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7 November, 04:29

1. (5 pts) An adiabatic steam turbine operating reversibly in a powerplant receives 5 kg/s steam at 3000 kPa, 500 °C. Twenty percent of the flow is extracted at 1000 kPa to a feedwater heater and the remainder flows out at 200 kPa. Find the two exit temperatures and the turbine power output.

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  1. 7 November, 05:40
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    temperature of first extraction 330.8°C

    temperature of second extraction 140.8°C

    power output=3168Kw

    Explanation:

    Hello!

    To solve this problem we must use the following steps.

    1. We will call 1 the water vapor inlet, 2 the first extraction at 100kPa and 3 the second extraction at 200kPa

    2. We use the continuity equation that states that the mass flow that enters must equal the two mass flows that leave

    m1=m2+m3

    As the problem says, 20% of the flow represents the first extraction for which 5 * 20% = 1kg / s

    solving

    5=1+m3

    m3=4kg/s

    3.

    we find the enthalpies and temeperatures in each of the states, using thermodynamic tables

    Through laboratory tests, thermodynamic tables were developed, these allow to know all the thermodynamic properties of a substance (entropy, enthalpy, pressure, specific volume, internal energy etc ...)

    through prior knowledge of two other properties

    4. we find the enthalpy and entropy of state 1 using pressure and temperature

    h1=Enthalpy (Water; T=T1; P=P1)

    h1=3457KJ/kg

    s1=Entropy (Water; T=T1; P=P1)

    s1=7.234KJ/kg

    4.

    remembering that it is a reversible process we find the enthalpy and the temperature in the first extraction with the pressure 1000 kPa and the entropy of state 1

    h2=Enthalpy (Water; s=s1; P=P2)

    h2=3116KJ/kg

    T2=Temperature (Water; P=P2; s=s1)

    T2=330.8°C

    5. we find the enthalpy and the temperature in the second extraction with the pressure 200 kPav y the entropy of state 1

    h3=Enthalpy (Water; s=s1; P=P3)

    h3=2750KJ/kg

    T3=Temperature (Water; P=P3; s=s1)

    T3=140.8°C

    6.

    Finally, to find the power of the turbine, we must use the first law of thermodynamics that states that the energy that enters is the same that must come out.

    For this case, the turbine uses a mass flow of 5kg / s until the first extraction, and then uses a mass flow of 4kg / s for the second extraction, taking into account the above we infer the following equation

    W=m1 (h1-h2) + m3 (h2-h3)

    W=5 (3457-3116) + 4 (3116-2750) = 3168Kw
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