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Litens Automotive Group to Participate in the SAE Conference

September 24, 2024
Litens Automotive Group to Participate in the SAE Conference

Litens Automotive is thrilled to announce our participation in the SAE Conference on October 2nd and 3rd at Saint John’s Resort in Plymouth, Michigan. Join us for insightful sessions on cutting-edge automotive technologies: 

 

Model Based Design and Development of Immersion Cooling Battery Systems by Ramavtar Tyagi 

  • Wednesday, October 2nd, Provincial Ballroom, 10:30 AM 
  • Introduction of model-based design improvements for Litens’ novel proprietary technology, the Immersion Cooled Battery System. Some of the features include uniform cell cooling, longer battery life, and thermal runaway propagation mitigation. 

 

Heat Pump Booster: Extending Cold Climate Heat Pump Operation with an Actively Heated Multipurpose Evaporator by David Nakhla 

  • Wednesday, October 2nd, Grand Ballroom, 11:30 AM 
  • Introduction of Litens’ novel proprietary technology, the Heat Pump Booster. This multipurpose evaporator for BEVs heat pump extends operation to extreme cold conditions, eliminating the need for supplementary air PTC heaters and HV coolant heaters to meet cabin and battery heating demands. 

 

Multi-Objective Optimization of Immersion-Cooled Battery Systems Considering Degradation and Thermal Performance by Jorge Suzuki 

  • Wednesday, October 2nd, Provincial Ballroom, 2:00 PM 
  • Introduction of a rapid parametrization framework for charging controls of Litens’ Battery Management System. The multi-objective/physics optimization framework provides optimal charging rates and flow-rates, balancing cell life while sustaining fast-charging performance in immersion-cooled battery systems. 

 

Validation of a Multiscale Thermal Runaway Propagation Model for Immersion Cooling Battery Systems by Sergio Negro 

  • Thursday, October 3rd, Provincial Ballroom, 11:00 AM 
  • Introduction of a comprehensive multiscale and Multiphysics modeling framework to analyze and mitigate thermal runaway and its propagation in lithium-ion battery systems using immersion cooling technology. Validation is performed through experimental data on both small and full-scale battery modules. 

 

We look forward to connecting with industry experts and sharing our latest innovations. See you there!