80NSSC24PB291
Purchase Order
Overview
Government Description
FY24 SBIR PHASE I- AIRBORNE HOLOGRAPHIC PROBE FOR SMALL ICE DETECTION
Awardee
Awarding / Funding Agency
Place of Performance
Fort Collins, CO 80525 United States
Pricing
Fixed Price
Set Aside
Small Business Set Aside - Total (SBA)
Extent Competed
Full And Open Competition After Exclusion Of Sources
Related Opportunity
None
Analysis Notes
Amendment Since initial award the Potential Award value has decreased 4% from $155,312 to $148,812.
Cloudsci was awarded
Purchase Order 80NSSC24PB291 (80NSSC-24-P-B291)
for Fy24 Sbir Phase I- Airborne Holographic Probe For Small Ice Detection
worth up to $148,812
by Shared Services Center
in August 2024.
The contract
has a duration of 6 months and
was awarded
with a Small Business Total set aside
with
NAICS 541715 and
PSC AJ14
via direct negotiation acquisition procedures with 500 bids received.
SBIR Details
Research Type
Small Business Innovation Research Program (SBIR) Phase I
Title
Airborne holographic probe for small ice detection
Abstract
Contrails formed by aircraft emissions are the major component of the radiative impact of aviation, contributing more to forcing than emitted carbon dioxide and nitrogen oxides combined. Efforts to reduce the negative impacts of aviation on climate must therefore account for contrail formation and require better understanding of contrail formation and ageing. The research community, including NASA scientists, currently lack an appropriate in situ measurement system capable of characterizing the small ice crystals and droplets relevant to contrail formation and aging processes. We propose development of a new cloud probe designed for operation on research aircraft and other platforms capable of measuring the properties of ice crystals, droplets, and aerosols in the size ranges relevant for contrail formation and potentially distinguishing between them. The proposed instrument would use a digital holographic approach that has been previously demonstrated for cloud measurements, but heavily modified to better measure smaller particles than is currently possible with existing approaches. Our system will be capable of delivering the measurements required to better understand contrail formation and related aviation impacts on climate, as well as be applicable to a wide range of commercial applications, such as the detection and classification of airborne allergens, pathogens, and other large particles that have impacts on the atmosphere, plant, animal and human health, and visibility, among others.
Research Objective
The goal of phase I is to establish the technical merit, feasibility, and commercial potential of proposed R&D efforts and determine the quality of performance of the small business awardee organization.
Topic Code
A1
Agency Tracking Number
24A1031007
Solicitation Number
SBIR-2024-Phase 1
Contact
Nasa Sbir Support Office
Status
(Complete)
Last Modified 4/4/25
Period of Performance
8/7/24
Start Date
2/6/25
Current End Date
2/6/25
Potential End Date
Obligations
$148.8K
Total Obligated
$148.8K
Current Award
$148.8K
Potential Award
Award Hierarchy
Purchase Order
80NSSC24PB291
Subcontracts
Activity Timeline
Transaction History
Modifications to 80NSSC24PB291
People
Suggested agency contacts for 80NSSC24PB291
Competition
Number of Bidders
500
Solicitation Procedures
Negotiated Proposal/Quote
Evaluated Preference
None
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
Awardee UEI
TZ2TF6DJMUG4
Awardee CAGE
9BC91
Agency Detail
Awarding Office
80NSSC NASA SHARED SERVICES CENTER
Funding Office
80NSSC
Created By
brandi.a.dardar@nasa.gov
Last Modified By
tmciver
Approved By
tmciver
Legislative
Legislative Mandates
None Applicable
Performance District
CO-02
Senators
Michael Bennet
John Hickenlooper
John Hickenlooper
Representative
Joe Neguse
Modified: 4/4/25