
interfacial Science and Surface Engineering Lab
iSSELab
KRÜSS Surface Science Hub
Glimps of VR Labs at iSSELab
Experience the future of innovation our cutting-edge virtual reality solutions that transform ideas into immersive realities

The Density Lab
Density experience with VR allows users to immerse themselves in a virtual environment where they can explore understand the concept of density in a hands-on way. By manipulating virtual objects different sizes and masses, users can visually see density affects buoyancy and weight. This interactive not only enhances learning but also makes complex scientific principles more accessible and engaging for learners of all ages. Experience density like never before through the innovative lens of virtual reality!


Minor Loss
Step into a virtual piping system and investigate how valves, bends, and fittings impact fluid flow. In this interactive VR simulation, users can observe and measure the effects of minor losses caused by sudden expansions, contractions, elbows, and other obstructions in a pipeline. With real-time data visualization, learners can experiment with different configurations to see how minor losses contribute to overall pressure loss in a system.


Major Loss
Immerse yourself in a virtual fluid dynamics lab where you can explore the concept of major loss in fluid flow. By adjusting parameters such as pipe length, diameter, and flow velocity, users can visualize pressure drops and understand how friction affects fluid movement. This interactive experience provides a hands-on approach to learning complex engineering principles, making fluid mechanics more accessible and engaging.


Piping System
Explore a fully immersive VR piping network where you can design, modify, and analyze fluid flow in various pipe layouts. By adjusting parameters such as pipe material, diameter, and fluid properties, users can witness how pressure, velocity, and flow rate change in real-time. This experience provides a comprehensive understanding of fluid transport systems, bridging the gap between theory and real-world applications.
