Hi SilverSurfer,
I understand that you are interested in applying the method of pulsed discharge to lead-acid batteries and specifically you are looking for ways to simulate pulsed discharge tests for lead-acid batteries using Simulink.Pulsed Discharge for Lead-Acid Batteries:
Applicability to Lead-Acid Batteries: Pulsed discharge methods can indeed be applied to lead-acid batteries. These methods are used to simulate real-world battery usage patterns and to assess battery performance under intermittent load conditions.
Concise Criteria for Discharge Parameters:
- Intensity of Discharge Current: Match the real-world use; automotive might need multiple times the C-rate.
- Number and Width of Current Pulses: Align with usage patterns; short, intense pulses for start-stop systems, longer pulses for energy storage.
- Rest Periods: Crucial for recovery and assessing capacity and longevity; duration influences battery performance.
Charging Tests Significance: Essential due to differing behavior in charging versus discharging, impacting efficiency, gas generation, and temperature. Understanding both aspects is key for thorough battery modeling.
Implementing in Simulink:
- Use the Simscape Electrical™ toolbox for modeling the battery. This toolbox provides components for simulating battery cells, including lead-acid types, under various conditions.
- Implement a custom discharge profile using a combination of Simulink blocks (e.g., Signal Builder or Repeating Sequence blocks) to simulate the desired pulsed discharge pattern.
- Incorporate thermal models to simulate the impact of repeated pulses and rest periods on battery temperature, which affects performance and longevity.
- Perform parameter sweeps to explore the effects of varying the discharge current intensity, pulse width, and rest periods on battery performance.
References:
Hope this helps!