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Analisa Optimasi Faktor Daya Terhadap Penggunaan Kapasitor Bank Pada PT. Barindo Anggun Industri Ahmad Sofyan Efendy; Misbahul Munir
Prosiding Seminar Nasional Teknik Elektro, Sistem Informasi, dan Teknik Informatika (SNESTIK) 2022: SNESTIK II
Publisher : Institut Teknologi Adhi Tama Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (284.922 KB) | DOI: 10.31284/p.snestik.2022.2763

Abstract

Daya reaktif yang dibangkitkan oleh pembangkit listrik akan lebih besar pada saat beban puncak, yang dapat mengakibatkan faktor daya menjadi turun dan arus yang mengalir akan semakin besar. Pada industri biasanya banyak menggunakan mesin yang mengandung beban induktif dan transformator yang menyebabkan nilai faktor daya menjadi turun seperti PT.Barindo Anggun Industri yang bergerak di bidang manufaktur pengecoran logam. Pada penelitian ini diharapkan mampu meningkatkan nilai faktor daya agar tidak semakin menurun dikarenakan penambahan mesin-mesin produksi sehingga menjadi semakin aman dan baik serta agar tidak terjadi rugi-rugi daya dan denda kVAR PLN. Hasil penelitian ini mendapatkan nilai faktor daya bernilai 0,99 dengan pemasangan kapasitor bank menggunakan Group Compensation dengan kebutuhan kapasitor bank pada masing-masing panel distribusi yaitu Panel SDP 1 sebesar 60,378 kVAR, Panel SDP 2 sebesar 101,548 kVAR dan Panel SDP 3 sebesar 99,912 kVAR.
ANALISIS PRODUKTIVITAS DENGAN MENGGUNAKAN METODE OBJECTIVE MATRIX (OMAX) DI PT. PABRIK GULA CANDI BARU SIDOARJO Misbahul Munir; Pratama Sandi Alala; Meynardo Dhanysa Setya
Prosiding SENASTITAN: Seminar Nasional Teknologi Industri Berkelanjutan Prosiding SENASTITAN Vol. 02 2022
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

Produktivitas adalah kemampuan yang dimiliki oleh seseorang atau sebuah sistem, untuk menghasilkan sesuatu yang diinginkan dengan menggunakan sumber daya yang efektif dan efisien. PT. Pabrik Gula Candi Baru merupakan salah satu perusahaan indutri yang bergerak di bidang indutri gula.  Penelitian ini dilakukan dengan tujuan untuk mengukur dan menganalisis produktivitas yang didasararkan pada 3 kriteria yaitu: rasio tenaga kerja, rasio jam kerja dan rasio energi listrik. Metode yang digunakan adalah metode Objecive Matrix (OMAX), dengan langkah-langkah: perhitungan rasio, pembentukan matriks sasaran, dan analisa pencapaian skor. Pada bulan tanggal 2 Agustus 2020 – 30 Agustus 2020 merupakan produktivitas terbaik dengan indeks produktivitas sebesar 1.000,03. Sedangkan untuk produktivitas terendah terjadi pada tanggal 6 Juni 2020 – 30 Juni 2020 dengan indeks produktivitas sebesar 34,78. Pada tanggal 2 Agustus 2020 – 30 Agustus 2020 merupakan tingkat Overall Productivity terbaik dengan Indeks perubahan terhadap produktivitas standar sebesar 233,34%. Sedangkan untuk produktivitas terburuk terjadi pada tanggal 6 Juni 2020 – 30 Juni 2020 sebesar -88,4%. Indeks perubahan terhadap produktivitas periode sebelumnya dapat diketahui bahwa produktivitas terbaik terjadi pada tanggal 2 Agustus 2020 – 30 Agustus 2020 sebesar 102,78%. Sedangkan untuk produktivitas terburuk terjadi pada tanggal 6 Juni 2020 – 30 Juni 2020 sebesar -92,95%. Atribut rasio yang paling rendah dapat diketahui bahwa rasio 1 (energi listrik) mengalami produktivitas yang kurang baik karena memiliki skor terendah dibandingkan dengan rasio 2 (tenaga kerja) dan rasio 3 (jam kerja).
Analisa Aliran Daya Sistem Tenaga Pada PT. Trias Sentosa Menggunakan Simulasi Bahardimas Yanuar Ari Leksono; Misbahul Munir; Novian Patria Uman Putra; Trisna Wati; Nasyith Hananur Rohiem; Ilmiatul Masfufiah
Prosiding Seminar Nasional Sains dan Teknologi Terapan 2022: Energi Terbarukan dan Keberlanjutannya di Berbagai Sektor
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

A power flow analysis is a study that aims to obtain information on the electrical network system. production development of PT. Trias Sentosa, Tbk. very fast. Especially in the production section, there are always additions and updates to machines, so the burden that is borne will also increase. As a result, in carrying out their duties, the machines will always experience malfunctions or errors. To minimize these conditions, it is necessary to have a power flow analysis in order to review the condition of the electric power system. The benefit of this power flow analysis is that it can determine the condition of an unbalanced load. In research that uses manual calculations and calculations on this ETAP, using the current equation method to get the results of the power flow analysis. case studies of monitored power flow analysis in the form of voltage profiles, output power, input power, transformer loading, power loss values, voltage drop values, and load imbalance values
Analisa Keandalan Sistem Distribusi 20 kV Menggunakan Metode Section Technique dan RIA-Section Technique Pada Sistem Distribusi PT.PLN UP3 Surabaya Utara Ekamani Putra; Misbahul Munir; Novian Patria Uman Putra; Yulianto Agung Prabowo; Nasyith Hananur Rohiem; Ilmiatul Masfufiah
Prosiding Seminar Nasional Sains dan Teknologi Terapan 2022: Energi Terbarukan dan Keberlanjutannya di Berbagai Sektor
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

The most basic problem in distributing electrical energy is the quality and availability of electrical energy to consumers. The use of system reliability in a 20 kV distribution network is a very important factor in determining steps that ensure correct handling, as well as the underlying problems in the network, so that these disturbances can be overcome. methods to evaluate a distribution system's reliability index. Its development is very fast. One of them uses the section technique method and the combined RIA-section technique method. The final result of a reliability index is obtained from the sum of each section. But the Section Technique method only uses the failure rate parameter, namely the failure rate with a long enough repair interval (sustained failure rate). The section technique method also has the advantage that it divides the evaluation of the reliability index into small parts, so that ordinary errors can be minimized and also require a short time [1]. The result of the SAIDI Section Technique method is 2.45068492 hours/customer/year. Then, adding the momentary failure rate parameter in the calculation, the SAIDI value is 0.00233399 hours/customer/year. Then in the section technique method, the CAIDI value is 3.150000375 hours/customer/year, but when the momentary failure rate parameter is added, the CAIDI value is 0.00300000 hours/customer/year.
Analisa Sisa Umur Transformator Berdasarkan Pengaruh Pembebanan Menggunakan Metode Probabilistik Neural Network (PNN) Ilham Maulana Jatmiko; Misbahul Munir; Novian Patria Uman Putra; Nasyith Hananur Rohiem; Ilmiatul Masfufiah
Prosiding Seminar Nasional Sains dan Teknologi Terapan 2022: Energi Terbarukan dan Keberlanjutannya di Berbagai Sektor
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

Load conditions that go up and down can affect the life of the transformer. Therefore, it is very important to know the loss of life of the transformer every day when experiencing an increase in load because it can help when the transformer will stop functioning or stop being reliable and stable. For this transformer age analysis, using the Probabilistic Neural Network (PNN) method, how PNN works is based on calculating the value of the probability density function (fi(x)) for each data point (vector). For normalized data (vector) x and xij, the function (f(x)) is a Bayesian decision-making function (g(x)). The highest aging rate occurs at night due to the use of peak loads in the electric power system at night, so it will have an impact on the capacity of the transformer, which causes the transformer to break down faster or the life of the transformer to decrease faster. The remaining life of transformer 1 is 23.957 years, with an aging rate of 0.248 hours/day
Studi Pengangkutan Sampah Perkotaan Dengan Dump Truk Di Kabupaten Alor Amrozy Muharamin; Pratama Sandi Alala; Misbahul Munir
Prosiding Seminar Nasional Sains dan Teknologi Terapan 2022: Energi Terbarukan dan Keberlanjutannya di Berbagai Sektor
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

Kabupaten Alor merupakan salah satu Kabupaten di Provinsi Nusa Tenggara Timur yang terletak di bagian timur laut. Kabupaten Alor terdiri dari tiga pulau besar dan enam pulau kecil yang saat ini ada penghuninya. Alor yang memiliki luas 2.928,88 km2 terdiri dari 17 Kecamatan. Ibu kota Kabupaten Alor adalah Kota Kalabahi. Kota Kalabahi terletak di Kecamatan Teluk Mutiara. Berdasarkan Sensus Penduduk pada tahun 2020, Kabupaten Alor dihuni sekitar 211.872 jiwa. Dari jumlah tersebut, seperempatnya tinggal di Kecamatan Teluk Mutiara yaitu sebesar 25,18 persen. Pengangkutan sampah sangat dipengaruhi oleh laju pertumbuhan, baik dari sektor industri, ekonomi, pertanian maupun perdagangan. Pertumbuhan tersebut memacu kebutuhan armada yang berakibat pada peningkatan kebutuhan armada pengangkutan sampah. Ketersediaan armada ini juga berdampak pada persentase pelayanan pengelolaan sampah di suatu kota. Penelitian ini bertujuan untuk mengetahui proses pengangkutan sampah permukiman perkotaan dengan  menggunakan kendaraan dump truck. Sampel dalam penelitian ini yaitu 2 kendaraan dump truk. Hasil penelitian menunjukkan Total waktu pengangkutan sampah dump truck dengan nomor polisi B 9625 WQ yaitu 4,35 jam, total waktu kerja di lapangan 6,61 jam, dan jarak yang ditempuh yaitu 45,06. Total waktu pengangkutan sampah dump truck dengan nomor polisi DH 908 F yaitu 4,31 jam, total waktu kerja di lapangan 5,74 jam, dan jarak yang ditempuh yaitu 41,62 km. Hal ini disebabkan kondisi kendaraan B 9625 WQ memiliki kerusakan ringan dan DH 908 F dalam kondisi rusak berat. Hal ini mengakibatkan pembagian rute pengangkutan sampah kurang merata, dampaknya waktu efektif kerja setiap pengemudi kendaraan dan timbulan sampah yang terangkut antar pengemudi kendaraan pengangkut sampah tidak seimbang.
Analisa Koordinasi Proteksi Over Current Relay pada Gardu Induk Bangil Wahyu Hendra Prasetya; Misbahul Munir; Novian Patria Uman Putra; Nasyith Hananur Rohiem; Ilmiatul Masfufiah
Prosiding Seminar Nasional Sains dan Teknologi Terapan 2022: Energi Terbarukan dan Keberlanjutannya di Berbagai Sektor
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

A reliable protection system is tasked with tracking and finding faults quickly so that it can quickly isolate the disturbed system so that it does not interfere with the system above it. The protection system can be said to be reliable if when the disturbance is in progress, the closest cb will immediately work and cut off the electricity so as not to interfere with other systems. Therefore, a coordination system is needed, namely the Overcurrent Relay on the Pandaan and Sukorejo feeder channel reclosers. The coordination of this protection system is intended so that, when one of the BUS is disturbed, this system will feel an imbalance that causes the continuity of power flow to be disrupted, so it is necessary to set overcurrent relays in order to obtain good settings and electrical equipment can be avoided from all kinds of damage. After calculating and correcting the Over Current Relay setting on the Pickup Current and Time Dial values, the new settings applied have worked according to their respective functions when a disturbance occurs. The T value used from the closest to the load is 0.3, then 0.5 seconds, and the far end with the load is 0.9, then 1.1 seconds
Resetting Sistem Proteksi Pada Sistem Kelistrikan PT. Sasa Inti - Gending Plant Misbahul Munir; Muhammad Rifqi Zhuliansya
Prosiding Seminar Nasional Sains dan Teknologi Terapan 2022: Energi Terbarukan dan Keberlanjutannya di Berbagai Sektor
Publisher : Institut Teknologi Adhi Tama Surabaya

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Abstract

Sasa Inti Ltd.-Gending Plant intends to increase the load on its electrical system to support factory production activities. Therefore, it is necessary to reset the protection system in the existing electrical system or after planning for additional loads. In addition to resetting the protection system, an evaluation of short-circuit current is also needed for this research. The coordination of the protection system between phase fault relay and ground fault relay was simulated using ETAP software. The results of resetting the protection system would be used to secure the electrical system in the existing system as well as in the planning to increase the load appropriately, reliably, and well at Sasa Inti Ltd.-Gending Plant.Keywords: resetting, short circuit, protection system coordination, ETAP, existingSasa Inti Ltd.-Gending Plant intends to increase the load on its electrical system to support factory production activities. Therefore, it is necessary to reset the protection system in the existing electrical system or after planning for additional loads. In addition to resetting the protection system, an evaluation of short-circuit current is also needed for this research. The coordination of the protection system between phase fault relay and ground fault relay was simulated using ETAP software. The results of resetting the protection system would be used to secure the electrical system in the existing system as well as in the planning to increase the load appropriately, reliably, and well at Sasa Inti Ltd.-Gending Plant.Keywords: resetting, short circuit, protection system coordination, ETAP, existing
Sistem Kontrol Otomatis pH Air Pada Hidroponik NFT (Nutrient Film Technique) Untuk Tanaman Pakcoy Elfira Dyah Ekawati; Ilham Aji Shah Putro; Rahman Hakim Nasrulloh; Misbahul Munir; Novian Patria Uman Putra; Wahyu Setyo Pambudi
KOMIK (Konferensi Nasional Teknologi Informasi dan Komputer) Vol 6, No 1 (2022): Challenge and Opportunity For Z Generation in Metaverse Era
Publisher : STMIK Budi Darma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30865/komik.v6i1.5678

Abstract

Hydroponics Nutrient Film Technique (NFT) is one of the solutions to plant vegetables in limited land. The method is by flowing water and provide nutritional intake for the plant and control pH level of water. The existing hydroponics system has not used a control system to keep the water pH stable. In order to keep the water pH at 7, a system was established using Arduino Uno and pH Analog DF Robot (SEN0169) pH Sensor. This sensor would read the water pH level as an initial input to determine the additional acid or alkaline solution. This also controlled nutrition solution needed by pakcoy vegetable with a PWM control system on wiper motor functioning as a pump to distribute the acid and alkaline nutrition. Whenever the water pH level was exceeding 8, the wiper motor would start working until the pH level decreased to 6-8, and the alkaline liquid would be added whenever the value of pH level was smaller than 6. To get a water pH at 6-8 would take 2-4 seconds. Keeping the water pH within 6-8 would produce well-grown vegetable, in accordance with the determined reference.
Analisa Koordinasi Proteksi Relay Jarak Dengan Software Digsilent Pada Gi Sukolilo Ke Gi Kenjeran Menggunakan Metode Fuzzy Misbahul Munir; Novian Patria Uman Putra; Wahyu Setyo Pambudi; Nasyith Hananur Rohiem; Ipung Nur Ifan
BEES: Bulletin of Electrical and Electronics Engineering Vol 3 No 1 (2022): July 2022
Publisher : Forum Kerjasama Pendidikan Tinggi (FKPT)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47065/bees.v3i1.3150

Abstract

The electromagnetic distance relay at the Sukolilo substation has been replaced with a digital relay equipped with a recloser. If there is a disturbance, the relay will trip and reconnect automatically. The setting values have changed as a result of this replacement. The purpose of this study was to determine the value of the distance relay setting at the Sukolilo substation using traditional calculations, which would then be implemented in a computer program developed by PLN Ltd. It also found out the results of calculations per zone included in the distance relay zone. This study employed a fuzzy method with digsilent software. The research data comprised data on SUTT installed at the Sukolilo substation, data on conductor relay settings at the Sukolilo substation, data on short circuit currents, and transformer ratios. The simulation results in this study indicated that the distance relay had a setting value that was not in accordance with the standard in the old setting of the Sukolilo substation zone 1 for protection (175.42%), while the calculation results showed that zone 1 protected 58.44%. The new impedance setting covered zone 1 = 0.338, zone 2 = 0.862, and zone 3 = 1.488, whereas the old impedance setting showed zone 1 = 0.1126, zone 2 = 0.2924, and zone 3 = 0.4128. The old setting time and the new setting showed a big difference in that the old setting time was 0.25 seconds with a range of 175.42% while the new setting time was 0.25 seconds with a range of 58.44%.