SBIR-STTR Award

Novel, Low Parasitic, Next Generation Flywheel Energy Storage System
Award last edited on: 11/15/2018

Sponsored Program
SBIR
Awarding Agency
DOD : Navy
Total Award Amount
$1,225,000
Award Phase
2
Solicitation Topic Code
N171-095
Principal Investigator
Michael McAleenan

Company Information

KaZak Technologies Inc

P0 Box 198 44 Indian Point Road
Georgetown, ME 04548
   (207) 371-2568
   N/A
   www.kazaktechnologies.com
Location: Single
Congr. District: 01
County: Sagadahoc

Phase I

Contract Number: N68335-17-C-0310
Start Date: 6/1/2017    Completed: 10/1/2018
Phase I year
2017
Phase I Amount
$225,000
KaZaK Technologies team members are proposing several concepts to meet Navy requirements for development of innovative approaches to meet the solicitations primary objective for a low parasitic flywheel energy system (FES). Our team will work to design a FES to minimize purchase and operating costs. KaZaK efforts to design, fabricate and test a shipboard FES will meet Navy requirements. To accomplish these goals our team will draw on currently funded and previously funded Navy experiences in the design/ analysis/ fabrication of structures, composite/ metallic shipboard systems and shipboard integration to Navy performance and ship schedule requirements. Following design and manufacture, Phase II testing is required to verify that the FES meets dynamic performance requirements. In addition, there are thermal, shipboard geometric, design specific variables and other mechanical/environmental challenges to be met before completion of a shipboard FES is realized. To meet these design goals, KaZaK is proposing several low cost, lightweight designs. If awarded a Phase II, our team will work to apply Phase I designs and analyses to the fabrication of a prototype for testing.

Benefit:
If Phase I is successful, we will have demonstrated that our proposed novel FES has the potential to meet both performance and shipboard operation requirements. Assuming this success, we will proceed to design, fabricate and test system prototypes in Phase II. Our ultimate goal, by the end of Phase II, will be the completion of a novel low cost FES prototype to undergo testing.

Keywords:
Power, Power, high energy density, ship, energy storage, Composites, Energy, flywheel, RIM

Phase II

Contract Number: N68335-19-C-0035
Start Date: 10/25/2018    Completed: 11/2/2020
Phase II year
2019
Phase II Amount
$1,000,000
KaZaK Technologies team members are proposing several concepts to meet Navy requirements for development of innovative approaches to meet the solicitations primary objective for a low parasitic flywheel energy system (FES). Our team will work to design a FES to minimize purchase and operating costs. KaZaK efforts to design, fabricate and test a shipboard FES will meet Navy requirements. To accomplish these goals our team will draw on currently funded and previously funded Navy experiences in the design/ analysis/ fabrication of structures, composite/ metallic shipboard systems and shipboard integration to Navy performance and ship schedule requirements. Following design and manufacture, Phase II testing is required to verify that the FES meets dynamic performance requirements. In addition, there are thermal, shipboard geometric, design specific variables and other mechanical/environmental challenges to be met before completion of a shipboard FES is realized. To meet these design goals, KaZaK is proposing several low cost, lightweight designs. If awarded a Phase II, our team will work to apply Phase I designs and analyses to the fabrication of a prototype for testing.

Benefit:
If Phase II is successful, we will have demonstrated that our proposed novel FES has the potential to meet both performance and shipboard operation requirements. Assuming this success, we will proceed to design, fabricate and test shipboard system prototypes in Phase III.

Keywords:
ship, flywheel, energy storage, high energy density, RIM, Power, Composites, Energy