In a Cogeneration Steam System, the Turbine is supplied with 30 tons/hr of Steam at 100 bar(a) and 600 ℃ as described in the schematic. - At 10 bar(a) 12 tons/hr steam is extracted from the turbine for a Process-1. - The steam must be saturated vapour at the inlet of Process-1. The exit of process-1 is saturated liquid (condensate) at 10 bar(a) which is fed back to the boiler. - The rest of the steam passes through the turbine, to the condenser and is fed back to the boiler as well. - Assume all processes as ideal- - Isentropic expansion in the turbine - No heat loss to the environment - No pressure drops during heat exchange - For liquid water, C = 4.187 kJ/kg.K Sir how to solve this problem
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In a Cogeneration Steam System, the Turbine is supplied with 30 tons/hr of Steam at 100 bar(a) and 600 ℃ as described in the schematic.
- At 10 bar(a) 12 tons/hr steam is extracted from the turbine for a Process-1.
- The steam must be saturated vapour at the inlet of Process-1. The exit of process-1 is saturated liquid
(condensate) at 10 bar(a) which is fed back to the boiler.
- The rest of the steam passes through the turbine, to the condenser and is fed back to the boiler as well.
- Assume all processes as ideal-
- Isentropic expansion in the turbine
- No heat loss to the environment
- No pressure drops during heat exchange
- For liquid water, C = 4.187 kJ/kg.K
Sir how to solve this problem
Sir you wrote in question inward flow turbine but has drawn outward one... please explain if I'm wrong
Sir your explanation is very good
Why don't you explain why the velocity triangles are drawn like that
You have interchanged the diameters D2 should be bigger 12 and NOT 0.6
Is Vw1=0 or is it Vw1=u1?
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