SBIR-STTR Award

Low-Cost, High-Performance Brayton Cryocooler
Award last edited on: 8/6/2019

Sponsored Program
SBIR
Awarding Agency
DOD : Navy
Total Award Amount
$1,624,859
Award Phase
2
Solicitation Topic Code
N181-041
Principal Investigator
Dimitri Deserranno

Company Information

Concepts NREC (AKA: Concepts ETI Inc~Concepts NREC LLC)

217 Billings Farm Road
White River Junction, VT 05001
   (802) 296-2321
   N/A
   www.conceptsnrec.com
Location: Multiple
Congr. District: 00
County: Windsor

Phase I

Contract Number: N68335-18-C-0627
Start Date: 6/13/2018    Completed: 1/12/2020
Phase I year
2018
Phase I Amount
$124,962
The Navy requires affordable and robust cryogenic cooling solutions for use in High Temperature Superconducting (HTS) cable technology. Currently, gaseous helium is cooled by a cryocooler through a cryogenic heat exchanger and circulated using a helium circulation fan through a superconducting cable. While Stirling refrigerators are commonly used in the cryogenics industry, they do not scale well to large capacities and inherently exhibit significant vibration due to their piston-based operation. Therefore, Concepts NREC (CN) proposes to develop a reverse-Brayton cryocooler. Reverse-Brayton cryocoolers offer several unique advantages, such as high-capacity cooling at high efficiency, and long life without maintenance due to wear-free and vibration-free components. Indeed, reverse-Brayton cryocoolers are inherently high-capacity systems, and rely on turbomachinery with noncontact bearings, resulting in wear-free and vibration-free operation. During Phase I, CN will complete the design of the cryocooler system, including its key components: the compressor, the turbine and the recuperator. During the Phase I Option, CN will perform risk reduction activities in preparation for Phase II. During Phase II, CN will build and test the cryocooler.

Phase II

Contract Number: N68335-20-C-0169
Start Date: 1/2/2020    Completed: 1/2/2022
Phase II year
2020
Phase II Amount
$1,499,897
The Navy requires affordable and robust cryogenic cooling solutions for use in High Temperature Superconducting magnet technology. While Stirling refrigerators are commonly used in the cryogenics industry, they do not scale well to large capacities and inherently exhibit significant vibration due to their piston-based operation. Therefore, Concepts NREC (CN) proposes to develop a reverse-Brayton cryocooler. Reverse-Brayton cryocoolers offer several unique advantages, such as high-capacity cooling at high efficiency, and long life without maintenance due to wear-free and vibration-free components. Indeed, reverse-Brayton cryocoolers are inherently high-capacity systems, and rely on turbomachinery with noncontact bearings, resulting in wear-free and vibration-free operation. During Phase II, CN proposes to fabricate the cryocooler components, assemble the cooler and conduct testing aimed at demonstrating Technology Readiness Level 5.