Ante el aumento del coste y las preocupaciones ecológicas por los carburantes, los fabricantes de vehículos deben rediseñar todos los sistemas del vehículo -desde la aerodinámica, el motor y la transmisión a la carrocería, los sistemas de confort del pasajero y los sistemas eléctricos y electrónicos.
También deben desarrollar diseños viables para sistemas de propulsión de vehículos híbridos y eléctricos radicalmente diferentes proponiendo nuevas tecnologías complejas, como las baterías y los motores eléctricos de tracción.
- White Papers
- Scaling New Heights in Aerodynamics Optimization: The 50:50:50 Method - White Paper
- Addressing Engineering Challenges of Increasingly Complex Automobiles - White Paper
- Breakthrough in Brake Sequeal Prediction Helps to Eliminate Noise Problems Early in Design Process - White Paper
- Battery Thermal Management in Electric Vehicles - White Paper
- Overcoming the Challenges of Hybrid-Electric Vehicle Traction Motor Design - White Paper
- 16X Speedup in ANSYS Maxwell DSO on 32-core High-Performance Compute Farm Doubles Traction Motor Design Productivity at General Motors - White Paper
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Los consumidores y los gobiernos demandan consumos eficientes y emisiones poco contaminantes. Como resultado, los fabricantes de automóviles están haciendo grandes inversiones para desarrollar vehículos que cumplan con estos objetivos más estrictos, utilizando a menudo motores híbridos y eléctricos.
Because of their competitive nature, motorsports are the testing grounds for pioneering automotive technologies. Hybrid and electric drives for race cars pose engineering challenges along with the opportunity to lead the pack. Furthermore, motorsports regulations have tightened the use of wind tunnel testing and virtual simulation.
With today’s modular and feature-rich vehicles, suppliers play a large role in innovation and product development. Ambitious fuel-efficiency and emission-reduction goals are cascaded down to suppliers, who also make sure that complex electronics and embedded systems don’t cause unexpected catastrophic failure modes.
Heavy trucks and off-highway vehicles are subject to tightening pollutant emission norms,.and the market demands fuel efficiency. Simultaneously, off-road vehicle manufacturers are adding sophisticated electronic devices for applications such as automating agricultural tasks.
Consumo eficiente y emisiones
Strong customer demand and governmental push for higher mileage, greener vehicles means that car and truck makers have to develop and deploy hybrid and electric powertrains for more and more vehicle platforms. The race for electrification is on and companies that bring viable hybrid and electric powertrains to market first will dominate the future automotive market.
Electronics & Embedded Systems
Advanced electronics and embedded systems are standard features in today’s vehicles, making cars more efficient, safe, comfortable and fun. Paradigm changing innovations such as advanced driver assistance systems (ADAS) and autonomous vehicles are just a few years from production.
Quality & Reliability
Two major concerns affect auto sector profitability: warranty recalls and having to fix quality and reliability issues during vehicle production. These issues can result in long-term damage to a company’s brand.
Comprehensive IC Engine Flow & Combustion Development
Comprehensive IC engine flow and combustion development from ANSYS bring together the best of both worlds: optimal CFD solvers and the best combustion chemistry tools.
Comprehensive Underhood Thermal Management
Our comprehensive underhood thermal management solution offers full accounting of radiation from hundreds of surfaces, conjugate heat transfer with hundreds of solids, and shell conduction in dozens of baffles and zero-thickness surfaces.
Learn More About Simulation in the Automotive Industry
High Fidelity Antenna Design
Miniaturization of antennas, limited channel bandwidth, reduced design time, and antenna interaction with other components present stiff challenges to the design engineer. Our comprehensive solution for high fidelity antenna design provides automatic, accurate, and efficient methods to overcome these challenges, making it the tool of choice for antenna simulation.
Efficient, Durable Engine Cooling Design
The ANSYS comprehensive solution for efficient, durable engine cooling design delivers a seamlessly connected CAD-to-fatigue solution for IC engine design that covers airflow, combustion, water jacket, solid conduction, conjugate heat transfer, structural strength analysis and thermal–structural fatigue.
High-Performance Fuel Cell Development
Our comprehensive solution for fuel cell development applies to PEMFC and SOFC. The solution enables you to optimize individual cells as well as the complete stack along with the fuel cell supply systems.
High-Pressure Fuel Injector Development
Our comprehensive solution for high-pressure fuel injector development enables companies to optimize injectors for higher pressures demanded by fuel consumption and pollutant emission initiatives.
Low NVH, Durable Brake Design
ANSYS’s comprehensive solution for brake simulation has lead to a breakthrough in early prediction of brake squeal.
Efficient High-Performance Turbocharger Development
The ANSYS comprehensive solution for efficient, high-performance turbocharger development enables engineers to achieve higher compressor and turbine efficiency with broader operating range and minimal inertia, all while complying with package size limitations and cost constraints.