Ti Wi T₁ = 100 °C Kg hr Wi= 1000. V 0- -0 mmmmmmm Q Heater Kg P = 900- m³ V = 2.0 m³ Cp Q=3 x 107 = 1 Cal/g°C T= 130 °C

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answerhappygod
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Ti Wi T₁ = 100 °C Kg hr Wi= 1000. V 0- -0 mmmmmmm Q Heater Kg P = 900- m³ V = 2.0 m³ Cp Q=3 x 107 = 1 Cal/g°C T= 130 °C

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Ti Wi T 100 C Kg Hr Wi 1000 V 0 0 Mmmmmmm Q Heater Kg P 900 M V 2 0 M Cp Q 3 X 107 1 Cal G C T 130 C 1
Ti Wi T 100 C Kg Hr Wi 1000 V 0 0 Mmmmmmm Q Heater Kg P 900 M V 2 0 M Cp Q 3 X 107 1 Cal G C T 130 C 1 (57 KiB) Viewed 15 times
Derive the transfer function model for this system and show that
it is equal to
Ti Wi T 100 C Kg Hr Wi 1000 V 0 0 Mmmmmmm Q Heater Kg P 900 M V 2 0 M Cp Q 3 X 107 1 Cal G C T 130 C 2
Ti Wi T 100 C Kg Hr Wi 1000 V 0 0 Mmmmmmm Q Heater Kg P 900 M V 2 0 M Cp Q 3 X 107 1 Cal G C T 130 C 2 (9.49 KiB) Viewed 15 times
Ti Wi T₁ = 100 °C Kg hr Wi= 1000. V 0- -0 mmmmmmm Q Heater Kg P = 900- m³ V = 2.0 m³ Cp Q=3 x 107 = 1 Cal/g°C T= 130 °C W cal h

T'(s) = = 1/wC_Q' (s) + m s+1 W m W 1 s + 1 -Ti (s)
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