The project aims to develop and demonstrate a control strategy and a web-based control for optimal interaction between the solar collectors, solar cells, energy storage, heat pump and the building's
The objective of this proof of concept project is to investigate the WaveSpring technology and how it can benefit wave energy converters (WECs). It is expected that the results from the project will
The objectives of the project are to design, test and develop cost efficient mooring solutions for large floating wave energy converters (WECs) and to build national competences in design and
The purpose of the project is to follow the performance of two pit heat storages and one borehole storage implemented 2011-3013 in Denmark. In the project monitoring results and experiences from
The purpose is to develop and demonstrate a new efficient and flexible technology for fault localization/-diagnosis in PV systems. The technology is aimed the growing PV service market. Measurements
Heliac has invented and patented a foil that enables a reduction installation costs of solar fields from 500$⁄m2 to 2- 10$⁄m2 and reduce the overall cost by 80%. Proof-of-concept in lab scale was
The project will demonstrate that solar energy modules can transform an old multistory residential building into a beautiful self- sufficient architectural building getting free renewable electrical
In this project, a standalone PV reflector tower in which a reflector enhances the solar radiation on a vertical bifacial PV panel, is developed. The tower will supply power to measurements for road
The objective of the project is to ensure that Danish research institutions and companies active with development, installation and operation of Photovoltaic systems, are informed on the latest
´IEA SHC Task 51: Solar Energy in Urban Planning' will develop strategies, methods, tools and good examples to facilitate the increased use of solar energy in urban areas. As part of the Danish work
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
Weptos A/S receives the award "Årets bedste ForskEL projekt 2012" for best energy research project awarded by Energinet.DK. The award was given to Weptos A/S for an excellent and professionally
The purpose of this project is to demonstrate and optimize the design of a 5 kW grid connected wave energy LOPF (Lever Operated Pivoting Float) buoy, through a design study and subsequent test in the
Pre-study to design and demonstrate, in small scale, cost effective solutions for 3 commonly identified challenges in the wave power industry, which typically involves floating devices. High efficient
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
The objective for Partnership for Wavepower Roadmaps are to consolidate and combine the Danish Wave Developers common efforts and produce plans to achieve common goals for Anchor systems, Power
The aim is to develop a solar-powered comfort cooling system, where electricity produced by solar cells via a heat pump is converted to air conditioning in the existing ventilation system, via