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EV Penetration for Minimizing Power System Emissions
Technical Paper
2021-01-0788
ISSN: 0148-7191, e-ISSN: 2688-3627
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SAE WCX Digital Summit
Language:
English
Abstract
This work illustrates the potential of Electric Vehicles (EVs) as a grid support tool that will lower carbon emissions from both the energy production sector and the transportation sector. EVs can provide peak shaving power to the grid while discharging and valley filling power while charging to flatten the total load curve of a distribution system. The idea is called Vehicle to Grid (V2G). Flattening the load curve will allow utility providers to delay upgrading, or the purchase of new power generation stations, as well as best utilize renewable energy resources that may be uncontrollable in nature. Electrical energy production and transportation combined accounted for 2,534 million metric tons of carbon dioxide emissions in the US in 2019. Utilizing EVs for transportation as well as grid support will decrease this figure in each sector. This technology may pave the way to cleaner, more reliable, cost effective energy systems. To achieve the goal of illustrating the potential of EVs benefits to a power system, a model will be created using MATLAB and several case studies will be presented. A well-known distribution system model will be utilized and several of the most popular EVs parameters are chosen for testing. Because of the stochastic nature of EVs, a probabilistic approach will be applied to multiple simulation parameters to ensure the most realistic result is found.
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Authors
Citation
Pfeiffer, B., Alam, M., and Arefifar, S., "EV Penetration for Minimizing Power System Emissions," SAE Technical Paper 2021-01-0788, 2021, https://doi.org/10.4271/2021-01-0788.Data Sets - Support Documents
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References
- Sept. 2020 www.epa.gov/ghgemissions/sources-greenhouse-gas-emissions
- Alam , M.S. , Khan , K.R. , Rahman , A. , and Rahman , M. Sustainable Energy Generation for a Rapidly Growing Power System Network in South East Asia using Optimum Control Theory 2017 Saudi Arabia Smart Grid (SASG) Jeddah 2017 1 7
- Siddiqui , M.S. , Alam , M.S. , Al Saawy , Y. , Khan , K.R. , and Rahman , A. Modeling and Optimization of Sustainable Energy Generation IJCSNS 19 3 103 107 2019
- Alam , M.S. , and Arefifar , S.A. Energy Management in Power Distribution Systems: Review, Classification, Limitations and Challenges IEEE Access 7 92979 93001 2019
- Habib , S. , Khan , M.M. , Abbas , F. , Sang , L. et al. A Comprehensive Study of Implemented International Standards, Technical Challenges, Impacts and Prospects for Electric Vehicles IEEE Access 6 13866 13890 2018
- www.eia.gov/tools/faqs/faq.php?id=97
- Cheng , Y. , Lai , C. , and Teh , J. Memetic Algorithm for Fuel Economy and Low Emissions Parallel Hybrid Electric Vehicles 2017 IEEE 8th International Conference on Awareness Science and Technology (iCAST) Taichung 2017 219 222
- Barazesh , M. , Saebi , J. , and Hossein Javidi , D.B.M. Optimal Distribution of Electric Vehicle Types for Minimizing Total CO2 Emissions 2015 23rd Iranian Conference on Electrical Engineering Tehran 2015 1585 1590 10.1109/IranianCEE.2015.7146472
- Ahmad , M.S. and Sivasubramani , S. Optimal Solution of Plug in Hybrid Electric Vehicles to Minimize Cost and Emission in a Smart Grid - a Developing Country View 2015 IEEE Power & Energy Society General Meeting Denver, CO 2015 1 5
- Alam , M.S. , Arefifar , S.A. , and Hamadi , A. EV Penetration Impacts on Environmental Emissions and Operational Costs of Power Distribution Systems 2020 SAE Technical Paper, Issue 2020-01-0973 Detroit, MI April 14, 2020
- Niikuni , T. and Koshika , K. Investigation of CO2 Emissions in Usage Phase Due to an Electric Vehicle — Study of Battery Degradation Impact on Emissions 2013 World Electric Vehicle Symposium and Exhibition (EVS27) Barcelona 2013 1 7
- Han , S. , Han , S. , and Sezaki , K. Estimation of Achievable Power Capacity from Plug-in Electric Vehicles for V2G Frequency Regulation: Case Studies for Market Participation IEEE Transactions on Smart Grid 2 4 632 641 Dec. 2011
- Chukwu , U.C. and Mahajan , S.M. The Prospects of V2G for Reactive Power Compensation in Electric Distribution Networks 2019 IEEE Power & Energy Society General Meeting (PESGM) Atlanta, GA, USA 2019
- Www.fueleconomy.gov www.fueleconomy.gov/
- afdc.energy.gov/data/
- Pinheiro , J.M.S. , Dornellas , C.R.R. , and Melo , A.C.G. Probing the new IEEE reliability test system (RTS-96): HL-II assessment IEEE Trans. Power Syst. 13 171 171 1998
- Alam , M.S. and Arefifar , S.A. Cost & Emission Analysis of Different DGs for Performing Energy Management in Smart Grids IEEE International Conf. on Electro/Information Technology (EIT) 2018 0667 0672