Equation-based and dynamic simulation technology software for buildings, tunnels and energy systems.
Whole-year detailed and dynamic multi-zone simulation software for the study of thermal indoor climate and energy consumption of buildings.
Experiment at early stages with different building designs and equipment to predict the impact on energy use and comfort.
A comprehensive road and rail tunnel ventilation and fire simulation software, used by leading tunnel design companies worldwide.
For more information, inspiration and feedback, get in touch now.
Short description text no more than three lines for each section
A 200 000 m2 shopping mall with over 1 000 zones was simulated, using IFC and parallelization. Both optimization and sizing was achieved, as well verifying the energy use for the Swedish building code and the BREEAM energy credit.
Residential building certified according to Swedish green building system Miljöbyggnad, using dedicated IDA ICE extension. Both apartments and systems were modified as a result of the simulation model.
Retrofit of hotel, where Swedish building code had to be followed, meets tough requirements on energy efficiency.
An office building cooled with boreholes. Both borehole fields and ambient air heat exchanger could be reduced significantly in size thanks to the simulation.
Retrofit of office building with high U-values. Ceiling heating/cooling panels, integrated to Sensus-system, were carefully dimensioned and positioned, resulting in good comfort and 25-35 % energy savings compared to tradition system.
Evaporative cooling study of a factory envelope. A tailor-made extension for IDA ICE was developed and used. Comparison between measurement and simulation showed very good agreement.
Creating an advanced plant model in order to size an exhaust air heat pump in a residential building, which is connected to a district heating system.
Retrofitting of floorball hall prevents slippery floor.
Certified EU Green Building office lowered energy use from around 100 kWh/m2,yr to below 70 by monitoring and optimizations.
Verification of a natural ventilation concept in a 60 000 m2 office building. Studies on air quality and a coupled comfort, energy and costs investigation was performed.
A multi-purpose sports arena with a seating capacity of 30 000 spectators needed a strategy for ice preparation. A detailed model was created and calibrated towards measurement.
A mechanical and natural ventilation system in a schoolhouse is improved by introduction of a well-designed control system.
A detailed design proposal for an ice rink plant, where the excess heat is used for heating the building.