Consistent, Scalable and Open

Exhaust Gas Aftertreatment Simulation

The AVL Aftertreatment simulation suite, consisting of the tools AVL BOOST™, AVL CRUISE™ and AVL FIRE™, is a uniquely open and scalable solution that enables the consistent modeling of all physics and chemistry relevant to exhaust gas aftertreatment systems during all stages of the development process.

Products & Services

AVL BOOST™ and AVL FIRE™ are the industry's first choice when reliable results are needed for engine thermodynamics and combustion/emissions development. The intelligent integration of the two software tools facilitates solutions for complex tasks early in the development phase and provides unsurpassable accuracy during the detailed design phase.

For a Cleaner Tomorrow

Simulation for Electrification

Simulation Solutions for electrified and full electric Powertrains and Components

AVL Advanced Simulation Technologies provide comprehensive simulation solutions for the development and optimization of components within electrical sub-systems and their integration into an entire system.
One of the primary motivations for developing AVL CRUISE™ M was to offer a comprehensive simulation environment that perfectly meets all the development requirements in the increasing complexity of Vehicle Energy Management Systems (VEMS) and to provide seamless development and optimization capabilities in that field.
AVL CRUISE™ and AVL CRUISE™ M introduce seamless control function development and calibration from MiL to SiL to HiL by using modularity with scalable model fidelity and an open integration concept.
AVL FIRE™ offers unique capabilities for analyzing and optimizing injection nozzles in respect of transient discharge rates, the occurrence of cavitation and potentially occurring material erosion.
AVL CRUISE™ and AVL CRUISE™ M deliver the right system plant model fidelity for a wide range of testing applications such as Engine testbed, Battery testbed, E-Motor testbed, etc… The re-use of the multi-physics model ensures on one side consistency, result comparability and the shortening of the test preparation time. On the other side, this enables frontloading of methodology and test procedures which means that more work can be done in the virtual world, significantly reducing costs and...
While strength and durability limits are being pushed further and further, requirements for noise reduction are becoming more stringent. In addition, focus is increasingly being placed on transmission and powertrain noise because other sources could be reduced meanwhile. .
AVL FIRE™ offers software features and validated simulation methods dedicated to combustion system and engine component development, enabling superior engine performance.
Quenching is a common heat treatment technique used in the production of cast or otherwise-produced metal components. In particular, immersion or direct quenching process is a widely adopted procedure in the automotive and aerospace industries to minimize the formation of undesirable thermal and transformational gradients, which may lead to increased distortion and cracking.
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