WASTE2FUNC | Lactic acid and biosurfactants sourced from sustainable agricultural and industrial (food) WASTE feedstocks as novel FUNCtional ingredients for consumer products

Summary
The WASTE2FUNC project aims to resolve supply chain hurdles towards the efficient conversion of food (crop) waste into two types of biobased functional molecules for use in home- and personal care applications: lactic acid and microbial biosurfactants, functionally outperforming or equalling their respective fossil-based and/or 1G bio-based benchmarks. A new and sustainable biomass waste supply chain will be set up, in close interaction with the primary sector, by developing an ‘ad hoc’ registration- and collection system for erratic agricultural biomass waste and integrating this new biomass supply chain with an existing industrially available and continuous food waste stream , currently converted into biogas. This integration is crucial to build viable business cases associated with the WASTE2FUNC supply- and -value chains. The integration of the WASTE2FUNC biomass supply chain with new value chains based on the cost- and eco- efficient conversion of the waste biomass into market ready functional molecules for home- and personal care applications will be demonstrated. The value chains will be set up by (interaction with) all relevant key stakeholders: farmers and their representatives, primary crop-/food processors, food processors and -retailers, food waste collectors, technology owners for bio-based process, scale up facilities, product developers and -retailers in the respective sectors of application (home- and personal care) (B2B and B2C), regulators and last but not least the consumer . This interaction will be key to define benefits required for the farmers, regulatory- and processing hurdles, product developer- and consumer requirements and -constraints. Together with environmental, economic, social and regulatory analyses and constant optimization, performed by the WASTE2FUNC project partners, this will decrease CO2 emissions with at least 20% and increase value from waste with 2-10 fold and create (high tech) jobs for the primary- and downstream sector in Belgium and Europe.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101023664
Start date: 01-06-2021
End date: 30-11-2024
Total budget - Public funding: 14 305 851,00 Euro - 6 703 878,00 Euro
Cordis data

Original description

The WASTE2FUNC project aims to resolve supply chain hurdles towards the efficient conversion of food (crop) waste into two types of biobased functional molecules for use in home- and personal care applications: lactic acid and microbial biosurfactants, functionally outperforming or equalling their respective fossil-based and/or 1G bio-based benchmarks. A new and sustainable biomass waste supply chain will be set up, in close interaction with the primary sector, by developing an ‘ad hoc’ registration- and collection system for erratic agricultural biomass waste and integrating this new biomass supply chain with an existing industrially available and continuous food waste stream , currently converted into biogas. This integration is crucial to build viable business cases associated with the WASTE2FUNC supply- and -value chains. The integration of the WASTE2FUNC biomass supply chain with new value chains based on the cost- and eco- efficient conversion of the waste biomass into market ready functional molecules for home- and personal care applications will be demonstrated. The value chains will be set up by (interaction with) all relevant key stakeholders: farmers and their representatives, primary crop-/food processors, food processors and -retailers, food waste collectors, technology owners for bio-based process, scale up facilities, product developers and -retailers in the respective sectors of application (home- and personal care) (B2B and B2C), regulators and last but not least the consumer . This interaction will be key to define benefits required for the farmers, regulatory- and processing hurdles, product developer- and consumer requirements and -constraints. Together with environmental, economic, social and regulatory analyses and constant optimization, performed by the WASTE2FUNC project partners, this will decrease CO2 emissions with at least 20% and increase value from waste with 2-10 fold and create (high tech) jobs for the primary- and downstream sector in Belgium and Europe.

Status

SIGNED

Call topic

BBI-2020-SO1-D1

Update Date

27-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.2. SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy
H2020-EU.3.2.0. Cross-cutting call topics
H2020-BBI-JTI-2020
BBI-2020-SO1-D1 Resolve supply-chain hurdles for turning residual waste streams into functional molecules for food and/or non-food market applications