Answer:
[tex]\dot{w}[/tex]= -0.303 KW
Explanation:
This is the case of unsteady flow process because properties are changing with time.
From first law of thermodynamics for unsteady flow process
[tex]\dfrac{dU}{dt}=\dot{m_i}h_i+\dot{Q}-\dot{m_e}h_i+\dot{w}[/tex]
Given that tank is insulated so[tex]\dot{Q}=0[/tex] and no mass is leaving so
[tex]\dot{m_e}=0[/tex]
[tex]\int dU=\int \dot{m_i}h_i\ dt-\int \dot{w}\ dt[/tex]
[tex]m_2u_2-m_1u_1=(m_2-m_1)h_i- \dot{w}\Delta t[/tex]
Mass conservation [tex]m_2-m_1=m_e-m_i[/tex]
[tex]m_1,m_2[/tex] is the initial and final mass in the system respectively.
Initially tank is evacuated so [tex]m_1=0[/tex]
We know that for air [tex]u=C_vT ,h=C_p T[/tex],[tex]P_2v_2=m_2RT_2[/tex]
[tex]m_2=0.42 kg[/tex]
So now putting values
[tex]0.42 \times 0.71 \times 730=0.42\times 1.005\times 300- \dot{w} \times 300[/tex]
[tex]\dot{w}[/tex]= -0.303 KW
