On the role of prosumers owning rooftop solar photovoltaic in reducing the impact on transformer’s aging due to plug-in electric vehicles charging

•Investigated the synergetic effect of rooftop solar PV generation by residential prosumers on reducing substation transformer aging due to PEV.•Quantification of substation transformer aging for internal combustion engine-based NHTS data compared to PEV driving data from CPEVS.•Moreover, a comparis...

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Bibliographic Details
Published in:Electric power systems research 2017-02, Vol.143, p.563-572
Main Authors: Gray, M.K., Morsi, W.G.
Format: Article
Language:English
Subjects:
Electric vehicle charging
Electric vehicles
Impact strength
Internal combustion engines
Monte Carlo simulation
Penetration
Photovoltaic cells
Power consumption
Power quality
Residential energy
Rooftop solar photovoltaic
Solar cells
Solar energy
Transformer loss of life
Transformers
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Summary:•Investigated the synergetic effect of rooftop solar PV generation by residential prosumers on reducing substation transformer aging due to PEV.•Quantification of substation transformer aging for internal combustion engine-based NHTS data compared to PEV driving data from CPEVS.•Moreover, a comparison of the substation transformer aging is performed based on varying plug-in electric vehicle charging levels.•Substation transformer LOL is at least 30% higher using PEV studies versus ICE vehicles at 0% PV penetration and twice as high at 100% PV penetration. This paper investigates the synergetic effect of rooftop solar photovoltaic (PV) generation owned by residential prosumers (power producers and consumers) on reducing the distribution substation transformer’s aging caused by charging plug-in electric vehicles (PEVs). Unlike previous work considering surveys based on internal combustion engine-based vehicle data (e.g., National Household Travel Survey (NHTS)) are used in estimating the charging demand of PEVs, this work considers actual PEVs charging data based on the 2015 Canadian Plug-in Electric Vehicle Survey (CPEVS). This work further quantifies the resultant aging seen on substation transformers when internal combustion engine-based National Household Travel Survey data as compared to plug-in electric vehicle driving data from the Canadian Plug-in Electric Vehicle Survey. Moreover, a comparison of the substation transformer aging is performed based on varying plug-in electric vehicle charging levels. Results of the scenarios have shown substation transformer loss of life is found to be at least 30% higher when vehicle data is based on plug-in electric vehicle studies versus conventional internal combustion engine vehicles with 0% PV penetration, up to twice as high at 100% PV penetration. Further studies have shown grouped plug-in electric vehicle charging using 3.3kW at 7pm results in twice the transformer aging seen versus plug-in electric vehicles charging beginning upon returning home. Finally, results have shown that the effect of rooftop solar PV owned by residential prosumers was found to reduce substation transformer loss-of-life by 75% in the case of 3.3kW plug-in electric vehicle charging when 100% PV penetration was added to the system. Such reduction is due to a decrease in transformer’s winding hot-spot temperature caused by PV generation despite the non-coincidence between the peak charging demand of plug-in electric vehicles and the pe
ISSN:0378-7796
1873-2046
DOI:10.1016/j.epsr.2016.10.060