Details
Title
Olivier, Jonathan
Sciper ID
183622
Affiliated labs
LTCM
Publications
Flow Boiling of R134a in a Multi-Microchannel Heat Sink with Hotspot Heaters for Energy-Efficient Microelectronic CPU Cooling Applications
Flow Pattern Based Pressure Drop Correlations for Refrigerant Condensation in Smooth and Enhanced Tubes
Flow Pattern Based Pressure Drop Correlations for Refrigerant Condensation in Smooth and Enhanced Tubes
Heat Transfer, Pressure Drops, and Flow Pattern Recognition during Condensation inside Smooth, Helical Micro-Fin and HerringBone Tubes
On-Chip Two-Phase Cooling with Refrigerant 85 mu m-Wide Multi-Microchannel Evaporator Under Hot-Spot Conditions
On-chip Cooling using Micro-evaporators
Reasons to Use Two-phase Refrigerant Cooling
Two-phase Cooling of Datacenters: Reduction in Energy Costs and Improved Efficiencies
Two-phase flow of refrigerants in 85μm-wide multi-microchannels: Part I – Pressure drop
Two-phase flow of refrigerants in 85μm-wide multi-microchannels: Part II – Heat transfer with 35 local heaters
Flow Pattern Based Pressure Drop Correlations for Refrigerant Condensation in Smooth and Enhanced Tubes
Flow Pattern Based Pressure Drop Correlations for Refrigerant Condensation in Smooth and Enhanced Tubes
Heat Transfer, Pressure Drops, and Flow Pattern Recognition during Condensation inside Smooth, Helical Micro-Fin and HerringBone Tubes
On-Chip Two-Phase Cooling with Refrigerant 85 mu m-Wide Multi-Microchannel Evaporator Under Hot-Spot Conditions
On-chip Cooling using Micro-evaporators
Reasons to Use Two-phase Refrigerant Cooling
Two-phase Cooling of Datacenters: Reduction in Energy Costs and Improved Efficiencies
Two-phase flow of refrigerants in 85μm-wide multi-microchannels: Part I – Pressure drop
Two-phase flow of refrigerants in 85μm-wide multi-microchannels: Part II – Heat transfer with 35 local heaters
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Olivier, J.
Oliver, J.A.
Oliver, J.A.
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