Projects

What is HYPOBATT?

The transport sector is responsible for about 23% of CO2 emissions and is thus a significant source of climate-damaging greenhouse gases. After road and air transport, a significant amount of global CO2 emissions falls on shipping. On the way to a climate-friendly future, it is therefore crucial to find ways to reduce these emissions. The European project HYPOBATT (Hyper powered vessel battery charging system) has brought together 18 key players from the European maritime sector. 

 

What is ESCALATE?

Heavy-duty vehicles account for about 25% of EU road transport CO2 emissions and about 6% of total EU emissions. In line with the Paris Agreement and Green Deal targets, Regulation (EU) 2019/1242 setting CO2 emission standards for HDVs (from August 14, 2019) forces the transition to a seamless integration of zero-emission vehicles into fleets. In line with the European 2050 goals ESCALATE aims to demonstrate high-efficiency zHDV powertrains (up to 10% increase) for long-haul applications that will provide a range of 800 km without refueling/recharging and cover at least 500 km average daily operation (6+ months) in real conditions. 

 

What is FASTEST ?

The FASTEST project aims develope and validate a fast-track testing platform able to deliver a strategy based on Design of Experiments (DoE) and robust testing results, combining multi-scale and multi-physics virtual and physical testing. This will enable an accelerated battery system R&D and more reliable, safer and long-lasting battery system designs. The project’s prototype of a fast-track hybrid testing platform aims for a new holistic and interconnected approach. From a global test facility perspective, additional services like smart DoE algorithms, virtualised benches, and DT data are incorporated into the daily facility operation to reach a new level of efficiency.

 

What is HAVEN ?

HAVEN features a systematic, collaborative, and integrated approach to the design and demonstration of a cutting-edge, sustainable, and safe HESS capable of long-term storage and provision of multiple services for supporting the electrical grid and EV charging infrastructure by coupling complementary technology assets, namely, next-generation high-energy (HE) and high-power (HP) storage technologies, optimised power converter devices with innovative cognitive functionalities, and advanced and cyber-secured energy management and control tools and strategies in a novel system architecture.

What is TWINVEST?

TWINVEST intends to lay the groundwork for a universal open source and cybersecure Digital Twin (DT) that will serve as the most trustworthy and collaborative environment for various stakeholders in onshore wind energy. Additionally, the DT that will be built in TWINVEST will contemplate a wide variety of beyond state of the art models and modelling approaches for the different parts of the complex wind energy system (i.e., wind farm model based on wind turbine components models that are available from different Original Equipment Manufacturers (OEMs), weather and wind models, sitting, sizing and wake effects, AI and machine learning algorithms to extract useful information from the Supervisory Control and Data Acquisition (SCADA) databases of current operations, and energy management system to provide accurate forecasting and recommendations for optimising the operations, efficiency, and health of wind energy assets as well as energy production).