Impact of static load on voltage stability of an unbalanced distribution system

Impact of static load on voltage stability of an unbalanced distribution system

Static load which is known for three different characteristics i.e. constant power, constant current and constant impedance shows a different voltage profile because both of their real power and reactive power vary differently as the voltage varies except for constant power. This paper will analyze...

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Main Authors: Gunalan S., Ramasamy A.K., Verayiah R.
Other Authors: 55549473300
Format: Conference paper
Published: 2023
Subjects:
Demand
Dynamic load
Fault
Ieee 34 bus distribution system
Static load
Transient
Voltage stability
Dynamic loads
Electric load forecasting
Electric rectifiers
Phase comparators
Power quality
Reactive power
System stability
Transient analysis
Voltage stabilizing circuits
Current voltage characteristics
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Institution: Universiti Tenaga Nasional
id my.uniten.dspace-30581
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spelling my.uniten.dspace-305812023-12-29T15:49:46Z Impact of static load on voltage stability of an unbalanced distribution system Gunalan S. Ramasamy A.K. Verayiah R. 55549473300 16023154400 26431682500 Demand Dynamic load Fault Ieee 34 bus distribution system Static load Transient Voltage stability Dynamic loads Electric load forecasting Electric rectifiers Phase comparators Power quality Reactive power System stability Transient analysis Voltage stabilizing circuits Demand Fault Ieee 34 bus distribution system Static load Voltage stability Current voltage characteristics Static load which is known for three different characteristics i.e. constant power, constant current and constant impedance shows a different voltage profile because both of their real power and reactive power vary differently as the voltage varies except for constant power. This paper will analyze the impact of each load characteristic individually and also as combination on voltage stability of an IEEE 34 Bus Distribution System by increasing the load demand, and also transient analysis i.e. creating a single phase-to-ground fault i.e. on phase a and balanced three phase fault. The most suitable load to study the voltage stability is also proposed. It was found that, with constant power loads, the reactive power demand increases significantly when load real power and reactive power increases by 25%. Constant current loads and combination loads, on the other hand, the reactive power demand increases but only slightly and the demand is even lesser when with constant impedance loads. However, as the load real power and reactive power increases by 50%, constant power loads causes voltage collapse whilst constant current loads and combination loads turn out to be the next in the order followed by constant impedance loads. In transient analysis, during the single phase fault, with combination loads, phase b voltage increases drastically but only small increment observed in phase c voltage. During the three phase fault, phase b voltage is slightly higher than phase c voltage followed by phase a voltage. As comparison to combination loads, constant power loads causes lesser three phase voltages. After the fault was cleared, a smooth voltage waveform obtained in the period of retaining back to the same pre-fault voltage, however, distortions in the voltage recovering waveform seen when dynamic load included in the system. Constant power load is found to be the suitable load to study the voltage stability. �2010 IEEE. Final 2023-12-29T07:49:45Z 2023-12-29T07:49:45Z 2010 Conference paper 10.1109/PECON.2010.5697592 2-s2.0-79951806206 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79951806206&doi=10.1109%2fPECON.2010.5697592&partnerID=40&md5=b7dadf964c33923f6ff85d159683f427 https://irepository.uniten.edu.my/handle/123456789/30581 5697592 288 293 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 Demand
Dynamic load
Fault
Ieee 34 bus distribution system
Static load
Transient
Voltage stability
Dynamic loads
Electric load forecasting
Electric rectifiers
Phase comparators
Power quality
Reactive power
System stability
Transient analysis
Voltage stabilizing circuits
Demand
Fault
Ieee 34 bus distribution system
Static load
Voltage stability
Current voltage characteristics
spellingShingle Demand
Dynamic load
Fault
Ieee 34 bus distribution system
Static load
Transient
Voltage stability
Dynamic loads
Electric load forecasting
Electric rectifiers
Phase comparators
Power quality
Reactive power
System stability
Transient analysis
Voltage stabilizing circuits
Demand
Fault
Ieee 34 bus distribution system
Static load
Voltage stability
Current voltage characteristics
Gunalan S.
Ramasamy A.K.
Verayiah R.
Impact of static load on voltage stability of an unbalanced distribution system
description Static load which is known for three different characteristics i.e. constant power, constant current and constant impedance shows a different voltage profile because both of their real power and reactive power vary differently as the voltage varies except for constant power. This paper will analyze the impact of each load characteristic individually and also as combination on voltage stability of an IEEE 34 Bus Distribution System by increasing the load demand, and also transient analysis i.e. creating a single phase-to-ground fault i.e. on phase a and balanced three phase fault. The most suitable load to study the voltage stability is also proposed. It was found that, with constant power loads, the reactive power demand increases significantly when load real power and reactive power increases by 25%. Constant current loads and combination loads, on the other hand, the reactive power demand increases but only slightly and the demand is even lesser when with constant impedance loads. However, as the load real power and reactive power increases by 50%, constant power loads causes voltage collapse whilst constant current loads and combination loads turn out to be the next in the order followed by constant impedance loads. In transient analysis, during the single phase fault, with combination loads, phase b voltage increases drastically but only small increment observed in phase c voltage. During the three phase fault, phase b voltage is slightly higher than phase c voltage followed by phase a voltage. As comparison to combination loads, constant power loads causes lesser three phase voltages. After the fault was cleared, a smooth voltage waveform obtained in the period of retaining back to the same pre-fault voltage, however, distortions in the voltage recovering waveform seen when dynamic load included in the system. Constant power load is found to be the suitable load to study the voltage stability. �2010 IEEE.
author2 55549473300
author_facet 55549473300
Gunalan S.
Ramasamy A.K.
Verayiah R.
format Conference paper
author Gunalan S.
Ramasamy A.K.
Verayiah R.
author_sort Gunalan S.
title Impact of static load on voltage stability of an unbalanced distribution system
title_short Impact of static load on voltage stability of an unbalanced distribution system
title_full Impact of static load on voltage stability of an unbalanced distribution system
title_fullStr Impact of static load on voltage stability of an unbalanced distribution system
title_full_unstemmed Impact of static load on voltage stability of an unbalanced distribution system
title_sort impact of static load on voltage stability of an unbalanced distribution system
publishDate 2023
_version_ 1806423249956896768

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