Numerical Assessment of Flow Energy Harvesting Potential in a Micro-Channel

Numerical Assessment of Flow Energy Harvesting Potential in a Micro-Channel

Blog Article

A micro-energy harvesting device proposed in the literature was numerically studied.It consists of two bluff bodies in a micro-channel and a flexible diaphragm at its upper wall.Vortex shedding behind bodies induces pressure fluctuation causing vibration of the diaphragm that converts mechanical energy to electrical by means of a piezoelectric membrane.Research on enhancing vortex shedding was justified due to the low power output of the device.

The amplitude and frequency of the unsteady pressure fluctuation on the diaphragm were numerically predicted.The vortex shedding severity was mainly assessed in terms of pressure amplitude.The CFD model set-up quest fryer was described in detail, and appropriate metrics to assess the energy harvesting potential were defined.Several 2D cases were simulated to study the effect of the inlet Reynolds number and channel blockage ratio on the prospective performance of the device.

Furthermore, the critical blockage ratio leading to the vortex shedding suppression was sought.A higher inlet velocity for a constant blockage ratio was found to enhance vortex shedding and the pressure drop.Great blockage ratio values moen finney but lower than the critical ones seemed to provide great pressure amplitudes at the expense of a moderate pressure drop.There is evidence that the field is fruitful for further research and relevant directions were provided.