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Fatmawati Azis
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Joule (Journal of Electrical Engineering)
Published by Politeknik Bosowa
ISSN : 27234193     EISSN : 27758338     DOI : -
Core Subject : Science, Education, Engineering,
Computer Science & IT Control & Systems Engineering Education Electrical & Electronics Engineering Energy
Journal Of Electrical Engineering (Joule) merupakan jurnal ilmiah yang dikelola dengan proses peer review dengan ISSN: 2723 - 4193 dan E-ISSN 2775-8338. Journal Of Electrical Engineering (Joule) diterbitkan oleh Program Studi Teknik Listrik, Politeknik Bosowa. Journal Of Electrical Engineering (Joule) menerbitkan naskah hasil penelitian dan review literatur dalam bidang kelistrikan terkait: Sistem Kontrol. Teknologi Tepat Guna. Media Pembelajaran Energi Terbarukan Journal Of Electrical Engginering (Joule) terbit dua kali setahun, yaitu: Februari dan Agustus , terbit secara open acces. Penulis yang ingin mengirimkan artikelnya dimulai dengan melakukan registrasi online di website dan menyesuaikan artikel dengan panduan dan template jurnal ini.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 5 Documents
 1 
Search results for , issue "Vol 5 No 1: Februari 2024" : 5 Documents clear
Identifikasi Jenis Beban Listrik di PT. Bosowa Berlian Motor Cabang KIMA Kota Makassar Mukhlisin, Mukhlisin; Chandra, Muhammad Ali; Kido, Muhammad Ikram; Fachrul, Muh.; Bongga, Peprianto
Joule (Journal of Electrical Engineering) Vol 5 No 1: Februari 2024
Publisher : Politeknik Bosowa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61141/joule.v5i1.490

Abstract

Pertumbuhan jumlah penduduk dan kegiatan industri yang pesat saat ini mengakibatkan kebutuhan dan pemakaian listrikyang terus meningkat setiap tahunnya. Penelitian ini bertujuan untuk melakukan suatu identifikasi penggunaan beban listrik di PT. Bosowa Berlian Motor Cabang Kima. Metode yang digunakan dalam penelitian ini dilakukan dengan analisis kuantitatif deskriptif dengan menghitung dan mempresentasekan beban listrik yang digunakan. Penelitian ini dilaksanakan bulan Oktober - Desember 2023. Teknik pengambilan data dilakukan dengan mengukur energi listrik yang digunakan dengan alat ukur KWH meter, tang ampere dan multitester digital. Data yang telah diperoleh selanjutnya dilakukan analisis secara kuantitaif kemudian dipaparkan secara deskriptif. Hasil penelitian diperoleh informasi Beban listrik secara keseluruhan yang terdapat di PT. Bosowa Berlian Motor Cabang KIMA diperoleh informasi sebesar 42.915,8 Watt atau 42, 9 kW. Penggunaan beban listrik yang paling besar di PT. Bosowa Berlian Motor Cabang KIMA berada pada Ruang Workshop dengan persentase sebesar 47% dari total keseluruhan. Penggunaan energi Listrik di PT. Bosowa Berlian Motor Cabang KIMA didominasi oleh beban mekanis sebesar 31.618 Watt atau 31, 6 kW.
Aplikasi Elemen Pemanas Setrika Bekas pada Alat Press Ban Dalam Sepeda Motor Astuty, Astuty
Joule (Journal of Electrical Engineering) Vol 5 No 1: Februari 2024
Publisher : Politeknik Bosowa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61141/joule.v5i1.527

Abstract

Penggunaan liquefied Petroleum Gas (LPG) sebagai sumber energi pemanas alat press ban masih banyak dilakukan meskipun dipandang tidak efektif. Dalam praktiknya, suhu yang ditentukan berdasarkan perkiraan terkadang menyebabkan hasil press tidak sesuai. Penelitian ini mengembangkan alat press ban menggunakan elemen pemanas yang dilengkapi dengan selektor pengatur suhu. Penelitian ini menggunakan metode eksperimen. Tahapan kegiatan terdiri dari perancangan, pembuatan body perangkat, perakitan listrik, perakitan alat secara menyeluruh dan uji coba. Berdasarkan hasil pengujian, suhu ideal untuk press ban adalah  (toleransi suhu . Besar arus pada proses pemanasan bimetal adalah 1.53 – 1.58 Ampere dengan daya sebesar 350.2 – 375.3 Watt.
Strategi Penempatan Kapasitor Optimal Kompensasi Daya Reaktif Untuk memperoleh efisiensi Di PT. Semen Bosowa Maros Mustafa, Syahrul; Irvawansyah, Irvawansyah; Parawangsa, Akbar Naro; Ikhsan, Muhammad
Joule (Journal of Electrical Engineering) Vol 5 No 1: Februari 2024
Publisher : Politeknik Bosowa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61141/joule.v5i1.588

Abstract

Abstract— One strategy to improve the voltage profile is by placing optimal capacitors in the right locations in the distribution system. Installation of capacitors in distribution systems is carried out for several purposes such as: improving voltage regulation, improving power factor, reactive power compensation, increasing line capacity and reducing losses. The tolerance limit for permissible stress values is 0.95 to 1.05 per unit. In this research, power quality improvements will be carried out using capacitor banks at PT Semen Bosowa Maros. The repair process is simulated using the Genetic Algorithm (GA) method.  This method carries out several simulations, namely the power flow before and after installation of the capacitor bank, optimization of capacitor placement which is carried out three times with different bus candidates, to determine the location, number of capacitor capacities, and economic analysis. The selection of buses that experience voltage drops has been produced to improve the quality and voltage stability of the electrical system at PT Semen Bosowa Maros which provides a solution considering economic factors after installing the capacitor bank.
Pengaruh Parameter Sistem Transmisi Tenaga Listrik pada Saluran Transmisi Pendek Fitri, Sulistianingsih Nur; Azis, Fatmawati
Joule (Journal of Electrical Engineering) Vol 5 No 1: Februari 2024
Publisher : Politeknik Bosowa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61141/joule.v5i1.589

Abstract

The Effect of Electrical Power Transmission Network Parameters on Short Transmission Line. The transmission system is one of the components of the electrical power operation system where its reliability is crucial. An electrical transmission system has parameters that influence its reliability to function effectively as part of the power system. These parameters include resistance (R), inductance (L), and capacitance (C). This study involves simulations using distribution and transmission trainers to understand the effects of these parameters on the transmission channel. There are three types of electrical transmission channel models based on their lengths. This research focuses on simulating a short 3-phase transmission channel. In the simulation of the short transmission system, two types of simulations were conducted: one with variations in RL load and another with variations in RL load and C load compensation. The results of the first experiment showed that the larger the value of the load L, the higher the value of the receiver voltage (VR) and the higher the value of the receiver side power (PR). In the second experiment, it showed that the larger the value of the load C, the higher the source voltage (VS) and the receiver voltage (VR). Meanwhile, the value of the source current (IS), receiver current (IR), and receiver power (PR) decreased. Additionally, the values of the sending current and the receiving current tend to be the same because the equation stating that the sending current is equal to the receiving current applies. This is due to the variation in the values of the RLC load used. Through the simulation carried out, several data points were obtained that help to understand the relationship between voltage and current, such as load impedance (ZLoad), line impedance (ZLine), voltage regulation (VR), reactive power (Q), apparent power (S), transmitted power (PS), power loss (PLoss), and power transmission efficiency (Ŋ).
Evaluasi Degradasi dan Performa Panel Surya Multikristal di Kondisi Iklim Tropis dengan Translasi IEC 60891 Assalam, Imam Faried; Muhammad, Umar; Irvawansyah, Irvawansyah
Joule (Journal of Electrical Engineering) Vol 5 No 1: Februari 2024
Publisher : Politeknik Bosowa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61141/joule.v5i1.631

Abstract

Every year, solar panels experience a decline in production, so it is necessary to evaluate the degradation and performance of multicrystalline silicon (mc-Si) solar panels in tropical climate conditions. This research uses SEAWARD PV 200 (Complete Kit) to measure solar panel output data, which is then analyzed using the translation method according to IEC 60891 Procedure 1 to determine Standard Test Conditions (STC). The translational results showed a solar panel degradation rate of ±1.16% per year. Performance evaluation using the linear regression method revealed that a tropical climate that increases the temperature of the solar panel increases the percentage of degradation, where every 1°C increase in temperature causes an increase in degradation of approximately ±0.15%. 

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