{"project":{"acronym":"","projectId":17774,"title":"Quick Spacecraft Thermal Analysis Tool","primaryTaxonomyNodes":[{"taxonomyNodeId":10934,"taxonomyRootId":8816,"parentNodeId":10929,"level":3,"code":"TX14.2.5","title":"Thermal Control Analysis","definition":"Thermal control analysis software is used to analyze the full thermal performance of a system, including orbital analysis, radiation analysis, thermal and fluid solvers, and optimization of design parameters through simulation. Technologies can include methods to more effectively link these functions, allow the analysis to be faster and more automated, perform uncertainty analysis, and decrease the time needed for thermal model development.","exampleTechnologies":"Thermal solvers, orbit analysis, radiation analysis, optimization, fluid flow analysis, layered composite insulation systems, coupled, multi-physics simulations for temperature induced phenomena affecting system performance, structural-thermal-optical (STOP) analysis, detailed thermal network analysis to evaluate the thermal performance of a given system","hasChildren":false,"hasInteriorContent":true}],"startTrl":5,"currentTrl":6,"endTrl":6,"benefits":"
QuickSTAT will enable the Human Exploration and Operations Mission Directorate's (HEOMD) chartered responsibilities of; 1 reduce costs of future human space flight, and 2) providing a tool that will reduce the cost and time required for design and analysis of spacecraft TCS. Specifically, the International Space Station (ISS) and its visiting vehicles are programs that stand to benefit from the design tool. Potential ISS visiting vehicles are the Orion CEV, SpaceX Dragon capsule, Boeing CST-100, and Sierra Nevada Dream Chaser.
Similarly to NASA unmanned missions, this proposed design tool will be of interest to other Government spacecraft procuring agencies such as the Air Force, Navy, National Reconnaissance Office, and Operationally Responsive Space Office; as well as, prime contractor spacecraft developers such as ATK, Lockheed Martin, Boeing, Northrop Grumman, Sierra Nevada Corporation, Raytheon, and Surrey. In addition, QuickSTAT will be highly useful within the CubeSat market which includes Government, industry, and university customers. Beyond spacecraft thermal control system modeling, the proposed Phase II effort will develop a design tool ready for efficient transition to new aerospace applications as well as alternate industries. The design tool could be applied to virtually any engineering analysis, regardless of industry. Potential product extensions span from adjacent engineering analysis applications such as stress and fluid analysis, to new industries such as energy system modeling.
For spacecraft design and development teams concerned with cost and schedule, the Quick Spacecraft Thermal Analysis Tool (QuickSTAT) is an innovative software suite that will significantly reduce labor costs and effort associated with the design, analysis, and optimization of spacecraft. Unlike traditional analysis where highly-trained engineers spend days to months developing, running, and evaluating high-resolution models, QuickSTAT provides the similar results in near real-time to a broader range of users. QuickSTAT will enable, on one hand, highly skilled thermal engineers to more effectively explore complex design spaces, while on the other hand give better engineering design access to less skilled engineers and program stakeholders. For thermal analysts involved in multi-dimensional trade studies, QuickSTAT provides the means to rapidly compare hundreds or thousands of discrete design points and identify trends that lead to more optimal design solutions. For designers of low-cost spacecraft, QuickSTAT can enable quick and efficient thermal design trade studies without investing in a high-end thermal analysis tools.
","startYear":2014,"startMonth":4,"endYear":2017,"endMonth":5,"statusDescription":"Completed","principalInvestigators":[{"contactId":119322,"canUserEdit":false,"firstName":"Derek","lastName":"Hengeveld","fullName":"Derek Hengeveld","fullNameInverted":"Hengeveld, Derek","primaryEmail":"dhengeveld@loadpath.com","publicEmail":true,"nacontact":false}],"programDirectors":[{"contactId":206378,"canUserEdit":false,"firstName":"Jason","lastName":"Kessler","fullName":"Jason L Kessler","fullNameInverted":"Kessler, Jason L","middleInitial":"L","primaryEmail":"jason.l.kessler@nasa.gov","publicEmail":true,"nacontact":false}],"programExecutives":[{"contactId":215154,"canUserEdit":false,"firstName":"Jennifer","lastName":"Gustetic","fullName":"Jennifer L Gustetic","fullNameInverted":"Gustetic, Jennifer 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Modeling","startTrl":2,"currentTrl":5,"endTrl":5,"benefits":"The proposed design tool will enable the Human Exploration and Operations Mission Directorate's (HEOMD) chartered responsibilities of 1) conducting technology development and demonstrations to reduce costs of future human space flight and 2) enabling U.S. commercial human spaceflight capabilities, by providing a tool that will reduce the cost and time required for design and analysis of spacecraft thermal control systems (TCS). The proposed technology will also benefit unmanned NASA missions requiring TCS design. The National Research Council (NRC) Aeronautics and Space Engineering Board identified top technical challenges and highest priority technologies across all 14 NASA space technology roadmaps. Based on the items identified in the study, thermal control systems are a key, enabling technology that contributes to the advancement of many of the top technical challenges and the highest priority technologies. The proposed reduced-order thermal design tool will be able to contribute to overcoming the obstacles of these technical challenges.The NASA SBIR and STTR programs fund the research, development, and demonstration of innovative technologies that fulfill NASA needs as described in the annual Solicitations and have significant potential for successful commercialization. If you are a small business concern (SBC) with 500 or fewer employees or a non-profit RI such as a university or a research laboratory with ties to an SBC, then NASA encourages you to learn more about the SBIR and STTR programs as a potential source of seed funding for the development of your innovations.
The SBIR and STTR programs have 3 phases:
The SBIR and STTR Phase I contracts last for 6 months with a maximum funding of $125,000, and Phase II contracts last for 24 months with a maximum funding of $750,000 - $1.5 million.
Opportunity for Continued Technology Development Post-Phase II:
The NASA SBIR/STTR Program currently has in place two initiatives for supporting its small business partners past the basic Phase I and Phase II elements of the program that emphasize opportunities for commercialization. Specifically, the NASA SBIR/STTR Program has the Phase II Enhancement (Phase II-E) and Phase II eXpanded (Phase II-X) contract options.
Please review the links below to obtain more information on the SBIR/STTR programs.
Provides an overview of the SBIR and STTR programs as implemented by NASA
Provides access to the annual SBIR/STTR Solicitations containing detailed information on the program eligibility requirements, proposal instructions and research topics and subtopics
Schedule and links for the SBIR/STTR solicitations and selection announcements
Federal and non-Federal sources of assistance for small business
Search our complete archive of awarded project abstracts to learn about what NASA has funded
Still have questions? Visit the program FAQs
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The SBIR and STTR programs have 3 phases:
The SBIR and STTR Phase I contracts last for 6 months with a maximum funding of $125,000, and Phase II contracts last for 24 months with a maximum funding of $750,000 - $1.5 million.
Opportunity for Continued Technology Development Post-Phase II:
The NASA SBIR/STTR Program currently has in place two initiatives for supporting its small business partners past the basic Phase I and Phase II elements of the program that emphasize opportunities for commercialization. Specifically, the NASA SBIR/STTR Program has the Phase II Enhancement (Phase II-E) and Phase II eXpanded (Phase II-X) contract options.
Please review the links below to obtain more information on the SBIR/STTR programs.
Provides an overview of the SBIR and STTR programs as implemented by NASA
Provides access to the annual SBIR/STTR Solicitations containing detailed information on the program eligibility requirements, proposal instructions and research topics and subtopics
Schedule and links for the SBIR/STTR solicitations and selection announcements
Federal and non-Federal sources of assistance for small business
Search our complete archive of awarded project abstracts to learn about what NASA has funded
Still have questions? Visit the program FAQs
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