Flow Through Slot
The transition flow of a gas between two reservoirs through a two-dimensional slot is studied. The width of the slot is much smaller than the length but finite. The ratio of the equilibrium number densities in the reservoirs is near 1 and the equilibrium temperatures are the same. Galerkin's method of solution is applied to the linearized BGK equation and the total mass flow is evaluated as a. Problem 3B.7: Momentum fluxes for creeping flow into a slot: Problem 3D.2: The equation of change for vorticity: Problem 3B.8: Velocity distribution for creeping flow toward a slot: Problem 3D.3: Alternate form of the equation of motion: Problem 3B.9: Slow transverse flow around a cylinder.
Flow through channels interconnected by slot(s)
Abstract
Flow through slot(s) is of practical interest as a first step in the analysis of flow through similar passages in gas turbine combustor chamber walls and the like. Attention is presently given to the results of an experimental investigation of flow entering a channel that is blocked at its back end, and exits from a lower channel that is blocked at its front end; the two channels are interconnected by one, two, or three slots. The streamline pattern, extent of separated regions, relative mass flow through slots and pressure loss are discussed.
Air Flow Through Slot
Flow Rate Through Slot
Water Flow Through A Slot
Air Flow Through Slot
- Channel Flow;
- Combustion Chambers;
- Gas Turbine Engines;
- Slots;
- Wind Tunnel Tests;
- Flow Distribution;
- Flow Geometry;
- Potential Flow;
- Separated Flow;
- Fluid Mechanics and Heat Transfer