Investeringsoversigt

8247 Investeringer

Titel Sortér faldende	Periode	Program
Surgical Pakke Robot	2019 - 2020	Innobooster
Surgical Pakke Robot Periode 2019 - 2020 Region Region Hovedstaden Program Innobooster Fagområde Biotek, Medico og Sundhed Investering Percentage 33 Fondens investering 127.050 Samlet budget 385.000 Projektdeltagere Caretag Aps Projektleder CARETAG ApS Læs mere om projektet
SusBrane Towards Zero-harmful Discharge: Sustainable Industrial Laundry Wastewater Treatment by Advanced Membrane Technologies	2023 - 2027	Grand Solutions
SusBrane Towards Zero-harmful Discharge: Sustainable Industrial Laundry Wastewater Treatment by Advanced Membrane Technologies Periode 2023 - 2027 Region Program Grand Solutions Fagområde Ikke defineret Investering Percentage 68.93 Fondens investering 13,8 mio. Samlet budget 20,1 mio. 35% of the total annual emissions of micro-/nano-plastics (MNPs) into the environment comes from the washing of synthetic textiles. This, as well as the fact that contaminants of emerging concerns (CECs) from garments can be absorbed by MNPs, makes the discharge of MNPs from industrial laundry wastewater an environmental problem. It can lead to aquatic pollution through inadequately treated wastewater and terrestrial contamination due to the use of wastewater sludge in agriculture. It results in chronic exposure as MNPs work their way up through the food chain, ending up in human food products. As society moves toward a circular economy, by increasing the use of multi-use garments, there is an urgent need to remove the MNPs from industrial laundry wastewater before discharge into the sewage. However, the current industrial laundries are not capable of removing MNPs. An estimated 90% of industrial laundry wastewater discharges to sewage without adequate treatment, raising risks for the natural environment and human health. SusBrane consortium delivers a solution to this problem by capturing MNPs in a membrane filtration system followed by degradation of nano-plastics (NPs) and CECs in a catalytic reactor. The implementation will enable the industrial laundries to achieve zero-harmful discharge, reduce consumption of freshwater by 90% and energy by 20%, enabling significant cost reduction (Return on Investment = 55%), circular economy solutions and CO2 reductions. Projektdeltagere Technical University of Denmark, LiqTech Ceramics A/S, Central vaskeriet, University of Extremadura, JENSEN INDUSTRIAL GROUP A/S, Ecolab ApS Projektleder Læs mere om projektet
SusProPass: Enabling Sustainable Production of UPM3 Circulation Pumps via Process Passports	2023 - 2026	Erhvervsforsker
SusProPass: Enabling Sustainable Production of UPM3 Circulation Pumps via Process Passports Periode 2023 - 2026 Region Program Erhvervsforsker Fagområde Ikke defineret Investering Percentage 51.62 Fondens investering 1,0 mio. Samlet budget 2,0 mio. Projektet sigter mod at udvikle konceptet med processpas, der kan bidrage til at forbedre beregning af Grundfos’ produktionsmiljøpåvirkninger og øge troværdigheden af deres bæredygtighedsrapportering. Projektets resultater vil implementere processpas til produktionen af Grundfos UPM3-pumper og demonstrere at, de kan forbedre nøjagtigheden af produktions-CO2-beregning med op til 25% og muliggøre identifikation af processoptimeringsmuligheder der kan øge materialforbrugseffektiviteten med 5-8%. Projektdeltagere Aarhus University, GRUNDFOS A/S Projektleder Læs mere om projektet
Sustainable aluminium busbars for electrical vehicles	2024 - 2027	Erhvervsforsker
Sustainable aluminium busbars for electrical vehicles Periode 2024 - 2027 Region Program Erhvervsforsker Fagområde Ikke defineret Investering Percentage 62.98 Fondens investering 1,1 mio. Samlet budget 1,7 mio. Målet med det foreslåede erhvervs-PhD-projekt er at udvikle avancerede bæredygtige aluminium (Al) busbar løsninger til højspændings (HV) strømdistribution i elektriske køretøjer (EV'er). Dette mål vil blive opnået gennem en kombination af dybtgående højopløsnings mikrostrukturell karakterisering af nyudviklede Al-busbarlegeringer og applikationsspecifik testing ved realistiske EV-strømfordelingsforhold. En ny Al busbarlegering, der rummer minimum 40 vægt% genanvendt Al vil blive udviklet. Projektdeltagere Technical University of Denmark, HYDRO PRECISION TUBING TØNDER A/S Projektleder Læs mere om projektet
Sustainable and democratic IoT development	2023 - 2024	Innofounder
Sustainable and democratic IoT development Periode 2023 - 2024 Region Program Innofounder Fagområde Ikke defineret Investering Percentage 100 Fondens investering 430.000 Samlet budget 430.000 Microsoft estimates today that 30% of all IoT implementations fail. As IoT technology is a key factor in becoming more sustainable, optimised and data-driven, it is very important that we find a more stable solution. IoT implementations seem easy and simple from the outside, but that is far from the truth. The production and development of each type of IoT device is different and thus entails its own IoT project with its own design, test and deployment phase. The current solution is therefore to pay hundreds of thousands for a proof-of-concept product, that might not work or scale well with the business. Iotbee is creating an innovative electronic IoT device, where hundreds of different types of sensors can be connected. We combine that with a streamlined and fully automatic design tool for all types of sensors, so that companies can create their own IoT products and start projects independently without large costs for consultants and where the prototype phase is shortened from 1 - 2 years to 1 - 2 weeks. The company will be able to utilise their data from day 1, making the barrier to IoT insanely low. Projektdeltagere Acembee ApS Projektleder Læs mere om projektet
Sustainable and Recyclable Composite Armor	2023 - 2024	Innofounder
Sustainable and Recyclable Composite Armor Periode 2023 - 2024 Region Program Innofounder Fagområde Ikke defineret Investering Percentage 100 Fondens investering 430.000 Samlet budget 430.000 The idea is to bring sustainable products to the armor industry where such solutions are basically unknown. As a European, and particularly a Danish, company the endeavour to spread green technology to a completely new business area seems logical. We want to push a branding "Made in Denmark using Sustainable Materials and Processes" on all products. There is a market pull for these solutions since more and more governments are shifting focus to green technology. Consequently, tenders for new equipment purchases are seeing calls for lifecycle management, focus on energy consumption as well as environmental impact and worker health. The industry is currently unfit to meet such requirements for armor solutions. Furthermore, this technology will be 100% Danish, which fits with the ongoing push to reduce European dependency on foreign companies and supply-chain for critical technology. Projektdeltagere Acorn Solutions ApS Projektleder Læs mere om projektet
Sustainable extraction of high performing proteins from rapeseed for functional food ingredients	2024 - 2025	Innoexplorer
Sustainable extraction of high performing proteins from rapeseed for functional food ingredients Periode 2024 - 2025 Region Program Innoexplorer Fagområde Ikke defineret Investering Percentage 100 Fondens investering 1,5 mio. Samlet budget 1,5 mio. Projektdeltagere Institut for Fødevarer, Aarhus Universitet Projektleder Læs mere om projektet
Sustainable Innovative Mobility Solutions (SIMS): Future low-carbon mobility integrating shared, electrified and autonomous transport SIMS	2019 - 2023	Grand Solutions
Sustainable Innovative Mobility Solutions (SIMS): Future low-carbon mobility integrating shared, electrified and autonomous transport SIMS Periode 2019 - 2023 Region Region Nordjylland Program Grand Solutions Fagområde Handel, Service og Samfund Investering Percentage 74.94 Fondens investering 6,2 mio. Samlet budget 8,3 mio. Projektdeltagere Aalborg University, Roskilde University, DELEBILFONDEN LETSGO, GreenMobility A/S, By- og Pendlercykel Fonden, Rejseplanen A/S, Udviklingsselskabet By og Havn I/S, Nærheden P/S, Københavns Kommune, Transport-, Bygnings- og Boligministeriet, Forenede Danske Motorejere Projektleder Aalborg Universitet Læs mere om projektet
Sustainable Mobility in Smaller Cities	2023 - 2025	Erhvervsforsker
Sustainable Mobility in Smaller Cities Periode 2023 - 2025 Region Program Erhvervsforsker Fagområde Ikke defineret Investering Percentage 42.49 Fondens investering 1,1 mio. Samlet budget 2,5 mio. Metoder til at reducere trafik-CO2 i de største byer kan ikke overføres til flertallet af danske byer der som Kolding har 20-70.000 indbyggere. Med en humanistisk tilgang afdækker vi, hvad der motivere borgere i mindre byer til at skifte fra bil til cykel og udvikler nye modeller for borgerinvolvering i mobilitetsplanlægningen. Vi antager at borgere gerne vil skifte, hvis vi forstår barrierer, udnytter personlige trafikdata, engagere civilsamfundet i problemerne og inddrager sociale fællesskaber Projektdeltagere University of Southern Denmark, Trafik, Vej & Park Projektleder Læs mere om projektet
Sustainable mobility with methanol fuel cells	2020 - 2021	Innobooster
Sustainable mobility with methanol fuel cells Periode 2020 - 2021 Region Region Nordjylland Program Innobooster Fagområde Ikke defineret Investering Percentage 100 Fondens investering 720.000 Samlet budget 720.000 Projektdeltagere Blue World Technologies ApS Projektleder Blue World Technologies ApS Læs mere om projektet
Sustainable Multi-domain GCS for Unmanned Systems	2024 - 2026	Innobooster
Sustainable Multi-domain GCS for Unmanned Systems Periode 2024 - 2026 Region Program Innobooster Fagområde Ikke defineret Investering Percentage 35 Fondens investering 993.563 Samlet budget 2,8 mio. Projektdeltagere UXV Technologies ApS Projektleder Læs mere om projektet
Sustainable Plant Wide Control of Water Resource Recovery Facilities	2023 - 2026	Erhvervsforsker
Sustainable Plant Wide Control of Water Resource Recovery Facilities Periode 2023 - 2026 Region Program Erhvervsforsker Fagområde Ikke defineret Investering Percentage 36.03 Fondens investering 1,1 mio. Samlet budget 3,0 mio. Den digitale udvikling og den bæredygtige udvikling flettes sammen med et mål om at optimere et moderne renseanlæg udfra omgivelsernes (d.v.s. interessenternes og miljøets) behov. Målet er at anlægget dynamisk tilpasser sig industrier, vejr, miljøbehov m.v. Projektet arbejder på tre abstraktionsniveauer: konceptualisering, modellering og test i virkeligheden. Projektet skal skabe viden, værktøjer og erfaringer til at lykkes med den digitale og bæredygtige transformation indenfor vand. Projektdeltagere Technical University of Denmark, HILLERØD FORSYNING HOLDING A/S Projektleder Læs mere om projektet
Sustainable production to reduce carbon footprint	2025 - 2025	Innobooster
Sustainable production to reduce carbon footprint Periode 2025 - 2025 Region Program Innobooster Fagområde Ikke defineret Investering Percentage 35 Fondens investering 997.500 Samlet budget 2,9 mio. Projektdeltagere Quantified Impacts ApS Projektleder Quantified Impacts ApS Læs mere om projektet
Sustainable Recycling of Platinum Group Metals	2020 - 2021	Innoexplorer
Sustainable Recycling of Platinum Group Metals Periode 2020 - 2021 Region Region Syddanmark Program Innoexplorer Fagområde Produktion, Materialer, Digitalisering og IKT Investering Percentage 100 Fondens investering 1,5 mio. Samlet budget 1,5 mio. Projektdeltagere Syddansk Universitet Projektleder Syddansk Universitet Læs mere om projektet
Sustainable rental solution to the event industry	2025 - 2025	Innobooster
Sustainable rental solution to the event industry Periode 2025 - 2025 Region Program Innobooster Fagområde Ikke defineret Investering Percentage 35 Fondens investering 526.375 Samlet budget 1,5 mio. Projektdeltagere Preo ApS Projektleder Preo ApS Læs mere om projektet