John Wamburu
Prashant Shenoy
ABSTRACT
Electric bikes have emerged as a popular form of transportation for short trips in dense urban areas and are being increasingly adopted by bike share programs for easy accessibility to riders. Motivated by the rising popularity of electric bikes, a form of an electric vehicle, we study the research question of how to design a zero-carbon electric bike share system. Specifically we study the challenges in designing solar charging stations for electric bike systems that enable either net-zero or a fully zero-carbon operation. We design a prototype two bike solar charging station to demonstrate the feasibility of our approach. Using insights and data from our prototype solar charging station, we then conduct a data driven analysis of the costs and benefits of converting an entire bike system into one powered using solar charging stations. Using empirical analysis, we determine the panel and battery capacity for each station, and perform a feasibility evaluation of the system using 8 months of ridership data. Our results show that equipping each bike station with a single grid-tied solar panel is adequate to meet the annual charging demand from electric bikes and achieve net-zero operation using net-metering. For an off-grid setup, our analysis shows that a bike station needs twice as many solar panels, on average, along with a 1.8kWh battery, with the busiest bike station needing 6× more solar capacity than in the net-metering case. Our analysis also reveals a tradeoff between the array size and the battery size needed to achieve true-zero carbon operation for the electric bike share system.
- [n.d.]. Austin BCycle. https://austin.bcycle.com/. (Accessed on 08/02/2020).Google Scholar
- [n.d.]. Capital Bikeshare: Metro DC's bikeshare service | Capital Bikeshare. https://www.capitalbikeshare.com/. (Accessed on 08/02/2020).Google Scholar
- [n.d.]. Citi Bike: NYC's Official Bike Sharing System I Citi Bike NYC. https://www.citibikenyc.com/. (Accessed on 08/02/2020).Google Scholar
- [n.d.]. Citrix Cycle. https://www.citrixcycle.com/. (Accessed on 08/06/2020).Google Scholar
- [n.d.]. Divvy: Chicago's Bike share Program I Divvy Bikes. https://www.divvybikes.com/. (Accessed on 08/02/2020).Google Scholar
- [n.d.]. E-Bikes Are Having Their Moment. They Deserve It. - The New York Times. https://www.nytimes.com/2020/06/03/technology/personaltech/e-bikes-are-having-their-moment-they-deserve-it.html. (Accessed on 08/02/2020).Google Scholar
- [n.d.]. E-xciting (But Also E-xpensive) News: Citi Bike Electric Fleet Will Grow to 4,000 --- With $2 Fee - Streetsblog New York City. https://nyc.streetsblog.org/2019/02/28/e-xciting-but-also-e-xpensive-citi-bike-electric-fleet-will-grow-to-4000-with-2-fee/. (Accessed on 08/02/2020).Google Scholar
- [n.d.]. Greenhouse Gas Equivalencies Calculator I Energy and the Environment I US EPA. https://www.epa.gov/energy/greenhouse-gas-equivalencies-calculator. (Accessed on 07/17/2020).Google Scholar
- [n.d.]. Innovative Trackers portfolio. https://connectedcycle.com/trackers. (Accessed on 08/06/2020).Google Scholar
- [n.d.]. nextbike UK. https://www.nextbike.co.uk/en/. (Accessed on 08/06/2020).Google Scholar
- [n.d.]. The Satiator, Programmable Battery Charger. https://www.ebikes.ca/product-info/cycle-satiator.html. (Accessed on 07/28/2020).Google Scholar
- [n.d.]. ValleyBike Share. https://www.valleybike.org/. (Accessed on 09/14/2020).Google Scholar
- Muhammad Ali, Safayat Mohammad, and Md Minhajur Rahman. 2019. Modelling a Solar Charge Station for Electric Vehicle with Storage Backup. In 2019 1st International Conference on Advances in Science, Engineering and Robotics Technology (ICASERT). IEEE, 1--4.Google ScholarCross Ref
- Noman Bashir, Dong Chen, David Irwin, and Prashant Shenoy. 2019. Solar-TK: A Data-driven Toolkit for Solar PV Performance Modeling and Forecasting. In 2019 IEEE 16th International Conference on Mobile Ad Hoc and Sensor Systems (MASS). IEEE, 456--466.Google ScholarDigital Library
- TS Biya and MR Sindhu. 2019. Design and Power Management of Solar Powered Electric Vehicle Charging Station with Energy Storage System. In 2019 3rd International conference on Electronics, Communication and Aerospace Technology (ICECA). IEEE, 815--820.Google Scholar
- Chris Cherry and Robert Cervero. 2006. Use characteristics and mode choice behavior of electric bikes in China. (2006).Google Scholar
- Lucian Nicolae Demeter, Valer Turcin, Mihai Hanek, Gabriel Vataselu, and Bica Zorlescu. 2017. Modular solution for charging the batteries of electric bikes parked on public domain. In 2017 Electric Vehicles International Conference (EV). IEEE, 1--5.Google ScholarCross Ref
- Jennifer Dill and Geoffrey Rose. 2012. Electric bikes and transportation policy: Insights from early adopters. Transportation research record 2314, 1 (2012), 1--6.Google ScholarCross Ref
- Simon D Fink, Lukasz Golab, Srinivasan Keshav, and Hermann de Meer. 2017. How similar is the usage of electric cars and electric bicycles?. In Proceedings of the Eighth International Conference on Future Energy Systems. 334--340.Google ScholarDigital Library
- Aslak Fyhri and Nils Fearnley. 2015. Effects of e-bikes on bicycle use and mode share. Transportation Research Part D: Transport and Environment 36 (2015), 45--52.Google ScholarCross Ref
- Christian Gorenflo, Ivan Rios, Lukasz Golab, and Srinivasan Keshav. 2017. Usage patterns of electric bicycles: an analysis of the WeBike project. Journal of advanced transportation 2017 (2017).Google Scholar
- Dong Ji, Mingsong Lv, Jiayu Yang, and Wang Yi. 2020. Optimizing the Locations and Sizes of Solar Assisted Electric Vehicle Charging Stations in an Urban Area. IEEE Access 8 (2020), 112772--112782.Google ScholarCross Ref
- Stephen Lee, Srinivasan Iyengar, David Irwin, and Prashant Shenoy. 2016. Shared solar-powered EV charging stations: Feasibility and benefits. In 2016 Seventh International Green and Sustainable Computing Conference (IGSC). IEEE, 1--8.Google ScholarCross Ref
- Gautham RamChandra Mouli, Peter Vanduijsen, Tim Velzeboer, Gireesh Nair, Yunpeng Zhao, Ajay Jamodkar, Olindo Isabella, Sacha Silvester, Pavol Bauer, and Miro Zeman. 2018. Solar powered e-bike charging station with AC, DC and contactless charging. In 2018 20th European Conference on Power Electronics and Applications (EPE'18 ECCE Europe). IEEE, P-1.Google Scholar
- Gautham Ram Chandra Mouli, Mark Leendertse, Venugopal Prasanth, Pavol Bauer, Sacha Silvester, Stefan van de Geer, and Miro Zeman. 2016. Economic and CO2 emission benefits of a solar powered electric vehicle charging station for workplaces in the Netherlands. In 2016 IEEE Transportation Electrification Conference and Expo (ITEC). IEEE, 1--7.Google Scholar
- Natalie Popovich, Elizabeth Gordon, Zhenying Shao, Yan Xing, Yunshi Wang, and Susan Handy. 2014. Experiences of electric bicycle users in the Sacramento, California area. Travel Behaviour and Society 1, 2 (2014), 37--44.Google ScholarCross Ref
- Ivan Rios, Lukasz Golab, and S Keshav. 2016. Analyzing the usage patterns of electric bicycles. In Proceedings of the Workshop on Electric Vehicle Systems, Data, and Applications. 1--6.Google ScholarDigital Library
- Samir M Shariff, Mohammad Saad Alam, Furkan Ahmad, Yasser Rafat, MSyed Jamil Asghar, and Saadullah Khan. 2019. System design and realization of a solar-powered electric vehicle charging station. IEEE Systems Journal (2019).Google Scholar
- SM Monjur Siddique, Muhammad Tasneem Alam, and Md Sanwar Hossain. 2019. Designing a Solar Powered DC Charging Station for Easy Bikes: Bangladesh Perspective. In 2019 5th International Conference on Advances in Electrical Engineering (ICAEE). IEEE, 72--77.Google ScholarCross Ref
- Ziqian Zhang, Cihan Gercek, Herwig Renner, Angèle Reinders, and Lothar Fickert. 2019. Resonance instability of photovoltaic E-bike charging stations: Control parameters analysis, modeling and experiment. Applied Sciences 9, 2 (2019), 252.Google ScholarCross Ref
Index Terms
- Greening Electric Bike Sharing Using Solar Charging Stations
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