Dynsan

8000 Madison Blvd. STE-D102 PMB303
Madison, AL 35758
http://www.dynsan.com
5 Employees

SBIR Award Summary

Total Number of Awards 5
Total Value of Awards $1.21MM
First Award Date 12/05/11
Most Recent Award Date 11/02/15

Key Personnel

Last Name Name Awards Contact
Pindera Maciej Z. Pindera 6 Message
Malosse Jean-Jacques Malosse 1 Message

5 Awards Won

Phase 1 SBIR

Agency: Navy
Topic: N152-115
Budget: 11/02/15 - 09/02/16

Continuing development and integration of high power electronics devices with smaller footprints, higher power densities, electronic propulsion, weapon, and sensor systems, requires efficient thermal management strategies. The US Navy has identified two-phase cooling systems as a viable candidate approach for heat removal from for such devices t...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: S3.04
Budget: 06/17/15 - 12/17/15

DynSan proposes to develop a flight controller that will preserve the aircraft trajectory while directing to sources of potential updrafts to optimize fuel consumption of Unmanned Aircraft Vehicles (UAV). Fuel consumption represents a significant factor in powered flight operations; it is desirable therefore to limit the fuel consumption in orde...

Phase 2 SBIR

Agency: Navy
Topic: N121-029
Budget: 09/23/13 - 09/29/15

DynSan will collaborate with the Purdue University to develop and test an innovative, fast digital hydraulic valve design that is insensitive to working fluid contamination. The goal is to improve the reliability of fueldraulic systems on aircraft gas turbine engines and similar applications. Current fueldraulic systems use flapper-type Electro ...

Phase 1 SBIR

Agency: Navy
Topic: N121-029
Budget: 04/02/12 - 09/03/12

DynSan will collaborate with the Illinois Institute of Technology (IIT) to develop and test an innovative digital hydraulic valve design that is insensitive to working fluid contamination. The goal is to improve the reliability of fueldraulic systems on aircraft gas turbine engines and similar applications. Current fueldraulic systems use Electr...

Phase 1 SBIR

Agency: Air Force
Topic: AF112-182
Budget: 12/05/11 - 09/06/12

ABSTRACT: The project objective is to develop an integrated controller for optimizing operations of dual-mode scramjet combustors. The controller is intended to help prevent isolator unstart, maintain efficient flameholder cavity operations, and manage the overall thermal balance. Proposed research will consist of a blend of software-based virtu...