• Wind Energy: A comprehensive range of teaching systems designed to build a solid understanding of key principles in wind energy. These systems support instruction in fundamental aerodynamics while also addressing advanced, real-world topics such as machinery monitoring in modern wind power plants.

• Solar Energy: Supported learning topics include photovoltaics, solar thermal energy and solar cooling

• Hydropower: Hands-on equipment covering Pelton turbines, Francis turbines, Kaplan turbines, propeller type turbine, wave energy converters and more

• Biomass:  Showcasing biotechnical production of ethanol, Biogas Plant (shown in picture) and biodiesel plant

Teaching equipment with learning topics that cover:​

• Statics: Explore the effects of forces on rigid bodies in equilibrium. This topic builds a foundational understanding of how structures remain stable under various load conditions.

• Strength of Materials: Learn how forces impact deformable bodies, considering material-specific properties. Key concepts include stress, strain, and Hooke’s Law, applied to problems involving tension, compression, torsion, and bending.

• Dynamics: Focuses on analyzing stress and strain in moving components and systems, providing essential knowledge for designing safe and efficient mechanical structures.

• Material Testing: Investigates how materials behave under different types of loading. Emphasis is placed on the relationship between applied forces and resulting deformation, as well as identifying stress limits that lead to material failure.

• Water treatment and wastewater treatment models: Including mechanical water treatment (e.g. separation in sedimentation tanks, dissolved air floatation, depth filtration), biological water treatment (e.g. biofilm, sludge process, airlift reactor, etc.) and physical / chemical water treatment (e.g. ion exchange, reverse osmosis, advanced oxidation, etc.)

• Soil treatment and hydrogeology models

• Waste management - separation and  comminution of waste materials

• Air: Mechanical air purification and thermal air purification 

Supported learning topics include:

• Heating techniques: Thermal expansion, circulating pumps training panels, three-way & four-way mixing valves

• Air-conditioning: Air conditioning systems and models

• Renewable energies in building services engineering

• Ventilation Systems (sample equipment shown): Planning and setup of simple and complex air duct systems,  measuring the pressure curve within the ventilation system, etc.

• Sanitary Systems: Investigation of function and operating behavior - two handle mixers, flushing valve, pipe flushing according to DIN 1988 standards, etc.

• Fundamentals in Fluid Mechanics, such as models demonstrating hydrostatics (sample image shown), hydrodynamics, discharge, flow in pipes, turbomachines and transient flow

• Hydraulic Engineering: Models demonstrating open channel flow, sediment transport and seepage flow

• Other supported learning objectives and demonstration models include: properties of fluid (change of state of gases, Marcet Boiler, etc.), measuring methods (methods of pressure measurement and flow measurement), measurement of jet forces, visualization of pipe flows, Bernoulli's principle and more

• Refrigeration Models showcasing different expansion elements (including operation with capillary tube and expansion valve), operation behavior under load, refrigeration cycle in log p-h diagram and fault simulation

• Teaching equipment showcasing principals of cold production, including simple compression refrigeration circuit, vapor jet compression, solar heat, vortex cooling devices (colling and heating using compressed air), cooling using the Peltier effect, and refrigeration circuits with propane

• Electrical Installation in refrigeration systems, including design and wiring of typical associated electrical circuits, design and integration of safety chains such as pressure switches, thermostats, circuit breakers and more

• Working models (sample equipment shown) focused on practical firsthand experience, allowing students / trainees to have practical experience in planning, implementation and checking of processes related to assembly, commissioning and maintenance related to refrigeration installation, LP & HP pressure switches, expansion valve and related pipework

Thermodynamics describes the general theory of energy and substance conversion. The fundamentals of thermodynamics deal with the behavior of systems during temperature changes.​ Supported topics of learning include: 

• Fundamentals of Temperature Measurement

• Heat exchangers:  Heat exchangers are used for heating, cooling, evaporation or condensation of media at different temperatures. Related systems available include recuperators, direct-contact heat exchangers, fluidsation heat exchangers 

• Thermal fluid energy machines: Steam Power Plants, Gas Turbines, Compressors

• Internal Combustion Engines: GUNT offers various internal combustion engines with capacities of up to 75kW, including real car engines with a volumetric displacement of up to two litres. Among these engines are four-stroke diesel and petrol engines, petrol engines with variable compression and two-stroke petrol engines.