Detail publikace

Low frequency noise of electrochemical power sources

Originální název

Low frequency noise of electrochemical power sources

Anglický název

Low frequency noise of electrochemical power sources

Jazyk

en

Originální abstrakt

Terminal voltage fluctuation of lithium-sulfur cells and nickel–metal-hydride cells was measured in different time intervals since cell charging to full capacity. The power noise spectral density is of 1/f^a type with exponent a varying in the range from 1 to 1.8. The main noise sources in charge storage systems are: i) fluctuation of potential barrier on the electrode-electrolyte interface (its height and width); ii) generation-recombination processes due to the chemical redox reactions, happening in the cell during its discharge. The state of health of each cell influences the noise spectral density shape and the rate of its decline. Further study of described behaviors may lead to development of reliable method for cell quality assessment.

Anglický abstrakt

Terminal voltage fluctuation of lithium-sulfur cells and nickel–metal-hydride cells was measured in different time intervals since cell charging to full capacity. The power noise spectral density is of 1/f^a type with exponent a varying in the range from 1 to 1.8. The main noise sources in charge storage systems are: i) fluctuation of potential barrier on the electrode-electrolyte interface (its height and width); ii) generation-recombination processes due to the chemical redox reactions, happening in the cell during its discharge. The state of health of each cell influences the noise spectral density shape and the rate of its decline. Further study of described behaviors may lead to development of reliable method for cell quality assessment.

BibTex


@inproceedings{BUT137504,
  author="Tomáš {Kuparowitz} and Vlasta {Sedláková} and Petr {Sedlák} and Josef {Šikula}",
  title="Low frequency noise of electrochemical power sources",
  annote="Terminal voltage fluctuation of lithium-sulfur cells and nickel–metal-hydride cells was measured in different time
intervals since cell charging to full capacity. The power noise spectral density is of 1/f^a type with exponent a varying in the range from 1 to 1.8. The main noise sources in charge storage systems are: i) fluctuation of potential barrier on the electrode-electrolyte interface (its height and width); ii) generation-recombination processes due to the chemical redox reactions, happening in the cell during its discharge. The state of health of each cell influences the noise spectral density shape and the rate of its decline. Further study of described behaviors may lead to development of reliable method for cell quality assessment.",
  address="IEEE",
  booktitle="2017 International Conference on Noise and Fluctuations (ICNF)",
  chapter="137504",
  doi="10.1109/ICNF.2017.7985993",
  howpublished="online",
  institution="IEEE",
  year="2017",
  month="june",
  pages="1--4",
  publisher="IEEE",
  type="conference paper"
}