Thermo-mechanical Model of Geysers
Journal: The International Journal of Mechanic Systems Engineering (IJMSE) (Vol.3, No. 2)Publication Date: 2013-05-03
Authors : Anatolyevich; Kovriguine Dmitry;
Page : 58-66
Keywords : Cavity Resonator; Nonlinear Oscillations; Resonance; Thermo-mechanical Instability;
Abstract
A mathematical model describing dynamical patterns which probably may give start to a geyser eruption is analyzed. This appears as a simple oscillatory cavity resonator governed sensitively by small changes in the temperature-dependent viscosity of subsoil. Some typical patterns of the thermo-mechanical instability are traced parametrically in detail.
Other Latest Articles
- Design and Manufacturing of a Mechatronic Device for Torque Estimation in Online Robotic Applications
- The Three-Dimensional Stress Field in an Arbitrary Thickness Plate Holding a Circular Hole
- Prediction of Low Reynolds Number Flow over a Square Cylinder with a Porous Layer
- Thermodynamic Parametric Analysis of Hydrogen Fueled Combustion Turbine Cycle for Power Generation
- Modified Riccati Equation Emanating from Lainiotis Filter
Last modified: 2013-06-29 22:52:21