Static and dynamic characteristics of gas-filled heat pipes during complex thermal effects
Abstract
Gas-filled heat pipes used as regulators perform the three functions of removing heat from an object, creating an internal isothermal zone, and maintaining temperature stability. Transfer functions are introduced for estimating output time of the heat pipe system and for obtaining allowable amplitude and frequency values of fluctuations of destabilizing effects. A mathematical analysis of a gas-filled heat pipe model is provided for static and dynamic conditions.
- Publication:
-
Heat and mass transfer - V, Volume 3
- Pub Date:
- 1976
- Bibcode:
- 1976hmt.....3..223B
- Keywords:
-
- Dynamic Characteristics;
- Gas Cooling;
- Heat Pipes;
- Temperature Effects;
- Thermal Stability;
- Differential Equations;
- Error Analysis;
- Ideal Gas;
- Laplace Transformation;
- Specific Heat;
- Fluid Mechanics and Heat Transfer