I need help with some review problems! thank you Steam at 440K, 100kPa, with a mass flow rate of 0.164kg/s enters an adiabatic mixing chamber and mixes with 10.00 kg/s of water entering at 325 K, 100 kPa to produce an exit stream of water at 100 kPa. Assuming a steady state steady flow process, USE THE ATTACHED H2O TABLES to determine: a) The mass flow rate (kg/s) at the exit. b) The water exit temperature (K). c) The exit velocity (m/s) if the circular exit pipe diameter is 0.03m.
I need help with some review problems! thank you Steam at 440K, 100kPa, with a mass flow rate of 0.164kg/s enters an adiabatic mixing chamber and mixes with 10.00 kg/s of water entering at 325 K, 100 kPa to produce an exit stream of water at 100 kPa. Assuming a steady state steady flow process, USE THE ATTACHED H2O TABLES to determine: a) The mass flow rate (kg/s) at the exit. b) The water exit temperature (K). c) The exit velocity (m/s) if the circular exit pipe diameter is 0.03m.
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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I need help with some review problems! thank you
Steam at 440K, 100kPa, with a mass flow rate of 0.164kg/s enters an adiabatic mixing chamber and mixes with 10.00 kg/s of water entering at 325 K, 100 kPa to produce an exit stream of water at 100 kPa. Assuming a steady state steady flow process, USE THE ATTACHED H2O TABLES to determine:
a) The mass flow rate (kg/s) at the exit.
b) The water exit temperature (K).
c) The exit velocity (m/s) if the circular exit pipe diameter is 0.03m.
Transcribed Image Text:Steam T-440 K. P-100 kPa
0.164 kg/s
M3
Water
Water T-325 K, P-100 kPa
10.00 kg/s
P-100 kPa
T=?
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