The use of IoT-based data acquisition in buildings will increase. The project will show the potential for using data for better building operation and optimized design of future buildings by using a
The energy system will soon be electric. 20% energy is used in industry. We will identify the potential for realization of an optimal approach for substitution of fossil fuels by 100% electricity. For
The aim of the project is to develop an enhanced monitoring of walk-in chilled storages in the catering industry, which utilizes the potentials within energy savings, control of behavior, proactive
The project will demonstrate that using natural materials in exterior and interior facades e.g. eelgrass as insulation material and clear glass in the windows can achieve greater sustainability, lower
The purpose of the project is to implement, examine and optimize the combination of daylight and dynamic LED artificial light Lattitude Compensated Architectural Lighting (L-CAL) in a new building
There is a need for high temperature heat pumps in converting process heating to the el-based energy system of the future. Water vapor is an efficient and accepted working media for heat pumps above
The project challenges conventional renovation by combining ventilation, heat, and additional insulation into one facade element. An element that performs throughout the seasons and in different
In this project a new Danish-produced cost- and energy-effective IoT stabele fan series LPC-e is devel-oped. In addition, a dimensioning- and simulation-tool based on system optimization, is also
The project develops a compact decentralized ventilation solution for apartment buildings. The focus is on minimized pressure losses, a new automatic balancing, intelligent control and monitoring
Propulsion of ships pollutes through emission of CO2 and harmful particles when operated by diesel engines. Electrification of ship propulsion is a way to introduce clean tech-solutions in the
The objective of the project is to develop a novel energy efficient chiller and heat pump unit using the most efficient refrigerant found today, i.e. ammonia, in the capacity range from 20 to 200 kW
The project objective is the development of a standalone hydraulic drive concept characterized by being highly energy efficient, scalable, durable as well as commercially attractive and in-line with
The eMURSTEN project develops a new and price-competitive technology for energy efficient production of water struck bricks. Energy consumption is reduced through electrification of machine operation
The purpose of the project is to; develop, build and test a filter system that can process product gas from a gasification process so that this gas is prepared for subsequent use. In addition to this
The overall purpose of the project is to develop and test a new way of controlling how heat is applied to the casting beds during the production of precast elements.
The partners aim to reduce energy
The focus of the project is to participate in the international network project, IBPSA Project 1, to foster collaboration with highly renowned international partners working in the area of building
The purpose of the project is to enable coordination and participation of a project under the international energy agency (IEA), named Annex 79: “Occupant behaviour-centric building design and