Award Data

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The Award database is continually updated throughout the year. As a result, data for FY19 is not expected to be complete until June, 2020.

  1. Aperiodic Lattice Design Optimization for Multi-Functional Lightweight Aerospace Structures

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: T3

    The primary innovation proposed is the development of a lattice design tool that combines concepts from topology and parameter optimization to generate lattice materials that are aperiodic in nature and do not require a priori definition of cell size. With Additive Manufacturing, we can now specify detail to a degree previously not possible. In the context of cellular materials, however, it is not ...

    STTR Phase II 2020 National Aeronautics and Space Administration
  2. Bio-inspired Cellular Material Optimization for the Design of Additively Manufactured Multi-Functional Lightweight Structures

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: T3

    New technologies in imaging and manufacturing, including Additive Manufacturing (AM), are opening possibilities for mimicking biological structures in a way that has been unprecedented in human history. The primary innovation proposed here is the development of a tool that generates bio-inspired, parametrically optimized cellular materials for integration into the design of Additively Manufactured ...

    STTR Phase I 2018 National Aeronautics and Space Administration
  3. SBIR TOPIC 257, INSTRUMENTS AND DEVICES THAT PRESERVE MOLECULAR PROFILES IN TUMOR

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: N/A

    Location SUITE 110 85284 TEMPE, AZ United States 33° 20' 10.9824" N, 111° 56' ... 3.7104" W Arizona US N43CO200900074 $249 614.00 2 009 SBIR TOPIC 257, INSTRUMENTS AND DEVICES THAT ... PRESERVE MOLECULAR PROFILES IN TUMOR Department of Health and Human Services SBIR PHS2009-1 Phoenix ...

    SBIR Phase I 2009 Department of Health and Human Services
  4. High-Temperature Blower Development for Solid Oxide Fuel Cell (SOFC) Applications

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: OSD08EP3

    This proposal outlines the design of a very low weight blower system that will provide cathode air for a small ( ~ 2 kW) Solid Oxide Fuel Cell (SOFC) power system. This design (the HTCAB) will derive from a proven blower system that PADT has already developed (LCAB). The improved HTCAB blower system will offer the following advances: 50% more flow, a 10% improvement in efficiency, an 85% increas ...

    SBIR Phase I 2008 Department of DefenseAir Force
  5. Low Cost Hot Anode Recycle Blower

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: 14

    Concerns about the high cost of energy, dwindling natural resources, and environmental pollution are pressuring the country to explore energy production technologies that offer greater efficiency and cleanliness. Solid Oxide Fuel Cell (SOFC) systems are one such technology. In order to operate SOFC systems at their best efficiency, the anode fuel mixture require recirculation. In turn, a hot an ...

    SBIR Phase II 2006 Department of Energy
  6. Miniature disposable drug infusion pump with integrated flow meter and bubble detection

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: OSD05H01

    This project involves the development of a miniature, disposable, infusion system that includes a micropump, novel flow meter, bubble detection, programmability and drug identification, and wireless communications. The phase I effort will result in the development of 3 new technologies: a novel miniature pumping mechanism called a "Annular Valve Micropump", an integrated but independent flow me ...

    SBIR Phase I 2005 Department of DefenseArmy
  7. Hot Anode Recirculation Pump for SOFC Systems

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: 14

    79184S Solid Oxide Fuel Cell (SOFC) systems are being developed as small (~ 5 kW) to medium (250 kW) distributed power plants. These systems, which offer very good efficiencies and tremendous potential for combined heat and power situations, could benefit from the implementation of an anode recirculation pump (ARP). Presently, no such pump exists in a reasonable package because the pump inlet t ...

    SBIR Phase I 2005 Department of Energy
  8. Aerosol Collection Technology

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: N/A

    PADT proposes to develop two particle collection and concentration devices, one designed for 600 LPM, and another for the 100 LPM or less class. Both configurations will be optimized for 2-10 micron particle collection efficiency, power consumption, size,cost, and weight. The design arrangement to be developed is comprised of a custom inlet, a novel collection chamber, and a continuous gas-to-li ...

    SBIR Phase II 2003 Department of DefenseArmy
  9. Aerosol Collection Technology

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: N/A

    "Phoenix Analysis and Design Technologies (PADT) proposes to develop two particle collection and concentration devices, one designed for 100 LPM and another for the 600 LPM flow rate. Both configurations will be optimized for collection efficiency, powerconsumption, size, cost, and weight. The proposed solution is comprised of a custom inlet, a novel collection chamber, and a continuous gas-to-l ...

    SBIR Phase I 2002 Department of DefenseArmy
  10. Spin Dependent Tunneling Sensors With Improved Stability and Low Hysteresis

    SBC: Phoenix Analysis and Design Technologies, Inc.            Topic: N/A

    This project proposes the development of a robust, low cost, high density, hybrid power system. The most important features of the proposed approach are: 1) The implementation of the best commercially available power production components with emphasis onsimplicity, robustness, and low cost. The baseload and intermediate power (15 W to 50 W) will be provided by a proton exchange membrane fuel cell ...

    SBIR Phase II 2001 Department of DefenseArmy
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