GUNNAR BODVARSSON1 and D. J. RYLEY1 2: The Measurements of the Weight Discharge from Geothermal Steam Wells ABSTRACT Geothermal toells are frequently situated in remote, inhospitable areas where water may be scarce ancl communications bad. Measurement of the mass output of geothermal wells, either by condensing the efflux or by separation and measurements of the individual phases may be impossible or very inconvenient. This paper reviews the alternative methods that are available for predicting the flow, draiving particular attention to the present states of laboratory and other studies in two- phase critical discharge from parallel ducts. It is concluded that no acceptable method of flow prediction yet exists based on idealised two- phase flow models, but that the future outlook in this respect is encouraging. A new theory of critical flow is presented, and examined in the light of flow measure- ments made by R. James. Menlion is also made of dilution methods whereon experimental work is currently pro- ceeding in Iceland. INTRODUCTION For the satisfactory exploitation of geo- thermal wells, it is necessary to know with some precision the weight of water and steam dis- charged. The most accurate way of finding the flow is that of direct measurement either by separating and metering each of the two phases, or by condensing and weighing the entire dis- charge. The flow from a geothermal well is usually very farge; a typical Icelandic well having a discharge of 40 to 50 kg/sec., and the measurement of a flow of this magnitude pre- sents difficulties wherever the flow is situated. 1) Department of Oceanography, Oregon State University, Corvallis, Oregon. U.S.A. 2) Department of Mechanical Engineering, University of Liverpool, England. In the case of geothermal wells, which are usu- ally found in inhospitable and often arid regions both in Iceland and elsewhere, it is wholly impracticable to attempt to condense and weigh the efflux. For such a purpose a condenser would be required with a cooling water consumption which might itself exceed the well flow by a factor of 5—10. A more suitable method for use in the geo- thermal field is that in which the liquid and vapour are separated and each phase metered separately. This method was first employed in New Zealand and has been subsequently used in Iceland. The method is not without its pro- blems. The separating equipment may be large and not readily portable, and requires level, even ground on which to stand. The capital cost of such a plant is high. Engineers concerned with the measurements of discharge from geothermal wells have re- cognized for some time, however, that high cost and inconvenience might be avoided if it were possible to calculate the flow from straight- forward observation of properties made at the well head and without the introduction of direct flow-measuring equipment. One such method was successfully employed by Belin and Knox (1955) and subsequently improved by Belin and Bainbridge (1957). These investiga- tors recognized that with a low-quality-hori- zontal pipe flow there is gross separation of vapour and liquid, and that the liquid will flow through the bottom of a measuring nozzle in a stream of segmental cross-section. The thickness of this segment was measured using beta-ray absorption methods to give the nomin- al mixture density and this quantity was related empirically to the mass flow dryness fraction. An empirical relation between density and up- stream pressure enabled the mass discharge to be predicted with fair accuracy from observa- tion of these quantities. Banwell (1957) devised a small impact sampl- 184 JÖKULL

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