N6833525C0061
Definitive Contract
Overview
Government Description
Research And Development
Awardee
Awarding Agency
Funding Agency
Place of Performance
Charlottesville, VA 22903 United States
Pricing
Cost Plus Fixed Fee
Set Aside
Small Business Set Aside - Total (SBA)
Extent Competed
Full And Open Competition After Exclusion Of Sources
Est. Average FTE
3
Related Opportunity
None
Luna Labs Usa was awarded
Definitive Contract N6833525C0061 (N68335-25-C-0061)
for Research And Development
worth up to $1,999,992
by the Office of Naval Research
in October 2024.
The contract
has a duration of 4 years and
was awarded
through SBIR Topic Shipboard Carbon Capture and Storage
with a Small Business Total set aside
with
NAICS 541715 and
PSC AC12
via direct negotiation acquisition procedures with 25 bids received.
As of today, the Definitive Contract has a total reported backlog of $999,993.
SBIR Details
Research Type
Small Business Innovation Research Program (SBIR) Phase II
Title
Compact Membranes for Carbon Capture and Storage Onboard Navy Surface Combatants
Related Solicitation
Abstract
Climate change poses a significant threat to Department of Navy (DON) operational readiness and has prompted US naval forces to build climate resilience. The reliance of naval surface combatants on fossil fuels is likely to persist; however, the Navy has committed to reduce greenhouse gas emissions by 65% by 2030. Therefore, shipboard carbon capture and storage (CCS) solutions are necessitated by federal and departmental commitments to decarbonization. The capital investment, operational energy costs, and space requirements for shipboard carbon capture using conventional, solvent- and absorbent-based technologies are prohibitively high. A new, membrane-based, post-combustion CCS process developed by Luna Labs initially is uniquely advantageous for shipboard applications due to its low cost, high efficiency, and practical space requirements. This dual-phase molten salt membrane separates CO2 from exhaust gases so efficiently that capture rates as high as 90% may be achieved in relatively small volumes. Powered by a simple steam loop, these modular membranes have minimal parasitic energy cost and can respond flexibly to the ships energy demands. By reducing the cost of maritime carbon capture by over 30%, the membrane process will enable the Navy to meet its 2050 emissions targets.
Research Objective
The goal of phase II is to continue the R&D efforts initiated in Phase I. Funding is based on the results achieved in Phase I and the scientific and technical merit and commercial potential of the project proposed in Phase II.
Topic Code
N232-107
Agency Tracking Number
N232-107-0570
Solicitation Number
23.2
Contact
Mark S Spector
Status
(Open)
Last Modified 10/10/24
Period of Performance
10/10/24
Start Date
10/31/26
Current End Date
10/31/28
Potential End Date
Obligations and Backlog
$1000.0K
Total Obligated
$1000.0K
Current Award
$2.0M
Potential Award
$0.0
Funded Backlog
$1000.0K
Total Backlog
Award Hierarchy
Definitive Contract
N6833525C0061
Subcontracts
Activity Timeline
Subcontract Awards
Disclosed subcontracts for N6833525C0061
People
Suggested agency contacts for N6833525C0061
Competition
Number of Bidders
25
Solicitation Procedures
Negotiated Proposal/Quote
Evaluated Preference
None
Performance Based Acquisition
Yes
Commercial Item Acquisition
Commercial Item Procedures Not Used
Simplified Procedures for Commercial Items
No
Other Categorizations
Subcontracting Plan
Plan Not Required
Cost Accounting Standards
Exempt
Business Size Determination
Small Business
Defense Program
None
DoD Claimant Code
None
IT Commercial Item Category
Not Applicable
Awardee UEI
M6JVSYRQRYM9
Awardee CAGE
8JML8
Agency Detail
Awarding Office
N68335 NAVAIR WARFARE CTR AIRCRAFT DIV
Funding Office
N00014
Created By
andrew.abram@navy.mil
Last Modified By
domenick.davino@navy.mil
Approved By
domenick.davino@navy.mil
Legislative
Legislative Mandates
None Applicable
Performance District
VA-05
Senators
Mark Warner
Timothy Kaine
Timothy Kaine
Representative
Robert Good
Modified: 10/10/24