Ask Question
13 November, 05:25

Air is compressed adiabatically from p1 1 bar, T1 300 K to p2 15 bar, v2 0.1227 m3 / kg. The air is then cooled at constant volume to T3 300 K. Assuming ideal gas behavior, and ignoring kinetic and potential energy effects, calculate the work for the first process and the heat transfer for the second process, each in kJ per kg of air. Solve the problem each of two ways:

+1
Answers (1)
  1. 13 November, 05:32
    0
    Work done for the adiabatic process = - 247873.6 J/kg = - 247.9 KJ/kg

    Heat transfer for the constant volume process = - 244.91 KJ/kg

    Explanation:

    For the first State,

    P₁ = 1 bar = 10⁵ Pa

    T₁ = 300 K

    V₁ = ?

    Second state

    P₂ = 15 bar = 15 * 10⁵ Pa

    T₂ = ?

    V₂ = 0.1227 m³/kg

    Third state

    P₃ = ?

    T₃ = 300 K

    V₃ = ?

    We require the workdone for step 1-2 (which is adiabatic)

    And heat transferred for steps 2-3 (which is isochoric/constant volume)

    Work done for an adiabatic process is given by

    W = K (V₂¹⁻ʸ - V₁¹⁻ʸ) / (1 - γ)

    where γ = ratio of specific heats = 1.4 for air since air is mostly diatomic

    K = PVʸ

    Using state 2 to calculate for k

    K = P₂V₂ʸ = (15 * 10⁵) (0.1227) ¹•⁴ = 79519.5

    We also need V₁

    For an adiabatic process

    P₁V₁ʸ = P₂V₂ʸ = K

    P₁V₁ʸ = K

    (10⁵) (V₁¹•⁴) = 79519.5

    V₁ = 0.849 m³/kg

    W = K (V₂¹⁻ʸ - V₁¹⁻ʸ) / (1 - γ)

    W = 79519.5 [ (0.1227) ⁻⁰•⁴ - (0.849) ⁻⁰•⁴] / (1 - 1.4)

    W = (79519.5 * 1.247) / (-0.4) = - 247873.6 J/kg = - 247.9 KJ/kg

    To calculate the heat transferred for the constant volume process

    Heat transferred = Cᵥ (ΔT)

    where Cᵥ = specific heat capacity at constant volume for air = 0.718 KJ/kgK

    ΔT = T₃ - T₂

    We need to calculate for T₂

    Assuming air is an ideal gas,

    PV = mRT

    T = PV/mR

    At state 2,

    V/m = 0.1227 m³/kg

    P₂ = 15 bar = 15 * 10⁵ Pa

    R = gas constant for air = 287.1 J/kgK

    T₂ = 15 * 10⁵ * 0.1227/287.1 = 641.1 K

    Q = 0.718 (300 - 641.1) = - 244.91 KJ/kg
Know the Answer?
Not Sure About the Answer?
Find an answer to your question 👍 “Air is compressed adiabatically from p1 1 bar, T1 300 K to p2 15 bar, v2 0.1227 m3 / kg. The air is then cooled at constant volume to T3 ...” in 📗 Engineering if the answers seem to be not correct or there’s no answer. Try a smart search to find answers to similar questions.
Search for Other Answers