NASA Invests $51 Million in Innovative Ideas from U.S. Small Businesses
WASHINGTON, D.C. – NASA said it has selected 409 technology proposals for the first phase of funding from the agency’s Small Business Innovation Research and Small Business Technology Transfer program. The contracts will provide approximately $51 million to 312 small businesses in 44 states and Washington, D.C.
The selections include seven projects managed by Stennis Space Center.
“NASA depends on America’s small businesses for innovative technology development that helps us achieve our wide variety of missions,” said Jim Reuter, associate administrator for NASA’s Space Technology Mission Directorate in Washington. “Whether we’re landing Artemis astronauts on the moon, sending rovers to Mars, or developing next-generation aircraft our small business partners play an important role.”
More than 100 of the selected companies will be first-time recipients of a NASA SBIR or STTR contract. Additionally, 27 percent of the small businesses are from underrepresented groups, including minority and women-owned businesses.
Companies will receive up to $125,000 for each of the Phase I selections. SBIR awards are made to only a small business, while STTR awards are made to a small business in partnership with a non-profit research institution.
The selected proposals represent a range of technologies that aim to benefit human exploration, including NASA’s Artemis program, as well as science, technology, and aeronautics. Many of the innovations also have potential applications on Earth.
The seven selected projects to be managed by Stennis include five SBIR and two STTR selections. The SBIR projects are:
- “Composite Facility Components,” Gloyer-Taylor Laboratories, LLC in Tullahoma, Tenn. Gloyer-Taylor has developed a novel composite system for cryogen storage and transfer. This project seeks to demonstrate the use of a novel composite system for cryogen storage and transfer, with the potential of use in various NASA test and space-related systems.
- “Advanced Propulsion Systems Ground Test Technology,” M4 Engineering Inc. in Long Beach, Calif. The project seeks to develop a thermal conditioning retrofit “kit” for cryogenic shaker systems. The kit is designed to prevent freeze-up of system accelerometers during cryogenic testing at Stennis and other NASA facilities.
- “Adaptive Venturi for Surge Pressure Mitigation,” Physical Services Inc. in Andover, Md. The project seeks to develop a venturi for propellant feed systems that uses a passively controlled throat area to adjust flow rate. The adaptive venturi would be useful in a variety of oxygen systems at NASA facilities.
- “A Fact and Robust PIMPLE-Based Algebraic VOF (Volume of Fluid) Method for Two-Phase Compressible Flows,” Streamline Numerics Inc. in Gainesville, Fla. The project seeks to develop an efficient, robust computational fluid dynamics tool that could be used in various NASA ground and launch systems.
- “Advanced Computational Tools for thermal and Acoustic Analysis of Rocket Ground Test Facilities,” Tetra Research Corp. in Cornwall, Vt. The project seeks to develop a liquid injection analysis tool that could be employed on NASA test facilities, which use water suppression systems to protect test articles and structures during testing.
The two STTR projects to be managed by Stennis are:
- “Intelligent Sensor Systems – 2020,” Geocent, LLC in Metairie, La., and the University of Southern Mississippi in Hattiesburg, Miss. The project seeks to develop a comprehensive end-to-end architecture, using wireless technology, to help collect instrumentation data during propulsion testing.
- “Intelligent Sensor Systems for Rocket Propulsion Testing” by Physical Sciences Inc. in Andover, Md., and Auburn University in Auburn, Ala. The project seeks to develop a smart sensor module to enable wireless sensing capabilities in liquid propulsion systems. The development could be used by NASA in both ground test and flight activities.
Phase I awards are made to small businesses to establish the merit and feasibility of their innovations. Phase I SBIR contracts last for six months and Phase I STTR contracts last for 13 months. Based on their progress during Phase I, companies may submit proposals to subsequent SBIR/STTR opportunities and receive additional funding.
“A Phase I award is just the first step in helping these small businesses bring their technologies and ideas to market,” said NASA SBIR/STTR Program Executive Jenn Gustetic. “We know these companies not only need funding, but business guidance and industry expertise to help them develop better products and grow. Our program aims to help each of them in their journeys to commercialization.”
The structure of NASA’s SBIR/STTR program allows the agency to continuously invest in small businesses as their technologies reach different maturity stages. Phase II contracts support prototyping. The program also fosters rapid development and integration into the commercial marketplace and NASA missions through post-Phase II opportunities.
NASA plans to select and award multimillion-dollar sequential Phase II contracts to some companies with previous Phase II contracts. These upcoming awards will further mature a range of technologies related to the sustainable exploration of the Moon, the Artemis program, and America’s broader Moon to Mars objectives.
NASA’s SBIR/STTR program is part of the agency’s Space Technology Mission Directorate and is managed by NASA’s Ames Research Center in California’s Silicon Valley. The program encourages small businesses to develop innovative ideas that meet the federal government’s specific research and development needs with the potential for commercialization.