Linear stability analysis of heated parallel channels
Abstract
An analyis is presented of thermal hydraulic stability of flow in parallel channels covering the range from inlet subcooling to exit superheat. The model is based on a one-dimensional drift velocity formulation of the two phase flow conservation equations. The system of equations is linearized by assuming small disturbances about the steady state. The dynamic response of the system to an inlet flow perturbation is derived yielding the characteristic equation which predicts the onset of instabilities. A specific application is carried out for homogeneous and regional uniformly heated systems. The particular case of equal characteristic frequencies of two-phase and single phase vapor region is studied in detail. The D-partition method and the Mikhailov stability criterion are used for determining the marginal stability boundary. Stability predictions from the present analysis are compared with the experimental data from the solar test facility.
- Publication:
-
Heat Transfer 1982, Volume 4
- Pub Date:
- 1982
- Bibcode:
- 1982hetr....4..231N
- Keywords:
-
- Boilers;
- Channel Flow;
- Flow Stability;
- Thermal Instability;
- Two Phase Flow;
- Dynamic Stability;
- Numerical Analysis;
- Solar Heating;
- Fluid Mechanics and Heat Transfer