GEOTHERMAL TECHNOLOGIES LEGACY COLLECTION - Bibliographic Citation


Bibliographic Citation



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Full Text: Citation URL: http://www.osti.gov/geothermal/product.biblio.jsp?osti_id=1070071
Title: SUBSIDENCE DUE TO GEOTHERMAL FLUID WITHDRAWAL
Creator/Author: Narasimhan, T.N. ; Goyal, K.P.
Publication Date:1982 Oct 01
OSTI Identifier:OSTI 1070071
Report Number(s):LBL-10967
DOE Contract Number:DE-AC02-05CH11231
Document Type:Journal Article
Specific Type:
Coverage:
Resource Relation:Journal Name: Reviews in Engineering Geology
Other Number(s):
Research Org:Ernest Orlando Lawrence Berkeley National Laboratory, Berkeley, CA (US)
Sponsoring Org:Earth Sciences Division
Subject:15 GEOTHERMAL ENERGY
Keywords:
Description/Abstract:Single-phase and two-phase geothermal reservoirs are currently being exploited for power production in Italy, Mexico, New Zealand, the U.S. and elsewhere. Vertical ground displacements of upto 4.5 m and horizontal ground displacements of up to 0.5 m have been observed at Wairakei, New Zealand that are clearly attributable to the resource exploitation. Similarly, vertical displacements of about 0.13 m have been recorded at The Geysers, California. No significant ground displacements that are attributable to large-scale fluid production have been observed at Larderello, Italy and Cerro Prieto, Mexico. Observations show that subsidence due to geothermal fluid production is characterized by such features as an offset of the subsidence bowl from the main area of production, time-lag between production and subsidence and nonlinear stress-strain relationships. Several plausible conceptual models, of varying degrees of sophistication, have been proposed to explain the observed features. At present, relatively more is known about the physical mechanisms that govern subsidence than the relevant thermal mechanisms. Although attempts have been made to simulate observed geothermal subsidence, the modeling efforts have been seriously limited by a lack of relevant field data needed to sufficiently characterize the complex field system.
Publisher:
Country of Publication:US
Language:English
Size/Format:Medium: ED; Size: 98 p.
Rights:
Availability:
System Entry Date:2013 Apr 01
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