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Bubble chains on a novel microstructured surface during boiling
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17 Jan, 2008 | Online Presentations | Contributor(s): Alexander Ustinov
The photograph shows the boiling R134a at 7 bar and 54 kW/m2 on a novel microstructure(insert in the right corner). As it can be seen, preferable nucleation near neighboring sites leads to the formation of bubble chains pattern upon the surface. This pattern is observed in different degrees on all ...
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Heat Transfer across Solid Contacts Enhanced with Nanomaterials
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07 Feb, 2008 | Online Presentations | Contributor(s): Timothy Fisher
This presentation describes thermal transport processes at solid-solid material interfaces. An overview of applications in the electronics industry serves to motivate the subject, and then the basic diffusive and ballistic constriction theories are introduced. The addition of carbon nanotube arrays ...
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Nanoscale Materials and Devices for Enhanced Energy Transport and Conversion: An Overview of the Nanoscale Transport Research Group at Purdue
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18 Feb, 2008 | Online Presentations | Contributor(s): Timothy Fisher
This presentation provides an overview of research in the speaker's group at the Birck Nanotechnology Center of Purdue University. The seminar covers a variety of areas related to energy transport and conversion, typically involving nanomaterials, and was given as part of the speaker's stay as a ...
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ME 697R Lecture on Lattice Dynamics
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13 Mar, 2008 | Online Presentations | Contributor(s): Timothy Fisher
This presentation is part of a new course at Purdue University, ME 697F: Computational Methods for Nanoscale Energy Transport. The lead instructor is Prof. Xiulin Ruan of Purdue's Heat Transfer Area, and Profs. Jayathi Murthy and Tim Fisher are responsible for modules within the course. This ...
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ME 697R Lecture on the Quantum of Thermal Conductance and the Atomistic Green's Function Method
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21 Mar, 2008 | Online Presentations | Contributor(s): Timothy Fisher
This presentation is part of a new course at Purdue University, ME 697F: Computational Methods for Nanoscale Energy Transport. The lead instructor is Prof. Xiulin Ruan of Purdue's Heat Transfer Area, and Profs. Jayathi Murthy and Tim Fisher are responsible for modules within the course. This ...