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Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines

Combination of a large amount of harmonic currents produced by nonlinear/power electronic loads and capacitance in the network usually results in harmonic resonance which is detrimental to the performance of the distribution systems. Over the last few years, there has been a very significant increas...

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Main Authors: Au M.T., Navamany J.S., Yeoh E.C.
Other Authors: 9742020600
Format: Conference paper
Published: 2023
Subjects:
Harmonic resonance
Low voltage
Power factor correction capacitors
Residential harmonic loads
Air conditioning
Capacitors
Electric fault currents
Electric power factor
Fluorescent lamps
Refrigerators
Resonance
Soil conditioners
Voltage regulators
Air conditioners
Compact fluorescent lamp
Distribution network
Distribution systems
Electronic load
Harmonic currents
Harmonic loads
Harmonic measurements
Harmonic voltages
Inverter control
Low-voltage line
Point of common coupling
Power electronic loads
Power factor corrections
Power inverters
Service line
Technical loss
Total energy
Voltage regulations
Harmonic analysis
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spelling my.uniten.dspace-305782023-12-29T15:49:42Z Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines Au M.T. Navamany J.S. Yeoh E.C. 9742020600 6506106930 57213783399 Harmonic resonance Low voltage Power factor correction capacitors Residential harmonic loads Air conditioning Capacitors Electric fault currents Electric power factor Fluorescent lamps Refrigerators Resonance Soil conditioners Voltage regulators Air conditioners Compact fluorescent lamp Distribution network Distribution systems Electronic load Harmonic currents Harmonic loads Harmonic measurements Harmonic resonance Harmonic voltages Inverter control Low voltage Low-voltage line Point of common coupling Power electronic loads Power factor correction capacitors Power factor corrections Power inverters Residential harmonic loads Service line Technical loss Total energy Voltage regulations Harmonic analysis Combination of a large amount of harmonic currents produced by nonlinear/power electronic loads and capacitance in the network usually results in harmonic resonance which is detrimental to the performance of the distribution systems. Over the last few years, there has been a very significant increased in the usage of power electronic loads such as the inverter air-conditioners, inverters refrigerators, compact fluorescent lamps, etc. in residential households and small/medium commercial premises. At the same time, there is also a growing concern of meeting the required reactive power necessary for voltage regulation and minimize technical losses of the distribution network. This paper presents results of harmonic measurements of new types of individual harmonic loads such as the inverter control air conditioner and inverter refrigerators which contribute more than 50% of total energy used in residential households and analyze their impact on harmonic resonance in the presence of small power factor correction (pfc) capacitors installed extensively at low voltage (LV) service lines. Results of the analysis indicate that a continuous growth in the numbers of inverter control loads in residential households is likely to cause harmonic resonance, and increased in total harmonic voltage distortion (THDV) at point of common coupling (PCC). �2010 IEEE. Final 2023-12-29T07:49:42Z 2023-12-29T07:49:42Z 2010 Conference paper 10.1109/PECON.2010.5697669 2-s2.0-79951794830 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79951794830&doi=10.1109%2fPECON.2010.5697669&partnerID=40&md5=63c142e32c998180f912e91c23dd308b https://irepository.uniten.edu.my/handle/123456789/30578 5697669 695 699 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Harmonic resonance
Low voltage
Power factor correction capacitors
Residential harmonic loads
Air conditioning
Capacitors
Electric fault currents
Electric power factor
Fluorescent lamps
Refrigerators
Resonance
Soil conditioners
Voltage regulators
Air conditioners
Compact fluorescent lamp
Distribution network
Distribution systems
Electronic load
Harmonic currents
Harmonic loads
Harmonic measurements
Harmonic resonance
Harmonic voltages
Inverter control
Low voltage
Low-voltage line
Point of common coupling
Power electronic loads
Power factor correction capacitors
Power factor corrections
Power inverters
Residential harmonic loads
Service line
Technical loss
Total energy
Voltage regulations
Harmonic analysis
spellingShingle Harmonic resonance
Low voltage
Power factor correction capacitors
Residential harmonic loads
Air conditioning
Capacitors
Electric fault currents
Electric power factor
Fluorescent lamps
Refrigerators
Resonance
Soil conditioners
Voltage regulators
Air conditioners
Compact fluorescent lamp
Distribution network
Distribution systems
Electronic load
Harmonic currents
Harmonic loads
Harmonic measurements
Harmonic resonance
Harmonic voltages
Inverter control
Low voltage
Low-voltage line
Point of common coupling
Power electronic loads
Power factor correction capacitors
Power factor corrections
Power inverters
Residential harmonic loads
Service line
Technical loss
Total energy
Voltage regulations
Harmonic analysis
Au M.T.
Navamany J.S.
Yeoh E.C.
Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines
description Combination of a large amount of harmonic currents produced by nonlinear/power electronic loads and capacitance in the network usually results in harmonic resonance which is detrimental to the performance of the distribution systems. Over the last few years, there has been a very significant increased in the usage of power electronic loads such as the inverter air-conditioners, inverters refrigerators, compact fluorescent lamps, etc. in residential households and small/medium commercial premises. At the same time, there is also a growing concern of meeting the required reactive power necessary for voltage regulation and minimize technical losses of the distribution network. This paper presents results of harmonic measurements of new types of individual harmonic loads such as the inverter control air conditioner and inverter refrigerators which contribute more than 50% of total energy used in residential households and analyze their impact on harmonic resonance in the presence of small power factor correction (pfc) capacitors installed extensively at low voltage (LV) service lines. Results of the analysis indicate that a continuous growth in the numbers of inverter control loads in residential households is likely to cause harmonic resonance, and increased in total harmonic voltage distortion (THDV) at point of common coupling (PCC). �2010 IEEE.
author2 9742020600
author_facet 9742020600
Au M.T.
Navamany J.S.
Yeoh E.C.
format Conference paper
author Au M.T.
Navamany J.S.
Yeoh E.C.
author_sort Au M.T.
title Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines
title_short Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines
title_full Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines
title_fullStr Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines
title_full_unstemmed Impact of medium power inverter-based residential harmonic loads and PFCs on low voltage lines
title_sort impact of medium power inverter-based residential harmonic loads and pfcs on low voltage lines
publishDate 2023
_version_ 1806426282930470912
score 13.188404

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