As shown in Figure 1, one portion of the hot flue gases is supplied to the steam generator. The steam generator is a shell and tube type of heat exchanger. In this steam generator treated bore water flows through the tubes while the hot flue gases flow in the shell, and steam is produced. The average demand of the steam for other processes within the iron/steel industry is (251) kg/hr at (155) ℃ temperature and 400kPa absolute pressure. Treated bore water is supplied to the steam generator at an average temperature of 20℃. The average pressure drop in the water line of the steam generator is 10kPa. The flue gases enter the shell and tube heat exchanger (steam generator) at a pressure of 110 kPa (Absolute) and a temperature of (252) ℃ and average mass flow rate of (134) kg/min. The average pressure drop in the flue gas side of the steam generator is 5kPa. Flue gases can be assumed to behave as ideal gas and have constant specific heat capacities equal to that of air (Cp=1.005kJ/kg.K and Cv = 0.718kJ/kg.K). The steam generator is insulated, but it still loses on average 6 kW of thermal energy to the surroundings though the outer surface. The outer surface of the steam generator has an average temperature of 54.5 ℃ Determine the rate of entropy generation in the steam generator, in kW/K.

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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As shown in Figure 1, one portion of the hot flue gases is supplied to the steam generator. The steam generator is a shell and tube type of heat exchanger. In this steam generator treated bore water flows through the tubes while the hot flue gases flow in the shell, and steam is produced. The average demand of the steam for other processes within the iron/steel industry is (251) kg/hr at (155) ℃ temperature and 400kPa absolute pressure. Treated bore water is supplied to the steam generator at an average temperature of 20℃. The average pressure drop in the water line of the steam generator is 10kPa. The flue gases enter the shell and tube heat exchanger (steam generator) at a pressure of 110 kPa (Absolute) and a temperature of (252) ℃ and average mass flow rate of (134) kg/min. The average pressure drop in the flue gas side of the steam generator is 5kPa. Flue gases can be assumed to behave as ideal gas and have constant specific heat capacities equal to that of air (Cp=1.005kJ/kg.K and Cv = 0.718kJ/kg.K). The steam generator is insulated, but it still loses on average 6 kW of thermal energy to the surroundings though the outer surface. The outer surface of the steam generator has an average temperature of 54.5 ℃

Determine the rate of entropy generation in the steam generator, in kW/K. Show all steps of the calculations, including estimating all parameters required to determine the rate of entropy generation.

Other
processes
Crushed
Iron ore
+
Limestone
I
Steam generator
mflue_SG
Tftue SG out
Steam
ITw_out
J.-
Steam
generator
True SG in
Blast Furnace
Qloss SG
Pw_in
Tw_in
Coke
oven
Pumpl
Treated I
I
Bore water
Hot flue gas line
← Coal
Post
processing
I
I
Brayton Gas Turbine Heat Engine Power Unit
Wturbine
mair
mflue_BEH
Tflue_BEH_in
T4
mair! 4
Turbine
T3
个
3
Continuous
Casting of iron
Qloss Turb
-Tb_turb
Brayton Engine
Heater
Qloss BHE
T₂
←- --
2
mflue BEH
Tftue_BEHout
Ambient air
mair
T₁
Compressor
Wcomp_in
Qloss comp
7
Tb_comp

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