Preliminary geothermal investigations at Manley Hot Springs, Alaska

Manley Hot Springs is one of several hot springs which form a belt extending from the Seward Peninsula to east-central Alaska. All of the hot springs are low-temperature, water-dominated geothermal systems, having formed as the result of circulation of meteoric water along deepseated fractures near...

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Bibliographic Details
Main Author: East, Jennifer
Format: Report
Language:English
Published: University of Alaska Fairbanks. Geophysical Institute. 1982
Subjects:
Geothermal Exploration
Elements
Geology
Resistivity Surveys
Geothermal Legacy
Water Chemistry
15 Geothermal Energy
Surveys
Nonmetals
Alaska
Geothermometry
Exploration
Geophysical Surveys
Chemistry
Water Springs Geothermal Legacy 150301* > Geothermal Exploration & Exploration Technology > Geophysical Techniques & Surveys
Geochemical Surveys
Rare Gases
Thermal Springs
150302 > Geothermal Exploration & Exploration Technology > Geochemical Techniques & Surveys
Sampling
Temperature Surveys
Soils
Hydrothermal Systems
Energy Systems
Metals
Helium
Hot Springs
Usa
Federal Region X
Fluids
Gases
Mercury
North America
Electrical Surveys
Geothermal Systems
Seward Peninsula
Online Access:https://doi.org/10.2172/7141762
https://digital.library.unt.edu/ark:/67531/metadc1408401/
Description
Summary:Manley Hot Springs is one of several hot springs which form a belt extending from the Seward Peninsula to east-central Alaska. All of the hot springs are low-temperature, water-dominated geothermal systems, having formed as the result of circulation of meteoric water along deepseated fractures near or within granitic intrusives. Shallow, thermally disturbed ground at Manley Hot Springs constitutes an area of 1.2 km by 0.6 km along the lower slopes of Bean Ridge on the north side of the Tanana Valley. This area includes 32 springs and seeps and one warm (29.1/sup 0/C) well. The hottest springs range in temperature from 61/sup 0/ to 47/sup 0/C and are presently utilized for space heating and irrigation. This study was designed to characterize the geothermal system present at Manley Hot Springs and delineate likely sites for geothermal drilling. Several surveys were conducted over a grid system which included shallow ground temperature, helium soil gas, mercury soil and resistivity surveys. In addition, a reconnaissance ground temperature survey and water chemistry sampling program was undertaken. The preliminary results, including some preliminary water chemistry, show that shallow hydrothermal activity can be delineated by many of the surveys. Three localities are targeted as likely geothermal well sites, and a model is proposed for the geothermal system at Manley Hot Springs.

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