Microchannel Heat Exchangers for Aircraft Thermal Management
Navy SBIR FY2005.2

Sol No.: Navy SBIR FY2005.2
Topic No.: N05-087
Topic Title: Microchannel Heat Exchangers for Aircraft Thermal Management
Proposal No.: N052-087-0121
Firm: Creare Inc.
P.O. Box 71
Hanover, New Hampshire 03755
Contact: Michael Izenson
Phone: (603) 643-3800
Web Site: www.creare.com
Abstract: Thermal loads from electronics and advanced weapons systems have increased the cooling required from environmental control systems (ECS) in state of the art fighter aircraft. Future aircraft will require advanced heat exchanger technology to minimize the size and weight of the ECS. Microchannels offer improved heat transfer/pressure drop characteristics compared to plate fin heat exchangers, but the expense of manufacturing microchannel heat exchangers is prohibitive. We propose a microchannel heat exchanger that uses low cost manufacturing methods. In Phase I we will develop generalized design methods for microchannel heat exchangers, use these methods to assess the heat exchangers in the F 35 Joint Strike Fighter ECS, and identify the heat exchangers that will benefit most from our microchannel technology. We will design a full size prototype heat exchanger core using the microchannel approach and estimate its performance and production costs. Finally, we will prove the feasibility of our approach by fabricating and testing a proof of concept, microchannel heat exchanger using prototypical, low cost fabrication methods. In Phase II we will design, build, and test a full size prototype heat exchanger under conditions that simulate operation in the F 35 ECS.
Benefits: The proposed technology will reduce the size and weight of heat exchangers used in aircraft ECS. Our approach will enable low cost fabrication of large scale microchannel heat exchangers from a wide range of metals and alloys. Applications include thermal management for military and commercial aircraft and heat exchangers or heat exchanger/reactors for portable process systems.

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