Title: CORRELATION OF THE HEAT TRANSFER PROPERTIES AND ULTRASONIC TRANSMISSION PROPERTIES OF BONDS

Certain basic ideas were applied to boiling heat transfer from which several critical conditions were derived and an equation of the maximum heat flux in nuclear boiling was obtained. The heat transfer was considered as being limited by the maximum rate of bubble generation from a unit area of the heating surface. Heat transfer in nucleate boiling with and without forced convection and subcooling was also studied. With an empirical modification of the nucleation theory as developed by Volmer and Eyring from the Maxwell-Boltzmann distribution law, an equation was obtained for heat transfer in vigorous boiling. Validity ef this equationmore » was tested for 18 different systems under different pressures. (M.C.G.)« less

The heat dissipated in the conductor of a forced cooled pipe-type cable must pass through two thermal resistances in series: the conduction resistance of the cable insulation and the convection resistance due to forced and natural convection from the cable surface to the oil. The upper limit to the convection resistance was determined by natural convection heat transfer tests on a full scale model of a pipe-type cable system. It was found that conduction resistance is more than four times larger than convection resistance from cables designed for 138 kV and higher voltages. Therefore, to accurately predict the temperature insidemore » the cable for a given oil temperature and current, a precise prediction of convection heat transfer is necessary. The solution for conduction within the cable must include effects due to cable splices and the proximity of one cable to another.« less