rotw
Mechanical
- May 25, 2013
- 1,143
For centrifugal compressor, if I know (or can approximate or regress) a functional relationship (characteristics) as such
(work input factor) = F(Inlet flow coefficient, Mach number, impeller diameter) -----(1)
(polytropic efficiency) = G(Inlet flow coefficient, Mach number, impeller diameter) -----(2)
I can derive useful performance outputs in physical units for a given inlet condition parameters (pressure, temperature, gas mixture):
(physical output X) = H(Mass or volume flow) ------(3)
X : Polytropic head, Polytropic efficiency, outlet pressure, outlet temperature, or absorbed power
Starting from centrifugal compressor performance model above, how would you go about adapting it to the turboexpander case in similar fashion/structure?
- How would express characteristics (1) & (2) that would be pertinent to turboexpander ?
- Would be able to derive outputs such as in (3) ? Which are those outputs (most commonly considered, found in spec, curves, proposals)? Are they same or different ?
(work input factor) = F(Inlet flow coefficient, Mach number, impeller diameter) -----(1)
(polytropic efficiency) = G(Inlet flow coefficient, Mach number, impeller diameter) -----(2)
I can derive useful performance outputs in physical units for a given inlet condition parameters (pressure, temperature, gas mixture):
(physical output X) = H(Mass or volume flow) ------(3)
X : Polytropic head, Polytropic efficiency, outlet pressure, outlet temperature, or absorbed power
Starting from centrifugal compressor performance model above, how would you go about adapting it to the turboexpander case in similar fashion/structure?
- How would express characteristics (1) & (2) that would be pertinent to turboexpander ?
- Would be able to derive outputs such as in (3) ? Which are those outputs (most commonly considered, found in spec, curves, proposals)? Are they same or different ?