Available discharge energy of non-aqueous electrochemical energy storage cells vs. discharge current


Other authors:



Available energy is one of the most relevant parameters for dimensioning and design of battery systems. The discharge duration of a battery and its dependence on the amplitude of the discharge current are described by Peukert’s equation. Other equations describe this dependence up to very high currents, including the currents that occur during a short circuit. Not the usually described quantities current and capacity, but energy and power are the decisive parameters for the dimensioning of battery systems.
The results of this work allow to determine the basic characteristics of a cell with just few current and voltage measurements and enables to answer the fundamental questions of battery system developers. The new empirical equation allows an easy determination of the available discharge energy of lithium-ion batteries that helps to design and check the suitability as energy storage e.g. for hybrid electric vehicles.
Even if all the project- and application-specific parameters are not sufficiently defined, the equation allows a fast and cost-effective feasibility study on technical conditions such as vehicle range.

Would you like to contact this author?
We are happy to forward your request / feedback.

[su_button url="mailto:nebl@carissma.eu" target="blank" background="#98c219" color="#ffffff" size="4" radius="0" icon="icon: envelope-open" icon_color="#fff"]EMAIL TO THE AUTHOR[/su_button]

ist eröffnet

Wir freuen uns auf Ihre Einreichung
bis zum 31. Oktober 2022