Litcius/Paper detail

A General Energy Balance for Battery Systems

Dawn M. Bernardi, Ellen M. Pawlikowski, John Newman

1985Journal of The Electrochemical Society2,386 citationsDOIOpen Access PDF

Abstract

A general energy balance for battery systems has been developed. This equation is useful for estimating cell thermal characteristics. Reliable predictions of cell temperature and heat‐generation rate are required for the design and thermal management of battery systems. The temperature of a cell changes as a result of electrochemical reactions, phase changes, mixing effects, and joule heating. The equation developed incorporates these effects in a complete and general manner. Simplifications and special cases are discussed. The results of applying the energy balance to a mathematical model of the cell discharged through two different reaction mechanisms are given as examples. The examples illustrate how the energy equation may be applied to a specific system to examine the relative contributions corresponding to the terms in the equation. The examples show that the processes involved in cell heat generation may be complex and that the application of a sufficiently general energy equation is advantageous.

Topics & Concepts

Energy balanceBattery (electricity)Joule heatingJoule (programming language)Heat generationEnergy (signal processing)ThermalBalance equationThermodynamicsHeat equationThermal energyApplied mathematicsComputer scienceMechanicsMathematicsPhysicsMathematical analysisEngineeringPower (physics)Electrical engineeringMarkov chainStatisticsMarkov modelMachine learningAdvanced Battery Technologies ResearchAdvanced Thermodynamics and Statistical MechanicsProcess Optimization and Integration