The Stability of Natural Convection in a Vertical Fluid Layer Having Side Walls of Different Temperatures and Internal Heat Generation
スポンサーリンク
概要
- 論文の詳細を見る
Linear stability theory is applied to the problem of the stability of naturalconvection in a vertical fluid layer. It is assumed that the two side waIlS Oremaintained at constant and different temperatures and the fluid layer is heatedby uniformly distributed internal heat sources. The power series method is usedto obtain the eigenvalue equation which is then solved numerically. The stabilityconditions are obtained for wide range of the Prandtl number. The numericalresults show that when internal heat sources are present the instability takes theform of travelling waves in the critical state and the critical wave speeds arealways negative.
- 社団法人日本物理学会の論文
- 1985-05-15
著者
-
TAKASHIMA Masaki
Departments of Pathology II, Kyushu University Faculty of Medicine
-
HAMABATA Hiromitsu
Department of Physics,Faculty of Science,Osaka City University
-
Takashima M
Osaka City Univ. Osaka
-
Takashima Masaki
Department Of Obstetrics And Gynecology Kobe University School Of Medicine
-
Hamabata Hiromitsu
Department Of Physics Faculty Of Science Osaka City University
-
Takashima Masaki
Department Of Human Pathology Tokyo Medical And Dental University
関連論文
- Adenoid Cystic Carcinoma of the Esophagus: Report of a Case
- The Effect of Electron Temperature Anisotropy on the Field-Aligned Propagation of Whistler Waves
- Serous Cystadenoma of the Pancreas with Atypical Imaging Features : A New Variant of Serous Cystadenoma of the Pancreas?
- Enhanced Magnetic Resonance Imaging in Monitoring of Conservative Treatment of Cervical Pregnancy
- Suface Tension Driven Instability in a Horizontal Liquid Layer with a Deformable Free Surface. I. Stationary Convection
- The Stability of Natural Convection in an Inclined Fluid Layer with Internal Heat Generation
- The Stability of Natural Convection in a Vertical Layer of Dielectric Fluid in the Presence of Horizontal ac Electric Field
- Transverse Plane Waves in a Binary Fluid Mixture.II.The Role of the Soret Effect
- The Stability of Natural Convection in a Vertical Fluid Layer with Internal Heat Generation
- The Stability of Natural Convection in a Vertical Fluid Layer Having Side Walls of Different Temperatures and Internal Heat Generation
- Surface Tension Driven Instability in a Horizontal Liquid Layer with a Deformable Free Surface. II. Overstability
- Buoyancy Driven Instability Due to Internal Heat Sources in a Horizontal Layer of Binary Fluid Mixture
- Transverse Plane Waves in a Binary Fluid Mixture
- The Stability of Natural Convection in an Inclined Fluid Layer with Internal Heat Generation. II
- Surface Tension Driven Instability Due to Internal Heat Sources in a Horizontal Layer of Binary Liquid Mixture
- The Stability of a Rotating Layer of the Maxwell Liquid Heated from Below
- Thermal Instability in a Viscoelastic Fluid Layer. I
- The Effect of Rotation on Convective Instability in a Horizontal Fluid Layer with Internal Heat Generation
- Surface Tension Driven Instability in a Horizontal Layer of Binary Liquid Mixture in the Presence of the Soret Effect. II. Overstability
- Buoyancy-Surface Tension Instability Due to an Internal Heat Source
- Nature of the Neutral State in Convective Instability in Horizontal Fluid Layer with Internal Heat Generation
- Thermoconvective Waves in a Viscoelastic Liquid Layer Situated in a Magnetic Field
- Thermal Instability in a Viscoelastic Fluid Layer. : II. Effect of Rotation
- The stability of the modified plane Couette flow in the presence of a transverse magnetic field
- Thermoconvective Waves in a Viscoelastic Liquid Layer
- Reduced expression of cytokeratin 4 and 13 is a valuable marker for histologic grading of esophageal squamous intraepithelial neoplasia
- Transverse Hydromagnetic Plane Waves in the Presence of a Temperature Gradient
- The Effect of Rotation on Convective Instability Induced by Surface Tension and Buoyancy
- The Effect of a Magnetic Field on Convective Instability in a Horizontal Layer of Binary Liquid Metal
- Thermal Instability in a Viscoelastic Fluid Layer. : III. Effect of a Magnetic Field
- Nature of the Neutral State in Convective Instability Induced by Surface Tension and Buoyancy
- Surface Tension Driven Instabillity in a Horizontal Layer of Binary Liquid Mixture in the Presence of the Soret Effect
- Surface-Tension Driven Convection with Boundary Slab of Finite Conductivity
- Thermal Instability of Fluid Layer Bounded Below by a Solid Layer of Finite Conductivity