DEVELOPMENT OF THE ALGORITHM OF AUTOMATED CONTROL OF ELECTROCHEMICAL ENERGY STORAGE DEVICES
DOI:
https://doi.org/10.15588/1607-6761-2017-1-6Keywords:
electrochemical energy storage, test pulse, response signal, parameters, algorithm, process of state controlAbstract
Objective. Improvement of the process of automated monitoring of the current state of the electrochemical energy storage without disturbing the regular mode of its operation.Method of research. Investigations were carried out by implementing a pulse method for monitoring the state of an electrochemical energy storage device, in which the values of its parameters are determined from the response signal of the drive to the test current pulse according to the developed algorithm.
Results. Information about the status of the drive is displayed on the monitor screen in the form of the current values of its main parameters and is stored in the memory of the monitoring system, which allows you to monitor its dynamics.
Scientific novelty. The authors developed an improved method of automated monitoring of the current state of the energy store, based on the identification of its parameters with the parameters of the electrochemical process.
Practical significance. The software is developed that can be used for automated monitoring of the current state of energy storage devices as part of autonomous power supply systems
References
Dzenzers’kij, V. A., Zhitnik, N. E., Plaksin, S. V., Pogorelaja, L. M. (2007). Principy postroenija gibridnyh vetro-solnechnyh jenergoustanovok. Elektrotehnіka ta elektroenergetika, Zaporіzhzhja, 1, 67–72. DOI: http://dx.doi.org/10.15588/1607-6761-2007-1-13
Gruzdev, A. I. (2008). Osnovnye tendencii i napravlenija razvitija avtonomnoj jelektrojenergetiki. Ch. II. Jelektrichestvo, 10, 2–11.
Temirev, A. P. (2005). Sistema kontrolja i diagnostiki akkumuljatornyh batarej sudovoj bortovoj sistemy jelektropitanija. Izvestija vuzov. Jelektromehanika, 4, 57–60.
Gruzdev, A. I. (2005). Koncepcija postroenija sistem kontrolja i upravlenija vysokojenergoemkih litievyh akkumuljatornyh batarej. Jelektrohimicheskaja jenergetika, 5, 2, 90–93.
Tetsuro Okoshi, Keizo Yamada, Tokiyoshi Hirasawa, Akihiko Emori. (2006). Battery condition monitoring (BCM) technologies about lead-acid batteries. ScienceDirect Journal of Power Sources 158, 874–878.
Hariprakash, B., Martha, S. K., Arthi Jaikumar, Shukla, A. K. (2004). On-line monitoring of lead-acid batteries by galvanostatic non-destructive technigue. Science Direct Journal of Power Sources 137, 128–133.
Tomonobu Tsujikawa, Toshio Matsushima. (2007). Remote monitoring of VRLA batteries for telecommunications systems. Journal of Power Sources, 168, 99–104.
Sabine Piller, Marion Perrin, Andreas Jossen. (2001). Methods for state-of-charge determination and their applications. Journal of Power Sources, 96 (2),113–120.
Bezruchko, K. V., Davidov, A. O. (2012). Metod jekspressdiagnostiki jelektrohimicheskih nakopitelej jenergii jenergoustanovok raketno-kosmicheskih obektov. Kosmicheskaja tehnika. Raketnoe vooruzhenie, 1, 140–148.
Dzenzerskij, V. A., Zhitnik, N. E., Plaksin, S. V. (2005). Sokolovskij I. I. Kontrol’ sostojanija starternyh svincovyh akkumuljatorov hronopotenciometricheskim metodom. Elektrotehnіka ta elektroenergetika, 1, 13–18.
Dzenzerskij, V. A., Beda, M. A., Zhitnik, N. E., Plaksin, S. V. (2011). Avtomatizirovannaja diagnostika himicheskih istochnikov toka. Tehnologija i konstruirovanie v jelektronnoj apparature, Odessa, 1, 6–9.
Dzenzerskij, V. A. Beda, M. A., Zhitnik, N. E., Plaksin, S.V. (2013). Metod obrabotki signalov otklika himicheskih istochnikov toka na impul’snoe vozdejstvie. Radіoelektronіka, іnformatika, upravlіnnja, 1, 35–39.
Fetter, K. (1967). Jelektrohimicheskaja kinetika. Moscow: Himija, 857.
Plaksin, S. V., Zhitnik, N. E., Shirman, O. I. (2012). Jeksperimental’nyj stend dlja avtomatizirovannogo kontrolja sostojanija himicheskih istochnikov toka impul’snym metodom. Gіrnicha elektromehanіka ta avtomatika, Dnepropetrovsk, 89, 58–63.
Pat. UA 112384 S2 Ukraїna, (51) MPK N01M 10/48(2006.01), G01R 31/36(2006.01). Sposіb avtomatizovanogo kontrolju potochnogo stanu akumuljatora / Dzenzers’kij V.O., Zhitnik M. Ja., Plaksіn S.V., Lіsunova V.V., Shirman O. І.; zajavnik Іnstitut transportnih sistem і tehnologіj Nacіonal’noї akademії nauk Ukraїni «Transmag». – № a 2015 05908; Zajavl. 15.06.2015; Opubl. 10.12.2015, Bjul. № 23.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2017 V. A. Dzenzersky, N. E. Zhitnik, S. V. Plaksin, V. V. Lisunova
This work is licensed under a Creative Commons Attribution 4.0 International License.
Creative Commons Licensing Notifications in the Copyright Notices
Authors who publish with this journal agree to the following terms:
Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under aCreative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work.
