Volume 89,   №1

USE OF ORIENTED SPRAY NOZZLES TO SET THE VAPOR–AIR FLOW IN ROTARY MOTION IN THE SUPERSPRAY SPACE OF THE EVAPORATIVE CHIMNEY-TYPE TOWER



The present paper considers the problem of upgrading the thermal efficiency of chimney-type evaporative cooling towers due to the rotary motion of the vapor–air flow in the superspray space. To set the vapor–air flow in rotary motion, we propose to use the momentum of the sprayed water. It has been shown that the existing parameters of spray nozzles permit setting up to 30% of the water flow momentum in translatory motion, which is enough for changing considerably the aerodynamics of the vapor–air fl ow in the superspray space and improving the operation of the cooling tower. The optimal angle of axial inclination of the spray cone has been estimated. Recommendations are given and problems have been posed for engineering realization of the proposed technologies in a chimney-type cooling tower
 
 
Author:  K. V. Dobrego, V. F. Davydenko, and I. A. Koznacheev
Keywords:  spray cooling tower, optimization of heat transfer, droplet flow
Page:  157

K. V. Dobrego, V. F. Davydenko, and I. A. Koznacheev.  USE OF ORIENTED SPRAY NOZZLES TO SET THE VAPOR–AIR FLOW IN ROTARY MOTION IN THE SUPERSPRAY SPACE OF THE EVAPORATIVE CHIMNEY-TYPE TOWER //Journal of engineering physics and thermophysics. . Volume 89, №1. P. 157.


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