or springs is a theoretical possibility. However, from the instrumental point of view this is a difficult task and the precision which can be attained by available instrumentation would rarely be satisfactory for the present purpose. Because of the general difficulties of observ- ing minor flow oscillations, it is of interest to note that flowing geothermal systems provide a special case where such oscillations may prob- ably be observed rather easily with a relatively high precision. This is based on the fact that the thermal water issued by springs or bore- holes of relatively small mass flow is subject to quite considerable cooling during its ascent to the surface. The water loses heat by con- duction into the country rock. For example, the temperature of thermal water issued by out- lets which have a mass flow of less than one kg/sec may have lost several or even several tens of centigrades during its ascent. Some of the relevant mathematical and physical pro- blems have been discussed by Bodvarsson (1950, 1969), Lowell (1974) and Lowell and Bodvars- son (1975). It can therefore be expected that the surface temperature of boreholes and springs of small flow will be affected by fluctuations in the mass flow. Although the theory of this phenomenon is not entirely simple, it is rather obvious that the temperature will fluctuate with the mass flow. A smaller flow will lead to a larger temperature loss and hence lower surface temperature and vice versa. The temperature of water is a physical quantity which usually can be observed with a high precision. This opens up the possibility of observing flow oscillations in thermal systems by recording the temperature of boreholes and springs of a relatively small mass flow. First attempts to carry out such observations on boreholes and springs are now being made in Iceland by the junior author (A. B.). The pur- pose of the present paper is to report on some initial results and to derive an approximate theory of hydroelastic cavity oscillations in sim- ple systems. TEMPERATURE FLUCTUATIONS IN A FLOWING BOREHOLE A thermal borehole of 1010 m depth and 340 mm inner casing diameter located at the out- skirts of the city of Reykjavik was chosen for the first field tests. This borehole has a mass flow of about i/2 kg/sec entering at the depth of 650 m and a surface temperature of 42.5 °C. A thermistor temperature recorder in a thin plastic cover was installed in the borehole at a depth of 10 m. The instrument has a suf- ficiently short response time and a precision of about 1 millidegree C. An 8 hour section of a temperature record from this borehole is shown in Fig. 1. The raw record shows temperature fluctuations with amplitudes up to 0.02 °C and apparent periods of the order of one or two tens of minutes. A maximum entropy spectrum of this record is shown in Fig. 2. The record exhibits a rather significant spectral peak at a period of roughly 103 seconds, that is, 17 minutes. The observational data from this borehole confirm the existance of small oscillations which can possibly be interpreted as hydroelastic os- cillations of the type described in the intro- duction above. At this juncture, we are unable to present a solid support for this conjecture, but we find the case interesting and further data are now being recorded on other suitable systems in Iceland. To supplement the present discussion, we will below derive an approx- imate theory of very simple borehole-cavity hydroelastic systems with fracture type cavities. Fig. 1. An eight hour temperature record from a thermal borehole in Reykjavik. Mynd 1. Hitasveiflur i rennsli úr borholu við Elliðaár í Reykjavík. JÖKULL 26. ÁR 21

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