Enthalpy and mass flowrate measurements for two-phase geothermal production by Tracer dilution techniques

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Conference Proceedings: Enthalpy and mass flowrate measurements for two-phase geothermal production by Tracer dilution techniques

Abstract
New exploration techniques, data analysis procedures and model calculations have been developed in the course of research in geothermal areas. They include the controlled source electromagnetic methods, the remote reference field technique and the development of better and faster algorithms for direct and inverse model calculations. Problems for the future are (a) the development and improvement of equipment and field techniques for more precise delineation and resolution of the conductivity distribution in geothermal areas especially those with productive zones of high porosity/permeability and fracturing, (b) the improvement of computerised data analysis in the field to optimise progress during the field measurements and (c) the development of more efficient interpretation procedures for the rather inhomogeneous conductivity distribution which exists in most geothermal areas.

Authors 
Hirtz, P.; Lovekin, J.; Copp, J.; Buck, C.; Adams and M.  








Published 
Eighteenth workshop on geothermal reservoir engineering, Stanford University, Stanford, CA, January 26-28, 1993, 1/28/1993





DOI 
Not Provided
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Citation

Hirtz, P.; Lovekin, J.; Copp, J.; Buck, C.; Adams, M.  . 1/28/1993. Enthalpy and mass flowrate measurements for two-phase geothermal production by Tracer dilution techniques. Proceedings of (!) ; (!) : Eighteenth workshop on geothermal reservoir engineering, Stanford University, Stanford, CA, January 26-28, 1993.


Related Geothermal Exploration Activities
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Areas (1)
  1. Coso Geothermal Area
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