NASA SBIR 2020-II Solicitation

Proposal Summary

Proposal Information

Proposal Number:
20-2- S3.06-4765
Phase 1 Contract #:
Subtopic Title:
Thermal Control Systems
Proposal Title:
3D Printed Loop Heat Pipe

Small Business Concern

Advanced Cooling Technologies, Inc.
1046 New Holland Avenue, Lancaster, PA 17601
(717) 205-0628                                                                                                                                                                                

Principal Investigator:

Dr. Chen-Hua Chen
1046 New Holland Avenue, PA 17601 - 5688
(717) 205-0613                                                                                                                                                                                

Business Official:

William Anderson
1046 New Holland Avenue, PA 17601 - 5688
(717) 205-0602                                                                                                                                                                                

Summary Details:

Estimated Technology Readiness Level (TRL) :                                                                                                                                                          
Begin: 5
End: 7
Technical Abstract (Limit 2000 characters, approximately 200 words):

The fast-growing space industry results in increasing demand for thermal control systems.  Loop heat pipes (LHPs) are a commonly utilized device for spacecraft due to high efficiency and flexibility (ability to integrate with deployable radiator, thermal control valve, etc.).  However, they are currently too costly to manufacture to make them viable for most cost-sensitive applications such as CubeSats and SmallSats.  Conventional loop heat pipe manufacturing method involves multiple labor-intensive steps including a knife edge seal process to ensure no back leak of vapor that affects the thermal transport capability.  Unfortunately, the steps to manufacture the wick, insert it in the LHP evaporator, and seal with a knife edge results in very high manufacturing costs.  Advanced Cooling Technologies, Inc. (ACT) has developed a low-cost LHP evaporator using a technique called Direct Metal Laser Sintering (DMLS), otherwise known as 3D printing.  With the capability of building a porous wick structure together with a solid wall via additive manufacturing, 3D printed LHP eliminates the knife edge seal as well as many wick manufacturing and testing steps.  The 3D printed LHP reduces the fabrication cost by an order of magnitude, which enables the use of LHPs in many emerging space applications, including CubeSats and SmallSats. 

While the developed 3D printed loop heat pipe shows significant cost benefit compared to the loop heat pipe made by conventional fabrication process, the pore size of 3D printed primary is around 5~7 μm, much larger than the 1 μm pore size made by sintering process.  In addition, the porosity of the 3D printed primary wick is lower than sintering wick (31% vs. > 40%).  In order to apply this emerging technology to higher power, large satellite applications, which are the current main loop heat pipe market, further reduce pore size and increase porosity are needed.

Potential NASA Applications (Limit 1500 characters, approximately 150 words):

NASA has expressed strong interest in LHPs for various applications, including miniaturized satellites such as SmallSat/CubeSat, traditional large satellites, planetary rovers, and landers. The proposed technology provides an attractive low-cost, DMLS-based LHP evaporator as an alternative to the traditionally-manufactured evaporator, which involves a series of high-skill, labor-intensive processes. An order of magnitude savings in the evaporator cost is obtained by eliminating complex processes such as wick insertion and the knife-edge seal.

Potential Non-NASA Applications (Limit 1500 characters, approximately 150 words):

The DMLS-based LHP evaporators are also applicable to DOD and other government satellites. With the rapid proliferation of cost-sensitive commercial satellites, there is an ever-increasing demand for low-cost thermal management solutions, which can also be addressed through further development of the proposed technology.  Current LHPs cost more than a University CubeSat.

Duration:     24

Form Generated on 05/13/2021 14:44:07