficiency improvements is crucial for effective long-term climate change policy- and decision-making. In this study, we developed a framework that integrates process simulation with integrated resource planning and techno-economic assessment techniques to evaluate long-term GHG mitigation potential in the refining sector. Detailed process simulations were done for eleven energy efficiency improvement measures in the refining sector. A case study was conducted for Alberta’s (a province in western Canada) refining sector to assess GHG emissions reduction potential and their implications for long-term climate change policy-making. The GHG mitigation scenarios considered time horizons to the years 2030 and 2050. The results show that compared to the reference scenario, integrating the energy efficiency options in the refining sector will result in cumulative emissions reduction of 5%. About 60% of the anticipated emissions reductions are economically attractive. The proposed framework is an effective tool for the evaluation of long-term refining sector GHG mitigation potential and can be used for decision-making and policy formulation at various levels. •A framework is developed to assess GHG mitigation potential in the refining sector.•Process simulation, economic analysis, and energy planning models are integrated.•22 mitigation scenarios are developed in time horizons ending in 2030 and 2050.•GHG mitigation potential is calculated and GHG abatement cost curves are developed.•60% of the GHG emissions reductions are found to be economically attractive.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2019.116243