Phoenix Analysis & Design Technologies

7755 S. Research Dr., ASU Research Park, Suite # 110
Tempe, AZ 85284
http://padtinc.com
50 Employees

SBIR Award Summary

Total Number of Awards 13
Total Value of Awards $4.25MM
First Award Date 12/17/98
Most Recent Award Date 05/21/08

Key Personnel

Last Name Name Awards Contact
McNamee Mr. Michael R. McNamee 2 Message
Johnson Dr. Mark C. Johnson 10 Message
Rowan Mr. Rob Rowan 1 Message
Miller Eric Miller 3 Message

13 Awards Won

Phase 1 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD08-EP3
Budget: 05/21/08 - 11/21/08

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 ...

Phase 2 SBIR

Agency: Department of Energy
Topic: 2006
Budget: 01/01/06 - 12/31/06

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 f...

Phase 1 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD05-H01
Budget: 12/20/05 - 12/20/06

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 Va...

Phase 1 SBIR

Agency: Department of Energy
Topic: 2005
Budget: 01/01/05 - 12/31/05

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 ex...

Phase 2 SBIR

Agency: Army
Topic: A01-137
Budget: 03/13/03 - 03/13/05

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, ...

Phase 1 SBIR

Agency: Army
Topic: A01-137
Budget: 02/11/02 - 12/09/02

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, power consumption, size, cost, and weight. The proposed solution is comprised of a custom inlet, ...

Phase 2 SBIR

Agency: Army
Topic: A99-125
Budget: 01/17/01 - 01/16/03

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 on simplicity, robustness, and low cost. The baseload and intermediate power (15 W to 50 W) wi...

Phase 2 SBIR

Agency: Army
Topic: A98-018
Budget: 01/14/00 - 01/14/02

This project proposes the development of a low Cost, ultra efficient, miniature, air handling system for portable fuel cell power supplies. The project will result in a low volume, low cost production system which employs advanced manufacturing techniques (selective laser sintering and stereolithography) to rapidly make custom air handlers. The ...

Phase 1 SBIR

Agency: Army
Topic: A99-125
Budget: 01/12/00 - 12/03/00

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 on simplicity, robustness, and low cost. The baseload and intermediate power (15 W to 50 W) ...

Unknown

Not Available

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: 00-1
Budget: 01/01/00 - 12/31/00

Load More