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P9.28 A large vacuum tank, held at 60 kPa absolute, sucks sea- level standard air through a converging nozzle whose throat diameter is 3 cm. Estimate (a) the mass flow rate through the nozzle and (b) the Mach number at the throat.

User Alican Temel
by
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1 Answer

17 votes
17 votes

Answer:

a)
m=0.17kg/s

b)
Ma=0.89

Step-by-step explanation:

From the question we are told that:

Pressure
P=60kPa

Diameter
d=3cm

Generally at sea level


T_0=288k\\\\\rho_0=1.225kg/m^3\\\\P_0=101350Pa\\\\r=1.4

Generally the Power series equation for Mach number is mathematically given by


(p_0)/(p)=(1+(r-1)/(2)Ma^2)^{(r)/(r-1)}


(101350)/(60*10^3)=(1+(1.4-1)/(2)Ma^2)^{(1.4)/(1.4-1)}


Ma=0.89

Therefore

Mass flow rate


(\rho_0)/(\rho)=(1+(1.4-1)/(2)(0.89)^2)^{(1.4)/(1.4-1)}


(1.225)/(\rho)=(1+(1.4-1)/(2)(0.89)^2)^{(1.4)/(1.4-1)}


\rho=0.848kg/m^3

Generally the equation for Velocity at throat is mathematically given by


V=Ma(r*T_0√(T_e))

Where


T_e=(P_e)/(R\rho)\\\\T_e=(60*10^6)/(288*0.842\rho)


T_e=248

Therefore


V=0.89(1.4*288√(248))\\\\V=284

Generally the equation for Mass flow rate is mathematically given by


m=\rho*A*V


m=0.84*(\pi)/(4)*3*10^(-2)*284


m=0.17kg/s

User Sudhir Sharma
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3.3k points