Accession Number : ADA566672


Title :   Report of NPSAT1 Battery Thermal Contact Resistance Testing, Modeling and Simulation


Descriptive Note : Technical rept. 19 Jan-16 Oct 2012


Corporate Author : NAVAL POSTGRADUATE SCHOOL MONTEREY CA SPACE SYSTEMS ACADEMIC GROUP


Personal Author(s) : Sakoda, Daniel ; Phelps, Ronald ; Donovan, Bryce


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a566672.pdf


Report Date : Oct 2012


Pagination or Media Count : 37


Abstract : Thermal modeling is an important part of spacecraft design, especially where critical components have narrow operating temperature limits. For the Naval Postgraduate School?s NPSAT1 spacecraft, the lithium ion battery is the spacecraft component with the smallest temperature range of 0?C to 45?C during operation. Thermal analysis results, however, can only provide adequate results if there is sufficient fidelity in thermal modeling. Arguably, the values used in defining thermal coupling for components are the most difficult to estimate because of the many variables that define them. This document describes the work performed by the authors starting in the 2012 winter quarter as part of the SS3900 directed study course. The objectives of the study were to determine an adequate thermal model of the NPSAT1 battery as a lumped capacitance model, and an appropriate value of thermal resistance between the battery and its mounting surface for three thermal interfaces: metal-to-metal (bolted interface), Kapton(trade name), and Chotherm(trade name) 1671. These objectives were performed through testing in a thermal-vacuum chamber with controlled boundary conditions. Modeling and simulation using the NX I-DEAS Thermal Model Generator software was performed to duplicate the test results in simulation. Agreement between the simulations and testing was achieved with differences ranging between +4?C and -8?C for the metal-to-metal interface, to as low as +2?C to -1?C using an elastomeric thermal interface material (Chotherm(trade name) 1671). The test-validated thermal model can then be incorporated into the larger NPSAT1 thermal model tospecifically evaluate battery temperatures for various flight operations.


Descriptors :   *LITHIUM BATTERIES , *SPACECRAFT , CAPACITANCE , ELASTOMERS , IONS , METAL METAL BONDS , POLYIMIDE RESINS , POLYMERIC FILMS , TEST AND EVALUATION , THERMAL ANALYSIS


Subject Categories : Electrochemical Energy Storage


Distribution Statement : APPROVED FOR PUBLIC RELEASE