The project will be realised by Beijing Solar Energy Research Institute Co. Ltd, China, and the Department of Civil Engineering, Technical University of Denmark. Focus will be on solar combi systems
The project is developing a nano-structured high efficiency solar cell. Unique production process ensures that costs will be competitive compared to cells with similar efficiency.
Novel electronic chips could be a cost-effective solution to the electronic bottleneck between data servers and computers. Advanced elec- tronics strengthen optical technologies to address the
Phase change materials (PCM) and surface struc- turing combined enable storing and release of heat in the concrete. This will remarkably reduce energy consumption in concrete buildings in the future.
There is an increasing demand for insulation, in- cluding energy saving windows. The project aims to develop a new generation of high-insulating window frames from composite material.
The objective of the project was to develop inexpensive, highly efficient superconducting tapes based on the Y123 superconductor. A new, scalable production technology has been developed in view of
The strategic research centre will in cooperation with the industry, by the development of zero emission buildings and related technologies, create the necessary basis for a long-term sustainable
Allocation of extra heat is essential for the survival of newborn piglets. Sensors in each farrowing pen provide information about the animals’ welfare and control allocation of heat according to
Sensors based on new, patented optical measurement techniques enable extreme ruggedness and the ability to measure several parameters at the same time.
Center for Energy Materials develops materials which play key roles in the creation, storage or conversion of energy, thus underpinning future energy systems. The Center has focused on five areas
It has been investigated how best to design heating units for one family houses consisting of solar collectors, electric heating element(s)/a heat pump, a smart heat storage and control system based
Magnetic refrigeration is an emerging technology using solid, non-volatile magnetic materials as the active components, and water or alcohol as the medium for heat transport. It holds great potential
The aim of the project is to develop advanced process technology for producing high-quality environmentally friendly cement, which will enable CO2-reductions in the cement industry.
During training of two research students, the project developed new thermocleavable polymer materials for PV cells with a narrow optical band gap, allowing simple production of multilayer structures
A three-dimensional chemical mapping of active plastic PV cell layers has generated new knowledge of degradation causes for PV cells. Based on the mapping, more stable PV cells were made, which in
The project will continue developing a computer model capable of predicting defect concentrations and distributions as a function of parameters during the float-zone process that produces silicon for