Effects of Shape, Size, and Air Velocity on Entry Loss Factors of Suction Hoods

Abstract

This study further elucidated the effects of air velocity, aspect ratio (face length to face width), and area ratio (face area to duct area) on entry loss factors of suction hoods. A full scale ventilation system was utilized to determine the entry loss factor attributable to each of 20 square and rectangular hoods with a 90° included angle. Static and velocity pressures were measured using Pitot tubes connected by tubing to piezoresistive pressure transducers and inclined tube manometers. The entry loss factor, Fh, is the ratio of hood total pressure loss to mean velocity pressure. Values of Fh determined in this study ranged from 0.17–1.85. The values of Fh were a hyperbolic function of area ratio with a region rapidly increasing change for area ratios less than 5. For area ratios greater than 5, the values of Fh approached an asymptote of 0.17. Among hoods with a given area ratio (e.g., 2.5, 5.1, or 10.2), values of Fh were independent of aspect ratio. To a limited extent, Fh values decreased as mean air velocities increased from 319–1770 m/min (1046–5807 feet/min).