Experimental and Numerical Analyses of Relaxation Processes in LP Steam Turbines

Abstract: Flow fields in low-pressure (LP) steam turbines, starting expansion well above the saturation line, show four pronounced non-equilibrium processes (called relaxation processes). The first one above the saturation line is centred around heterogeneous nucleation/ condensation, the second one around subcooling and the subsequent homogeneous nucleation/ condensation ('Wilson point'), and the third and the fourth ones are characterized by thermodynamic and mechanical effects in the established droplet-loaded part o… Show more

“…However, Kreimeier et al [28] argued that this representation of the real expansion based on a dry reference process is misleading concerning the deduction of the moisture losses. The reason is that even without moisture losses, the difference still exists between the isentropic efficiency of dry and wet expansion processes due to the difference of isentropic exponent between wet steam and dry steam.…”

A 3D method to evaluate moisture losses in a low pressure steam turbine: Application to a last stage

“…However, Kreimeier et al [28] argued that this representation of the real expansion based on a dry reference process is misleading concerning the deduction of the moisture losses. The reason is that even without moisture losses, the difference still exists between the isentropic efficiency of dry and wet expansion processes due to the difference of isentropic exponent between wet steam and dry steam.…”

A 3D method to evaluate moisture losses in a low pressure steam turbine: Application to a last stage

“…Many experimental and numerical investigations on nonequilibrium condensing flow have been conducted for years, where the classical condensation theory and the growth rate of water droplets have been validated and studied in Laval nozzles [3][4][5] and turbine cascades [6][7][8] . Moreover, experiments have been carried on in model or full-scale LP steam turbines [9][10][11][12][13] although the actual wet steam flow is more complex, and related numerical simulations [14][15][16][17] have been undertaken to provide more details. A full understanding of the wetness effect on turbine performance is helpful for the optimization of turbine flow path design.…”

Study on water extraction of hollow stationary blade under wet steam flow conditions

“…The wetness energy loss covers the thermodynamic loss, drag loss of fine and coarse droplets, impact loss, collected water loss, centrifuging loss, and exit loss. The related Baumann factor can then be evaluated and compared with the mean value of order B ¼ 0.6 (covering the range 0.45-0.75 in the turbine tests 4,7 ).…”

The assessment of the effect of binary homogeneous nucleation on wet steam energy loss in a low pressure steam turbine