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1	Effect of boundary imperfections on free convection in fluid layers Wynne, M. C. January 1987 (has links) No description available. 536.7 Thermal convection in fluids
2	An experimental investigation of heat transfer by large scale motions in rotating fluids Rayer, Quintin G. January 1992 (has links) No description available. 551.5 Thermal convection
3	Strong spatial resonance in convection Julien, Keith Anthony January 1991 (has links) No description available. 532 Thermal convection; Pattern formation
4	FUNDAMENTAL CHARACTERISTICS OF THERMAL CONVECTION UNDER THE CONDITION OF COOLING PERIOD IN THE NORTHERN PART OF LAKE BIWA / 琵琶湖北湖冷却期の条件下での熱対流の基本特性に関する研究 MALEMBEKA FREDERICK PAUL 26 September 2011 (has links) Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(工学) / 甲第16376号 / 工博第3457号 / 新制\|\|工\|\|1523(附属図書館) / 29007 / 京都大学大学院工学研究科都市社会工学専攻 / (主査)教授細田尚, 教授後藤仁志, 准教授米山望 / 学位規則第4条第1項該当 lake hydrodynamics lake Biwa thermal convection 500
5	Termální konvekce jako klíč k pochopení vnitřního vývoje a dynamiky velkých ledových těles / Subsolidus thermal convection as a key to understanding volatile evolution and internal dynamics of large icy bodies Ninneman, Brendan January 2020 (has links) Titan is a unique moon in the solar system as it is the only one with a thick atmo- sphere, and surface lakes and seas. Observations made by the Cassini/Huygens probe showed the potential of a subsurface ocean hidden below the outer crust made of ice. This thesis analyzes the heat transfer through the crust of Titan to understand the long term evolution of the ocean. We developed a finite element model of the heat transfer through a thickening ice crust and investigated the effect of viscosity, internal heat flux, and ammonia concentration in the ocean. While other explanations cannot be ruled out, it was found high values of viscosity and possible ammonia presence could keep the ocean liquid for long periods. 1
6	Boundary layers and wind in turbulent thermal convection Wagner, Sebastian 26 June 2014 (has links) No description available. 530 Physik (PPN621336750)
7	Turbulence modelling applied to the atmospheric boundary layer Lazeroms, Werner January 2015 (has links) Turbulent flows affected by buoyancy lie at the basis of many applications, both within engineering and the atmospheric sciences. A prominent example of such an application is the atmospheric boundary layer, the lowest layer of the atmosphere, in which many physical processes are heavily influenced by both stably stratified and convective turbulent transport. Modelling these turbulent flows correctly, especially in the presence of stable stratification, has proven to be a great challenge and forms an important problem in the context of climate models. In this thesis, we address this issue considering an advanced class of turbulence models, the so-called explicit algebraic models.In the presence of buoyancy forces, a mutual coupling between the Reynolds stresses and the turbulent heat flux exists, which makes it difficult to derive a fully explicit turbulence model. A method to overcome this problem is presented based on earlier studies for cases without buoyancy. Fully explicit and robust models are derived for turbulence in two-dimensional mean flows with buoyancy and shown to give good predictions compared with various data from direct numerical simulations (DNS), most notably in the case of stably stratified turbulent channel flow. Special attention is given to the problem of determining the production-to-dissipation ratio of turbulent kinetic energy, for which the exact equation cannot be solved analytically. A robust approximative method is presented to calculate this quantity, which is important for obtaining a consistent formulation of the model.The turbulence model derived in this way is applied to the atmospheric boundary layer in the form of two idealized test cases. First, we consider a purely stably stratified boundary layer in the context of the well-known GABLS1 study. The model is shown to give good predictions in this case compared to data from large-eddy simulation (LES). The second test case represents a full diurnal cycle containing both stable stratification and convective motions. In this case, the current model yields interesting dynamical features that cannot be captured by simpler models. These results are meant as a first step towards a more thorough investigation of the pros and cons of explicit algebraic models in the context of the atmospheric boundary layer, for which additional LES data are required. / <p>QC 20150522</p>
8	Numerical Simulation Of Thermal Convection Under The Influence Of A Magnetic Field By Using Solenoidal Bases Yarimpabuc, Durmus 01 June 2011 (has links) (PDF) The effect of an imposed magnetic field on the thermal convection between rigid plates heated from below under the influence of gravity is numerically simulated in a computational domain with periodic horizontal extent. The numerical technique is based on solenoidal basis functions satisfying the boundary conditions for both velocity and induced magnetic field. The expansion bases for the thermal field are also constructed to satisfy the boundary conditions. The governing partial differential equations are reduced to a system of ordinary differential equations governing the time evolution of the expansion coefficients under Galerkin projection onto the subspace spanned by the dual bases. In the process, the pressure term in the momentum equation is eliminated. The system validated in the linear regime is then used for some numerical experiments in the nonlinear regime.
9	Viskoelastická deformace v geofyzikálních aplikacích / Viskoelastická deformace v geofyzikálních aplikacích Sládková, Kateřina January 2014 (has links) Our aim was to aid the viscoelasticity into the model for thermal convection by developing our own code in Fortran 90 and to study the role of viscoelasticity in this model. We should have included the viscoelasticity by Maxwell model; however, due to numerical instability we changed it for Oldroyd-B model. We were adding the terms of objective derivative into our code step by step and we were observing how they influence the behaviour of thermal convection. Partial time derivative and advective terms were included in whole complexity, the corrotational terms need more numerical testing. Our work suggest that the influence of viscoelasticity on thermal convection is noticeable. Powered by TCPDF (www.tcpdf.org)
10	<b>NUMERICAL INVESTIGATIONS ON OPTIMAL TRANSPORT CONDITIONS FOR: NATURAL CONVECTION IN ENCLOSED CAVITIES, QUIESCENT CAVITATION IN SPRINGE-DRIVEN AUTO-INJECTORS, AND CONTROLLED RELEASE FROM SWELLING TABLETS</b> Tyler Ried Kennelly (18439989) 30 April 2024 (has links) <p dir="ltr">This thesis delves into the dynamics and driving factors of thermal transport via natural convection, the onset and severity of quiescent cavitation and its impact of auto-injector device performance, and the controlled release of rapidly swelling pharmaceutical tablets. In each of these instances showcases how variations in external conditions or the introduction of new variables can disrupt the equilibrium of fluid systems, leading to complex behaviors. Vertical thermal convection illustrates how temperature gradients induce fluid movement and patterns; cavitation inception focuses on the formation of vapor cavities due to pressure drops within a fluid; and rapid tablet swelling explores the interaction between solid materials and liquids, leading to significant changes in concentration and mass transfer. These studies collectively enhance our understanding of transport dynamics, highlighting pathways to achieve optimal transport and delivery conditions for various industrial and pharmaceutical processes.</p> Thermal Convection Vertical Convection Cavitation Inception Cavitation in Auto-injectors Swelling Tablets

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