Ogden Engineering & Assoc., LLC

8180 N. Placita Sur Oeste
Tucson, AZ 85741
http://ogdenengineering.com
3 Employees

SBIR Award Summary

Total Number of Awards 7
Total Value of Awards $1.56MM
First Award Date 09/11/03
Most Recent Award Date 07/28/15

Key Personnel

Last Name Name Awards Contact
Ogden Dr. Gregory E. Ogden 2 Message
Ogden Dr. Greg Ogden 5 Message

7 Awards Won

Phase 1 SBIR

Agency: Air Force
Topic: AF151-066
Budget: 07/28/15 - 04/28/16

ABSTRACT:Ogden Engineering & Associates, LLC (OE&A) and its teaming partners are proposing to develop a 0.5 to 1U high performance, green propulsion system using an ionic liquid monopropellant. This HAN/HGF based monopropellant has enhanced ignition characteristics and, as a result, can be used in power-constrained CubeSat applications. ?The tea...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA13-032
Budget: 01/21/14 - 08/20/14

Liquid fuel based Divert Attitude and Control Systems (DACS) or LDACS propulsion offers superior performance for future flight systems compared to solids (SDACS) or compressed gas systems. The need for improved system performance while meeting strict safety and insensitive munitions (IM) standards represents a unique opportunity for Ogden Engin...

Phase 1 STTR

Institution: University of North Dakota

Agency: Navy
Topic: N09-T034
Budget: 06/29/09 - 04/30/10

Ogden Engineering & Associates and the University of North Dakota propose to partner under the United States Navy (USN) STTR program to adapt and commercialize technology to convert jojoba oil into marine diesel (F-76) and aviation turbine (JP-5) fuels. A reliable domestic supply is important to the USN. Crude oil import requirements and fluctua...

Phase 1 STTR

Institution: University of Alabama, Huntsville

Agency: Missile Defense Agency
Topic: MDA08-T001
Budget: 02/17/09 - 08/17/09

Propulsion technology development over the past half-century has produced numerous products-solids, cold gas, liquids, hypergols, monopropellants and combinations of the above. Each offers merits and optimal applications based on induced specific impulse (ISP), weight, size, throttling capability, center of gravity etc. Several Ballistic Missi...

Phase 2 SBIR

Agency: Missile Defense Agency
Topic: MDA04-170
Budget: 06/09/06 - 06/09/10

There is widespread interest in reducing the toxicity and environmental hazards associated with conventional bipropellants. Use of gelling agents has been shown to reduce the fuel s toxicity. However the resultant gels often have significantly different rheological and combustion properties. Use of these materials requires extensive modificat...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA04-170
Budget: 01/24/05 - 06/24/05

There is widespread interest in reducing the toxicity and environmental hazards associated with conventional bipropellants. Use of gelling agents has been shown to reduce the fuel's toxicity. However the resultant gel often have significantly different rheological and combustion properties including loss of hypergolicity. Use of these gels re...

Phase 1 STTR

Institution: University of California, San Diego

Agency: Missile Defense Agency
Topic: MDA03T-005
Budget: 09/11/03 - 03/11/04

The goals of Phase I including developing a fundamental model that describes H2O2 decomposition, design strategies for developing a thermal decomposer, and an assessment of the feasibility of these strategies. Key to development of a thermal decomposer is a predictive model that prevents device burnout and peroxide detonation over a range of fl...