Multiple Harmonic Filters Over Six Phases of Expansion in a 170-MW Plant

The experience gained during the growth of a chemical manufacturing facility from a 65 to 170-MW load in multiple stages is presented. Large filter banks are required to control harmonic current and provide reactive power compensation for the rectifiers that energize the chemical process. As the loa...

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Veröffentlicht in:	IEEE transactions on industry applications 2009-05, Vol.45 (3), p.1175-1179
1. Verfasser:	Schmidtke, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical processes Chemical rectifiers Electric potential Filter bank Harmonic filters Harmonics IEEE 519 Phases Power harmonic filters Power system harmonics Production facilities reactive compensation Reactive power Reactive power control Rectifiers Stress Stresses Switching switching transient Utilities Voltage
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creator	Schmidtke, B.
description	The experience gained during the growth of a chemical manufacturing facility from a 65 to 170-MW load in multiple stages is presented. Large filter banks are required to control harmonic current and provide reactive power compensation for the rectifiers that energize the chemical process. As the load grows and the filters become larger and more numerous, utility-generated harmonics are drawn into the filters, resulting in difficulties to comply with IEEE 519. The large size of the filters creates voltage rise issues for local equipment and the transmission system on load upset. Filter stress due to utility capacitor switching and in-plant filter element switching is compared for the initial load stages and the final load stage. Filter stress is reduced as the number and size of the filters are increased.
doi_str_mv	10.1109/TIA.2009.2018973
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Large filter banks are required to control harmonic current and provide reactive power compensation for the rectifiers that energize the chemical process. As the load grows and the filters become larger and more numerous, utility-generated harmonics are drawn into the filters, resulting in difficulties to comply with IEEE 519. The large size of the filters creates voltage rise issues for local equipment and the transmission system on load upset. Filter stress due to utility capacitor switching and in-plant filter element switching is compared for the initial load stages and the final load stage. Filter stress is reduced as the number and size of the filters are increased.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TIA.2009.2018973</doi><tpages>5</tpages></addata></record>
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subjects	Chemical processes Chemical rectifiers Electric potential Filter bank Harmonic filters Harmonics IEEE 519 Phases Power harmonic filters Power system harmonics Production facilities reactive compensation Reactive power Reactive power control Rectifiers Stress Stresses Switching switching transient Utilities Voltage
title	Multiple Harmonic Filters Over Six Phases of Expansion in a 170-MW Plant
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