International Journal of Applied Science and Engineering
Published by Chaoyang University of Technology

Dana Prianjania,*, Wahyudi Sutopoa , Eko Pujiyantoa and Fakhrina Fahmab

aMagister Program of Industrial Engineering, Universitas Sebelas Maret, Surakarta, Indonesia
bDepartment of Industrial Engineering, Universitas Sebelas Maret, Surakarta, Indonesia


 

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ABSTRACT


The development of design framework for standard has its own challenges. Especially to identify what steps are necessary to develop a new standard. In this research, use the FACT method (Framework for Analysis, Comparison and testing Standard) and SEM (Structural Eequation Model). The purpose of this research is to make recommendation of design framework of swap battery standard in electric motorcycle applications. In addition, SEM is used for looking at models that are suitable for the commercialization of battery swap technology.


Keywords: Electric motorcycle; standard; swap battery.


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REFERENCES


 

  1. [1] Satu Data Indonesia. Jumlah Kendaraan Bermotor (Unit). Retrieved June 3, 2018 from https://data.go.id/dataset/jumlah-kendaraan-bermotor-unit/resource/f9c24882-8de4-481e-9cb6-400ed8fbb0df

  2. [2] Sutopo, W. and Kadir, E.A. 2017. An Indonesian standard of lithium-ion battery. Telecommunication, Computing, Electronics and Control (Telkomnika), 15, 2: 584-589. doi: 12928/TELKOMNIKA.v15i2.6233

  3. [3] Sutopo, W and Kadir, E.A. 2018. Designing framework for standardization case study: lithium-ion battery module in electric vehicle application. International Journal of Electrical and Computer Engineering (IJECE), 8, 1: 220-226. doi: 11591/ijece.v8i1. pp220-226

  4. [4] Sutopo, W., Rahmawatie, B., Fahma, F., Nizam, M., Purwanto, A., Louhenapessy, B. B. and Kadir, E. A. 2018. A technical review of BMS performance standard for electric vehicle applications in Indonesia. Telecommunication, Computing, Electronics and Control (Telkomnika), 16, 2: 544-549. doi: 12928/TELKOMNIKA.v16i2.7930

  5. [5] Song, Y., Li, J., Ji, G., and Xue, Z. 2016. Study on the typical mode of EV charging and battery swap infrastructrure interconnecting to power grid. In Proceeding of 2016 China International Conference on Electricity Distribution (CICED), Xi’an, China, August 10, 2016. doi: 1109/CICED.2016.7576066

  6. [6] Ahmad, A., Khan, Z. A., Alam, M. S., and Khateeb, S. 2018. A review of the electric vehicle charging techniques, standards, progressions and evolution of EV technologies in Germany. Smart Science, 6, 3: 36-53. doi: 1080/23080477.2017.1420132

  7. [7] Witherel, P. W., Rachuri, S., Narayanan, A. N., and Lee, J. H. 2013. “FACTS: A Framework for Analysis, Comparison, and Testing of Standards”, National Institute of Standards and Technology, U.S. Department of Commerce. doi: 6028/NIST.IR.7935

  8. [8] Santoso, S. 2015. “Amos 22 for Structural Equation Modeling Basic and Application Concepts”, Jakarta, Indonesia. [in Indonesian]

  9. [9] Badan Standardisasi Nasional. 2016. Hasil penelitian BSN Tahun 2016, Retrieved April 30, 2018 from
    http://bsn.go.id/uploads/download/Hasil_Penelitian_BSN_Tahun_2016.pdf
  10. [10] Subekti, R. A., Hartanto, A. and Susanti, V. 2012. Direction and policies needed to support hybrid electric car research. Mechatronics, Electrical Power, and Vehicular Technology, 3, 1-8. doi: 14203/j.mev.2012.v3.1-8 [in Indonesianhttps://doi.org/10.1109/EVS.2013.6914870">1109/EVS.2013.6914870

  11. [11] Aristyawati, N., Fahma, F., Sutopo, W., Purwanto, A., Nizam, M., Louhenapessy, B. B. and Mulyono, A. B. 2017. Designing framework for standardization and testing requirements for the secondary battery a case study of Lithium-ion battery module in electric vehicle application. In Proceedings of 2016 2nd International Conference of Industrial, Mechanical, Electrical, and Chemical Engineering, (ICIMECE), 207-212, Yogyakarta, Indonesia, October 6-7, 2016. doi: 10.1109/ICIMECE.2016.7910459

  12. [12] Prianjani, D., Fahma, F., Sutopo, W., Nizam, M., Purwanto, A., Louhenapessy, B. B., and Mulyono, A. B. 2017. The standard development for the National Standard of Indonesa (SNI) of the cell traction battery Lithium-ion Ferro phospate secondarry for electric vehicles applications. In Proceedings of 2016 2nd International Conference of Industrial, Mechanical, Electrical, and Chemical Engineering, (ICIMECE), pp. 213-218, Yogyakarta, Indonesia, October 6-7, 2016. doi: 1109/ICIMECE.2016.7910460

  13. [13] Suen, S-H., Lin, B-M., and Jang, J-S. J. daftar pust013. Strategy and construction of electric refuelling system for electric scooter in Taiwan. In Proceeding of 2013 World Electric Vehicle Symposium and Exhibiton (EVS27), Barcelona, Spain, November 17-20, 2013. doi: 1109/EVS.2013.6914870

  14. [14] Wang, W., Li, B., and Wang, Y. 2014. Design of battery fast-swap system for electric vehicle. Applied Mechanics and Materials, 628: 190-194. doi: 4028/www.scientific.net/ AMM.628.190

  15. [15] Shao, S., Guo, S. and Qiu, X. 2017. A mobile battery swapping for electric vehicles based on a battery swapping van. Energies, 10, 10: 1-21. doi: 3390/en10101667

  16. [16] Liang, Y. and Zhang, X. 2018. Battery swap pricing and charging strategy for electric taxis in China. Energy, 147, 561-577. doi: 1016/j.energy.2018.01.082

  17. [17] Gao, H. and Wu, Y. 2014. The research status and development trend of electric vehicle power supply technology. Advanced Materials Research, 1008-1009: 381-384. doi: 4028/www.scientific.net/AMR.1008-1009.381

  18. [18] Zuo, Y., Liu, T., and Chen, J. 2016. Innovative Electric Vehicles Energy Supplement System and its application analysis in dynamic system. In Proceedings of 2016 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC), pp. 1224-1229, Xi’an, China, October 25-28, 2016. doi: 1109/APPEEC.2016.7779687

  19. [19] Zhang, T., Chen, X., Yu, Z., Zhu, X. and Shi, D. 2018. A monte-carlo simulation approach to evaluate service capacities of EV charging and battery swapping stations. IEEE Transaction on Industrial Informatics, 14, 9: 3914-3923. doi: 1109/TII.2018.2796498

  20. [20] Chen, Y., Yu, R. R. and Parra, H. Z. D. L. 2013. Standardization progress investigation on electric vehicle charging infrastructure in China. In Proceedings of IET Hybrid and Electric Vehicles Conference 2013 (HEVC). London, UK, November 6-7, 2013. doi: 1049/cp.2013.1903

  21. [21] Badan Standardisasi Nasional. 2016. Draft RSNI XXX: 2016 Sel baterai litium-ion fero fosfat sekunder untuk digunakan pada kendaraan listrik. BSN. Jakarta. Indonesia.

  22. [22] Badan Standardisasi Nasional. 2016. Draft RSNI XXX: 2016 Modul baterai litium-ion fero fosfat sekunder untuk digunakan pada kendaraan listrik. BSN. Jakarta. Indonesia.

  23. [23] Badan Standardisasi Nasional. 2017. Draft RSNI XXX: 2016 Sistem Manajemen Baterai (BMS) untuk digunakan pada kendaraan listrik. BSN. Jakarta. Indonesia.

  24. [24] International Electrotechnical Commision. 2016. IEC 62840:2016 Electric vehicle battery swap system – Part 2: Safety requirement. IEC. Geneva. Switzerland.


ARTICLE INFORMATION


Received: 2018-06-14
Revised: 2018-10-30
Accepted: 2018-10-31
Available Online: 2018-10-31


Cite this article:

Prianjani, D., Sutopo, W., Pujiyanto, E., Fahma, F. 2018. Designing framework for standardization and testing requirements of battery swap for electric motorcycle application in Indonesia. International Journal of Applied Science and Engineering, 15, 141-148. https://doi.org/10.6703/IJASE.201810_15(2).141