GUNNAR BODVARSSON1: Some Considerations on the Optimum Production and Use of Geothermal Energy ABSTRACT Various geological and geophysical pheno- mena of interest in connection icith the pro- duction of geothermal energy are described ancl discussed. A lumpecl parameter model for the hydrology of thermal areas is given. Some ele- mentary optimization problems in the geo- thermal industry are discussed. (1) INTRODUCTION The utilization of natural heat resources for power generation and building heating is a technology of a rather recent origin. The first geothermal power plants were built in Italv about half a century ago, and the first district heating system was put into operation in Reykjavík, Iceland, in 1930.The development has been rather slow, and, as of now, geothermal power plants in Italy, New Zealand, and the U.S.A. generate a total of about 600 MW of electric power. In Iceland some 75,000 people live in houses heated by geothermal sources. The future of the industry is somewhat un- certain, but geothermal areas are known to exist in a great number of locations, mainly in the Circum-Pacific belt. Some of these areas may possess considerable potential. The geothermal industry has much in com- mon with the petroleum industry. Geological and geophysical exploration, well drilling, pip- ing and/or power generation are the most important steps in the development of geo- thermal sources. In solving the various pro- blems involved the geothermal industry has 1) Department of Oceanography, Oregon State University, Corvallis, Oregon. U.S.A. borrowed heavily frorn the older and more ad- vancecl petroleum industry. Some of the most difficult, and also the most interesting, problems in both industries are encountered in connection witlr the un- certainties involved in the exploration and production phases. Large scale exploration must be carried out with rather small chances of detecting workable sources, and, mainly in the geothermal industry, large scale plants must. be built on the basis of incomplete data on the potential and useful life of the sources. On the basis of meager information the geothermal engineer altempts to work out the optimal de- sign and operation of plants and sources. From the more basic point of view, the pro- blem of optimization in the geothermal in- dustry has not received much attention, and a discussion therefore appears to be useful. The present paper is written for the modest purpose of pointing out some of the main pro- blems involved. For the benefit of the unacquainted reader it should be mentioned that geothermal areas may produce hot water, wet steam, or dry superheated steam. Steam pressure varies from a few up to about 25 atmospheres. Depth of producing wells is up to 1,000 meters in steam areas, and up to 2,200 meters in water areas. The diameters of producing wells varies from 150 to 400 mm. (2) HYDROTHERMAL SYSTEMS (2.1) General considerations. There is practi- cally no doubt that the thermal water and steam produced by hot springs ancl boreholes is predominantly of meteoric origin. In other words, it is ordinary ground water which has been heated to elevated temperatures through JÖKULL 199

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