Senior Battery Pack System Simulation Engineer M/F in Grenoble, Auvergne-Rhône-Alpes at Verkor
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Job Description
As a Senior Battery Pack System Simulation Engineer, you are responsible for developing and maintaining system-level battery pack models to support battery pack development across all applications, including automotive.
You build and integrate surrogate/reduced-order models in close collaboration with the CAE engineers covering electrical, electrochemical, thermal, mechanical, durability, control, safety, and optimization aspects of battery pack systems.
You own your surrogate/equivalent-circuit/reduced-order model requirements and the associated parameter identification and validation workflows, in close collaboration with the CAE engineers and with support from BMS, testing, and validation engineers.
You provide simulation-based insight to support architecture trade-offs, control development, performance prediction, lifetime assessment, and safety-oriented engineering decisions.
This role is part of the CAE & Advanced Methods Group and supports the Battery Pack and System Group with system-level simulation evidence for pack architecture justification, optimization, root-cause analysis, and with control-oriented simulations for BMS/BTMS calibration, validation, robustness and verification.
1. System-Level Battery Pack Model development & Simulation
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Develop and maintain multi-domain battery pack models representing electrical, electrochemical and thermal behaviors as well as pack durability, swelling and cooling loop operation and control.
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Define the appropriate model fidelity and simulation approach depending on project phase, use case, and required decision timeline.
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Develop and operate workflows for trade-off studies, sensitivity analysis, design of experiments, surrogate model generation, and multi-objective optimization (safety constraints, integration constraints, mass, and cost-related drivers, …)
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Assess implication of control strategy and BMS/BTMS algorithms on system operation and fault scenarios (MiL, SiL).
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Run simulations for normal (usage profiles, testing, thermal) and fault conditions, including cooling loss scenarios, sensor failures or drift, electrical fault conditions, thermal excursions, and safety-relevant operational limit studies.
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Model and workflow standardization, automation and documentation
2. Empirical & EC-Type Model Requirements, Development & Parameter Identification
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Establish and own model requirements for equivalent circuit, thermal, ML, and other empirical/surrogate/reduced-order battery models for system simulation and control-oriented applications under normal and fault scenarios.
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Support CAE engineers for the development, maintenance, and deployment of ECM/ROM/ML/surrogate models.
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Coordinate model parameter identification with CAE, testing, and product validation engineers at the cell, module, and pack levels, including OCV and DCIR/ACIR, SOC/temperature dependencies, and aging-related parameter evolution.
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Maintain model assumptions and limitations, parameter traceability, model-change traceability, validation status, applicability domain, and release and usage guidelines.
3. Multi-Physics Model Integration
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Integrate domain knowledge into the battery pack system models and translate high-fidelity simulation inputs into fast and decision-oriented system models in close collaboration with CAE engineers.
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Develop co-simulation workflows with integrated high-fidelity models through direct coupling or using FMI/FMUs.
4. BMS/BTMS Algorithm Development & Control-Oriented Support
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Develop advanced state estimation (SOC, SOH, SOX) algorithms, including KF, MHE, physics-based, and machine-learning approaches and incorporate/execute in system simulation workflows.
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Evaluate/recommend voltage/current/temperature limits, derating strategies, balancing impact, temperature non-uniformity, cooling system operation limits and constraints, sensor sensitivity, etc.
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Contribute to Verkor's IP portfolio.
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Provide simulation support to the BMS development engineer for model-based verification and validation, including estimator robustness and calibration, MiL, SiL and HiL test bench.
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Master's degree (Bac+5) or PhD in Electrical Engineering, Systems Engineering, Control Engineering, Mechanical Engineering, or equivalent.
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Specialized knowledge in system control design and state estimation algorithms (KF, MHE, ML, empirical, …), Li-ion battery cells and packs, BMS and BTMS, MiL, SiL.
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5 years of experience minimum in battery or other electrified system simulation (automotive OEMs/Tier 1 suppliers preferred), including state estimation and control, with demonstrated technical track record and model development/maintenance ownership.
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Proficiency in system simulation tools (Simulink, Simscape/Modelica, Ansys Twin Builder, Amesim, …) and scientific coding (Python, Matlab).
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Experience in surrogate and reduced-order modelling, including model building, calibration, and validation.
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Experience in multi-domain system model integration and model-based system design.
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Experience in multi-objective optimization (trade-offs, pareto front, etc.), statistical analysis (error propagation, uncertainty quantification, robustness, etc.), and other study scenarios.
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Familiar with electrochemical engineering, battery chemistries (NMC, LFP, ...), thermal engineering, and battery durability.
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Familiar with battery safety and system fault scenarios.
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Proficiency in English / French is a plus.