NASA Awards $43.5 Million To U.S. Small Businesses For Technology Research, Development
STENNIS SPACE CENTER — NASA has selected 304 proposals from U.S. small businesses to advance research and technology in Phase I of its 2018 Small Business Innovation Research (SBIR) program and 44 proposals for the Small Business Technology Transfer (STTR) program, totaling $43.5 million in awards. These selections support NASA's future space exploration missions, while also benefiting the U.S. economy.
"This round of Phase I ideas look very promising and creative, and will enhance innovation throughout the Agency,” said Jim Reuter, acting associate administrator for NASA’s Space Technology Mission Directorate (STMD). “Many of the businesses that go through the SBIR program end up working with NASA on the research and technologies needed to advance our space exploration goals.”
Proposals were selected according to their technical merit and feasibility, in addition to the experience, qualifications and facilities of the submitting organization. Additional criteria included effectiveness of the work plan and commercial potential.
The selected proposals will support the development of technologies in the areas of aeronautics, human space exploration and operations, science, and space technology. Awards cover a breadth of research and development needs, including:
- Superconducting technology for high-power density motors for aircraft propulsion that are highly efficient and lightweight. The proposed propulsion motors can be used for ships, energy storage devices and wind power generators.
- A room temperature electrolyzer for generation of oxygen from carbon dioxide on Mars that can also be used for improving oxygen recovery on the International Space Station, other crewed spacecraft, or for energy storage devices.
- A compact high-efficiency (more than 97 percent), high-power density Hall-effect thruster power processing unit that can be used for interplanetary transfers, supporting exploration and science missions.
- An oscillating heat pipe — a passive heat transfer device — to improve a spacecraft's thermal control system. Other applications include terrestrial vehicles with electrical loads and in large industrial vehicles where the proposed passive solution can replace actively pumped single-phase radiators with air cooled systems.
- Onboard autonomous intelligent systems to manage future crewed and uncrewed spacecraft. Other applications include electric aircraft, chemical processing plants and power plants.
The five selected SBIR proposals being monitored by Stennis Space Center are:
- “Balanced Floating Piston Valve for Ultra-High Pressure, High-Volume Liquid and Gaseous Flow Control,” developed by C-Suite Services, LLC of Metairie, Louisiana.
- “Additively Manufactured Dynamically Adjustable Venturi,” developed by Parabilis Space Technologies Inc. of San Marcos, California.
- “Additive Manufacturing of Integrated Sensor System,” developed by RC Integrated Systems, LLC of Torrance, California.
- “High Performance Solver for Coupled Cavitation and Fluid-Structure Interaction in Cryogenic Environments,” developed by Streamline Numerics Inc. of Gainesville, Florida.
- “Advanced Coating to Mitigate Hydrogen Embrittlement in High Temperature Environments,” developed by Summit Information Solutions Inc. of Glen Allen, Virginia.
The four selected STTR proposals being monitored by Stennis Space Center are:
- “Multi-Function Fluid Measurement System using High-Definition Fiber Optic Sensing,” developed by Luna Innovations Inc. of Roanoke, Virginia, and Edison Welding Institute of Columbus, Ohio.
- “Wireless Networked Cryogenic and Minimum Pressure Sensors,” developed by Nanosonic Inc. of Pembroke, Virginia, and Virginia Tech of Blacksburg, Virginia.
- “Multi-Band Software Defined Radio Sensor System,” developed by Pegasense, LLC of Winter Springs, Florida, and the University of Central Florida of Orlando, Florida.
- “Wireless Passive Nanoparticle-based Intelligent Sensor System for Extreme Environments,” developed by Sensatek Propulsion Technology Inc. of Tallahassee, Florida, and Florida State University of Tallahassee, Florida.
The SBIR Phase I contracts last for six months and STTR Phase I contracts last for 13 months, both with a maximum funding of $125,000.
Phase I work and results provide a sound basis for the continued development, demonstration and delivery of the proposed innovation in Phase II and follow-on efforts. Phase III is the commercialization of innovative technologies, products and services resulting from either a Phase I or Phase II contract.
The SBIR and STTR programs encourage small businesses and research institutions to develop innovative ideas that meet the specific research and development needs of the federal government. The programs are intended to stimulate technological innovation in the private sector, increase the commercial application of research results, and encourage participation of socially and economically disadvantaged persons and women-owned small businesses. Since the 1970s, small businesses have created approximately 55 percent of all jobs in the United States.
The SBIR and STTR programs are managed for STMD by NASA's Ames Research Center in California’s Silicon Valley. STMD is responsible for developing the cross-cutting, pioneering new technologies and capabilities needed by the agency to achieve its current and future missions.
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