Authors
- Yuanov B Beslan Timurovich
Annotation
The article presents a comprehensive analysis of the effects of bicycle infrastructure development using the city of Nalchik (Kabardino-Balkarian Republic) as a case
study. The research addresses economic, social, environmental, and health dimensions related to cycling infrastructure enhancement. Particular emphasis is placed on its contribution to the UN Sustainable Development Goals. Based on transport and statistical analysis, forecasting, and sociological surveys, the study proposes a methodological approach for assessing the impact of cycling infrastructure on urban quality of life. The paper identifies key barriers and provides recommendations for improving bicycle networks in Russian urban contexts using the example of the city of Nalchik. In further studies, these results will be taken as a basis when developing a methodology for assessing the impact of the development of cycling infrastructure on the socio-economic indicators of the city and region and its testing using test and subsequently real data.
How to link insert
Yuanov B, B. T. (2025). COMPREHENSIVE ANALYSIS OF THE EFFECTS OF BICYCLE INFRASTRUCTURE DEVELOPMENT ON THE EXAMPLE OF THE CITY OF NALCHIK Bulletin of the Moscow City Pedagogical University. Series "Pedagogy and Psychology", № 3 (59), 23. https://doi.org/10.24412/2076-9091-2025-359-23-37
References
1.
1. Bicycle transport in cities / Yu. V. Trofimenko, S. V. Shelmakov, S. O. Zege, E. V. Shashina. Moscow: Moscow Automobile and Road State Technical University
(MADI), 2020. 154 p. EDN: IMFYYF. (In Russ.).
2.
2. Shelmakov S. V., Galyshev A. B. Non-motorized mobility: study. manual. M.: MADI, 2020. 175 p. EDN: ZEHNNT. (In Russ.).
3.
3. Shelmakov S. V. Ecotransport: textbook. M.: MADI, 2018. 161 p. ISBN: 978-5-7962-0232-6. EDN: XOXGJV. (In Russ.).
4.
4. Yuanov B. T. Description of the method for a comprehensive assessment of the impact of the development of bicycle infrastructure on the city using the example of the city of Nalchik. Actual and promising scientific research: collection of articles of the V International Scientific and Practical Conference, Penza, November 30, 2024. Penza: Science and Enlightenment (IP Gulyaev G.Yu.), 2024:138–143. EDN: AVYHKQ. (In Russ.).
5.
5. De Hartog J. J., Boogaard H., Nijland H., Hoek G. Do the health benefits of cycling outweigh the risks? Environmental Health Perspectives. 2010;118(8):1109–1116. https://doi.org/10.1289/ehp.0901747
6.
6. Egiguren J., Nieuwenhuijsen M. J., Rojas-Rueda D. Premature mortality of 2050 high bike use scenarios in 17 countries. Environmental Health Perspectives.
2021;129(12):127002. https://doi.org/10.1289/EHP9073. EDN: TCQUDS.
7.
7. Mezentsev S. Problems of spatial planning, zoning and urban development in modern Russia. E3S Web of Conferences: Innovative Technologies in Environmental Science and Education, ITESE 2019, Divnomorskoe Village, September 9–14, 2019. Divnomorskoe Village: EDP Sciences. 2019;135:03050. https://doi.org/10.1051/e3sconf/201913503050. EDN: JZUKZX.
8.
8. Rosas-Satizábal D., Guzman L. A., Oviedo D. Cycling diversity, accessibility, and equality: An analysis of cycling commuting in Bogotá. Transportation Research Part D: Transport and Environment. 2020;88:102562. https://doi.org/10.1016/j.trd.2020.102562. EDN: LEBVQK.
9.
9. Seliverstov V. E. The «Five-Year Plan» of Spatial Development and Regional Policy of Russia: Running in Place or Readiness for a Sprint? Regional Research of Russia. 2022;12(2):177–191. https://doi.org/10.1134/s2079970522020228. EDN: HPWYJN.
10.
10. Total CO2-equivalent life-cycle emissions from commercially available passenger cars / J. Buberger, A. Kersten, M. Kuder [et al.]. Renewable and Sustainable Energy Reviews. 2022;159:112158. https://doi.org/10.1016/j.rser.2022.112158. EDN: RSDDJO.