Further numerical study of the experiment conducted to examine the confected air flow characteristics free of gap ratio
(S/D 1.05-4.20) on condenser with the capillary pipe length standard of the condenser refrigeration unit isothermal
circular-type consisting of 20 in-line array in the middle of vertical channel was examined using CFD fluent. Numerical
result shows S/D 1.05-4.20. It was obtained that the condensor heat transfer increased 4.4% to 226 W, which is equal to
the experimental result. Started from S/D1.05, there was a strong blockage effect that the air flow characteristics
between the tubes was dominated by recirculation, impacting the small temperature gradient and slow tangential
velocity (vt). On the other hands, S/D2.10 blockage effect reduced drastically and the buoyancy force produced a rapid
air flow across the tubes. The Tangential velocity (Vt) increased rapidly, causing the local Nusselt number (Nuθ) to pop
up four times at θ = 0o on the upstream tube 20. The average Nusselt number ( Nu ) on the tubes surface increases 135%.
The result qkond increased significantly. Effect of S/D 3.15-4.20 temperature gradient relatively unchanged. Local
Nusselt number (Nuθ) did not undergo significant changes. The Air flow running across the channel only reduced the
impact on the confected wall that in the gap ratio area the qkond increases were no longer significant.

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