Battery Modeling and Simulation

Battery Modeling and Simulation

One of the key elements of automotive electrification is electric storage technology. Electric storage systems come with a variety of designs and chemistry to fit with the large spectrum of applications, vehicles, and expected performance levels. As a consequence, designing, sizing and selecting the most appropriate storage system always results in a trade-off between key attributes like range, reliability, size, weight, and lifetime.

Siemens Digital Industries Software offers simulation solutions together with engineering services to support multi-scale battery modeling and testing, from micro-structure electrochemistry, cell component to battery systems model, and overall battery performance evaluation during integration.

One of the key elements of automotive electrification is electric storage technology. Electric storage systems come with a variety of designs and chemistry to fit with the large spectrum of applications, vehicles, and expected performance levels. As a consequence, designing, sizing and selecting the most appropriate storage system always results in a trade-off between key attributes like range, reliability, size, weight, and lifetime.

Siemens Digital Industries Software offers simulation solutions together with engineering services to support multi-scale battery modeling and testing, from micro-structure electrochemistry, cell component to battery systems model, and overall battery performance evaluation during integration.

Simcenter solutions for battery design & battery pack engineering

Accelerating the battery design & engineering for competitive advantage

Battery and storage systems design: Introducing the Simcenter solutions to support multi-scale battery modeling and testing, from micro-structure electrochemistry, cell component to battery systems model, and overall battery performance evaluation during integration.

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Battery Modeling and Simulation

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Developing competitive battery electric vehicles (BEVs) for mass markets is strong on the agenda of automotive OEMs. But the big challenge still remains on one key system: the battery. Designing a battery pack is not only a question of design and size optimization to fit within the targeted vehicle packaging. The choice of geometry, chemistry, cell packs, and cooling system has a strong impact on performance, safety, lifetime, and vehicle range. Being able to model different battery pack architectures and simulate the performance within the vehicle context can save considerable development time and push the innovation level forward to meet market expectations.

Siemens Digital Industries Software offers battery modeling and simulation solutions together with engineering and consulting services to accelerate the design and engineering of batteries by virtually exploring design variants and assessing multi-level performance. Our solutions range from system simulation to 3D and CFD simulation, covering the wide scope of engineering domains required for battery systems design. Engineers can easily model various cell chemistry and battery pack designs and evaluate the overall performance in a vehicle context. Our battery modeling and simulation solutions also enable to consider battery charging and thermal management aspects and investigate the best possible control strategies for optimal performance. 

Battery Modeling and Simulation
주요 고객 성공 사례

IFP Energies nouvelles (Batteries)

Enhancing lifetime battery modeling for longer-life green vehicles

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웨비나

Why you need simulation-based designs for EV battery packs

Thermal runaway and battery safety simulation

Learn how to optimize battery pack designs to inhibit thermal runway propagation and mitigate safety issues.

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솔루션 기능

Battery & Fuel Cell System Simulation

Virtually assess the energy performance of electrochemical storage systems when integrated in xEVs and size a pack, design a cooling subsystem, optimize a control strategy or maximize vehicle range.

Design Exploration

Take simulation to the next level by quickly predicting the outcome of design changes on performance, define design workflow and automatic data sharing process between simulation software to optimize performance balancing.

Electrochemistry Simulation

Predict the spatial distribution of ions and potential within an arbitrary multi-phase microstructure region and virtually perform Scanning Electron Microscopy (SEM) to understand impact of different chemical compositions.

Fluid Dynamics Simulation

Predict single and multi-phase fluids behavior, compute accurately fluid circuits characteristics, and determine how vehicle aerodynamics impacts range and electric device performance.

Simcenter Engineering & Consulting

Get support in addressing complex engineering challenges thanks to our engineering experts from around the globe who will transfer their technical knowledge.

Thermal Simulation

Understand thermal characteristics and behavior as well as heat transfers between systems, and tailor your electric device thermal management systems and their control for optimal performance.

차량 전동화

차량 전동화는 자동차 산업의 지속적인 발전을 주도하는 힘입니다. 전기 자동차를 신속하고 수익성 높은 방식으로 생산하는 동시에, 소비자가 원하는 수준으로 제조하는 것은 매우 어려운 과제입니다. Siemens는 전기 자동차를 위한 정밀하고 통합된 디지털 트윈을 제공하여 모든 자동차 분야의 난제를 해결합니다. Siemens의 동급 최고 솔루션은 자동차 제조사와 차량 전동화 공급망이 개발 시간을 단축하고 프로세스의 모든 단계에서 변경 사항에 쉽게 적응할 수 있는 고품질 솔루션을 제공할 수 있도록 지원합니다.

Webinar Series

Predict battery and fuel cell systems performance using model-based design, from cell to integration

Image of fuel cells

Discover how to assess energy storage systems performance accurately, from electrochemistry and cell definition up to pack design and integration.