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Geothermal Energy: Powering a Greener World

With the rise of intermittent renewables, the demand for reliable and sustainable energy sources like geothermal is on the rise. To enhance the competitiveness of geothermal energy, technological advancements are crucial. Technovative Solutions is actively developing technologies to improve the performance and cost-effectiveness of geothermal power plants.

Technology we use

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Thermal storage for power plant’s flexibility enhancement

To respond quickly to the heat and power demand and to stabilize the grid, the operational flexibility of the Geothermal plant needs to be increased. Using a thermal storage unit to store energy during low demand and release it during high demand will protect critical infrastructure from thermal fatigue, preventing failures in production wells and reinjection systems.

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Tackling temperature variation for a steady power generation

Seasonal temperature variation negatively impacts geothermal energy production. Every year Europe is experiencing new records of temperature rise, creating further challenges for efficient geothermal operation. TVS has developed a solution to enhance the performance of the geothermal ORC plant during high ambient temperature conditions

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Novel coating development to fight harsh environment in geothermal setting

High temperature, pressure, and corrosive salts threaten geothermal power components. Increasing geothermal output requires higher enthalpy fluid from deeper wells. TVS has worked with partners to develop specialised corrosion- and erosion-resistant coatings to provide the required bond strength, hardness and density for these challenging applications.

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Novel Heat Exchanger design

Heat exchangers (HXs) are crucial for geothermal power plants, especially ORC-based ones. Corrosion and scaling from brine require costly, oversized HXs. Carbon steel HXs with anti-corrosion and anti-scaling properties can reduce size and cost, and lower the Levelised Cost of Electricity (LCOE). TVS is collaborating to enhance HX performance for geothermal applications

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Geofluid behaviour modelling to achieve maximum efficiency

The ETIP Vision and EU Technology Roadmap for geothermal emphasises better control and understanding of geothermal energy to boost its low-carbon share. Geofluid properties are crucial for heat transfer efficiency. TVS collaborates with partners to enhance geofluid understanding, modelling, and support improved design efficiency for geothermal users

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AI-based advisory system to increase drill’s life

Drilling is the most significant cost in geothermal projects, making up 30-70% of expenses. Reducing this cost involves increasing the rate of penetration (ROP) and extending component life, minimising the need for tripping. TVS is developing a unified drilling advisory system using multiple ML model modules for analysis, prediction, and optimisation.

Our projects

GeoCoat

The Geo-coat project (H2020-Energy, no. 764086) has developed specialised corrosion- and erosion-resistant coatings to provide higher bond strength, hardness, and density for challenging geothermal applications. TVS has developed a Knowledge Base Multi-Criterion Decision Support System for creating different coating materials and selecting coating processing technologies for geothermal applications.

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Consortium Partners:

TWI LtdWEIR Group PLCON PowerUniversity of IcelandUniversity Politehnica Bucharest (UPB)GerosionTVSTEHNOID COM SRLFlowPhys ASMetavThe Innovation Center Iceland (ICI)TWI LtdWEIR Group PLCON PowerUniversity of IcelandUniversity Politehnica Bucharest (UPB)GerosionTVSTEHNOID COM SRLFlowPhys ASMetavThe Innovation Center Iceland (ICI)TWI LtdWEIR Group PLCON PowerUniversity of IcelandUniversity Politehnica Bucharest (UPB)GerosionTVSTEHNOID COM SRLFlowPhys ASMetavThe Innovation Center Iceland (ICI)

GeoDrill

Development of novel and cost-effective drilling technology for Geothermal Systems (H2020-Engergy, no. 815319). The project aims to develop optimised drilling equipment to cut costs and increase the rate of penetration in geothermal extraction. TVS has developed a Knowledge Base Multi-Criterion Decision Support System for deep geothermal drilling incorporating technical, economic, and environmental analysis tools.

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Consortium Partners:

TWI LtdBochum University of Applied SciencesGeolorn LtdJardboranir HFPrecision Varionic International LimitedTVSFlowphys ASCommissariat aFraunhofer Society (Fraunhofer-Gesellschaft)Gerosion EHFHaskoli IslandsRina Consulting - Centro Sviluppo Materiali SpaGraphenea SAEnergie Atomique et aux energies AlternativesTWI LtdBochum University of Applied SciencesGeolorn LtdJardboranir HFPrecision Varionic International LimitedTVSFlowphys ASCommissariat aFraunhofer Society (Fraunhofer-Gesellschaft)Gerosion EHFHaskoli IslandsRina Consulting - Centro Sviluppo Materiali SpaGraphenea SAEnergie Atomique et aux energies AlternativesTWI LtdBochum University of Applied SciencesGeolorn LtdJardboranir HFPrecision Varionic International LimitedTVSFlowphys ASCommissariat aFraunhofer Society (Fraunhofer-Gesellschaft)Gerosion EHFHaskoli IslandsRina Consulting - Centro Sviluppo Materiali SpaGraphenea SAEnergie Atomique et aux energies Alternatives

GeoSmart

Technologies for geothermal to enhance competitiveness in smart and flexible operation (H2020-Renewable Energy, no. 818576). The EU-funded GeoSmart project has developed methods to store heat energy when demand is low to release it when demand is high. The project also developed a hybrid cooling system for the organic Rankine cycle plant to prevent efficiency degradation due to seasonal changes. TVS has developed a Knowledge Base Multi-Criterion Decision Support System for the flexible operation of geothermal plants, incorporating various technical, economic, and environmental analysis tools.

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Consortium Partners:

TWI LtdVITO (Vlaamse Instelling voor Technologisch Onderzoek)European Geothermal Energy Council (EGEC)Fraunhofer Society (Fraunhofer-Gesellschaft)Spike Renewables SRL ON (ORKUVEITA REYKJAVIKUR SF)Haskoli IslandsMiddle East Technical University (METU) Gerosion EHFKadir Has University (KHAS)TVSFlowPhys ASPvald EHF IcelandCoSviG (Consortium for the Development of Geothermal Areas)ICETECNaldeoTWI LtdVITO (Vlaamse Instelling voor Technologisch Onderzoek)European Geothermal Energy Council (EGEC)Fraunhofer Society (Fraunhofer-Gesellschaft)Spike Renewables SRL ON (ORKUVEITA REYKJAVIKUR SF)Haskoli IslandsMiddle East Technical University (METU) Gerosion EHFKadir Has University (KHAS)TVSFlowPhys ASPvald EHF IcelandCoSviG (Consortium for the Development of Geothermal Areas)ICETECNaldeoTWI LtdVITO (Vlaamse Instelling voor Technologisch Onderzoek)European Geothermal Energy Council (EGEC)Fraunhofer Society (Fraunhofer-Gesellschaft)Spike Renewables SRL ON (ORKUVEITA REYKJAVIKUR SF)Haskoli IslandsMiddle East Technical University (METU) Gerosion EHFKadir Has University (KHAS)TVSFlowPhys ASPvald EHF IcelandCoSviG (Consortium for the Development of Geothermal Areas)ICETECNaldeo

GeoHex

Advanced material for cost-efficient and enhanced heat exchange performance for geothermal application (H2020-Engergy, no. 851917). Heat exchangers (HXs) play a crucial role in geothermal power plants. The EU-funded GeoHex project has developed novel materials for geothermal heat exchangers. TVS has developed a Knowledge Base Multi-Criterion Decision Support System for selecting HX materials based on various technical, economic, and environmental analysis tools

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Consortium Partners:

TWI Ltd.ICETECENOGIAON (ORKUVEITA REYKJAVIKUR SF)FlowPhys ASTVSGREIN ResearchUniversity of LeicesterUniversity of IcelandUniversity Politehnica of Bucharest Spike Renewables SRLQuantun LeapTWI Ltd.ICETECENOGIAON (ORKUVEITA REYKJAVIKUR SF)FlowPhys ASTVSGREIN ResearchUniversity of LeicesterUniversity of IcelandUniversity Politehnica of Bucharest Spike Renewables SRLQuantun LeapTWI Ltd.ICETECENOGIAON (ORKUVEITA REYKJAVIKUR SF)FlowPhys ASTVSGREIN ResearchUniversity of LeicesterUniversity of IcelandUniversity Politehnica of Bucharest Spike Renewables SRLQuantun Leap

OptiDrill

The EU-funded OptiDrill project (H2020, no. 101006964) introduces an innovative drilling advisory system based on enhanced monitoring systems and multiple data-driven machine-learning modules for analysis, prognosis, and optimization. Each module is responsible for one aspect of the drilling or completion process. TVS is developing a machine learning-based drill advisory system to help drillers optimize parameters.

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Consortium Partners:

Fraunhofer IEGGeolorn LtdGeothermal Engineering Ltd. (GEL) United Kingdom Research and Innovation (BGS)Bestec GMBH (BESTEC)TVSRadial Drilling Europe BV (RDE)Precision Varionic International Limited (PVI)ENBW Energie Baden-Wurttemberg AG (EnBW) Well Guidance B.V. (WG) Orkuveita Reykjavikur SF (ON)Fraunhofer IEGGeolorn LtdGeothermal Engineering Ltd. (GEL) United Kingdom Research and Innovation (BGS)Bestec GMBH (BESTEC)TVSRadial Drilling Europe BV (RDE)Precision Varionic International Limited (PVI)ENBW Energie Baden-Wurttemberg AG (EnBW) Well Guidance B.V. (WG) Orkuveita Reykjavikur SF (ON)Fraunhofer IEGGeolorn LtdGeothermal Engineering Ltd. (GEL) United Kingdom Research and Innovation (BGS)Bestec GMBH (BESTEC)TVSRadial Drilling Europe BV (RDE)Precision Varionic International Limited (PVI)ENBW Energie Baden-Wurttemberg AG (EnBW) Well Guidance B.V. (WG) Orkuveita Reykjavikur SF (ON)

COMPASS

Sustainable and cost-efficient concepts enabling green power production from supercriticAl/superhot geothermal wells. (Horizon, no. 101084623 and UKRI grant no. 10057822). Drilling superhot geothermal wells unlocks new resources and boosts power output, reducing environmental impact. The EU-funded COMPASS project addresses key technical challenges in accessing these formations. TVS developed cradle-to-gate LCA and parametric cost tools for well completion for Icelandic and Italian superhot resource scenarios.

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Consortium Partners:

ON Power OHFTGEORG - RANNSOKNARKLASITWI ltd.TVSOR - ORKUVEITA REYKJAVIKURJARDHITAHLC - HORNET LASER CLADDING B.VISOR - ISLENSKAR ORKURANNSOKNIRSINTEF - SINTEF ASCURISTECCOSVIG - CONSORZIO PER LO SVILUPPO DELLE AREE GEOTERMICHE ON Power OHFTGEORG - RANNSOKNARKLASITWI ltd.TVSOR - ORKUVEITA REYKJAVIKURJARDHITAHLC - HORNET LASER CLADDING B.VISOR - ISLENSKAR ORKURANNSOKNIRSINTEF - SINTEF ASCURISTECCOSVIG - CONSORZIO PER LO SVILUPPO DELLE AREE GEOTERMICHE ON Power OHFTGEORG - RANNSOKNARKLASITWI ltd.TVSOR - ORKUVEITA REYKJAVIKURJARDHITAHLC - HORNET LASER CLADDING B.VISOR - ISLENSKAR ORKURANNSOKNIRSINTEF - SINTEF ASCURISTECCOSVIG - CONSORZIO PER LO SVILUPPO DELLE AREE GEOTERMICHE

Funded by

Innovative UKDepartment for Business, Energy & Industrial StrategyEuropian Union