Step-wall heat-flux superposition for heat transfer in boundary-layer flows

The problem of heat transfer from a flat plate having a step in wall heat flux is investigated directly, rather than by superposition of step wall temperature solutions. The results obtained in this way have a concise form which is much better suited for making superposition calculations than result

This paper is concerned with existence, uniqueness and behaviour of the solutions of the autonomous third-order non-linear di erential equation f +(m+2)ff -( 2m+1)f 2 = 0 on R + with the boundary conditions f(0) = -, f (∞) = 0 and f (0) = -1. This problem arises when looking for similarity solutions

## Abstract Marangoni convection induced by variation of the surface tension with temperature along a surface influences crystal growth melts and other processes with liquid–vapor interfaces, such as boiling in both microgravity and normal gravity in some cases. This paper presents the Nusselt numb

## Abstract We study the third‐order nonlinear equation: __f__′′′ + (__m__ + 2)__ff__′′ − (2__m__ + 1)__f__′^2^ = 0 on (0, ∞), subject to the boundary conditions __f__(0) = − γ ∈ ℝ, __f__′(∞) = 0 and __f__′′(0) = −1. The problem arises in the study of similarity solutions for boundary layer flows w

The paper presents experimental data on transient heat transfer in forced flow two-phase helium in a narrow vertical channel. Two principal mechanisms of heat transfer deterioration have been found. The first is due to increasing pressure reaching supercritical values. The second is the crisis when