Little Goose Dam, Snake River, Washington, Hydraulic Model Investigation: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Little Goose Dam, Snake River, Washington, Hydraulic Model Investigation

R. L. Johnson / L. Z. Perkins

A 1:100-scale hydraulic model was used to study the alignment of structures, excavation requirements, and flow conditions at Little Goose Dam. Tests of first-step construction led to relocation of the temporary fishway, use of rockfill groins along the north shore, selection of limits for disposal fills, and reductions of excavation, number of cofferdam cells, and height of embankments. The tests indicated that flow conditions during the first phase of second-step construction would be acceptable and that excavation planned for the second phase could be reduced.

Access

Check availability in my library

Page navigation

Document information

Export, share and cite

Little Goose Dam, Snake River, Washington, Hydraulic Model Investigation

R. L. Johnson / L. Z. Perkins

A 1:100-scale hydraulic model was used to study the alignment of structures, excavation requirements, and flow conditions at Little Goose Dam. Tests of first-step construction led to relocation of the temporary fishway, use of rockfill groins along the north shore, selection of limits for disposal fills, and reductions of excavation, number of cofferdam cells, and height of embankments. The tests indicated that flow conditions during the first phase of second-step construction would be acceptable and that excavation planned for the second phase could be reduced.

Little Goose Dam, Snake River, Washington, Hydraulic Model Investigation

R. L. Johnson / L. Z. Perkins

A 1:100-scale hydraulic model was used to study the alignment of structures, excavation requirements, and flow conditions at Little Goose Dam. Tests of first-step construction led to relocation of the temporary fishway, use of rockfill groins along the north shore, selection of limits for disposal fills, and reductions of excavation, number of cofferdam cells, and height of embankments. The tests indicated that flow conditions during the first phase of second-step construction would be acceptable and that excavation planned for the second phase could be reduced.

Access

Check availability in my library

Page navigation

Document information

Export, share and cite

Document information

Title:

Little Goose Dam, Snake River, Washington, Hydraulic Model Investigation

Contributors:

R. L. Johnson (author) / L. Z. Perkins (author)

Publication date:

1975

Size:

206 pages

Type of media:

Report

Type of material:

No indication

Language:

English

Keywords:

Civil Engineering , Dams , Hydraulic models , Channel flow , Waterways , Flow rate , Water flow , Facilities , Washington(State) , Check structures , Locks(Waterways) , Little Goose Dam , Snake River

Similar titles

Spillway for Little Goose Dam, Snake River, Washington, Hydraulic Model Investigation

R. L. Johnson / L. Z. Perkins | NTIS | 1975

Fish Ladders for Little Goose and Lower Granite Dams, Snake River, Washington. Hydraulic Model Investigations

L. Z. Perkins | NTIS | 1976

Spillway Deflectors at Bonneville, John Day and McNary Dams on Columbia River, Oregon-Washington and Ice Harbor, Lower Monumental and Little Goose Dams on Snake River, Washington. Hydraulic Model Investigation

M. M. Kubo | NTIS | 1984

Lower Monumental Dam, Snake River, Washington: Hydraulic Model Investigation

A. J. Chanda / L. Z. Perkins | NTIS | 1974

Ice Harbor Dam, Snake River, Washington: Hydraulic Model Investigation

L. Z. Perkins | NTIS | 1973