Thermal Boundary-Layer Theory at Large Reynolds Numberdoi:10.1016/B978-0-7506-9117-8.50018-4L. Gary LealLaminar Flow and Convective Transport Processes
The sweeping gas membrane distillation process was analyzed in a plate and frame membrane module, and a method clarifying the contribution of each boundary layer separately was developed. The temperature polarization coefficients of the fluid phases as well as the overall one have been defined, and ...
Arational asymptotic theory is proposed,which describes the turbulent dynamic and thermal boundary layer on a flat plate under zero pressure gradient. The fact that the flow depends on a finite number of governing parameters makes it possible to formulate algebraic closure conditions relating the turbu...
times the boundary layer thickness, in each case. The animation indicates the acoustic velocity components, while the color plot shows the velocity amplitude. The viscous and thermal boundary layers are clearly visible. The thicknesses are sometimes referred to as the viscous and thermal penetration ...
Theoretical or Mathematical/ boundary layers chemically reactive flow compressible flow external flows natural convection/ buoyancy-driven boundary layer flows inclined hot plates thermal ignition criterion combustion theory fires buoyancy-induced convection steady two-dimensional flow laminar combustible boundary-...
The measured NO decomposition could satisfactorily be described by a chemical reaction mechanism after taking into account boundary layer corrections according to the theory of Mirels. The study forms a further proof of Mirels' theory including his prediction of the laminar-turbulent transition. It ...
Boundary-Layer Theory, 9th ed.; Springer: Berlin/Heidelberg, Germany, 2016. [Google Scholar] Zeldovich, I.B.; Barenblatt, G.I.; Librovich, V.B.; Makhviladze, G.M. Mathematical Theory of Combustion and Explosions; Consultants Bureau: New York, NY, USA, 1985. [Google Scholar] Versteeg...
entropy Article Effect of Gap Length and Partition Thickness on Thermal Boundary Layer in Thermal Convection Zhengyu Wang 1, Huilin Tong 1, Zhengdao Wang 1,* , Hui Yang 1, Yikun Wei 1 and Yuehong Qian 2,3 1 National-Provincial Joint Engineering Laboratory for Fluid Transmission System ...
boundary condition are described in Table 3. There are two limiting cases of the boundary condition: (1) When Γ approaches ∞, reduces to the boundary condition; (2) when Γ approaches 0, reduces to the boundary condition. Some of the technical applications of the boundary condition are ou...
We assume that u has no z dependence despite its known logarithmic profile u(z) in open landscapes, because gliders and vultures mostly soar at relatively high elevations where the boundary-layer resistance (that shapes the logarithmic profile) is weak and u(z) is nearly uniform. The shape ...