Wavetrain offers a unique train detection solution for level/grade crossings. Sensors placed on the train tracks detects the acoustic sounds of approaching trains. Advanced software distinguishes trains from other sound sources for safe train detection. The Wavetrain’s solution stands out as a new and innovative offer in a huge market with a need to increase safety for pedestrians and motorist crossing railways.
Hybrid Energy provides unique high temperature heat pumps for industrial and district heating purposes, with highly efficient energy recovery rates. Using proprietary technology and a natural refrigerant of water and ammonia, a Hybrid Heat Pump can deliver up to 120°C at low pressures, with standard refrigeration equipment. The flexible Hybrid Heat Pump is well proven with more than 400.000 operating hours over the last 10 years, across industries. The product and Hybrid Energy contribute strongly to the reduction of carbon emissions and energy savings.
Clarity WTS AS offers solutions for water treatment in land-based fish-farming. The patented technology provides protein-skimming of water, removing dissolved particles and thus decrease the risks of bacteria and virus outbreaks. In addition, the unique down-draft principle allows for efficient CO2 - removal, an important feature in modern land-based fish-farming technology (recirculation systems or RAS). The unique and patented technology works in fresh-water as well as salt-water, and is available in several sizes, ranging from small applications up to sizes suitable for larger land-based recirculation systems.
Nicarnica develops remote sensing solutions for detection of hazards in a variety of industries. The company currently has two product lines; a volcanic ash detection system (AVOID) and an object detection system (NEVADAS). AVOID is installed in airplanes and can detect volcanic ash from a distance of 100km using infrared and ultraviolet sensing technology. NEVADAS is made for ground vehicles and can detect objects in any kind of weather up to 250m.