The consortium will improve the energy collectors and energy efficiency on the most weight and cost-efficient wave energy system currently in development. The EUDP project targets the primary CAPEX
The aim of this project is to design, test, optimize and prepare for an industrial scale demonstration of microwave cracking technology, converting biomass to biofuels and biochar for carbon storage
The primary objective of the project is to address the pressing issue of methane emissions in the biogas sector by developing and implementing an innovative methane detection drone and measurement
The objective of this project is to develop, design, build, test, optimize and commission FPPs first full-scale wave PTO system. The resulting PTO design will be used to build four identical PTO units
The first purpose is to optimize and demonstrate Exowave wave energy concept in a coastal offshore environment, where the produced seawater under high pressure is led ashore and converted to fresh
Efforts to change road transport is focused on electrifying the transport sector. The main disadvantages of this strategy are that it requires replacing the existing vehicle fleet and an entirely new
The main purpose of this project is to develop and demonstrate an optimized heating plant that will have much higher efficiency and much less CO2 emissions than the heating plants that are built today
HydroThermal Liquefaction (HTL) has proven itself as the most resource-, energy- and cost efficient technology pathway for conversion to liquid fuels of a wide range of sustainable feedstocks
The purpose is to develop a sustainable, operational and commercially viable biofuel to replace currently used fossil-based fuels in the maritime sector. Developments are based on patented.
The aim of the project is to develop ensiling as a method for pretreatment of straw which allows use in biogas plants and ensures a higher biogas yield. Wet or moist straw is treated with ’ensiling
The Ocean Energy Systems (OES) Task 10, Part II continues the work on verification and validation of numerical models of Wave Energy Converters (WECs) previously supported by EUDPJ.nr. 64017-05197.
Biowaste2Gas’ laboratory scale model is upscaled to a pilot plant. Following the initial testing, the plant is moved to demo-site for lifetime testing. In parallel, AU documents the potential in
InjectMe develops a biological Power-to-Methane technology that uses electricity and CO2 from biogas to produce biomethane (electrofuel). The aim of InjectMe is to develop a cost-efficient system for
Demonstrating that the effect of using pre-treated low valuable biomasses is an improved capacity of any given biogas plant by demonstrating that the pre-treatment provides the same amount of