By R. Peter King
Introduction to functional Fluid Flow offers info at the the answer of sensible fluid circulate and fluid transportation difficulties during the software of fluid dynamics.
Emphasising the answer of functional working and layout difficulties, the textual content concentrates on computer-based tools all through, in response to developments in engineering. With a spotlight at the move of slurries and non-Newtonian fluids, will probably be helpful for and engineering scholars who've to accommodate functional fluid circulate problems.
Emphasises circulation of slurries and Non-Newtonian fluids.
Covers the appliance of fluid dynamics to the answer of functional fluid circulation and fluid transportation difficulties.
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Additional resources for Introduction to practical fluid flow
Although changes in internal energy are quite small (especially for incompressible fluids) they must be accounted for in the overall energy balance. The energy that is dissipated by frictional losses against solid bounding surfaces can be quantified using the concept of entropy. Frictional dissipation is essentially an irreversible process so that the entropy change associated with unit mass of flowing fluid will reflect the energy that is degraded into heat. If the flow process were perfectly reversible and isothermal and no energy degraded into heat, TÁs would be exactly equal to q which is the energy that is transferred across the bounding wall by the thermal transfer processes.
These losses show up as an increase in the temperature of the fluid. 7 are common. This group is sometimes called the head coefficient or the dimensionless `shut-off head' because it is based on the head that would be generated without any flow. 53 that the head generated expressed as meters of pumped fluid is independent of the density of the fluid. This simple analysis also shows that the head generated should vary with the square of the pump speed. Although the head developed by the pump is independent of the fluid density, the pressure increase is proportional to the fluid density.
2 The flow energy A separate quantity of energy must be accounted for just to keep the fluid moving. 11 by means of a conceptual and general system into which fluid flows at pressure P1 and from which fluid leaves at pressure P2. The system is considered to be at steady state. 11 Schematic representation of the flow energy v1 is the specific volume of the fluid at the inlet. 4 The overall energy balance When a fluid is moved from one location to another, such as when it is pumped through a piping system, there is usually a redistribution of energy.
Introduction to practical fluid flow by R. Peter King