The SUS platform will be established as a part of DOLL – Green Lab for Lighting and Photonics, which has enjoyed an overwhelming interest from global media as well as the lighting industry and
The main objective of this project is to advance the overall accuracy of the existing aero-hydroservo-
elastic computer codes related to offshore wind turbines and their substructures. This is
achieve
The project has generally the aim to support Denmark's participation in the "IEA Wind Energy R & D Implementing Agreement" in 2015 through participation in the Agreement Steering Committee ("Executive
The focus of the project is to investigate if there are potential flexible energy reserves in serverrooms and telesites that can be implemented and exploites as manual energy reserves in the
RTLabOS will be a new type of integration platform for PowerLabDK, enabling research in next generation SCADA systems with real-time control capabilities, improved configuration management and
This project investigates the demand response potential of a modern building based on the intelligent control of the building operations and the consumption of its residents. User-driven innovation
The ability to store surplus electricity derived from renewable sources will lead to a more efficient and well-balanced energy production benefitting the Danish energy consumer. The proposed project
In the BIPV Quality Cities project the total amount of PV systems with special focus on BIPV Quality, Solar Watch online monitoring and a combined focus electricity savings will amount to 3.850 kWp.
The main purpose of the planned Phase III (PVIB-III) is establishment of 1,5 – 2 MW of additional capacity primarily in terms of a large utility scale PV power plant of at least 1,5 MW. Thus very
This project aims at improving the forecast of wind and waves for storm conditions offshore. We explore coupling strategies for the atmospheric, wave and ocean modeling using WRF (WRF-LES), MIKE 21 SW
The costs of the management of seabed wind farm interaction is high, around one third of the total costs of the foundation of offshore wind farms. The aim of the project is to reduce these costs by
This project focuses on the integration of photovoltaics (PVs) with thermoelectric generators (TEGs) and microchannel heat exchangers (µHX) in two parallel phases: low-thickness solar power systems
CHPCOM (Combined Heat and Power Communication) is a project that through practical experience will analyse, develop and demonstrate the use of international Smart Grid related data communication
The project’s primary focus is to develop and maintain a system that controls the heat production and electricity consumption of heat pumps, in order to improve local energy efficiency and to optimize
Smart charging services for electric vehicles can help reduce the cost for both owner and power system. They are, however, unlikely to be adopted by OEMs and market players if left unresolved. While
The “Smart Grid Open” project will secure the realization of guidelines, methods and testing protocols enabling conformance testing of communication interfaces for Smart Grid Ready products. Reference
The objective in project Green Flex is to develop and demonstrate a software tool named FlexIQ that can support economic optimal planning and control of integrate green energy plants in mobilizing
The Megavind Partnership´s vision is to maintain and develop Danish position as wind energy hub and home to the world´s leading companies and research institutes. Megavind´s objective is to identify
Interruptions of installation/uninstallation of wind turbine blades due to high wind speed are a huge cost for the wind industry, especially offshore. The objective of this project is to be able to do