Electrification poses a particular challenge for passenger comfort as the battery is the major source of energy. Heating, ventilation and air conditioning, the HVAC module, and the cabin must become resource efficient and must be synchronized with the energy management of the entire vehicle. At the same time, battery electric vehicles are silent, making us more receptive to the sounds of air outlets, air circulation, climatization, demisting, or defogging. With ADAS/AD on an upward trajectory, there is greater focus on comfort than ever before. Furthermore, harmful particles, such as airborne viruses, make air quality a vital concern.
Resource-Efficient HVAC Modules
Modern mobility requires compact, weight-reduced, modular packaging, which is optimized for different platforms.
Alternative Refrigerant
Regulations and markets demand refrigerants with low global warming potential (GWP) that meet the highest safety and efficiency standards.
Virus-Free Cabin Concept
Recent years have again taught us the importance of clean air. The cabin must be a place of well-being and safety.
Personalized Comfort
Intelligent solutions are becoming more and more personalized, placing the individual experience first, while also lowering energy consumption.
Adapting to Ambient Condition
Comfort is not static. Smart cabin conditioning uses live data on topology, weather, and infrastructure, and adapts to boundary conditions
Subsystem Interplay
Efficient energy management enables thermal comfort through interacting systems that balance resources and thermal sensation, e.g. consideration of battery cooling / battery conditioning.
From market and requirement analysis to SOP, we are reinventing passenger comfort for new mobility solutions:
- Unique, requirement-driven comfort experience
- Personalized comfort, e.g. zone climatization, radiant heating surfaces, live tuning
- Resource-efficient HVAC modules
- Modern cabin layouts
- Market analysis
- Research and development, e.g. alternative refrigerants
- R290 Micro AC, R744 heat pump solutions
- 1D and 3D simulation methods for global and local comfort development
- Smart device and smart interface integration
- Climate control software with prediction control
- Climate application and calibration
- Self-tuning algorithms, smart calibration
- Building, maturing, and objectifying physiological models
With our perspective on passenger comfort as a product, our partners and customers benefit from our holistic approach. We have tried and tested this approach in many successful SOP turnkey projects. Our main projects revolve around the premium and luxury segment of major OEMs. Our aim is highly modularized, segment-specific products that we tailor to the needs of our customers’ individual requirements. Derived from our premium expertise, our products range from best-in-class solutions to standardized cost-effective performers.
Single Source
We will work with you to develop the ideal solution based on your comfort requirements.
AVL Synergies
When it comes to electrification in particular, the cabin is in complex interplay with other systems. We consider this interplay from the start and do not focus solely on passengers, we also consider range and battery life.
Smart Calibration
Self-learning and self-tuning algorithms reduce calibration times. By integrating smart devices, we eliminate the need for manual input. We gather live data and the system takes it from there.
Virtual Methodology
Building the digital twin allows us to use all the models seamlessly to validate the HVAC system with reference to vehicle targets, e.g. direct range prediction. Rapid virtual prototyping of passenger comfort experience and efficient layouts allows portfolio of choices, from best-in-class to cost-performer or eco-benchmark.
Software Solution
We offer thermal control software based on advanced research and development activities, e.g. predictive passenger comfort solutions.
Global Comfort
To ensure target values within the cabin, we look at air temperature, surface and component temperature, air velocity, and humidity. With coupled 1D and 3D cabin simulation, we reach target values highly efficiently.
Resource-Efficiency
There are many different ways to reach target values. We engineer intelligent, resource-efficient, data-driven comfort.
Localized Comfort
We focus on localized passenger well-being in the most efficient ways wherever we detect occupied seats, instead of considering mean cabin temperatures.
Personalization
Comfort is subjective – that is why we aim to create solutions that adapt to the driver, passengers, and the personal experience: with zone climatization, radiant heating surfaces, smart-device integration, smart interfaces, fine-tuning to thermo-physiological factors, and other innovations.
Related Topics
We are constantly working on new solutions. The following might be interesting for you:
It is not just passengers who have a “comfort zone”, the components do as well. At AVL we develop components and systems, and integrate them into the vehicle. We provide the optimal control strategy for efficient thermal management – from the initial concept to the SOP.
Whether passenger cars or commercial vehicles – we factor in existing and new technologies as we bring your individual requirements in line with end user expectations. Our focus is on virtual and functional vehicle development, as well as integration of the vehicle systems into the vehicle.
A vehicle thermal management system has a significant effect on the energy efficiency of the entire vehicle and the durability of all components in the propulsion system, such as the battery and inverter. Highly efficient systems require extensive calibration and testing time at vehicle level, which has a huge impact on development costs and timing.
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