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Secondary selective system residual bus transfer - a modern application approach

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R.E. Cosse; J.E. Bowen; S.H. Kerr
All Authors

Abstract:

A traditional secondary selective residual bus automatic transfer scheme is reviewed, and the basic logic necessary for automatic transfer operation is discussed. Althoug...Show More

Metadata

Abstract:

A traditional secondary selective residual bus automatic transfer scheme is reviewed, and the basic logic necessary for automatic transfer operation is discussed. Although many transfer scheme documents are available, the authors believe the scheme complexity should challenge application engineers to better understand the "why's" rather than the "how to's" of the application. A modern programmable logic controller approach is proposed as a contemporary solution to a complex control application.
Published in: IEEE Transactions on Industry Applications ( Volume: 41, Issue: 1, Jan.-Feb. 2005)
Page(s): 112 - 119
Date of Publication: 28 February 2005

ISSN Information:

DOI: 10.1109/TIA.2004.841014
Author image of R.E. Cosse
Powell Electrical Manufacturing Company, Houston, TX, USA
Roy E. Cossé, Jr. (S'66–M'68–SM'99) received the B.S.E.E. and M.S.E.E. degrees from the University of Southwestern Louisiana, Lafayette, in 1968 and 1972, respectively.
He is currently with Powell Electrical Manufacturing Company, Houston, TX, where he is Powell Apparatus Service Division Technical Director. He has over 30 years of electrical engineering experience in the petrochemical, marine, pipeline, cogeneration, and ...Show More
Roy E. Cossé, Jr. (S'66–M'68–SM'99) received the B.S.E.E. and M.S.E.E. degrees from the University of Southwestern Louisiana, Lafayette, in 1968 and 1972, respectively.
He is currently with Powell Electrical Manufacturing Company, Houston, TX, where he is Powell Apparatus Service Division Technical Director. He has over 30 years of electrical engineering experience in the petrochemical, marine, pipeline, cogeneration, and ...View more
Author image of J.E. Bowen
Powell Electrical Manufacturing Company, Houston, TX, USA
James E. Bowen (M'83–SM'04) received the B.S.E.E. degree from Texas A&M University, College Station, in 1976.
After working for S.I.P. Engineering as a Power Engineer for three years, he joined Exxon Chemicals in 1979. His duties included maintenance, project design, construction follow-up, and commissioning for petrochemical and cogeneration processes. In 1997, he joined Powell Electrical Manufacturing Company, Houston, T...Show More
James E. Bowen (M'83–SM'04) received the B.S.E.E. degree from Texas A&M University, College Station, in 1976.
After working for S.I.P. Engineering as a Power Engineer for three years, he joined Exxon Chemicals in 1979. His duties included maintenance, project design, construction follow-up, and commissioning for petrochemical and cogeneration processes. In 1997, he joined Powell Electrical Manufacturing Company, Houston, T...View more
Author image of S.H. Kerr
ExxonMobil Development Company, Houston, TX, USA
Stephen H. Kerr (A'92–M'97) received the B.S. degree in electrical engineering from Texas A&M University, College Station, in 1976.
After working for an engineering contractor for three years, he joined Exxon at the Baton Rouge Chemical Plant as Project Engineer for facility design projects. In 1983, he transferred to the Exxon Production department as LaBarge project Lead Electrical Engineer. After project completion, he ...Show More
Stephen H. Kerr (A'92–M'97) received the B.S. degree in electrical engineering from Texas A&M University, College Station, in 1976.
After working for an engineering contractor for three years, he joined Exxon at the Baton Rouge Chemical Plant as Project Engineer for facility design projects. In 1983, he transferred to the Exxon Production department as LaBarge project Lead Electrical Engineer. After project completion, he ...View more
Contents

I. Introduction

A SECONDARY selective residual bus automatic transfer system with traditional discrete control and protection devices is discussed. The traditional discrete device system is also reviewed from a control, protection, and system design viewpoints. A modern programmable logic controller (PLC) transfer approach indicates the advantages of implementing a contemporary solution to a complex control application.

Author image of R.E. Cosse
Powell Electrical Manufacturing Company, Houston, TX, USA
Roy E. Cossé, Jr. (S'66–M'68–SM'99) received the B.S.E.E. and M.S.E.E. degrees from the University of Southwestern Louisiana, Lafayette, in 1968 and 1972, respectively.
He is currently with Powell Electrical Manufacturing Company, Houston, TX, where he is Powell Apparatus Service Division Technical Director. He has over 30 years of electrical engineering experience in the petrochemical, marine, pipeline, cogeneration, and IPP Industries. His experience encompasses conceptual design, detailed engineering, training, startup, maintenance, and operations. His specialty is power system analysis.
Mr. Cossé is one of the original organizers of the IEEE Houston Continuing Education On Demand series, and he has presented technical seminars for this program. He has coauthored and presented IEEE conference technical papers. He is a Registered Professional Engineer in the States of Texas and Louisiana.
Roy E. Cossé, Jr. (S'66–M'68–SM'99) received the B.S.E.E. and M.S.E.E. degrees from the University of Southwestern Louisiana, Lafayette, in 1968 and 1972, respectively.
He is currently with Powell Electrical Manufacturing Company, Houston, TX, where he is Powell Apparatus Service Division Technical Director. He has over 30 years of electrical engineering experience in the petrochemical, marine, pipeline, cogeneration, and IPP Industries. His experience encompasses conceptual design, detailed engineering, training, startup, maintenance, and operations. His specialty is power system analysis.
Mr. Cossé is one of the original organizers of the IEEE Houston Continuing Education On Demand series, and he has presented technical seminars for this program. He has coauthored and presented IEEE conference technical papers. He is a Registered Professional Engineer in the States of Texas and Louisiana.View more
Author image of J.E. Bowen
Powell Electrical Manufacturing Company, Houston, TX, USA
James E. Bowen (M'83–SM'04) received the B.S.E.E. degree from Texas A&M University, College Station, in 1976.
After working for S.I.P. Engineering as a Power Engineer for three years, he joined Exxon Chemicals in 1979. His duties included maintenance, project design, construction follow-up, and commissioning for petrochemical and cogeneration processes. In 1997, he joined Powell Electrical Manufacturing Company, Houston, TX, as Technical Director, where he provides leadership in the design development of medium-voltage switchgear and circuit breakers.
Mr. Bowen has presented numerous technical seminars for the IEEE Houston Section Continuing Education On Demand. He is a Registered Professional Engineer in the State of Texas and an active member of the IEEE.
James E. Bowen (M'83–SM'04) received the B.S.E.E. degree from Texas A&M University, College Station, in 1976.
After working for S.I.P. Engineering as a Power Engineer for three years, he joined Exxon Chemicals in 1979. His duties included maintenance, project design, construction follow-up, and commissioning for petrochemical and cogeneration processes. In 1997, he joined Powell Electrical Manufacturing Company, Houston, TX, as Technical Director, where he provides leadership in the design development of medium-voltage switchgear and circuit breakers.
Mr. Bowen has presented numerous technical seminars for the IEEE Houston Section Continuing Education On Demand. He is a Registered Professional Engineer in the State of Texas and an active member of the IEEE.View more
Author image of S.H. Kerr
ExxonMobil Development Company, Houston, TX, USA
Stephen H. Kerr (A'92–M'97) received the B.S. degree in electrical engineering from Texas A&M University, College Station, in 1976.
After working for an engineering contractor for three years, he joined Exxon at the Baton Rouge Chemical Plant as Project Engineer for facility design projects. In 1983, he transferred to the Exxon Production department as LaBarge project Lead Electrical Engineer. After project completion, he transferred to the LaBarge Operations on-site engineering group, where he was responsible for surveillance, project development, and design. In 1991, he transferred to the Production Technology Department, where he was involved in large project development and execution, including a 15-month stint to the Santa Ynez project to assist in construction completion and startup. In 1997, he transferred to Houston, TX, as Lead Electrical Engineer for the Diana project, and he is presently Lead Electrical Engineer for the ExxonMobil Kizomba Project.
Stephen H. Kerr (A'92–M'97) received the B.S. degree in electrical engineering from Texas A&M University, College Station, in 1976.
After working for an engineering contractor for three years, he joined Exxon at the Baton Rouge Chemical Plant as Project Engineer for facility design projects. In 1983, he transferred to the Exxon Production department as LaBarge project Lead Electrical Engineer. After project completion, he transferred to the LaBarge Operations on-site engineering group, where he was responsible for surveillance, project development, and design. In 1991, he transferred to the Production Technology Department, where he was involved in large project development and execution, including a 15-month stint to the Santa Ynez project to assist in construction completion and startup. In 1997, he transferred to Houston, TX, as Lead Electrical Engineer for the Diana project, and he is presently Lead Electrical Engineer for the ExxonMobil Kizomba Project.View more
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