1. bookVolume 26 (2022): Edizione 1 (January 2022)
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Rivista
eISSN
2255-8837
Prima pubblicazione
26 Mar 2010
Frequenza di pubblicazione
2 volte all'anno
Lingue
Inglese
access type Accesso libero

A Study on a Recuperative Suspension as an Alternative Energy Source

Pubblicato online: 02 May 2022
Volume & Edizione: Volume 26 (2022) - Edizione 1 (January 2022)
Pagine: 213 - 227
Dettagli della rivista
License
Formato
Rivista
eISSN
2255-8837
Prima pubblicazione
26 Mar 2010
Frequenza di pubblicazione
2 volte all'anno
Lingue
Inglese
Abstract

The paper describes the problem of using the vehicle’s suspension as a source of an alternative energy. One of the best ways to improve the vehicle efficiency and its smooth ride is to make some rational changes in the vehicle design, one of which is to convert the mechanical energy accumulated in the vehicle’s suspension into electricity. The shock absorber in the suspension has been replaced with two different-type new recuperative devices, which replace the shock absorber and convert into electricity the loads coming from the road irregularities to pavement.

Keywords

[1] Rotenberg R.V. Podveska avtomobilja (Vehicle’s suspension.). Moscow: Mashinostroenie, 1972. (in Russian) Search in Google Scholar

[2] Yatsenko N. N., Prutchikov O. K. Plavnostj hoda gruzovih avtomobilej (Running smooth of trucks.). Moscow: Mashinostroenie, 1969. (in Russian) Search in Google Scholar

[3] Vasilyev V. S., Zhigarev V. P., Khachaturov A. A. Ustojchivostj upravljaemogo dvizhenija avtomobilja (Approximate analytical design of the parameters of vertical vibrations of vehicle with a centerpoint suspension. Stability of vehicle’s steered movement.). Moscow: Proceedings of MADI, 1973:187–199. (in Russian) Search in Google Scholar

[4] Vasilyev V. S. Statisticheskiye issledovaniya gladkosti dorozhnogo pokrytiya i vibratsiy transportnykh sredstv. (Statistical studies of road pavement smoothness and vehicle vibrations). Doctoral thesis. М. 1970. (in Russian) Search in Google Scholar

[5] Yatsenko N. N. Pogloschajuschaja I sglazhivajuschaja sposobostj shin (Absorbing and smoothing ability of tires.). Moscow: Mashinostroenie, 1978. (in Russian) Search in Google Scholar

[6] Zivzivadze O., et al. Preobrazovaniye energii kolebaniy podveski avtomobilya v elektricheskuyu. (Conversion of vibrational energy of the vehicle suspension into electricity). Batumi, 2020:34–35. (in Russian) Search in Google Scholar

[7] Zivzivadze O., Kachakhidze I., Zivzivadze B. Preobrazovaniye i ispol’zovaniye v kachestve elektroenergii energii, vyrabatyvayemoy vibratsiyami v podveske avtomobilya. (Conversion and use as electricity of energy generated by vibrations in the vehicle’s suspension). Proceedings of I International Conference on Contemporary Energy Problems and Ways to Address Them. 2019:166–168. (in Russian) Search in Google Scholar

[8] Najini H., Muthukumaraswamy S. A. Piezoelectric Energy Generation from Vehicle Traffic with Technoeconomic Analysis. Journal of Renewable Energy 2017:2017: 9643858. https://doi.org/10.1155/2017/964385810.1155/2017/9643858 Search in Google Scholar

[9] Sergienko A. N., Lyubarskiy B. G., Samorodov V. B. Analiz konstrukcij elektromehanicheskih preobrazovatelej i vibor shemi elektroamortizatora nepodressornih mass transportnogo sredstva (Analysis of the designs of electromechanical converters and choosing the scheme of the electric shock absorber of the unsprung masses of vehicle.). Avtomobiljnij transport 2012:31:57–63. (in Russian) Search in Google Scholar

[10] Bal V. B., et al. Lineynyye porshnevyye elektricheskiye mashiny: oblasti primeneniya. (The linear reciprocating electrical machines: application fields). Issues of electromechanics 2015:149:7–8. (in Russian) Search in Google Scholar

[11] Zhigarev V. P., Khachaturov A. A. Influence of nonlinear elastic characteristics of the vehicle vibration spring – “Stability of vehicle’s steered movement”. Moscow: Proceedings of MADI, 1973:161–174. (in Russian) Search in Google Scholar

[12] Goldin G. V., et al. The influence of stiffness of the springs on the vibrations of the “linear vehicle”. “Stability of vehicle’s steered movement”. Moscow: Proceedings of MADI, 1972:93–105. (in Russian) Search in Google Scholar

[13] Silayev A. A. Spektraljnaja teorija podressorivanija transportnih mashin (Spectral theory of cushioning of transport machines.). Moscow: MASHGIZ, 1963. (in Russian) Search in Google Scholar

[14] Leahi S. Electric Cars May Rule the World’s Roads by 2040 [Online]. [Accessed 10.04.2021]. Available: https://www.nationalgeographic.com/science/article/electric-cars-replace-gasoline-engines-2040 Search in Google Scholar

[15] Recuperative Suspension Testing Device Overview. [Online]. [Accessed: 15.04.2021]. Available: https://www.youtube.com/watch?v=q2nVn_Z-NI0 Search in Google Scholar

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