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| Name: |
Professor T Karayiannis |
| Organisation: |
Brunel University London |
| Department: |
Mechanical and Aerospace Engineering |
| Current EPSRC-Supported Research
Topics: |
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Fluid Dynamics
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Heat & Mass Transfer
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Microsystems
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Multiphase Flow
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| Current EPSRC Support |
| EP/X015335/1 | Spray cooling high power dissipation applications (SANGRIA): From Fundamentals to Design | (P) |
| EP/T033045/1 | Boiling Flows in Small and Microchannels (BONSAI): From Fundamentals to Design | (P) |
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| Previous EPSRC Support |
| EP/S019502/1 | Enhanced Multiscale Boiling Surfaces (EMBOSS): From Fundamentals to Design | (P) |
| EP/P004709/1 | Energy-Use Minimisation via High Performance Heat-Power-Cooling Conversion and Integration: A Holistic Molecules to Technologies to Systems Approach | (C) |
| EP/N011112/1 | Flow Boiling and Condensation of Mixtures in Microscale | (P) |
| EP/K011502/1 | Boiling in Microchannels: integrated design of closed-loop cooling system for devices operating at high heat fluxes | (P) |
| EP/G059799/1 | Optimising Thermal Energy Recovery, Utilisation and Management in the Process Industries - OPTITHERM | (C) |
| EP/D500095/1 | Boiling and Condensation in Microchannels | (P) |
| EP/C532805/1 | BOILING HEAT TRANSFER WITH CONTROLLED ARRAYS OF NUCLEATION SITES ON SILICON SURFACES | (C) |
| GR/S41814/02 | A fundamental investigation of the mechanism of the Critical Heat Flux including the effect of an electric field | (P) |
| GR/S41814/01 | A fundamental investigation of the mechanism of the Critical Heat Flux including the effect of an electric field | (P) |
| GR/P00932/01 | DTA - South Bank University | (C) |
| GR/P00048/01 | DTA - South Bank University | (C) |
| GR/N16204/01 | TWO-PHASE FLOW & BOILING HEAT TRANSFER IN SMALL CHANNELS | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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