On Apr 4, 2008, at 5:14 AM, <michael.dillon@bt.com> wrote:
My guess is that someone will come up with an inexpensive, reliable way to put a heat collector, which will basically look like a car radiator the size of a rear rack door, directly behind the hot air coming from the systems in the rack.
b) air is a lousy way to transfer heat away from where you want it to be compared to other materials.
So how did you propose to get the heat from the equipment to the car-radiator door?
The idea of making the entire room into a refrigerator by bringing coolant to the racks is a good one, but I think that for this to be successful, more attention needs to be paid to physical placement of things, and the chillers need to be broken open. By that I mean that chillers cease to be a big box at the edge of the room because they are now part of the room itself. Think of a flat chiller attached to the ceiling with spaces for racks to be inserted into it.
Dealing with heat transport is an important part of the design of spaceflight hardware, with no convenient gases to extract heat in most cases. Heat pipes, which can have thermal conductivities much higher than solid copper, are commonly used to transport heat to outside radiators, but more important is that the entire system is engineered to remove the heat of operation from where it is created to where it can be radiated away. It sounds to me that blade systems are reaching the point where heat transport will also have to be designed into the rack system, and maybe also into the room system. A set of heat pipes could, for example, remove heat from blades and bring it to the floor of the rack, say to a radiator directly into the plenum of the airflow. The working fluid inside heat pipes is unlikely to leak, and typically contains very little fluid, but in any case could be chosen to be something that would be fairly benign if the pipe was breached, say methanol. There might be a business model here... Regards Marshall
--Michael Dillon