Q16: Air at 10° C dry bulb temperature and 8° C wet bulb temperature is supplied at the rate of 15m³/min. It is brought to 20° C dry bulb temperature and 60% relative humidity by heating and then by adiabatic humidification. Find (a) capacity of the heating coil in kW, (b) surface temperature of the coil, if the by-pass factor is 0.32, and (c) capacity of the humidifier.
Q16: Air at 10° C dry bulb temperature and 8° C wet bulb temperature is supplied at the rate of 15m³/min. It is brought to 20° C dry bulb temperature and 60% relative humidity by heating and then by adiabatic humidification. Find (a) capacity of the heating coil in kW, (b) surface temperature of the coil, if the by-pass factor is 0.32, and (c) capacity of the humidifier.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![Q16: Air at 10° C dry bulb temperature and 8° C wet bulb temperature is supplied
at the rate of 15m/min. It is brought to 20° C dry bulb temperature and 60% relative
humidity by heating and then by adiabatic humidification. Find (a) capacity of the
heating coil in kW, (b) surface temperature of the coil, if the by-pass factor is 0.32,
and (c) capacity of the humidifier.
[Ans. 3.6 kW; 26.77° C ;0.0555 kg / min]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Feb5df603-2ce1-4a26-81c6-d1098111a9ee%2F3c99e482-80fb-4595-8262-7808ea4eade6%2Fegou6ls_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q16: Air at 10° C dry bulb temperature and 8° C wet bulb temperature is supplied
at the rate of 15m/min. It is brought to 20° C dry bulb temperature and 60% relative
humidity by heating and then by adiabatic humidification. Find (a) capacity of the
heating coil in kW, (b) surface temperature of the coil, if the by-pass factor is 0.32,
and (c) capacity of the humidifier.
[Ans. 3.6 kW; 26.77° C ;0.0555 kg / min]
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