On the Effects of Solar Panels on Distribution Transformers

Energy policies worldwide are mandating large-scale integration of solar panel (SP) generators with inverters on distribution systems. This causes several SPs to be connected to a distribution transformer. The SP and its interfacing inverter alter the performance characteristics of the transformer....

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Veröffentlicht in:	IEEE transactions on power delivery 2016-06, Vol.31 (3), p.1176-1185
Hauptverfasser:	Awadallah, Mohamed A., Tianqi Xu, Venkatesh, Bala, Singh, Birendra N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cutoff frequency Distribution transformers Electric power Electricity distribution Filtering Harmonic analysis Harmonic distortion harmonics Inverters lifetime expectancy Panels Passive filters photovoltaic Power harmonic filters Simulation solar panels Solar power generation Stress concentration Transformers Windings
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creator	Awadallah, Mohamed A. Tianqi Xu Venkatesh, Bala Singh, Birendra N.
description	Energy policies worldwide are mandating large-scale integration of solar panel (SP) generators with inverters on distribution systems. This causes several SPs to be connected to a distribution transformer. The SP and its interfacing inverter alter the performance characteristics of the transformer. In addition, when new sources and loads are connected to a distribution system, from an asset-management perspective, it is imperative to understand and quantify their effect on distribution system components. This paper presents a two-step study on the effects of SP on distribution transformers via simulation and experiments. In step one, the simulation work quantifies the amount of harmonic distortion caused by SP and associated inverters in distribution transformers considering solar farms and rooftop residential installations. The simulation work uses network topology, load, and generation data of a Canadian utility. Various inverter technologies, output powers, carrier signal frequencies, filtering techniques, numbers of active inverters, and transformer configurations are studied. In step two, level of harmonic distortion observed in simulation is created in a laboratory environment using a commercial inverter for SP applications. A three-phase dry-type transformer is tested to observe the effect of higher harmonic distortion on core and winding temperatures of the transformer. Experimental results conclude that under the worst case loading scenario (i.e., full load with active power flow reversed), the transformer lifetime expectancy is anticipated to decrease by 8.3%.
doi_str_mv	10.1109/TPWRD.2015.2443715
format	Article
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In step two, level of harmonic distortion observed in simulation is created in a laboratory environment using a commercial inverter for SP applications. A three-phase dry-type transformer is tested to observe the effect of higher harmonic distortion on core and winding temperatures of the transformer. 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This causes several SPs to be connected to a distribution transformer. The SP and its interfacing inverter alter the performance characteristics of the transformer. In addition, when new sources and loads are connected to a distribution system, from an asset-management perspective, it is imperative to understand and quantify their effect on distribution system components. This paper presents a two-step study on the effects of SP on distribution transformers via simulation and experiments. In step one, the simulation work quantifies the amount of harmonic distortion caused by SP and associated inverters in distribution transformers considering solar farms and rooftop residential installations. The simulation work uses network topology, load, and generation data of a Canadian utility. Various inverter technologies, output powers, carrier signal frequencies, filtering techniques, numbers of active inverters, and transformer configurations are studied. 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Experimental results conclude that under the worst case loading scenario (i.e., full load with active power flow reversed), the transformer lifetime expectancy is anticipated to decrease by 8.3%.</description><subject>Cutoff frequency</subject><subject>Distribution transformers</subject><subject>Electric power</subject><subject>Electricity distribution</subject><subject>Filtering</subject><subject>Harmonic analysis</subject><subject>Harmonic distortion</subject><subject>harmonics</subject><subject>Inverters</subject><subject>lifetime expectancy</subject><subject>Panels</subject><subject>Passive filters</subject><subject>photovoltaic</subject><subject>Power harmonic filters</subject><subject>Simulation</subject><subject>solar panels</subject><subject>Solar power generation</subject><subject>Stress concentration</subject><subject>Transformers</subject><subject>Windings</subject><issn>0885-8977</issn><issn>1937-4208</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNpdkM9LwzAYhoMoOKf_gF4KXrx0fl-SNgmexM0fMNjQicfQpAl2dO1M2oP_vZ0bHjx9vPC8Hy8PIZcIE0RQt6vlx-t0QgGzCeWcCcyOyAgVEymnII_JCKTMUqmEOCVnMa4BgIOCEblbNEn36ZKZ9852MWl98tbWRUiWRePqITfJtIpdqEzfVUNYhaKJvg0bF-I5OfFFHd3F4Y7J--Ns9fCczhdPLw_389QyKru0lNygKLkxzAqQVKIUzIDnxnJvlXWSomDUS88VwzxXRhSClUZhWTJDHRuTm_3fbWi_ehc7vamidXU9TGz7qFFiDjkXFAb0-h-6bvvQDOs0CgW54jSjA0X3lA1tjMF5vQ3VpgjfGkHvfOpfn3rnUx98DqWrfalyzv0VBFIBXLIf3H9v3w</recordid><startdate>20160601</startdate><enddate>20160601</enddate><creator>Awadallah, Mohamed A.</creator><creator>Tianqi Xu</creator><creator>Venkatesh, Bala</creator><creator>Singh, Birendra N.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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This causes several SPs to be connected to a distribution transformer. The SP and its interfacing inverter alter the performance characteristics of the transformer. In addition, when new sources and loads are connected to a distribution system, from an asset-management perspective, it is imperative to understand and quantify their effect on distribution system components. This paper presents a two-step study on the effects of SP on distribution transformers via simulation and experiments. In step one, the simulation work quantifies the amount of harmonic distortion caused by SP and associated inverters in distribution transformers considering solar farms and rooftop residential installations. The simulation work uses network topology, load, and generation data of a Canadian utility. Various inverter technologies, output powers, carrier signal frequencies, filtering techniques, numbers of active inverters, and transformer configurations are studied. In step two, level of harmonic distortion observed in simulation is created in a laboratory environment using a commercial inverter for SP applications. A three-phase dry-type transformer is tested to observe the effect of higher harmonic distortion on core and winding temperatures of the transformer. Experimental results conclude that under the worst case loading scenario (i.e., full load with active power flow reversed), the transformer lifetime expectancy is anticipated to decrease by 8.3%.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TPWRD.2015.2443715</doi><tpages>10</tpages></addata></record>
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subjects	Cutoff frequency Distribution transformers Electric power Electricity distribution Filtering Harmonic analysis Harmonic distortion harmonics Inverters lifetime expectancy Panels Passive filters photovoltaic Power harmonic filters Simulation solar panels Solar power generation Stress concentration Transformers Windings
title	On the Effects of Solar Panels on Distribution Transformers
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