The objective of the project is further development and documentation of the online measurement system into an operational tool for real time monitoring and optimization of the biogas process in
The main objective of the project is to develop a control of energy in an LED light source, so that it produces both light AND transmits controlled surplus energy to a charging unit. This produces
To take a critical lead forward towards a cost effective and sustainable pipeline between the unutilized global bimass resources on one side and the demand for "green" fuel products on the other side
The project aims to demonstrate use fo the road support layer as well as the shallow soil layers for retaining surface water and for collective heating and cooling supply of nearby buildings. The
STAC Technology will demonstrate on-site cooling using District Heating as the energy source for
driving the cooling solution for temperatures above zero.
The BE-Clean project will demonstrate a new cleaning process. The process will remove unwanted
sulfur from biogas. The new process is cheaper than currently available technologies and uses
electricity
The objective of BIO-ReFuel is to design, produce and test a small biogas to methanol modular
demonstration plant that can produce 426 liters of methanol from approx. 240 m3 of biogas per
day.
The goal of ECO-DIST is to develop, construct, test and conduct economic studies on relative
small local biorefineries using energy and cost efficient ECO-DIST modules for production of
bioethanol and
The aim of the project is to develop a commercial software for condition control of the pipes in district heating networks by means og smart meter data and additional measurements. The software will
The purpose of this project is to develop nem innovative solutions that both address the challenges that have been identified on the market regarding large heat pumps using ambient air and to ensure
The goal of the eTRU project is to develop and demonstrate a reefer trailer for road transport that is driven by rechargeable batteries instead of a diesel engine, which is normally used. This will
Greenhouse Industry 4.0 aims to ensure that Danish greenhouse producers and technology suppliers can utilize the opportunities offered by the new digital possibilities. We are building on several
The project investigates and demonstrates how office environments can be efficiently utilized, thereby reducing energy consumption while simultaneously increasing user satisfaction and improving the
Think if you could produce your own energy you need for your building. Heating, cooling, electricity, even for your car. Smart Home technology makes it possible to achieve this goal At the same time
High indoor temperatures in Spring and Summer, generally results in a poor indoor climate in both public/private buildings. Our project will visualize the possibility of using small renovation
Calculations have shown that using outdoor air cooling and thermal energy storage (PCM) in a two-pipe chilled beam system (developed in PSO-project 345-010) the energy demand for cooling can be
A one year measuring programme is carried out in order to document the simulated operation of a BIPVT-E pilot system (PVT-energy absorber, heat pump and battery etc.) under a realistic consumption
Common problems with larger ventilation systems include, for example, improper heat recovery, errors in air conditioning and heating, reduced fan efficiency and unnecessary pressure drop over filters
The energy key figures that are currently used in the vast majority of Danish industrial companies are so simple that they do not provide the opportunity to follow the energy consumption sufficiently