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21 May, 15:46

The steady-state data listed below are claimed for a power cycle operating between hot and cold reservoirs at 1200 K and 400 K, respectively. For each case, evaluate the net power developed by the cycle, in kW, and the thermal efficiency. Also in each case apply the equation below on a time-rate basis to determine whether the cycle operates reversibly, operates irreversibly, or is impossible.

(a) Qh (dot) = 600 kW, Qc (dot) = 400 kW

(b) Qh (dot) = 600 kW, Qc (dot) = 0 kW

(c) Qh (dot) = 600 kW, Qc (dot) = 200 kW

∮ (δQ/T) _b = - σ_cycle

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  1. 21 May, 18:54
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    (a) Qh (dot) = 600 kW, Qc (dot) = 400 kW is an irreversible process.

    (b) Qh (dot) = 600 kW, Qc (dot) = 0 kW is an impossible process.

    (c) Qh (dot) = 600 kW, Qc (dot) = 200 kW is a reversible process.

    Explanation:

    T (hot) = 1200k, T (cold) = 400

    efficiency n = (Th - Tc) / Tc

    n = (1200 - 400) / 1200 = 0.667 (this will be the comparison base)

    (a)

    Qh = 600 kW, Qc = 400 kW

    n = (Qh - Qc) / Qh ⇒ (600 - 400) / 600

    n = 0.33

    0.33 is less than efficiency value from temperature 0.67

    ∴ it is irreversible process

    (b)

    Qh = 600 kW, Qc = 0

    n = (Qh - Qc) / Qh ⇒ (600 - 0) / 600 = 1

    efficiency in any power cycle can never be equal to one.

    ∴ it is an impossible process.

    (c)

    Qh = 600 kW, Qc = 200 kW

    n = (Qh - Qc) / Qh = (600 - 200) / 600

    n = 0.67 (it is equal to efficiency value from temperature)

    ∴ it is a reversible process
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