Water Temperature and Heat Baiance of Rivers SIGMUNDUR FREYSTEI NSSON, THORODDSEN AND PARTNERS, CONSULTING ENGINEERS, REYKJAVIK, ICELAND ABSTRACT The semi-empirical equations for viater tem- perature i.n rivers and. the rate of heat loss from a river surface are discussed. The heat loss equations are used to calculate the produc- tion of frazil ice in Thjorsa lliver, South- wesiern Iceland, and a reasonably good agree- rnent between calculated and measured ice pro- duction is obtained. INTRODUCTION Studies on the heat balance of rivers are limited in number and mostly connected to practical problems at certain rivers. The pro- blems most frequently encountered are to cal- culate water temperatures or ice production on the basis of hydrological and meteorological observations. Although satisfactory agreement between measured and calculated river temp- eratures has been obtained in some cases, uni- versally applicable solutions are not available as yet. A comprehensive study of the heat balance of rivers with reference to ice formation was published by Devik (1931). A review of some of the later contributions is given by Dingman, Weeks and Yen (1968). In connection with the hydro-electric deve- lopment of rivers in Iceland the forecasting of changes in ice regime, water temperature and frazil ice production is a matter of practical and economical interest at certain sites. As the different formulas available for the heat loss from a water surface give very divergent re- sults it was considered necessary to investigate the subject. The equations for the water temp- erature in rivers or canals liave also been studied. Tliese investigations are still going on but nevertheless a description of our approach to the problems shoulcl be of interest to those who are concerned with similar studies. The gravitational or engineering system of units is used here ancl symbols are defined when they first appear. (kp = kilogramforce). WATER TEMPERATURE Here we will only consider the ice-free case where the water temperature is everywhere above 0° C. An equation for the water temperature in a turbulent stream is obtained by considering a simply connected region, R, within the stream. In our case the water may be assumed incom- pressible and its properties independent of temperature. The heat added to R through conduction is k grad T • dA A where k is the conductivity of the water, T the instantaneous temperature, A the surface of the region R and the surface vec.tor dA is directed outwards from the region. The heat added through advection is yc T V • dA A where y is the specific weight and c the specific. heat of water and v the instantaneous velocity vector. The lieat added through dissipation of tur- bulent energy (frictional heating) ancl radia- tion is omitted here. The energy from fric- tional heating is small compared to other terms and radiation effects will be assumed to be confined to the surface. In fact water is prac- tically opaque to long-wave radiation but solar radiation may penetrate to considerable depth. The rate of change of internal energy in- side R is: JÖKULL 18. ÁR 359

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