Innovation et gestion de programmes synchronisée et collaborative pour les nouveaux programmes
Aérospatiale & Défense
Innovation et gestion de programmes synchronisée et collaborative pour les nouveaux programmes
Explorer l’industrieAutomobile et Transports
Integration of mechanical, software and electronic systems technologies for vehicle systems
Explorer l’industrieBiens de consommation & Distribution
Innovation produit grâce à la gestion efficace et intégrée des formulations, du packaging et des procédés de fabrication
Explorer l’industrieÉlectronique & semi-conducteurs
Le développement de nouveaux produits exploite les données pour améliorer la qualité et la rentabilité tout en réduisant les délais de mise sur le marché et les coûts.
Explorer l’industrieÉnergie et services publics
Supply chain collaboration in design, construction, maintenance and retirement of mission-critical assets
Explorer l’industrieHeavy Equipment
Construction, mining, and agricultural heavy equipment manufacturers striving for superior performance
Explore IndustryConstructions mécaniques et équipements lourds
Integration of manufacturing process planning with design and engineering for today’s machine complexity
Explorer cette industrieInsurance & Financial
Visibility, compliance and accountability for insurance and financial industries
Explore IndustrySecteur maritime
Innovation dans la construction navale pour réduire de façon durable le coût de développement des futures flottes
Explorer l’industrieMedia & Telecommunications
Siemens PLM Software, a leader in media and telecommunications software, delivers digital solutions for cutting-edge technology supporting complex products in a rapidly changing market.
Explore IndustryAppareils Médicaux et Produits Pharmaceutiques
« Innovation produit personnalisée » grâce à la digitalisation, pour répondre à la demande du marché et réduire les coûts
Explorer l’industrieSmall & Medium Business
Remove barriers and grow while maintaining your bottom line. We’re democratizing the most robust digital twins for your small and medium businesses.
Explore IndustryDriving Battery Innovation with CAE
Driving Battery Innovation with CAE
Learn how CAE accelerates the battery design process
There is an ever-increasing demand for higher energy and power density battery cells, without compromising on weight, size, aging and safety of the battery pack. This makes the design of batteries a highly complex, multi-parameter challenge. In this webinar, we will demonstrate how Computer Aided Engineering (CAE) accelerates the battery design process at both the cell and pack level, helping you achieve your safety and performance goals while at the same time reducing your development costs.
Viewers of this webcast learn how CAE can be used to design better cells by optimizing the current collection and thickness of the electrode coatings and foils. In addition, CAE can help you determine the thickness, position, and number of tabs, as well as the dimensions of busbars. These cell models can be readily transferred to pack models.
For module design, we will discuss how CAE can optimize the thermal system to minimize temperature variations within and across cells. The behavior of both air and liquid coolants can be modeled with accuracy. We will conclude by showing how you can optimize the cooling performance of a pouch cells pack to obtain uniform cell temperature for the minimum pack weight.
Presenters:
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Learn how CAE accelerates the battery design process
There is an ever-increasing demand for higher energy and power density battery cells, without compromising on weight, size, aging and safety of the battery pack. This makes the design of batteries a highly complex, multi-parameter challenge. In this webinar, we will demonstrate how Computer Aided Engineering (CAE) accelerates the battery design process at both the cell and pack level, helping you achieve your safety and performance goals while at the same time reducing your development costs.
Viewers of this webcast learn how CAE can be used to design better cells by optimizing the current collection and thickness of the electrode coatings and foils. In addition, CAE can help you determine the thickness, position, and number of tabs, as well as the dimensions of busbars. These cell models can be readily transferred to pack models.
For module design, we will discuss how CAE can optimize the thermal system to minimize temperature variations within and across cells. The behavior of both air and liquid coolants can be modeled with accuracy. We will conclude by showing how you can optimize the cooling performance of a pouch cells pack to obtain uniform cell temperature for the minimum pack weight.
Presenters:
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