Title : ( Analytical investigation of simultaneous effects of convergent section heating of Laval nozzle, steam inlet condition, and nozzle geometry on condensation shock )
Authors: Makan Talebi Somesaree , Ehsan Amiri Rad , Mohammad Reza Mahpeykar ,Access to full-text not allowed by authors
Abstract
Rapid expansion and supercooling of dry vapor in low-pressure steam turbines triggers nucleation phenomenon. Subsequently, following the occurrence of vapor condensation, a vapor-liquid two-phase flow is established. Entropy generation mainly by condensation shock, blade erosion, and ultimately, destruction of equipment and efficiency reduction are among adverse effects of vapor condensation, which should be either attenuated or controlled. In the present research, which is a continuation to the research performed by original authors, a one-dimensional analytical Eulerian-Lagrangian model is used to apply convergent section heating to different supersonic nozzles under various inlet conditions. The results indicate that, the flow response to the heating is well dependent on the intensity of condensation shock or inlet conditions. In order to compensate for the mass flow rate resulted from the convergent section heating, effects of simultaneous reduction of inlet stagnation temperature and convergent section heating were investigated. Finally, it was found that, maintaining constant mass flow rate, simultaneous reduction of inlet stagnation temperature and convergent section heating cannot attenuate the condensation shock significantly. Therefore, the best approach to compensate for the reduction in the mass flow rate due to convergent section heating is to simultaneously increase inlet stagnation pressure.
Keywords
, Heating, Convergent-Divergent Nozzle, Steam condensation shock, Two-phase flow, non-adiabatic.@article{paperid:1067703,
author = { and and Mahpeykar, Mohammad Reza},
title = {Analytical investigation of simultaneous effects of convergent section heating of Laval nozzle, steam inlet condition, and nozzle geometry on condensation shock},
journal = {Journal of Thermal Analysis and Calorimetry},
year = {2018},
volume = {133},
number = {2},
month = {March},
issn = {1388-6150},
pages = {1023--1039},
numpages = {16},
keywords = {Heating; Convergent-Divergent Nozzle; Steam condensation shock; Two-phase flow; non-adiabatic.},
}
%0 Journal Article
%T Analytical investigation of simultaneous effects of convergent section heating of Laval nozzle, steam inlet condition, and nozzle geometry on condensation shock
%A
%A
%A Mahpeykar, Mohammad Reza
%J Journal of Thermal Analysis and Calorimetry
%@ 1388-6150
%D 2018