• Energy Research

Offshore Kinetics (OK), an innovative Norwegian SME, has developed a game changing offshore floating wind turbine support structure that will optimise installation, commissioning, operation (maintenance) and decommissioning of wind farms. OKs patented column, stabilization tank, universal joint and anchor provides an effective “all in one” deployment of wind turbines. The concept is considerably more cost efficient than the leading models on floating wind turbines in the world today, and will reduce both Capex an Opex of wind farms. Offshore Kinetics’ overall objective is to upscale, demonstrate, and commercialize our patented Wind Turbine Support Structure (WTSS) solution in the offshore wind market

Production of a prototype internal blade inspection system for use inside Offshore Wind Turbine blades including a cost benefit analysis.

Thermal end-uses (space heating, hot tap water, cooling) represent a major part of electricity consumption in Europe and cause consumption peaks, often when electricity is expensive. Hot tap water is the only thermal end-use provided as a base load over a year and that is stored. Space heating and air conditioning are seasonal thermal end-uses with a high residential electricity consumption. They are not stored at the buildings scale to allow peak shaving of the residential electricity consumption. These statements show the interest to develop appropriate thermal energy storages, suitable for buildings, to reduce the electricity bill of end-users. ComBioTES will thus develop a modular compact thermal energy storage (TES) solution for heating, hot tap water and cooling fully adapted for electricity load shifting. A first modular TES will be able to store hot tap water to be converted into ice storage during summer (cooling needs). A second compact latent TES, using high performances (ΔH≈260kJ/kg) bio-based non-aggressive PCM, will store high heating energy amount, for space heating or hot tap water demands. As thermal end-uses in buildings are different regarding seasonal needs, this concept combines the advantage of a modular TES (high utilization rate) with the high volumetric energy density of a latent TES using a bio-based PCM (high compactness: ≥ 100kWh/m3 ΔT=50°C). The ComBioTES consortium and associated External Advisory Board (Idex, Danfoss and Passive House) involve all relevant key players in energy storage and management: RTOs for development and testing infrastructure and SMEs for manufacturing & commercialization of the technology, and representative of potential customers and end users (building owners &operators). In line with IC7, two partners from CHINA (The Institute of Electrical Engineering of the Chinese Academy of Sciences, and The Henan Province GuoanHeating Equipment Co., LTD) will promote the ComBioTES concept in this country.

The world’s energy market, with an annual turnover of more than € 10 trillion, is in transition. Today’s renewables can replace 20-40% of fossil sources, however, their volatile energy output cause problems with grid stability and matching supply and demand. As a result, additional expenditure in the order of billions of € are required to expand the grid and adding storage solutions. EnerKíte offers a solution – tapping into an as of yet unused and stable energy source, providing twice the yield at half the cost to traditional horizontal axis wind turbines (HAWT). EnerKítes - a future product portfolio of Airborne Wind Energy (AWE) Systems will harness the powerful and steady winds high above the blade tips of today’s wind turbines. Proprietary control software and machine design will make EnerKítes autonomous and robust and matching renewable energy demands even during lull and at night. EnerKíte is a Berlin-based venture led by pioneers in the wind and kite industry. It has developed a 30 kW working prototype that has provided the longest autonomous operation (72 hrs+) of any AWE player in the world. The SME Phase 2 project focuses on optimizing and validating the EK200, a 100 kW unit, as the commercial market entry model. Working closely with the utility company ENGIE, we will ensure that the technology is matured while anchoring the commercialization journey. Our entry strategy is to provide green energy directly where there is demand. We will address the renewable mini-grid market with a volume of €bn 7.2 p.a. - sufficient for a proper business case itself. We will deploy rural wind-storage charging stations to boost the €bn 40 by 2025 eMobility market, growing with a CAGR of 47.9%. EnerKíte’s value chain is centred around certifiable designs, IP and know-how. The need for scalable manufacturing skillsets prompts dialogues with Voith (DE), Siemens (DE) and Vestas (DK). The innovation effort provides a €m 50.9 business opportunity already for 2021-2026.