Article | REF: D3323 V1

Electric batteries - Activatable batteries

Author: Christian SARRAZIN

Publication date: May 10, 2002

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3. Lithium-iron disulphide batteries. Electrolyte: molten salts

3.1 General

Designed for thermal cell applications because of the high mass energies it can achieve, this pairing has also been studied for its low material cost, and has been developed for operation at ambient temperature. , for high-temperature operation in molten salt electrolyte thermal batteries (this article), but it has also been studied as an accumulator for application in electric vehicles (high-temperature accumulators).

In its application to thermal batteries, the aim was to gain an important factor in terms of energy by mass, compared with calcium-chromate batteries

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Lithium-iron disulphide batteries. Electrolyte: molten salts

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Lead dioxide batteries. Electrolyte: fluoroboric acid

Bibliography

Basic references

General references

Specific references

Li/SO ₂

Li/SOCl ₂

Li/MnO ₂

Standardization

French Standards Association (AFNOR)

Piles électriques - Partie 1 : généralités. Indice de classement : C59-100. - NF EN 60086-1 - août 2000
Piles électriques - Partie 2 : feuilles de spécifications. Indice de classement : C59-110. - NF EN 60086-2 - juin 2000
Piles électriques - Partie 3 : piles pour montres. Indice de classement : C59-863. - NF EN 60086-3 - août 1996
Piles électriques...

Websites

BE Battery Engineering :

http://www.batteryeng.com/

A site on lithium thionyl chloride batteries, covering the various aspects of their chemistry, mechanisms and parameters influencing their electrical performance. Numerous photos illustrate the manufacture of these batteries and their components: stainless...

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