Ocean Battery (Q3988838): Difference between revisions
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A sustainable future requires a shift to renewable energy generation and a drastic reduction of greenhouse gas emissions. The majority of the population is in favour of this changeover, but does not want to have a wind turbine in their backyard. Space on land is also scarce and precious. This is the reason that Ocean Grazer BV focuses on extracting sustainable energy at sea, combining this with sustainable energy storage on site, and in order to make the most of space. As a solution to this, Ocean Grazer BV developed an innovative and sustainable hybrid energy system that consists of a combination of a wave energy converter, a storage system and a multifunctional foundation for wind turbines to harvest sustainable energy at sea.Our storage system ‘Ocean Battery’ is one of the most important building blocks of this hybrid Ocean Grazer concept. It aligns demand and supply of renewable energy, ensures the very important security of supply and ultimately serves as a foundation for wind turbines and other renewable energy generation technologies. In addition, Ocean Battery can also be installed as a separate technology, it has the shortest time-to-market, and therefore high priority of valorisation within Ocean Grazer BV. Over the past 5 years, we have developed mathematical and numerical simulation models that describe different components and subsystems, in close collaboration with the University of Groningen. These innovative components, with underlying models, have each been tested up to TRL4, except Ocean Battery which is still on TRL3.The objective of this project is to develop the necessary knowledge and to bring the storage system ‘Ocean Battery’ from TRL3 to TRL5 and validate it with simulation models and experimental measurements in a realistic environment, in order to provide a solid basis for future investors in Ocean Grazer technology to further valorise the concept. (English) | |||||||||||||||
| Property / summary: A sustainable future requires a shift to renewable energy generation and a drastic reduction of greenhouse gas emissions. The majority of the population is in favour of this changeover, but does not want to have a wind turbine in their backyard. Space on land is also scarce and precious. This is the reason that Ocean Grazer BV focuses on extracting sustainable energy at sea, combining this with sustainable energy storage on site, and in order to make the most of space. As a solution to this, Ocean Grazer BV developed an innovative and sustainable hybrid energy system that consists of a combination of a wave energy converter, a storage system and a multifunctional foundation for wind turbines to harvest sustainable energy at sea.Our storage system ‘Ocean Battery’ is one of the most important building blocks of this hybrid Ocean Grazer concept. It aligns demand and supply of renewable energy, ensures the very important security of supply and ultimately serves as a foundation for wind turbines and other renewable energy generation technologies. In addition, Ocean Battery can also be installed as a separate technology, it has the shortest time-to-market, and therefore high priority of valorisation within Ocean Grazer BV. Over the past 5 years, we have developed mathematical and numerical simulation models that describe different components and subsystems, in close collaboration with the University of Groningen. These innovative components, with underlying models, have each been tested up to TRL4, except Ocean Battery which is still on TRL3.The objective of this project is to develop the necessary knowledge and to bring the storage system ‘Ocean Battery’ from TRL3 to TRL5 and validate it with simulation models and experimental measurements in a realistic environment, in order to provide a solid basis for future investors in Ocean Grazer technology to further valorise the concept. (English) / rank | |||||||||||||||
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| Property / summary: A sustainable future requires a shift to renewable energy generation and a drastic reduction of greenhouse gas emissions. The majority of the population is in favour of this changeover, but does not want to have a wind turbine in their backyard. Space on land is also scarce and precious. This is the reason that Ocean Grazer BV focuses on extracting sustainable energy at sea, combining this with sustainable energy storage on site, and in order to make the most of space. As a solution to this, Ocean Grazer BV developed an innovative and sustainable hybrid energy system that consists of a combination of a wave energy converter, a storage system and a multifunctional foundation for wind turbines to harvest sustainable energy at sea.Our storage system ‘Ocean Battery’ is one of the most important building blocks of this hybrid Ocean Grazer concept. It aligns demand and supply of renewable energy, ensures the very important security of supply and ultimately serves as a foundation for wind turbines and other renewable energy generation technologies. In addition, Ocean Battery can also be installed as a separate technology, it has the shortest time-to-market, and therefore high priority of valorisation within Ocean Grazer BV. Over the past 5 years, we have developed mathematical and numerical simulation models that describe different components and subsystems, in close collaboration with the University of Groningen. These innovative components, with underlying models, have each been tested up to TRL4, except Ocean Battery which is still on TRL3.The objective of this project is to develop the necessary knowledge and to bring the storage system ‘Ocean Battery’ from TRL3 to TRL5 and validate it with simulation models and experimental measurements in a realistic environment, in order to provide a solid basis for future investors in Ocean Grazer technology to further valorise the concept. (English) / qualifier | |||||||||||||||
point in time: 15 December 2021
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Revision as of 06:19, 15 December 2021
Project Q3988838 in Netherlands
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Ocean Battery |
Project Q3988838 in Netherlands |
Statements
600,256.68 Euro
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1,585,882.906 Euro
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37.85 percent
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1 May 2019
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30 April 2022
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Ocean Grazer BV
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53°14'38.65"N, 6°32'1.18"E
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9608 PN
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9747AN
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9712 CP
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Voor een duurzame toekomst is overschakeling naar hernieuwbare-energieopwekking en een drastische reductie van de uitstoot van broeikasgassen nodig. De meerderheid van de bevolking is voor deze omschakeling, maar wil geen windturbine in hun achtertuin hebben staan. Ook is de ruimte op land schaars en kostbaar. Dit is de reden dat Ocean Grazer BV zich richt op het winnen van duurzame energie op zee, dit te combineren met duurzame energieopslag op locatie, en om zo de ruimte zo optimaal mogelijk te benutten.Als oplossing hiervoor ontwikkeld Ocean Grazer BV een innovatief en duurzaam hybride energiesysteem dat bestaat uit een combinatie van een golfenergie omzetter, een opslagsysteem en een multifunctionele fundatie voor windturbines om duurzame energie op zee te oogsten.Ons opslagsysteem ‘Ocean Battery’ is een van de belangrijkste bouwstenen van dit hybride Ocean Grazer concept. Het stemt vraag en aanbod van duurzame energie op elkaar af, zorgt voor de zeer belangrijke security of supply en dient uiteindelijk als fundering voor windturbines en andere duurzame energieopwekking technologieën. Daarnaast kan Ocean Battery ook als afzonderlijke technologie worden geïnstalleerd, heeft het de kortste time-to-market, en daarmee hoogte prioriteit van valorisatie binnen Ocean Grazer BV.In de afgelopen 5 jaar hebben we, in nauwe samenwerking met de Rijksuniversiteit Groningen, wiskundige en numerieke simulatiemodellen ontwikkeld die verschillende componenten en subsystemen beschrijven. Deze innovatieve componenten, met onderliggende modellen, zijn elk getest tot op TRL4, behalve Ocean Battery welke zich nog op TRL3 bevindt.De doelstelling van dit project is om de benodigde kennis te ontwikkelen en om zo het opslagsystem ‘Ocean Battery’ van TRL3 naar TRL5 te brengen en deze te valideren met simulatiemodellen en experimentele metingen in een realistische omgeving, om zo een solide basis te leggen voor toekomstige investeerders in de Ocean Grazer-technologie om het concept verder te valoriseren. (Dutch)
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A sustainable future requires a shift to renewable energy generation and a drastic reduction of greenhouse gas emissions. The majority of the population is in favour of this changeover, but does not want to have a wind turbine in their backyard. Space on land is also scarce and precious. This is the reason that Ocean Grazer BV focuses on extracting sustainable energy at sea, combining this with sustainable energy storage on site, and in order to make the most of space. As a solution to this, Ocean Grazer BV developed an innovative and sustainable hybrid energy system that consists of a combination of a wave energy converter, a storage system and a multifunctional foundation for wind turbines to harvest sustainable energy at sea.Our storage system ‘Ocean Battery’ is one of the most important building blocks of this hybrid Ocean Grazer concept. It aligns demand and supply of renewable energy, ensures the very important security of supply and ultimately serves as a foundation for wind turbines and other renewable energy generation technologies. In addition, Ocean Battery can also be installed as a separate technology, it has the shortest time-to-market, and therefore high priority of valorisation within Ocean Grazer BV. Over the past 5 years, we have developed mathematical and numerical simulation models that describe different components and subsystems, in close collaboration with the University of Groningen. These innovative components, with underlying models, have each been tested up to TRL4, except Ocean Battery which is still on TRL3.The objective of this project is to develop the necessary knowledge and to bring the storage system ‘Ocean Battery’ from TRL3 to TRL5 and validate it with simulation models and experimental measurements in a realistic environment, in order to provide a solid basis for future investors in Ocean Grazer technology to further valorise the concept. (English)
15 December 2021
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Identifiers
OP-2014-2023-Noord-OPSNN0244
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