The two-tank heating process shown below consists of two identical, well-stirred tanks in series. A flow of heat can enter tank 2. At time t = 0, the flow rate of heat to tank 2 suddenly increases according to a step function to 100 kW, and the temperature of the inlet water Ti drops from 40 to 32 C according to a step function. These changes in heat flow and inlet water temperature occur simultaneously. Determine T2 in C at time equals 2 minutes. Initially, Ti = T1 = 72 = 40 C and q = 0. The following data apply: w = 250 kg/min Holdup volume of each tank = 5 m3 Density of fluid = 1000 kg/m3 Heat capacity of fluid is 4.184 kJ/(kg. C)

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W T₁ Tank 1 T₁ Tank 2

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The two-tank heating process shown below consists of two identical, well-stirred tanks in series. A flow of heat can enter tank 2. At time t = 0, the flow rate of heat to tank 2 suddenly increases according to a step function to 100 kW, and the temperature of the inlet water Ti drops from 40 to 32 C according to a step function. These changes in heat flow and inlet water temperature occur simultaneously. Determine T2 in C at time equals 2 minutes. Initially, Ti = T1 = T2 = 40 C and q = 0. The following data apply: w = 250 kg/min Holdup volume of each tank = 5 m3 Density of fluid = 1000 kg/m3 Heat capacity of fluid is 4.184 kJ/(kg · C)