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Sistem Monitoring Kecepatan Motor dan Tekanan pada Saluran Air Berbasis Internet of Things (IoT) Nasyith Hananur Rohiem; Novian Patria Uman Putra
INTEGER: Journal of Information Technology Vol 6, No 1: Mei 2021
Publisher : Fakultas Teknologi Informasi Institut Teknologi Adhi Tama Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31284/j.integer.2021.v6i1.1835

Abstract

Permasalahan yang sering terjadi sekarang ini adalah tekanan air yang menurun pada saluran air saat beberapa kran dibuka sehingga hal itu menyebabkan pengisian air yang cukup lama. Agar tekanan pada pipa konstan, maka solusi dari masalah ini yaitu diperlukan suatu sistem pompa air untuk mengatasi tekanan air yang menurun ketika jumlah keran yang dibuka bervariasi yang dapat dimonitoring dari jarak jauh pada sistem instalasi air. Pada Tugas Akhir ini dirancang sebuah sistem untuk mengatur tekanan pompa air pada saluran pipa air dengan menggunakan tiga valve berbasis Internet of Things (IoT). Parameter tekanan dibaca menggunakan sensor tekanan yang keluarannya diolah dan dikalibrasi menggunakan arduino uno. Hasil keluaran digunakan sebagai parameter untuk mengatur kecepatan pompa. Untuk memonitoring sistem ini menggunakan nodeMCU ESP8266 agar dapat mengirim data ke android. Data dari bagian sensor monitoring dan alat pengontrol akan diproses oleh nodeMCU ESP8266, kemudian data akan dipublikasikan sehingga dapat dipantau menggunakan android. Tampilan pada sistem monitoring ini dibuat pada mit app inventor. Sebelum menyalakan sistem maka diatur set point tekanan minimal, maksimal, dan batas kerja sensor. Ketika tekanan kurang dari set point yang ditentukan, maka kecepatan motor akan terus bertambah. Ketika tekanan tepat pada set point maka kecepatan motor tetap. Ketika tekanan lebih dari set point maka kecepatan motor akan berkurang, dan ketika tekanan melebihi batas kerja sensor maka motor akan mati. Dengan sistem ini maka tekanan pada pipa air minum bisa stabil sesuai kebutuhan. Kata Kunci: Pompa Air, Monitoring, Internet of Things (IoT), Sensor Pressure. Tekanan Stabil
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 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
Keandalan Sistem Distribusi 20KV Pada Penyulang Sistem Distribusi PT.PLN UP3 Surabaya Utara Dengan Metode Reliability Network Equivalent Approach (RNEA) Riny Sulistyowati; Ma’rifanto Nur Ramadhan; Titiek Suheta; 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

In an electrical energy service network, the quality of reliability can be known from the frequency of blackouts and the duration of blackouts in a certain time interval. Therefore, this study aims to determine the reliability of the 20 kV distribution network power system at the Distribution System Feeder PT.PLN UP3 North Surabaya and make efforts to increase the reliability index. The method chosen in conducting this research to determine the reliability index is the Reliability Network Equivalent Approach (RNEA) method. It is used to analyze the reliability of large and complex distribution systems with an equivalent element approach. Equivalent circuits are used to replace parts of the distribution network and rearrange the distribution system into a simple series. Based on the analysis obtained from the feeder, the SAIFI reliability index value is 1,303 times/customer/year and the SAIDI reliability index value is 3,303 hours/customer/year
Analisa Harmonisa Pada Unit Crane RTG (Rubber Tyred Gantry) Di PT. Nilam Port Terminal Indonesia Choirul Anam; Nasyith Hananur Rohiem; Riny Sulistyowati
Jurnal FORTECH Vol. 4 No. 1 (2023): Jurnal FORTECH
Publisher : FORTEI (Forum Pendidikan Tinggi Teknik Elektro Indonesia)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56795/fortech.v4i1.4102

Abstract

RTG (Rubber Tyred Gantry) Crane tends to have harmonic distortions. It is caused by the VSD switching process that converts current from DC to AC, decreasing the power quality and affecting power generation. Disturbance tends to happen on voltage or a current sine wave of the system that contains multiplied frequency from fundamental frequency. It is required to analyze based on the IEEE standard of Std 519-2014 which described that the 20kV bus voltage has a limit value of 3% for VIHD and 5% for VTHD. By using available software, simulation is applied to the RTG Crane electrical system. Harmonic distortion will be discussed by gathering simulation result data in the form of the harmonic spectrum and harmonic wave. harmonic filter to be applied is an Active Filter and Passive Filter that then compared the compatibility to solve the harmonic distortion. The analysis is also applied to Power Factor (PF) value changes before and after filter installation.
Analisa Kinerja Relay Differensial pada Gardu Induk Surabaya Selatan Sebagai Sistem Proteksi dari Gangguan Arus Hubung Singkat Transformator Menggunakan Metode Algoritma Genetik Misbahul Munir; Nasyith Hananur Rohiem; Wahyu Setyo Pambudi; Novian Patria Uman Putra; Echwan Muliyana
KLIK: Kajian Ilmiah Informatika dan Komputer Vol. 3 No. 6 (2023): Juni 2023
Publisher : STMIK Budi Darma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30865/klik.v3i6.681

Abstract

One of the disturbances in the transformer at the South Surabaya Substation is a short circuit, this disturbance causes an increase in the flow of electric current to a large extent resulting in heat on the transmission line and damage to the electric power system equipment so protection is needed. One type of equipment that needs to be protected is a transformer using a differential relay. In this study, the process of determining the relay settings was used using a numerical process and compared with the genetic algorithm(AG)method. In the AG process, the targeted optimization values are the current values of IsettandId. The results of the two processes are compared with the existing conditions to determine the resulting acceleration of the trip relay response. The trip response acceleration of each differential relay from the AG results shows an acceleration value of 0.088s, 0.047s, and 0.047s to the existing conditions while the numerical process shows an acceleration of the trip process of 0.083s, 0.045s, and 0.045s to the existing conditions. The results of the AG optimization show that the acceleration response is the best compared to the numerical process