PERFORMANCE ANALYSIS AND SAFETY SYSTEM OF BATTERY PACK NMCAND 2W - ELECTRIC MOTORCYCLES BASED ON SAE J2982_2022 STANDARD
Abstract - In 2025, President Joko Widodo of the Republic of Indonesia aims for the production of 2 million electric motorcycles in Indonesia. This aligns with the Indonesian government's commitment to reduce CO2 emissions by 29% independently and by 41% with international support by 2030. T...
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| 格式: | Theses |
| 語言: | Indonesia |
| 在線閱讀: | https://digilib.itb.ac.id/gdl/view/84531 |
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| 機構: | Institut Teknologi Bandung |
| 語言: | Indonesia |
| 總結: | Abstract - In 2025, President Joko Widodo of the Republic of Indonesia aims for
the production of 2 million electric motorcycles in Indonesia. This aligns with the
Indonesian government's commitment to reduce CO2 emissions by 29%
independently and by 41% with international support by 2030. The decarbonization
program is being pursued because Indonesia has agreed to adhere to the 2015
Paris Agreement, which sets a goal to limit global warming to a maximum of 1,5°C
- 2°C. The acceleration of electric vehicle adoption must prioritize safety standards
for these vehicles. This research uses an NMC Battery Pack with a capacity of 1800
Wh and an electric motorcycle with specifications of 2 kW rated / 3 kW peak power
and a load weight of 75 kg. The testing standard used is SAE J2982_2022, selected
because it is based on urban driving cycles characterized by stop -and-go
conditions. The SAE J2982_2022 test was conducted on a dynamometer. The
outputs of this test include energy consumption characteristics, operating
temperature, current consumption, power output of the battery pack, and the power
at the rear wheel of the electric motorcycle during constant speed use, as well as
whether any system failure warnings were detected. The test results showed an
average energy consumption of (25,02 ± 0,92) Wh/km, an operating temperature
range of 30,2°C – 45,3°C, a constant speed of (57,88 ± 0,63) km/h, a current
consumption of (19,3 ± 0,87) A, battery power of (1,51 ± 0,09) kW, and rear wheel
power of (1,28 ± 0,23) kW, resulting in a battery-to-wheel efficiency of 84,77%.
During the testing, the battery pack operated safely without any active system
failure warning indicators. |
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