A waste heat recovery boiler produces 4.8MPa (dry saturated) steam from 103 deg C feedwater. The boiler receives energy from 6 kg/s of 945 deg C dry air. After passing through a waste heat boiler, the temperature of the air has been reduced to 343 deg C. How much steam in kg is produced per second? (Hint: Approximate Enthalpy of Water in kJ/kg = Cp(t); where t is in 0C) @4.8 MPa dry saturated: h = 2796 A. 1.8 C. 1.53 B. 2.98 D. 1.54
A waste heat recovery boiler produces 4.8MPa (dry saturated) steam from 103 deg C feedwater. The boiler receives energy from 6 kg/s of 945 deg C dry air. After passing through a waste heat boiler, the temperature of the air has been reduced to 343 deg C. How much steam in kg is produced per second? (Hint: Approximate Enthalpy of Water in kJ/kg = Cp(t); where t is in 0C) @4.8 MPa dry saturated: h = 2796 A. 1.8 C. 1.53 B. 2.98 D. 1.54
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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2. A waste heat recovery boiler produces 4.8MPa (dry saturated) steam from 103 deg C
feedwater. The boiler receives energy from 6 kg/s of 945 deg C dry air. After passing
through a waste heat boiler, the temperature of the air has been reduced to 343 deg
C. How much steam in kg is produced per second? (Hint: Approximate Enthalpy of Water
in kJ/kg = Cp(t); where t is in 0C)
@4.8 MPa dry saturated: h = 2796
A. 1.8
C. 1.53
B. 2.98
D. 1.54
Transcribed Image Text:Use these values when necessary:
Specific Heat Ratio (k)
O2 - 1.395
Co2 = 1.288
Cpwater = 4.187 kJ/kg
H2 - 1.4
He = 1.667
NH3 = 1.304
N2 = 1.399
Hg = 1.666
CH: = 1.321
K; Cpair = 1 kJ/kg
- K; Cpatean = 2 kJ/kg - K
1 kg - 2.205 lb
"C to K = (use + 273.15)
1 bar = 100 kPa
1 BTU = 1.055 kJ = 778 ft - lb
1 HP = 0. 746 kW = 2545 BTU/hr
= 6.5748 kJ/kg - K
@ 1.03425 MPa:
@ 2.5 MPa :
@ 7MPA and 550 deg C:
= 2779. 4 kJ/kg; Sg
hg = 2803.1 kJ/kg; Sg = 6.2575 kJ/ kg
h: = 3530.9 kJ/kg; s: = 6.9486 kJ/kg
- K
- K
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