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Books on the topic 'Electrochemical models'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 June 2024

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1

1950-, Savinell Robert F., Electrochemical Society. Industrial Electrolysis and Electrochemical Engineering Division., Electrochemical Society. Energy Technology Division., and Electrochemical Society Battery Division, eds. Tutorials in electrochemical engineering--mathematical modeling: Proceedings of the international symposium. Electrochemical Society, 1999.

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2

Adam, Vojtěch. Utilizing of bio-electrochemical and mathematical methods in biological research. Research Signpost, 2007.

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3

Symposium on Fundamental Aspects of Electrochemical Deposition and Dissolution Including Modeling (1997 Paris, France). Proceedings of the Symposium on Electrochemical Deposition and Dissolution Including Modeling. Edited by Paunovic Milan and Electrochemical Society Electrodeposition Division. Electrochemical Society, 1998.

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4

John, Matlosz Michael, Electrochemical Society Electrodeposition Division, and Symposium on Fundamental Aspects of Electrochemical Deposition and Dissolution (1999 : Honolulu, Hawaii), eds. Fundamental aspects of electrochemical deposition and dissolution: Proceedings of the International Symposium. Electrochemical Society, 2000.

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5

Kandler, Smith, Kim Gi-Heon, National Renewable Energy Laboratory (U.S.), and Space Power Workshop (2011 : Los Angeles, Calif.), eds. A three-dimensional thermal-electrochemical coupled model for spirally wound large-format lithium-ion batteries. National Renewable Energy Laboratory, 2011.

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6

Symposium on Electrochemical and Thermal Modeling of Battery, Fuel Cell, and Photoenergy Conversion Systems (1986 San Diego, Calif.). Proceedings of the Symposium on Electrochemical and Thermal Modeling of Battery, Fuel Cell, and Photoenergy Conversion Systems. Battery and physical electrochemistry divisions, Electrochemical Society, 1986.

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7

C, Jeffery T., and Electrochemical Society Meeting, eds. Proceedings of the symposia on chlor-alkali and chlorate production and new mathematical and computational methods in electrochemical engineering. Electrochemical Society, 1993.

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8

White, Ralph E. Optimization of the lithium/thionyl chloride battery: A final report. Dept. of Chemical Engineering, Texas A&M University, 1987.

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9

White, Ralph E. Optimization of the lithium/thionyl chloride battery: A final report for NASA GRANT NAG 9-177, for the period January 1, 1988 to December 31, 1988. National Aeronautics and Space Administration, 1989.

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10

Brady, Nicholas William. Investigation of Lithium Ion Battery Electrodes: Using Mathematical Models Augmented with Data Science to Understand Surface Layer Formation, Mass Transport, Electrochemical Kinetics, and Chemical Phase Change. [publisher not identified], 2019.

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11

Van Zee, John William, 1952-, Electrochemical Society. Industrial Electrolysis and Electrochemical Engineering Division., Electrochemical Society. Energy Technology Division., Electrochemical Society Meeting, Symposium on Advances in Mathematical Modeling and Simulation of Electrochemical Processes (1998 : San Diego, Calif.), and Symposium on Oxygen Depolarized Cathodes and Activated Cathodes for Chlor-Alkali and Chlorate Processes (1998 : San Diego, Calif.), eds. Proceedings of the Symposium on Advances in Mathematical Modeling and Simulation of Electrochemical Processes and [the Symposium on] Oxygen Depolarized Cathodes and Activated Cathodes for Chlor-Alkali and Chlorate Processes. Electrochemical Society, 1998.

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12

Burkov, Aleksey, and Viktor Mihanoshin. Rowing electric installations: overview, analysis, development prospects. INFRA-M Academic Publishing LLC., 2022. http://dx.doi.org/10.12737/1832490.

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The monograph provides an overview and analysis of ship's rowing electrical installations, modern scientific and technical solutions aimed at improving the theory and practice of electrical systems of ship propulsion systems are considered. Solutions of urgent problems related to the development of rowing electric installations of small-tonnage vessels based on the introduction of combined power plants, including electrochemical sources of electricity (batteries), are proposed.
 It is intended for scientific and educational purposes and is aimed at specialists in the field of ship power e
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13

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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14

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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15

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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16

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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17

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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18

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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19

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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20

Komhyr, W. D. Operations handbook--ozone measurements to 40-km altitude with model 4A electrochemical concentration cell (ECC) ozonesondes (used with 1680-MHz radiosondes). U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Air Resources Laboratory, 1986.

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21

Electrochemical Society. Industrial Electrolysis and Electrochemical Engineering Division (Corporate Author), Electrochemical Society Energy Technology Division (Corporate Author), Electrochemical Society Battery Division (Corporate Author), Robert F. Savinell (Editor), and J. M. Fenton (Editor), eds. Tutorials in Electrochemical Engineering-Mathematical Modeling: Proceedings of the International Symposium (Proceedings (Electrochemical Society), V. 99-14.). Electrochemical Society, 1999.

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22

Hariharan, Krishnan S., Piyush Tagade, and Sanoop Ramachandran. Mathematical Modeling of Lithium Batteries: From Electrochemical Models to State Estimator Algorithms. Springer London, Limited, 2017.

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23

Hariharan, Krishnan S., Piyush Tagade, and Sanoop Ramachandran. Mathematical Modeling of Lithium Batteries: From Electrochemical Models to State Estimator Algorithms. Springer, 2018.

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24

Hariharan, Krishnan S., Piyush Tagade, and Sanoop Ramachandran. Mathematical Modeling of Lithium Batteries: From Electrochemical Models to State Estimator Algorithms. Springer, 2019.

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25

Zhang, Xueji, Joseph Wang, and Huangxian Ju. Electrochemical Sensors, Biosensors and Their Biomedical Applications. Elsevier Science & Technology Books, 2011.

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26

(Editor), Xueji Zhang, Huangxian Ju (Editor), and Joseph Wang (Editor), eds. Electrochemical Sensors, Biosensors and their Biomedical Applications. Academic Press, 2007.

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27

Sauer, Dirk Uwe, and Julia Kowal. Electrochemical Power Sources : Fundamentals, Systems, and Applications- : Simulation Models of Secondary Batteries: From Quantum Physics to Techno-Economic Scale. Elsevier, 2022.

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28

Sauer, Dirk Uwe, and Julia Kowal. Electrochemical Power Sources : Fundamentals, Systems, and Applications- : Simulation Models of Secondary Batteries: From Quantum Physics to Techno-Economic Scale. Elsevier, 2022.

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29

Fuller, T. F., P. C. Foller, and F. Hine. Advances in Mathematical Modelling & Simulation of Electrochemical Processes & Oxygen Depolarized Cathodes & Activated Cathodes for Chlor-Alkali (Proceedings). Electrochemical Society, 1998.

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30

Calif.) International Symposium on Process Physics and Modeling in Semiconductor Technology (4th : 1996 : Los Angeles, G. R. Srinivasan, C. S. Murthy, and S. T. Dunham. Proceedings of the 4th International Symposium on Process Physics and Modeling (Proceedings (Electrochemical Society), V. 96-4.). Electrochemical Society, 1996.

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31

Pershina, K. D., and K. O. Kazdobin. Impedance spectroscopy of electrolytic materials. V.I. Vernadsky Institute of General and Inorganic Chemistry, 2012. http://dx.doi.org/10.33609/guide.2012.224.

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Electrochemical impedance spectroscopy (EIS) is playing an increasingly significant role in fundamental and applied research: to study any type of solid and liquid materials (ionic, mixed, semiconductor, and insulators), to study charge transfer in heterogeneous systems, including phase boundaries, electrode boundaries, and elements of the microstructure. With the help of EIS, it is possible to study the behavior of chemical sensors, fuel cells, batteries, and corrosion processes. The base of the method stays on the principle of exciting any electrochemical system with a signal in the form of
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32

Mahinpey, Nader. An electrochemical investigation of mass transfer in a pipe and a simplified bifurcation model. 2001.

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33

Anderson, James A. An Engineer’s Introduction to Neuroscience. Oxford University Press, 2018. http://dx.doi.org/10.1093/acprof:oso/9780199357789.003.0006.

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When building something, it is essential to know the hardware. This chapter contains key things to know about the active components of the brain: nerve cells (aka neurons). Neurons have severe performance limitations. Problems include high energy consumption, mechanical and physiological sensitivity, unreliability, limited connectivity, and difficulty in wiring neurons together. Neurons are at least a million times slower to “compute” than a modern electronic device. This slow speed cannot be avoided because the neuron has to deal with high electrical capacity and resistance and slow conductio
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