Model Study of St. Stephen Powerhouse Fish Passage Facilities, Cooper River Rediversion Project, South Carolina
Model Study of St. Stephen Powerhouse Fish Passage Facilities, Cooper River Rediversion Project, South Carolina

Author: John E. Hite

Publisher:

Published: 1998

Total Pages: 106

ISBN-13:

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This report documents a model study of the St. Stephen Power Plant, located in Berkely County, South Carolina. A previous model study revealed that the fish lift at the powerhouse could be improved by providing auxiliary attraction flows to the fish entrances. An auxiliary attraction flow (AAF) system was proposed that uses a siphon to obtain the auxiliary attraction water from the reservoir. The model investigations reported herein address the flow conditions at the discharge end of the siphon; the hydraulic aspects of the siphon are not addressed. Three different models were used to evaluate flow conditions at the discharge end of the AAF system. A 1:25-scale model of the St. Stephen powerhouse was used to improve the fish entrance conditions and to evaluate the outlet conditions for the initial AAF system. As the investigations progressed, the design of the siphon discharge system was modified to include downstream fish migration and debris passage.

Model Study of St. Stephen Powerhouse Fish Passage Facilities, Cooper River Rediversion Project, South Carolina
Model Study of St. Stephen Powerhouse Fish Passage Facilities, Cooper River Rediversion Project, South Carolina

Author: John E. Hite

Publisher:

Published: 1998

Total Pages: 102

ISBN-13:

DOWNLOAD EBOOK

This report documents a model study of the St. Stephen Power Plant, located in Berkely County, South Carolina. A previous model study revealed that the fish lift at the powerhouse could be improved by providing auxiliary attraction flows to the fish entrances. An auxiliary attraction flow (AAF) system was proposed that uses a siphon to obtain the auxiliary attraction water from the reservoir. The model investigations reported herein address the flow conditions at the discharge end of the siphon; the hydraulic aspects of the siphon are not addressed. Three different models were used to evaluate flow conditions at the discharge end of the AAF system. A 1:25-scale model of the St. Stephen powerhouse was used to improve the fish entrance conditions and to evaluate the outlet conditions for the initial AAF system. As the investigations progressed, the design of the siphon discharge system was modified to include downstream fish migration and debris passage.

Atlantic Salmon in Maine
Atlantic Salmon in Maine

Author: National Research Council

Publisher: National Academies Press

Published: 2004-09-07

Total Pages: 304

ISBN-13: 0309166586

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Because of the pervasive and substantial decline of Atlantic salmon populations in Maine over the past 150 years, and because they are close to extinction, a comprehensive statewide action should be taken now to ensure their survival. The populations of Atlantic salmon have declined drastically, from an estimated half million adult salmon returning to U.S. rivers each year in the early 1800s to perhaps as few as 1,000 in 2001. The report recommends implementing a formalized decision-making approach to establish priorities, evaluate options and coordinate plans for conserving and restoring the salmon.