Just think about it.
cavitation formed wen concentric reducer in used. but wat is the use of reducer in the both suction and discharge side of the pump. if we dost use (conc & ecc) reducer in the both sides.. there is not effect on pump
Yes, it could.
No it does not affect air flow. The air will just not be as cool.
see: the Coriollis effect
The pump discharge reducer doesn't matter if it's concentric or eccentric. It's the pump SUCTION that needs to be an eccentric reducer that is always flat on top (F.O.T.) The eccentric reducer on the pump suction reduces pump cavatation (pump catching air).
An eccentric reducer is mostly used to force air in a direction, normally towards a pump or airvalve so that it does not get trapped inside the pipework.
To allow for proper drainage in a steam system Or sometimes to maintain a wet return
differences in heating
if we use concentric reducer at suction of pipe ,due to high turbulence flow of fluid ,some vapour pressure generate which generate bad effects on impeller of pump ,which decrease pump efficiency , so to avoid this problem the eccentric reducer's use in pump suction
An air flow is any flow of air, particularly the motion of air around a moving aircraft or aerofoil.
The laminar flow hood depends on the laminar air flow to sweep away pathogens from the hood. If there is obstruction, the laminar air flow pattern will be disrupted. The laminar air flow will then change to turbulent air flow.