Category Archives: pipe

15th International Heat Pipe Conference, April 25-30, 2010 Clemson, SC, USA / Free Heat Pipe Primer to warm you up for it

The 15th International Heat Pipe Conference will be held at Clemson University on April 25 to 30, 2010 in Clemson, South Carolina.  From their web site, the description:

This conference focuses on topics related to heat pipe and thermosyphon developments, and provides a forum for exchange of up-to-date information and experiences among scientists and engineers from around the world. The 15th IPHC is organized under the coordination of the International Heat Pipe Conference Committee, with this conference being the next in a series spanning 37 years.

To attend the conference or for more information, please visit their web site at: “15th International Heat Pipe Conference

In case you need a little primer on heat pipes, ATS’s thermal engineers put together a very good primer on heat pipes.  You can download your copy at this link: “Heat Pipes: Heat Super Conductors

How Thermal Engineers taught the Thermal Marketer a thing or two about heat pipes, heat sinks & thermal design

I couldn’t pass up a chance to pick the brains of two of Advanced Thermal Solutions engineers when Intel announced it’s Intel DBX-B Advanced Thermal Solution for the Core i7-980X EE processor. First, it was our name afterall, Advanced Thermal Solutions, Inc.  Second, from my work in the past with Intel on the Itanium program I thought, “what are they doing, this thing is near the size of my lawn mower engine”. But Joe Mennucci, Direct of Engineering, and Dr. Ning Lei, Senior Thermal Physics Researcher, schooled me in the hows and why’s.

John: So tell me, Ning and Joe, this Intel DBX-B, it’s really useless isn’t it? I mean look at this thing!
Joe: (Looks at Ning and smiles. Then looks at John, eyes looking over the rim of his glasses like he’s looking at one of his first year mechanical engineering students at RPI)
Ning: Well, the Intel DBX-B is not useless. In fact, it might be one of the most efficient heat sink designs of its type. Both cost-effective and it pushes the limits of thermal physics.

Joe: Here’s how these kind of heast sinks work. Heat sinks like The Intel DBX-B or the Scythe Yasya Heatsink use an embedded heat pipe approach. Basically, heat pipes are embedded into the aluminum fins of the heat sink, as the CPU heats up, the liquid in the heat pipe heats up, turns to steam, rises and transfers its heat to the aluminum fins. Once it cools, it condenses and seeps back down the pipe. It’s a very efficient cooling approach.
Ning: That’s right Joe. Also, the fans on these kinds of heats sinks are often custom made for the heat sink or the heat sink is designed to it fits to the fans. Convection cooling is then used to further cool the heat sink.

John: These must cost a mint though, look how much metal is there!
Ning: (Rolls eyes )not really, about $40 to $70 per heat sink system.
Joe: When you think of it, it’s a good deal.

Ning: Here at Advanced Thermal Solutions in our labs, we have developed a similar heat sink to the The Intel DBX-B or the Scythe Yasya Heatsink. We used heat pipes embedded into copper skived fins to create a similiar and as efficient approach. The key design point though is heat pipes of some number and the vapor release of heat energy through the fins.
Joe: So, John, do you still think these big heat sinks are useless?
John: (Light dawning on marble head ) Yes I finally do see how cool these big heat sinks can be!