NA24OARX021G0033
Project Grant
Overview
Grant Description
Purpose: Viable Gear, LLCs (VG) Phase I delivered proof-of-concept prototype twine with innovative seaweed-based bioplastic material technology.
The Viable Gear team will further develop its prototype in Phase II, preparing to bring its first product to market: a marine degradable biotwine used for seed string in seaweed nurseries.
This biotwine is intended to replace the petroleum-based nylon string that most seaweed nurseries use today, and to replace nylon tubular mesh used in fishing gear like lobster and crab bait bags.
When plastic fishing and aquaculture gear is lost or discarded at sea, it persists for indefinite periods of time, slowly breaking down into smaller pieces, and continuing to catch and kill marine life longer after its intended use by ocean harvesters, a phenomenon otherwise known as ghost fishing.
In fact, this ghost gear from the fishing and aquaculture industries constitutes the majority of the macroplastics floating in the ocean (Lebreton et al., 2022).
These macroplastics contribute to injury and death of marine species via entanglement and ingestion as they break down further into smaller fragments micro- and nanoplastics - and can also render toxic health effects for humans through the consumption of seafood.
The proposed project addresses NOAA-SBIR research topic area 9.3 the changing oceans; particularly to support increased protection and restoration of marine and coastal habitats to enhance vital ecosystems and facilitate sustainable and productive aquaculture practices and facilities (NOAA, 2023).
In Phase II, Viable Gear will continue the development of its material technology to refine its prototype biotwine, including mechanical, thermal, and ocean testing for future use cases.
It will also identify the appropriate equipment, manufacturing machinery, and partners needed to commercialize and scale this material technology.
Summary of the anticipated results and implications of the approach and the potential commercial applications of the research Phase II will deliver a minimum viable product (MVP) from Viable Gear's seaweed-based bioplastic material technology for a seeding biotwine for use in seaweed nurseries.
Seeding twines seed string - are commonly used as substrata for seeding, allowing growers to seed in high densities and then efficiently transplant the growing juvenile seaweed to sea farms.
Once successfully commercialized, adoption of VG's biotwine by seaweed nurseries and farmers will eliminate the possibility that lost or discarded seed string resulting in marine mammal entanglement or plastic pollution as it is designed to be marine degradable.
Furthermore, the circularity of using seaweed to create a product used to grow more seaweed reduces the environmental footprint of the seaweed industry while amplifying the ecosystem and social benefits of the practice.
The World Bank notes that with its ability to sink carbon, sustain marine biodiversity, employ women, and unlock value chains, seaweed farming demonstrates how development, climate, and nature work together to generate value and uplift communities (World Bank, 2023).
Following the launch of its initial product, VG plans to use its material technology for a range of other ocean-bound equipment applications, including bait bags for the lobster and crab industries and zip ties for the maritime and agricultural sectors.
Success of VG's applications will lead to licensing of the base material for other uses.
The Viable Gear team will further develop its prototype in Phase II, preparing to bring its first product to market: a marine degradable biotwine used for seed string in seaweed nurseries.
This biotwine is intended to replace the petroleum-based nylon string that most seaweed nurseries use today, and to replace nylon tubular mesh used in fishing gear like lobster and crab bait bags.
When plastic fishing and aquaculture gear is lost or discarded at sea, it persists for indefinite periods of time, slowly breaking down into smaller pieces, and continuing to catch and kill marine life longer after its intended use by ocean harvesters, a phenomenon otherwise known as ghost fishing.
In fact, this ghost gear from the fishing and aquaculture industries constitutes the majority of the macroplastics floating in the ocean (Lebreton et al., 2022).
These macroplastics contribute to injury and death of marine species via entanglement and ingestion as they break down further into smaller fragments micro- and nanoplastics - and can also render toxic health effects for humans through the consumption of seafood.
The proposed project addresses NOAA-SBIR research topic area 9.3 the changing oceans; particularly to support increased protection and restoration of marine and coastal habitats to enhance vital ecosystems and facilitate sustainable and productive aquaculture practices and facilities (NOAA, 2023).
In Phase II, Viable Gear will continue the development of its material technology to refine its prototype biotwine, including mechanical, thermal, and ocean testing for future use cases.
It will also identify the appropriate equipment, manufacturing machinery, and partners needed to commercialize and scale this material technology.
Summary of the anticipated results and implications of the approach and the potential commercial applications of the research Phase II will deliver a minimum viable product (MVP) from Viable Gear's seaweed-based bioplastic material technology for a seeding biotwine for use in seaweed nurseries.
Seeding twines seed string - are commonly used as substrata for seeding, allowing growers to seed in high densities and then efficiently transplant the growing juvenile seaweed to sea farms.
Once successfully commercialized, adoption of VG's biotwine by seaweed nurseries and farmers will eliminate the possibility that lost or discarded seed string resulting in marine mammal entanglement or plastic pollution as it is designed to be marine degradable.
Furthermore, the circularity of using seaweed to create a product used to grow more seaweed reduces the environmental footprint of the seaweed industry while amplifying the ecosystem and social benefits of the practice.
The World Bank notes that with its ability to sink carbon, sustain marine biodiversity, employ women, and unlock value chains, seaweed farming demonstrates how development, climate, and nature work together to generate value and uplift communities (World Bank, 2023).
Following the launch of its initial product, VG plans to use its material technology for a range of other ocean-bound equipment applications, including bait bags for the lobster and crab industries and zip ties for the maritime and agricultural sectors.
Success of VG's applications will lead to licensing of the base material for other uses.
Awardee
Funding Goals
18 CLIMATE ADAPTATION AND MITIGATION 19 WEATHER-READY NATION 20 HEALTHY OCEANS 21 RESILIENT COASTAL COMMUNITIES AND ECONOMIES
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Portland,
Maine
041034536
United States
Geographic Scope
Single Zip Code
Related Opportunity
Viable Gear was awarded
Project Grant NA24OARX021G0033
worth $650,000
from National Oceanic and Atmospheric Administration in September 2024 with work to be completed primarily in Portland Maine United States.
The grant
has a duration of 2 years and
was awarded through assistance program 11.021 NOAA Small Business Innovation Research (SBIR) Program.
The Project Grant was awarded through grant opportunity FY24 NOAA SBIR Phase II.
SBIR Details
Research Type
SBIR Phase II
Title
Manufacturing an innovative seaweed-based bioplastic to replace petroleum-based plastic used in fishing and aquaculture gear.
Abstract
Viable Gear, LLC’s (VG) Phase I delivered proof-of-concept prototype twine with innovative seaweed based bioplastic material technology. The Viable Gear team will further develop its prototype in Phase II, preparing to bring its first product to market: a marine degradable biotwine used for seed string in seaweed nurseries. This biotwine is intended to replace the petroleum-based nylon string that most seaweed nurseries use today, and to replace nylon tubular mesh used in fishing gear like lobster and crab bait bags. When plastic fishing and aquaculture gear is lost or discarded at sea, it persists for indefinite periods of time, slowly breaking down into smaller pieces, and continuing to catch and kill marine life longer after its intended use by ocean harvesters, a phenomenon otherwise known as ghost fishing. In fact, this ghost gear from the fishing and aquaculture industries constitutes the majority of the macroplastics floating in the ocean (Lebreton et al., 2022). These macroplastics contribute to injury and death of marine species via entanglement and ingestion as they break down further into smaller fragments – micro- and nanoplastics - and can also render toxic health effects for humans through the consumption of seafood. The proposed project addresses NOAA-SBIR research topic area 9.3 The Changing Oceans; particularly to, “Support increased protection and restoration of marine and coastal habitats to enhance vital ecosystems” and “Facilitate sustainable and productive aquaculture practices and facilities” (NOAA, 2023). In Phase II, Viable Gear will continue the development of its material technology to refine its prototype biotwine, including mechanical, thermal, and ocean testing for future use cases. It will also identify the appropriate equipment, manufacturing machinery, and partners needed to commercialize and scale this material technology.
Phase II will deliver a minimum viable product (MVP) from Viable Gear’s seaweed-based bioplastic material technology for a seeding biotwine for use in seaweed nurseries. Seeding twines – “seed string” - are commonly used as substrata for seeding, allowing growers to seed in high densities and then efficiently transplant the growing juvenile seaweed to sea farms. Once successfully commercialized, adoption of VG’s biotwine by seaweed nurseries and farmers will eliminate the possibility of lost or discarded seed string resulting in marine mammal entanglement or plastic pollution as it is designed to be marine degradable. Furthermore, the circularity of using seaweed to create a product used to grow more seaweed reduces the environmental footprint of the seaweed industry while amplifying the ecosystem and social benefits of the practice.
Topic Code
9.3
Solicitation Number
NOAA-OAR-TPO-2024-2008239
Status
(Ongoing)
Last Modified 3/5/25
Period of Performance
9/1/24
Start Date
8/31/26
End Date
Funding Split
$650.0K
Federal Obligation
$0.0
Non-Federal Obligation
$650.0K
Total Obligated
Activity Timeline
Transaction History
Modifications to NA24OARX021G0033
Additional Detail
Award ID FAIN
NA24OARX021G0033
SAI Number
NA24OARX021G0033-003
Award ID URI
None
Awardee Classifications
Small Business
Awarding Office
1305N2 DEPT OF COMMERCE NOAA
Funding Office
1333BR OFC OF PROG.PLANNING&INTEGRATION
Awardee UEI
NLNVUH1M7P96
Awardee CAGE
98RD5
Performance District
ME-01
Senators
Susan Collins
Angus King
Angus King
Modified: 3/5/25