University of Cincinnati

College of Engr. & Appl. Sc. 2901 Woodside Drive
Cincinnati, OH 45221

Corporate Partners

Faculty & Staff

Name Awards Latest
Taitech, Inc.
Beavercreek, OH
1 08/01/01
Enogetek, Inc.
Croton-on-Hudson, NY
2 11/04/10
Gird Systems, Inc.
Cincinnati, OH
1 09/09/14
Chemat Technology, Inc.
Northridge, CA
4 08/05/05
Nova Engineering, Inc.
Cincinnati, OH
1 06/05/00
Nanolab, Inc.
Waltham, MA
1 07/03/08
Engineering and Scientific Innovations,
Cincinnati, OH
2 06/08/16
Illinoisrocstar LLC
Champaign, IL
1 07/05/13
General Nano LLC
Cincinnati, OH
2 09/20/12
Giner, Inc.
Newton, MA
1 08/30/11
Faraday Technology, Inc.
Englewood, OH
2 07/06/15
Technology Assessment & Transfer, Inc.
Annapolis, MD
3 07/06/15
Knite Inc.
Ewing, NJ
1 09/09/14
ECOSIL Technologies LLC
Fairfield, OH
1 05/16/14
Ues, Inc.
Dayton, OH
3 11/14/07
Edaptive Computing, Inc.
Dayton, OH
2 12/08/98
Intelligent Automation, Inc.
Rockville, MD
2 01/01/03
William P.peschel, Engineering Consultan
Venice, CA
1 09/09/14
Systran Federal Corp.
Dayton, OH
2 01/31/07
CFD Research Corp.
Huntsville, AL
1 01/01/11

34 Awards Won

Phase 1 STTR

Firm: Engineering and Scientific Innovations,

Institution: University of Cincinnati

Agency: Navy
Topic: N16A-T014
Budget: 06/08/16 - 12/05/16

Using a fluid dynamic energy separation technique, in combination with thermoelectric generators (TEGs), a unique hybrid cooling system using low grade waste heat is proposed. This system uses the concept of fluid structure interactions and vorticity redistribution to produce large levels of vorticity within working fluid and thereby generate la...

Phase 1 STTR

Firm: Technology Assessment & Transfer, Inc.

Institution: University of Cincinnati

Agency: Navy
Topic: N15A-T019
Budget: 07/06/15 - 01/06/16
PI: Todd Heil

Technology Assessment & Transfer, Inc. and subcontractors propose novel, high performance additive manufactured (AM) heat exchangers for military systems. The AM process will allow for conformal, lightweight designs that optimize use of available space. Design and modeling efforts in Phase I will identify enhanced heat transfer surfaces compatib...

Phase 1 STTR

Firm: Faraday Technology, Inc.

Institution: University of Cincinnati

Agency: Navy
Topic: N15A-T019
Budget: 07/06/15 - 05/06/16

The proposed program will develop an integrated computational material engineering (ICME) toolbox that can enable improved heat exchangers (HX) designs by utilizing the design and manufacturing flexibility offered by use of additive manufacturing (AM). To accomplish this goal Faraday has composed a team of experts in AM (NC State and CalRAM), no...

Phase 1 STTR

Firm: William P.peschel, Engineering Consultan

Institution: University of Cincinnati

Agency: Navy
Topic: N14A-T004
Budget: 09/09/14 - 04/09/15

Conduct comprehensive experimental tests using an existing microwave generated plasma igniter (M/W Igniter) that provides a continuously stabilized heat release source to suppress augmentor combustion instability or screech and to reduce the lean blowout (LBO) and light-off (LO) limits in modern/advanced or legacy augmentor flameholders. The tes...

Phase 1 STTR

Firm: Knite Inc.

Institution: University of Cincinnati

Agency: Navy
Topic: N14A-T004
Budget: 09/09/14 - 04/09/15

Directed plasma discharge using Knite Inc. s Kinetic Spark Ignition (KSI) hardware is proposed as a means to quell augmentor screech tone. Contrary to typical plasma ignitors, where plasma discharge is between anode and cathode, the KSI can discharge plasma into the flow in a reproducible manner. This controllability was used successfully on pro...

Phase 1 STTR

Firm: Gird Systems, Inc.

Institution: University of Cincinnati

Agency: Navy
Topic: N14A-T009
Budget: 09/09/14 - 04/09/15

Carrier phase measurements in GPS are well known to enable precision performance. However, GPS is easily degraded or jammed. Carrier phase measurements in a local radio system, on the other hand, is much easier due to its much stronger signal level compared with GPS. In this proposal GIRD Systems will investigate feasibility of precise position...

Phase 1 STTR

Firm: ECOSIL Technologies LLC

Institution: University of Cincinnati

Agency: Missile Defense Agency
Topic: MDA13-T010
Budget: 05/16/14 - 12/15/14

The goal of this proposal is to demonstrate the feasibility of novel surface preparation methods that are easier to apply on metal substrates in various field environments while still enhancing the corrosion protective performance of topcoats. This is made possible by the characteristics of a patented pretreatment technology developed at Ecosil...

Phase 1 STTR

Firm: Illinoisrocstar LLC

Institution: University of Cincinnati

Agency: Defense Advanced Research Projects Agency
Topic: ST13A-005
Budget: 07/05/13 - 01/05/14

We propose a combined modeling and experimental program to analyze and optimize a turbine behind a pulse detonation combustor/engine (PDC/PDE). In Phase I, a discontinuous-Galerkin, harmonic balance code from the University of Cincinnati (UC) will be impl

Phase 2 STTR

Firm: General Nano LLC

Institution: University of Cincinnati

Agency: Office of the Secretary of Defense
Topic: OSD10-T004
Budget: 09/20/12 - 09/20/14

General Nano's Phase II proposal is centered around low cost, high volume manufacturing of Carbon Nanotube (CNT) arrays on stainless steel sheets. The proposed technology is the basis for application development projects involving structural reinforced composites, conductive composites, EMI shielding, stray light absorption, thermal interface m...

Phase 1 STTR

Firm: Giner, Inc.

Institution: University of Cincinnati

Agency: Army
Topic: A11A-T013
Budget: 08/30/11 - 02/29/12

Implementation of new technologies for soldier survivability often requires lightweight and reliable power sources. Direct-Methanol Fuel Cells (DMFCs) are attractive both in military and consumer electronics applications where their energy density, power output, and lifetime make them ideally suited to address weight and power limitations. DMFCs...

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