JIDEP

Joint Industrial Data Exchange Platform (Horizon, no.101058732 and UKRI grant no. 10037998), the EU-funded JIDEP project, focuses on reusing industrial data to support a new generation of data-driven services. TVS is developing the JIDEP platform, which is powered by a digital product passport, circularity calculator, lifecycle analysis, collaboration platform, and marketplace for the automotive, wind turbine, and e-waste industries.

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Smartrec

Developing a standard modularised solution for flexible and adaptive integration of heat recovery and thermal storage capable of recovery and management of waste heat. (H2020, no. 723838), the Smartrec project aims to make it easier to economically recover waste heat. By developing a standardised, modular solution for heat recovery and thermal storage, Smartrec offers a flexible approach to valorise medium to high-grade waste heat across different industries and temperatures. TVS has developed a knowledge-based tool containing all relevant Smartrec parameters and information to model the system fully and allow users to determine their requirements, and potential benefits and integrate Smartrec into their systems via an open access workshop

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COMBIOTES

Compact bio-based thermal energy storage for buildings (COMBIOTES) Project (H2020, no. 864490) brings together research centers, industrial designers, technologies, and suppliers into the same consortium to unite skills towards the construction of an enhanced thermal energy storage system, able to lower the costs of energy consumption for individual and private use. TVS has developed a multicriteria Decision Support system for integrating Thermal Energy Storages (TES) in residential buildings to reduce energy bills by incorporating various technical, economic, and environmental analysis tools.

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CoCaCo2la

Conversion of Captured CO2 to Industrial Chemicals CoCaCo2la (EU BEIS ACT programme, agreement no. 691712) project will help reduce greenhouse gas emissions and help meet international net zero targets. Using a nanostructured copper catalyst, the multi-skilled project team produced an integrated, room temperature, electrochemical carbon capture and utilisation (CCU) system to produce ethylene and other valuable chemicals, alongside a bench-top demonstrator for the system. TVS has done the life-cycle assessment (LCA) for carbon capture and utilisation of the project.

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SEHRENE

Store Electricity and Heat foR climatE Neutral Europe- SEHRENE (H2020, no. 101135763) project aims to develop a new electrothermal energy storage (ETES) concept designed to store renewable electricity (RE) and heat for restitution as needed. TVS will develop an online Decision Support System (DSS) platform for optimising the Industrial Waste & Renewable Heat (IWRH) recovery through the Thermal Energy Storage (TES) for the project.

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RECOMP

Recovery and reuse of waste heat energy for energy-intensive manufacturing (ReComp) Project has a cutting-edge Waste Heat Recovery (WHR) system representing a fully integrated solution meticulously engineered to harness waste heat from diverse sources within production facilities. TVS is specifically responsible for developing the ReComp tool and SCADA system. TVS will also contribute to evaluating the techno-economic and environmental performance of the project to align with the project's goals.

IMPHORAA

IMPHORAA project (Innovate UK, grant agreement no.90935) seeks to amplify the use of renewable nano-grids in the Philippines and Madagascar. This will support income growth and the development of sustainable communities in both countries, contributing significantly to 2030 UN Sustainable Agenda Goals. TVS is coordinating the project and developing a PCM-based coolbox, coolbox control, monitoring unit, and performing business model and life cycle analysis

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POWERPATH

Towards a new power infrastructure development path for rural Africa. (UKRI grant no. 10085837). PowerPath aims to open a new power infrastructure development path for rural Africa by developing and demonstrating in Madagascar a set of technological/social/business model innovations serving the emergence of a new electrification model named "Lateral Electrification." TVS coordinates the project and develops the remote monitoring and metering module for the lateral electrification.

GeoPro

The EU-funded (no. 851816) GEOPRO project will produce experimental data on high-concentration fluids' heat and mass transfer behaviour in very high temperatures. The data will be used to develop new tools for geothermal power plants, enhance system design and operation efficiency, and reduce energy costs. TVS has developed the GEOPRO knowledge-based decision support system by combining several technical, economic, and environmental analysis tools.

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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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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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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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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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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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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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nGEL

Next-generation flexible trigeneration geothermal ORC plant (nGEL) (Horizon, no. 101148170) aims to transform the geothermal ORC plants into flexible tri-generation plants capable of both efficiently as well as cost-effectively responding to the dynamic demand of power, heating, and cooling, attributing geothermal energy as a dispatchable source to balance the power and thermal grid against the progressive integration of intermittent Renewable Energy Sources (RES) (i.e., solar, wind). In the nGEL Project, Technovative Solutions LTD (TVS) will be using its technology to increase geothermal power production during higher ambient temperatures to increase the reliability of geothermal ORC.

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