Benzene gas (CaHs) at 25°C, I atm enters a combustion chamber operating at steady stan and burns with theoretical air entering at 25°C, 1 atm. The products exit at 980 K. (a) Write the balanced chemical equation of the complete combustion of Benzene wit. the theoretical amount of air. zb6-26 (b) Determine the mass flow rate of the fuel, in kg/s, to provide heat transfer at a rate b-3 %3D of 1000 kW. J HD -0 Take: Air: Oz +3.76 Na M(air) = 28 97 kaf
Benzene gas (CaHs) at 25°C, I atm enters a combustion chamber operating at steady stan and burns with theoretical air entering at 25°C, 1 atm. The products exit at 980 K. (a) Write the balanced chemical equation of the complete combustion of Benzene wit. the theoretical amount of air. zb6-26 (b) Determine the mass flow rate of the fuel, in kg/s, to provide heat transfer at a rate b-3 %3D of 1000 kW. J HD -0 Take: Air: Oz +3.76 Na M(air) = 28 97 kaf
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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Transcribed Image Text:Benzene gas (CaHs) at 25°C, I atm enters a combustion chamber operating at steady state
and burns with theoretical air entering at 25°C, 1 atm. The products exit at 980 K.
(a) Write the balanced chemical equation of the complete combustion of Benzene with
the theoretical amount of air. ¶zb 6=2b -3
(b) Determine the mass flow rate of the fuel, in kg/s, to provide heat transfer at a rate
%3D
of 1000 kW.
Q-aH [
Take:
Air: O2 +3.76 N2
M(air)= 28.97 kg/kmol
M(CH«) = 78.11 kg/kmol
The Nitrogen is inert.
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