Goals and idea

The laboratory offers students and researchers extensive opportunities to gain and implement practical experience in vehicle technology. The laboratory is equipped with industry-related technology that enables a wide range of engines and vehicle components to be examined and tested. Innovative projects in the areas of traction drives, emission control, vehicle dynamics and acoustics are carried out here. The open-technology approach as a guiding principle enables students to deal with a wide range of drive technologies, so that they can work on e-fuels for internal combustion engines as well as battery-electric drives and hydrogen mobility.

Laboratory C025

Laboratory equipment and activities

Equipment and function

The laboratory has 2 engine test benches, a roller test bench, a component test bench for auxiliary units, as well as two standardized fuel test engines.

The essential technical data are listed below:      

  • Engine test bench 1: asynchronous machine 330kW, 1400Nm, 8000 rpm, AVL Puma      
  • Motor test bench 2: asynchronous machine 250kW, 718Nm, 10000 rpm, AVL Puma      
  • Roller test bench: double roller all-wheel drive, 2*220kW, 10kN traction force (currently being modernized)      
  • Component test bench: 2*30kW, 6000 rpm, air conditioning hood 10 - 100°C
  • Exhaust gas measurement technology: Horiba Mexa 7000, FSN soot measuring device
  • Consumption measurement technology: AVL Fuel Mass Flow Meter, AVL KMA mobile
  • Indication measurement technology: numerous Kistler sensors and amplifiers, AVL Indimaster      
  • Fuel test engines: BASF Diesel (DIN 51773), CFR ROZ test engine (DIN EN ISO 5164)      

Experimental vehicles:

  • Audi TT 2.0 TFSI, BMW M5

Extract from the existing software (for teaching and research purposes):      

  • AVL Puma Open: Automation software for test benches
  • AVL Concerto: data analysis and processing
  • GT-Power/Suite: Charge exchange calculation (analysis and simulation)
  • IMC Devices/ Famos Studio: Measurement data acquisition and evaluation
  • Matlab/Simulink: Control and regulation
Courses

Practical courses accompanying the lectures:

  • Combustion engines 1
  • Internal combustion engines 2
  • Measurement technology on the combustion engine      
  • Fundamentals of automotive engineering      
  • Road tests      
  • Engine and drive train      
  • Hybrid drive systems      
  • Shell Eco competition vehicle      
  • Classical and alternative fuels for vehicle drives

Other activities:      

  • Support of the association eta-nol e.V. in the Shell Eco Competition      
  • Theses (Bachelor & Master)
Research
  • Development of new engine test methods for fuel evaluation
  • Development of an innovative micro combined heat and power unit based on a free piston engine
  • Competitive analyses of engines, transmissions and auxiliary units

News from the laboratory

Currently, the chassis dynamometer is to be modernized and, if possible, equipped with a sound-proof cabin.

Laboratory management and team

Study advisor production engineering
Prof. Dr.-Ing. Karl Huber
Phone: +49 841 9348-3820
Room: A123
E-Mail:
Prof. Dr.-Ing. Christian von Perponcher
Phone: +49 841 9348-3880
Room: A203
E-Mail:
Prof. Dr.-Ing. Gerald Sitzmann
Phone: +49 841 9348-2320
Room: A218
E-Mail:
Prof. Dr.-Ing. Prof. h.c. Jörg Kessler
Phone: +49 841 9348-3690
Room: A123
E-Mail: