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The Award database is continually updated throughout the year. As a result, data for the given year is not complete until April of the following year. Annual Reports data is a snapshot of agency reported information for that year and hence might look different from the live data in the Awards Information charts.

  1. Stationary Wide-Angle Concentrator PV System

    SBC: Glint Photonics Inc.-            Topic: MOSAIC

    Concentrator PV systems using highly efficient multijunction photovoltaic cells hold out the promise of very low-cost solar electricity generation, but their adoption has been hamstrung by the requirement for bulky mechanical trackers that add cost, diminish land use, increase maintenance, and exclude roof-top installations. The Stationary Wide-Angle Concentrator (SWAC) PV system will provides the ...

    SBIR Phase II 2016 ARPA-EDepartment of Energy
  2. Stationary Wide-Angle Concentrator PV System

    SBC: Glint Photonics, Inc.            Topic: DE-FOA-0001256

    Concentrator PV systems using highly efficient multijunction photovoltaic cells hold out the promise of very low-cost solar electricity generation, but their adoption has been hamstrung by the requirement for bulky mechanical trackers that add cost, diminish land use, increase maintenance, and exclude roof-top installations. The Stationary Wide-Angle Concentrator (SWAC) PV system will provides the ...

    SBIR Phase I 2015 ARPA-EDepartment of Energy
  3. Stationary Wide-Angle Concentrator PV System

    SBC: Glint Photonics Inc.            Topic: DE-FOA0001256

    Concentrator PV systems using highly efficient multijunction photovoltaic cells hold out the promise of very low-cost solar electricity generation, but their adoption has been hamstrung by the requirement for bulky mechanical trackers that add cost, diminish land use, increase maintenance, and exclude roof-top installations. The Stationary Wide-Angle Concentrator (SWAC) PV system will provides the ...

    SBIR Phase II 2015 ARPA-EDepartment of Energy
  4. DEVELOPMENT OF HIGH EFFICIENCY, SMALL SCALE HEAT ENGINE TECHNOLOGIES FOR POINT OF USE ELECTRICITY GENERATION SYSTEMS

    SBC: Sencera Energy, Inc.            Topic: DE-FOA0001380

    The goal of the GENSETS program is to realize an affordable generator-engine system with 1 kW of electrical output, fuel energy content to electricity conversion efficiency exceeding 40%, long life, and low emissions. A system can be broken into 5 primary subsystems: (1) a chemical combiner or burner, (2) an engine, (3) an alternator, (4) a heat rejector, and (5) a controller. This work focuses on ...

    SBIR Phase I 2015 ARPA-EDepartment of Energy
  5. DEVELOPMENT OF HIGH EFFICIENCY, SMALL SCALE HEAT ENGINE TECHNOLOGIES FOR POINT OF USE ELECTRICITY GENERATION SYSTEMS

    SBC: Sencera Energy, Inc.            Topic: DE-FOA0001380

    The goal of the GENSETS program is to realize an affordable generator-engine system with 1 kW of electrical output, fuel energy content to electricity conversion efficiency exceeding 40%, long life, and low emissions. A system can be broken into 5 primary subsystems: (1) a chemical combiner or burner, (2) an engine, (3) an alternator, (4) a heat rejector, and (5) a controller. This work focuses on ...

    SBIR Phase II 2015 ARPA-EDepartment of Energy
  6. DEVELOPMENT OF HIGH EFFICIENCY, SMALL SCALE HEAT ENGINE TECHNOLOGIES FOR POINT OF USE ELECTRICITY GENERATION SYSTEMS

    SBC: Sencera Energy, Inc.            Topic: DE-FOA0001380

    The goal of the GENSETS program is to realize an affordable generator-engine system with 1 kW of electrical output, fuel energy content to electricity conversion efficiency exceeding 40%, long life, and low emissions. A system can be broken into 5 primary subsystems: (1) a chemical combiner or burner, (2) an engine, (3) an alternator, (4) a heat rejector, and (5) a controller. This work focuses on ...

    SBIR Phase II 2015 ARPA-EDepartment of Energy
  7. HYPERLAMINAR FLOW ENGINE FOR COMBINED HEAT AND POWER

    SBC: Mohawk Innovative Technology, Inc.            Topic: DE-FOA0001380

    The team of Mohawk Innovative Technology Inc., (MiTi), University of Texas – Center for Electro-Mechanics and MITIS of Belgium propose a truly transformative, ultra-high-speed and oilfree, Hyperlaminar Flow Engine (HFE) system that combines low cost viscous shear driven compressor and expander, an integrated low pressure drop recuperator, flameless combustor, permanent magnet generator, lubrican ...

    SBIR Phase I 2015 ARPA-EDepartment of Energy
  8. HYPERLAMINAR FLOW ENGINE FOR COMBINED HEAT AND POWER

    SBC: Mohawk Innovative Technology, Inc.            Topic: DE-FOA0001380

    The team of Mohawk Innovative Technology Inc., (MiTi), University of Texas – Center for Electro-Mechanics and MITIS of Belgium propose a truly transformative, ultra-high-speed and oilfree, Hyperlaminar Flow Engine (HFE) system that combines low cost viscous shear driven compressor and expander, an integrated low pressure drop recuperator, flameless combustor, permanent magnet generator, lubrican ...

    SBIR Phase II 2015 ARPA-EDepartment of Energy
  9. HYPERLAMINAR FLOW ENGINE FOR COMBINED HEAT AND POWER

    SBC: Mohawk Innovative Technology, Inc.            Topic: DE-FOA0001380

    The team of Mohawk Innovative Technology Inc., (MiTi), University of Texas – Center for Electro-Mechanics and MITIS of Belgium propose a truly transformative, ultra-high-speed and oilfree, Hyperlaminar Flow Engine (HFE) system that combines low cost viscous shear driven compressor and expander, an integrated low pressure drop recuperator, flameless combustor, permanent magnet generator, lubrican ...

    SBIR Phase II 2015 ARPA-EDepartment of Energy
  10. A High Efficiency SACI 1 kW Generator System with Integrated Waste Energy Recovery

    SBC: Air Squared, Inc.            Topic: DE-FOA0001380

    We propose a novel high efficiency (≈40%) generator system capable of providing 1 kWe along with hot water on-demand. The integration of two novel concepts: 1) an internal combustion engine (ICE) operating on Spark-Assisted Compression Ignition (SACI) combustion of natural gas (NG), and 2) a bottoming Organic Rankine Cycle (ORC) with waste energy recovery (WER) from ICE exhaust enables the overa ...

    SBIR Phase I 2015 ARPA-EDepartment of Energy

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