SubsidieMeestersENERSENS Motion to Thin Insulation
ENERSENS aims to revolutionize insulation materials with EN.MOTION, a cost-efficient process for producing ultra-thin, high-performance silica aerogel blankets to enhance energy efficiency.
Projectdetails
Introduction
With the impact of building and transport activities on the environment becoming more and more apparent, thermal insulation materials are being widely used to increase energy efficiency and cleanliness via renovation in buildings, development of EV and associated batteries.
Conventional Insulation Materials
Several conventional insulation materials exist. However, a new generation of high-performance insulation based on silica aerogel advanced materials is about to revolutionize the market.
Challenges in Production
The problem lies in the production cost of silica aerogel materials, which are too expensive to be adopted at large scale and too complex to meet the market's size requirements.
EN.MOTION Development
ENERSENS has developed EN.MOTION: a continuous manufacturing process to create cost-efficient, ready-to-use, 3x more performant, ultra-thin film aerogel blankets (SKOGAR).
Ambition and Goals
With EN.MOTION, ENERSENS has the ambition to become the leader of high-performance insulation material thanks to an innovative industrial process that drastically reduces production costs.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.427.794 |
| Totale projectbegroting | € 3.468.278 |
Tijdlijn
| Startdatum | 1-2-2022 |
| Einddatum | 31-5-2025 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- ENERSENSpenvoerder
Land(en)
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A new cardioprotective drug for acute treatment of myocardial infarction
ResoTher aims to validate RTP-026, an immunomodulating therapy, to reduce heart damage and HF risk post-myocardial infarction through Phase II clinical studies.
"The NIMBLE System: A novel non-invasive and non-ionizing medical device for the continous monitoring of patients with implanted cardiovascular stents"""
NIMBLE Diagnostics is developing a microwave-based device for non-invasive stent monitoring, aiming to shift from reactive to proactive care and improve patient outcomes.
Autonomous robotics and digital TWIN to improve water network performances
The project develops a robotic inspection system for water utilities, enabling autonomous pipeline assessments to enhance water quality and sustainability through a subscription-based RaaS model.
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Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
A paradigm shift for the future's thermal management devices through radical innovation in new materials and additive manufacturingThermoDust aims to revolutionize thermal management by developing a novel material using nanotechnology and additive manufacturing for enhanced heat transport in electronics, EVs, and aerospace. | EIC Pathfinder | € 3.275.985 | 2022 | Details |
Circular Aerogel Reusable Building Insulation ProductsThe CARBIP-LIFE project aims to develop sustainable, high-performance aerogel-based insulation materials using recycled fibers, achieving circularity in building facades with a large-scale production of 50,000 m² panels. | LIFE SAP | € 3.216.654 | 2022 | Details |
Vacuo VelitHet project ontwikkelt een innovatief isolatiemateriaal dat kosten verlaagt, materiaalverbruik minimaliseert en de isolatie verbetert, met als doel CO2-uitstoot te verminderen en duurzame energie te benutten. | MIT Haalbaarheid | € 20.000 | 2021 | Details |
Ontwikkeling van een nieuw type keramische matrix composiet dat bestand is tegen zeer hoge temperaturen, oxidatie en trekkrachten.Het project richt zich op het ontwikkelen van flexibele SiC-vezels voor keramische matrixcomposieten, om de efficiëntie in luchtvaart en energie te verhogen en CO2-emissies te reduceren. | MIT R&D Samenwerking | € 199.572 | 2020 | Details |
A paradigm shift for the future's thermal management devices through radical innovation in new materials and additive manufacturing
ThermoDust aims to revolutionize thermal management by developing a novel material using nanotechnology and additive manufacturing for enhanced heat transport in electronics, EVs, and aerospace.
Circular Aerogel Reusable Building Insulation Products
The CARBIP-LIFE project aims to develop sustainable, high-performance aerogel-based insulation materials using recycled fibers, achieving circularity in building facades with a large-scale production of 50,000 m² panels.
Vacuo Velit
Het project ontwikkelt een innovatief isolatiemateriaal dat kosten verlaagt, materiaalverbruik minimaliseert en de isolatie verbetert, met als doel CO2-uitstoot te verminderen en duurzame energie te benutten.
Ontwikkeling van een nieuw type keramische matrix composiet dat bestand is tegen zeer hoge temperaturen, oxidatie en trekkrachten.
Het project richt zich op het ontwikkelen van flexibele SiC-vezels voor keramische matrixcomposieten, om de efficiëntie in luchtvaart en energie te verhogen en CO2-emissies te reduceren.