Simultaneous effects of water spray and crosswind on performance of natural draft dry cooling tower
Abstract
To investigate the effect of water spray and crosswind on the effectiveness of
the natural draft dry cooling tower (NDDCT), a three-dimensional model
has been developed. Efficiency of NDDCT is improved by water spray
system at the cooling tower entrance for high ambient temperature condition
with and without crosswind. The natural and forced heat convection flow
inside and around the NDDCT is simulated numerically by solving the full
Navier-Stokes equations in both air and water droplet phases. Comparison
of the numerical results with one-dimensional analytical model and the
experimental data illustrates a well-predicted heat transfer rate in the
cooling tower. Applying water spray system on the cooling tower radiators
enhances the cooling tower efficiency at both no wind and windy conditions.
For all values of water spraying rate, NDDCTs operate most effectively at
the crosswind velocity of 3m/s and as the wind speed continues to rise to
more than 3 m/s up to 12 m/s, the tower efficiency will decrease by
approximately 18%, based on no-wind condition. The heat transfer rate of
radiator at wind velocity 10 m/s is 11.5% lower than that of the no wind
condition. This value is 7.5% for water spray rate of 50kg/s.
Dates
- Submission Date2011-05-10
- Revision Date2011-11-12
- Acceptance Date2011-11-12
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Volume
17,
Issue
2,
Pages443 -455