The Use of the C-70 Electric Motorcycle and Its Performance

Siahaan, Ian Hardianto and Amelia (2024) The Use of the C-70 Electric Motorcycle and Its Performance. [UNSPECIFIED]

[thumbnail of Publikasi1_03005_9989.pdf] PDF
Publikasi1_03005_9989.pdf

Download (1MB)
[thumbnail of Publikasi4_03005_9989.pdf] PDF
Publikasi4_03005_9989.pdf

Download (4MB)

Abstract

Electric motors are one of the more environmentally friendly transportation alternatives, which can be a problem
solution to reduce pollution. Besides that, electric motors have become a necessity in the future. Opportunities to accelerate
automotive electrification come from motorcycles. Motorcycles are not as complicated as developing electric cars. In this
paper, the C-70 bike is a preferred target for driving force because it has a slim body, a lightweight, is not too large
construction, and is still fashionable. In this paper, some steps are being taken to its manufacture. The first one, calculating
the required electric motor power requirements. The second, to design and assembly the C-70 motorcycle frame with BLDC
dynamo. The third is the C-70 motorcycle performance test inside and outside the Town, and the last one, the C-70
motorcycle painting as the final process. The electric motors design results can cover 49 km with an average speed of 30-
40 km/hour while out of Town with roads up and down mountains. At the same time, this electric motor can cover 50.23
km with an average speed of 30-40 km/hour from a fully charged battery condition in urban areas. So thats roughly 97.5
per cent of the distance travelled within the Town. So, this electric motor is more suitable in urban areas because there are
many places to charge the battery, and it is more efficient to use when inside the Town. Besides that, the process of assessing
the battery in this electric motor design takes 4 hours 30 minutes from the battery condition 0% (0 Volt) to 100% (81.5
Volt). In addition, the cost required to be very economical compared to motor fuel.

Item Type: UNSPECIFIED
Additional Information: diajukan
Subjects: T Technology > TJ Mechanical engineering and machinery
Divisions: Faculty of Industrial Technology > Mechanical Engineering Department
Depositing User: Admin
Date Deposited: 20 Jan 2024 04:54
Last Modified: 25 Jan 2024 11:38
URI: https://repository.petra.ac.id/id/eprint/20774

Actions (login required)

View Item
View Item