Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7056505 | International Journal of Heat and Mass Transfer | 2015 | 14 Pages |
Abstract
Flow boiling of HFE7000 in a new class of structured microchannel, termed Piranha Pin Fin (PPF), is studied. The novel heat sink consists of an array of 150 micron diameter microstructures entrenched in a 2.4Â mm wide silicon channel, with overall device dimensions of 12 by 28Â mm. Mass fluxes ranging from 1200 to 7000Â kg/s/m2 are used to dissipate base heat loads up to 700Â W/cm2, provided over a 6Â mm2 heating element located beneath the PPF array. Experimental single phase and flow boiling heat transfer data is presented for two flow configurations within the microdevice - open flow and extraction flow. The effect of system pressure on phase change heat transfer is experimentally examined at operating pressures of 1.4Â atm and 2.8Â atm. Single and two phase heat transfer coefficients, Nusselt numbers, exit quality, and pressure drop data is presented to develop a comprehensive system-level analysis of the unique heat sink.
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Fluid Flow and Transfer Processes
Authors
Corey Woodcock, Xiangfei Yu, Joel Plawsky, Yoav Peles,