A steam (quality of 0.75, at 7 bar) enters a control volume at the inlet (1) to receive energy via heat transfer with a rate of 1195.74 kJ/s. The mass flow rate of the steam is 2 kg/s. Fifteen percent of the steam leaves the control volume at exit (2) and the remainder leaves at (3). The exit steams are at 7 bar and the same temperature T. The cross-section area of exit 2 is 50 cm2. Determine the velocity at exit 2, in m/s at steady state operation. Ignore the effects of both kinotic and potential norm
A steam (quality of 0.75, at 7 bar) enters a control volume at the inlet (1) to receive energy via heat transfer with a rate of 1195.74 kJ/s. The mass flow rate of the steam is 2 kg/s. Fifteen percent of the steam leaves the control volume at exit (2) and the remainder leaves at (3). The exit steams are at 7 bar and the same temperature T. The cross-section area of exit 2 is 50 cm2. Determine the velocity at exit 2, in m/s at steady state operation. Ignore the effects of both kinotic and potential norm
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Transcribed Image Text:A steam (quality of 0.75, at 7 bar) enters a control volume at the inlet (1) to
receive energy via heat transfer with a rate of 1195.74 kJ/s. The mass flow rate
of the steam is 2 kg/s. Fifteen percent of the steam leaves the control volume
at exit (2) and the remainder leaves at (3). The exit steams are at 7 bar and the
same temperature T. The cross-section area of exit 2 is 50 cm2. Determine the
velocity at exit 2, in m/s at steady state operation. Ignore the effects of both
kinotic and potential norm
TV
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