Performance and design of hydrocyclones—II : Pressure drop in the hydrocyclone

## This is the fourth part of a series of papers on hydrocyclones. In Part I general considerations were presented, in Part II a pressure drop correlation was given, while in Part III a cyclone separation number was derived whose. value was determined experimentally. An optimal cyclone shape was

A new theory on the separation in hydrocyclones is developed on the b8ti of the dynamic behaviour of the particles to bo separated. This theory leads to the derivation of a dimensionless cyclone separation number, vzbich--as experiments have confirmed-is only dependent on the shape of the cyclone. W

In a series of papers correlations are developed for the pressure drop and the separating power of hydrocyclones and rules for establishing the optimum design of hydrocyclones are derived. In the llrst two parts general considerations are given and a pressure drop correlation is ,derived. It is obt

## Abstract Cell performance tests and measurements of the pressure drops in the anode flow channels of a custom‐made microdirect methanol fuel cell (μDMFC) are conducted and studied for different methanol concentrations (0.5–2 M), flow rates (10–20 sccm) and operating temperatures (40–80 °C). The

## Abstract In recent years the requirement for the reduction of energy consumption has been increasing to solve the problems of global warming and the shortage of petroleum resources. For example, in the power generation field, as thermal power generation occupied 60% of the power generation deman