Physics of High-Power Vacuum Electronic Systems Based on Carbon Nanotube Fiber Field Emitters

Ludwick, Jonathan

January 2020

No description available.

Electrical Engineering

Field Emission

Carbon Nanotube Fiber

Fowler-Nordheim Tunneling

Secondary Electron Yield

Multipactor Effect

Microporous Surface

Investigation of Spray Cooling Schemes for Dynamic Thermal Management

Yata, Vishnu Vardhan Reddy

05 1900

This study aims to investigate variable flow and intermittent flow spray cooling characteristics for efficiency improvement in active two-phase thermal management systems. Variable flow spray cooling scheme requires control of pump input voltage (or speed), while intermittent flow spray cooling scheme requires control of solenoid valve duty cycle and frequency. Several testing scenarios representing dynamic heat load conditions are implemented to characterize the overall performance of variable flow and intermittent flow spray cooling cases in comparison with the reference, steady flow spray cooling case with constant flowrate, continuous spray cooling. Tests are conducted on a small-scale, closed loop spray cooling system featuring a pressure atomized spray nozzle. HFE-7100 dielectric liquid is selected as the working fluid. Two types of test samples are prepared on 10 mm x 10 mm x 2 mm copper substrates with matching size thick film resistors attached onto the opposite side, to generate heat and simulate high heat flux electronic devices. The test samples include: (i) plain, smooth surface, and (ii) microporous surface featuring 100 μm thick copper-based coating prepared by dual stage electroplating technique. Experimental conditions involve HFE-7100 at atmospheric pressure and 30°C and ~10°C subcooling. Steady flow spray cooling tests are conducted at flow rates of 2 - 5 ml/cm².s, by controlling the heat flux in increasing steps, and recording the corresponding steady-state temperatures to obtain cooling curves in the form of surface superheat vs. heat flux. Variable flow and intermittent flow spray cooling tests are done at selected flowrate and subcooling conditions to investigate the effects of dynamic flow conditions on maintaining the target surface temperatures defined based on reference steady flow spray cooling performance.

Spray Cooling

PID

steady flow

variable flow

intermittent flow

subcooling

microporous surface

microstructured surface.

Engineering, Mechanical

Engineering, Packaging

Engineering, Aerospace

Cooling.

Heat -- Transmission.

Fluid dynamics.