Alaska Open-File Report 127 Assessment of Thermal Springs Sites in Southern Southeastern Alaska - Preliminary Results and Evaluation

Information has been gathered on 13 reported thermal-spring sites, 12 in southern Southeastern Alaska and one in western British Columbia. Five of the reported sites could not be substantiated by DGGS. The eight known thermal spring sites are associated with grainitic terrain and, except for Baker I...

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Bibliographic Details
Main Authors: Motyka, Roman J., Moorman, Mary A., Reeder, John W.
Language:unknown
Published: 2007
Subjects:
15 GEOTHERMAL ENERGY
09 BIOMASS FUELS
AGRICULTURE
ALASKA
AQUACULTURE
BRITISH COLUMBIA
CHEMISTRY
ELECTRICITY
FRACTURES
GEOTHERMAL FIELDS
GEOTHERMAL GRADIENTS
GEOTHERMOMETRY
GROUND WATER
HOT SPRINGS
POTASSIUM
SILICA
SPACE HEATING
THERMAL SPRINGS
WARM SPRINGS
WATER CHEMISTRY
WOOD
Bailey Bay
Barnes Lake
Bell Island
Wall Rocks
Alaska
Online Access:http://www.osti.gov/servlets/purl/897428
https://www.osti.gov/biblio/897428
https://doi.org/10.2172/897428
Description
Summary:Information has been gathered on 13 reported thermal-spring sites, 12 in southern Southeastern Alaska and one in western British Columbia. Five of the reported sites could not be substantiated by DGGS. The eight known thermal spring sites are associated with grainitic terrain and, except for Baker Island Hot Springs, occur within or near intensively fractured Cretaceous-age pluons of the Coast Range Batholith. Thermal-spring surface temperatures range from 21 C (Twin Lakes) to 91.5 C (Bailey Bay). The greatest discharge occurs at Chief Shakes hot springs (450 1pm). Bell Island Hot Springs, which has about a 100-1 pm discharge and a 70 C temperature, has had the most development. Two previously unreported thermal-spring sites, Barnes Lake warm springs and Bradfield hot springs, have a low rate of discharge and respective surface temperatures of about 25 and 54 C. The known thermal springs probably originate from circulation of meteoric waters through deep-seated fracture and fault systems. The chemical constituents of the alkali-sulfate to alkali-chloride thermal waters are probably derived from interaction of the deeply circulating meteoric waters with the granitic wall rocks. Chemical geothermometry suggests subsurface temperatures of 55 to 151 C. If waters are being heated solely by conduction from wall rocks, circulation depths must be about 1.5 to 5 km, assuming geothermal gradients of 30 to 50 C/km. Variations in temperature, discharge, and chemistry were noted at several thermal springs for which previous records are available. A major decrease in silica and potassium concentrations at Chief Shakes hot springs is suggested by comparing recent analyses of water chemistry to Waring's (1917) original analysis. The rate of discharge at Bell Island Hot Springs may have increased by a factor of two since Waring's visit to the springs. Subsurface reservoirs associated with thermal springs in southern Southeastern Alaska are of low temperature and are probably limited in extent, compared to geothermal fields now ...

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