DESAIN DAN IMPLEMENTASI MODUL DISMANTLEABLE PADA SEL BATERAI ALUMINIUM UDARA UNTUK APLIKASI PORTABLE

PUTRA, RIZKI YUNIAR (2024) DESAIN DAN IMPLEMENTASI MODUL DISMANTLEABLE PADA SEL BATERAI ALUMINIUM UDARA UNTUK APLIKASI PORTABLE. S1 thesis, Universitas Mercu Buana Jakarta.

	Text (HAL COVER) 01 Cover.pdf Download (2MB)
	Text (ABSTRAK) 02 Abstrak.pdf Download (262kB)
	Text (BAB I) 03 Bab 1.pdf Restricted to Registered users only Download (232kB)
	Text (BAB II) 04 Bab 2.pdf Restricted to Registered users only Download (562kB)
	Text (BAB III) 05 Bab 3.pdf Restricted to Registered users only Download (719kB)
	Text (BAB IV) 06 Bab 4.pdf Restricted to Registered users only Download (754kB)
	Text (BAB V) 07 Bab 5.pdf Restricted to Registered users only Download (186kB)
	Text (DAFTAR PUSTAKA) 08 Daftar Pustaka.pdf Restricted to Registered users only Download (215kB)
	Text (LAMPIRAN) 09 Lampiran.pdf Restricted to Registered users only Download (331kB)

Abstract

Along with the increasing need for energy storage for high mobility purposes. Batteries are becoming one of the key components in meeting these needs. While many types of battery cells have been developed, the use of airborne aluminum batteries offers exciting potential. In terms of high energy capacity, sustainability, and safety. This study evaluates the implementation of an aluminum-air (Al-air) type battery design on a dismantleable module by analyzing the losses that occur. The Al-air battery cell is rectangular with dimensions of 130 mm long, 60 mm wide, and 2 mm thick. The main components of the battery involve an Al plate as the anode, NaOH as the electrolyte, hollow material as the active material of the air cathode, and an iron plate as the connector between cells. The battery design is implemented with the Minimum Viable Product (MVP) concept by considering safety aspects during the design process. The battery module consists of 6 cells arranged in series. Battery module testing is carried out by providing a load and then analyzing the inner resistance loss and voltage drop. The results showed that the battery module voltage decreased by 28% from its ideal voltage when fully configured. Battery internal resistance testing also showed an increase in total resistance as cells were added in a series configuration. The design efficiency against power losses was found to reach 72% of the ideal power. Keywords: Aluminum-Air Battery (Al-Air), Minimum Viable Product (MVP), Power Loss, Battery Internal Resistance. Seiring dengan meningkatnya kebutuhan akan penyimpanan energi untuk keperluan mobilitas yang tinggi. Baterai menjadi salah satu komponen kunci dalam memenuhi kebutuhan tersebut. Meskipun banyak jenis sel baterai yang telah dikembangkan, penggunaan baterai aluminium udara menawarkan potensi yang menarik. Dalam hal kapasitas energi yang tinggi, keberlanjutan, dan keamanan. Penelitian ini mengevaluasi implementasi desain baterai tipe alumunium-udara (Al-udara) pada modul dismantleable dengan menganalisis rugi-rugi yang terjadi. Sel baterai Al-udara berbentuk persegi panjang dengan dimensi panjang 130 mm, lebar 60 mm, dan tebal 2 mm. Komponen utama baterai melibatkan plat Al sebagai anoda, NaOH sebagai elektrolit, material berongga sebagai bahan aktif katoda udara, dan plat besi sebagai penghubung antar sel. Desain baterai diimplementasikan dengan konsep Minimum Viable Product (MVP) dengan mempertimbangkan aspek keamanan selama proses perancangan. Modul baterai terdiri dari 6 sel yang diatur secara seri. Pengujian modul baterai dilakukan dengan memberikan beban, dan selanjutnya dilakukan analisis rugi-rugi hambatan dalam dan penurunan tegangan. Hasil penelitian menunjukkan bahwa tegangan modul baterai mengalami penurunan sebesar 28% dari tegangan idealnya saat dikonfigurasi penuh. Pengujian hambatan internal baterai juga memperlihatkan peningkatan hambatan total seiring penambahan sel dalam konfigurasi seri. Efisiensi desain terhadap rugi-rugi daya ditemukan mencapai 72% dari daya ideal. Kata Kunci : Baterai Alumunium-Udara (Al-Air), Minimum Viable Product (MVP), Rugi-Rugi Daya, Hambatan Internal Baterai

Item Type:	Thesis (S1)
Call Number CD:	FT/ELK. 24 045
Call Number:	ST/14/24/033
NIM/NIDN Creators:	41422110049
Uncontrolled Keywords:	Baterai Alumunium-Udara (Al-Air), Minimum Viable Product (MVP), Rugi-Rugi Daya, Hambatan Internal Baterai
Subjects:	000 Computer Science, Information and General Works/Ilmu Komputer, Informasi, dan Karya Umum > 000. Computer Science, Information and General Works/Ilmu Komputer, Informasi, dan Karya Umum > 005 Computer Programmming, Programs, Data/Pemprograman Komputer, Program, Data > 005.5 General Purpose Application Programs/Program Aplikasi dengan Kegunaan Khusus 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan 700 Arts/Seni, Seni Rupa, Kesenian > 720 Architecture/Arsitektur > 725 Public Structures Architecture/Arsitektur Struktur Umum > 725.3 Transportation and Storage Buildings/Arsitektur Gedung Sarana Pengangkutan dan Penyimpanan > 725.39 Air Transportation Buildings/Bangunan Transportasi Udara 700 Arts/Seni, Seni Rupa, Kesenian > 730 Plastic Arts and Sculpture/Seni Plastik dan Seni Patung > 738 Ceramics Arts/Seni Keramik > 738.5 Mosaics Arts/Seni Mozaik > 738.56 Mosaics Applied to Portable Objects/Mosaik digunakan untu Portable Benda
Divisions:	Fakultas Teknik > Teknik Elektro
Depositing User:	khalimah
Date Deposited:	19 Feb 2024 06:03
Last Modified:	19 Feb 2024 06:03
URI:	http://repository.mercubuana.ac.id/id/eprint/86231

Actions (login required)

View Item