IMPLEMENTASI BATERAI LITHIUM ION PACK 18650 60V 15AH PADA SEPEDA LISTRIK VANJARIL 1000 WATT

Agusty Alfa, Bangun Nusantoro (2023) IMPLEMENTASI BATERAI LITHIUM ION PACK 18650 60V 15AH PADA SEPEDA LISTRIK VANJARIL 1000 WATT. Other thesis, Universitas Nahdlatul Ulama Al Ghazali.

[thumbnail of HALAMAN DEPAN.pdf] Text
HALAMAN DEPAN.pdf

Download (630kB)
[thumbnail of BAB I.pdf] Text
BAB I.pdf

Download (49kB)
[thumbnail of BAB II.pdf] Text
BAB II.pdf

Download (347kB)
[thumbnail of BAB III.pdf] Text
BAB III.pdf
Restricted to Registered users only

Download (253kB) | Request a copy
[thumbnail of BAB IV.pdf] Text
BAB IV.pdf
Restricted to Registered users only

Download (974kB) | Request a copy
[thumbnail of BAB V.pdf] Text
BAB V.pdf

Download (39kB)
[thumbnail of DAFTAR PUSTAKA.pdf] Text
DAFTAR PUSTAKA.pdf

Download (42kB)
[thumbnail of LAMPIRAN.pdf] Text
LAMPIRAN.pdf

Download (960kB)
[thumbnail of TUGAS AKHIR FULL AGUSTY ALFA BANGUN NUSANTORO.pdf] Text
TUGAS AKHIR FULL AGUSTY ALFA BANGUN NUSANTORO.pdf
Restricted to Registered users only

Download (3MB) | Request a copy

Abstract

Baterai lithium-ion telah menjadi sumber daya yang sangat penting dalam sepeda listrik karena kemampuannya untuk menyimpan energi secara efisien. Namun, mengetahui kinerja dan implementasi baterai pada sepeda listrik sangat di perlukan karna akan sangat mempengaruhi kinerja sepeda listrik secara keseluruhan. Penelitian ini bertujuan untuk mengetahui pengimplementasian pada sepeda listrik, menganalisisi parameter pada baterai seperti charge, discharge, dan konsumsi daya. Kami menyelidiki jarak tempuh yang dapat dicapai oleh baterai Li-ion pada sepeda listrik dan melihat faktor-faktor yang mempengaruhi jarak tempuh seperti beban pengendara, kecepatan, dan speed yang di gunakan. Dan kami juga menganalisis masalah keamanan yang mungkin terjadi pada baterai Li-ion pada sepeda listrik seperti overchage dan discharge guna menjaga kinerja baterai. Pada hasil penelitian menunjukan baterai lithium ion pack 16850 60V 15aH Pada Sepeda Listrik Vanjaril 1000 Watt mampu menempuh jarak maksimal yaitu 35,55 Km. Pada pengujian speed 1 menghasilkan jarak tempuh 35,55 Km dengan durasi 57 menit 8 detik, dan speed max 47 Km/h dan speed rata-ratanya 35. Pada speed 2 menghasilkan jarak tempuh 32,14 Km dengan durasi 52 menit 6 detik, dengan speed max 47 Km, dan speed rata-rata 37 Km. Sedangkan pada speed 3 menghasilkan jarak tempuh 30,93 Km, dengan durasi 49 menit 14 detik, dengan speed max 48 Km/h , dan speed rata-ratanya 39 Km.
===========================================================================
Lithium-ion batteries have become a very important power source in electric bicycles due to their ability to store energy efficiently. However, knowing the performance and implementation of the battery on an electric bicycle is very necessary because it will greatly affect the overall performance of the electric bicycle. This research aims to determine the implementation of electric bicycles, analyzing battery parameters such as charge, discharge and power consumption. We investigated the distance that can be achieved by a Li-ion battery on an electric bicycle and looked at the factors that influence the distance such as rider load, speed, and speed used. And we also analyze safety problems that may occur in Li-ion batteries on electric bicycles such as overcharge and discharge in order to maintain battery performance. The research results show that the 16850 60V 15aH lithium ion pack battery on the Vanjaril 1000 Watt Electric Bicycle is capable of covering a maximum distance of 35.55 Km. In the speed 1 test the distance was 35.55 km with a duration of 57 minutes 8 seconds, and the max speed was 47 km/h and the average speed was 35. Speed 2 resulted in a distance of 32.14 km with a duration of 52 minutes 6 seconds, with Max speed is 47 Km, and average speed is 37 Km. Meanwhile, speed 3 produces a distance of 30.93 km, with a duration of 49 minutes 14 seconds, with a max speed of 48 km/h, and an average speed of 39 km.

Item Type: Thesis (Other)
Additional Information: Agusty Alfa Bangun Nusantoro (19212011002)
Uncontrolled Keywords: Implementeasi baterai Lithium, Kinerja baterai lithium, Keamanan baterai lithium Lithium battery implementation, lithium battery performance, lithium battery safety
Subjects: T Technology > T Technology (General)
T Technology > TP Chemical technology
Divisions: Fakultas Teknologi Industri (FTI) > Prodi Teknik Mesin (TMES)
Depositing User: Teguh Wibowo
Date Deposited: 25 May 2024 12:44
Last Modified: 25 May 2024 12:44
URI: http://eprints.unugha.ac.id/id/eprint/256

Actions (login required)

View Item
View Item