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All Journal Jurnal Ilmiah Teknik Elektro Komputer dan Informatika (JITEKI) ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika JURNAL SIMETRIK Jurnal Penelitian Pendidikan IPA (JPPIPA) Jurnal Sains dan Informatika CYCLOTRON JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Jurnal Intake : Jurnal Penelitian Ilmu Teknik dan Terapan Buletin Ilmiah Sarjana Teknik Elektro FIKROH: JURNAL PEMIKIRAN DAN PENDIDIKAN ISLAM Scientific Journal of Mechanical Engineering Kinematika Medika Teknika : Jurnal Teknik Elektromedik Indonesia GUYUB: Journal of Community Engagement Journal Zetroem Jurnal Abdimas Berdaya : Jurnal Pembelajaran, Pemberdayaan dan Pengabdian Masyarakat Journal of Electrical Engineering and Computer (JEECOM) Best : Journal of Applied Electrical, Science and Technology JEEE-U (Journal of Electrical and Electronic Engineering-UMSIDA) Educare : Jurnal Ilmu Pendidikan Fikroh: Jurnal Pemikiran dan Pendidikan Islam Sasambo: Jurnal Abdimas (Journal of Community Service)
Muhammad Hasan Basri
Nurul Jadid University
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RANCANG BANGUN DAN DESAIN PROTOTYPE PEMBANGKIT LISTRIK TENAGA BAYU MODEL SAVONIOUS Muhammad Hasan Basri; Djaman .
JURNAL SIMETRIK Vol 9, No 2 (2019)
Publisher : Pusat Penelitian dan Pengabdian Kepada Masyarakat (P3M) Politeknik Negeri Ambon

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (355.16 KB) | DOI: 10.31959/js.v9i2.411

Abstract

Angin adalah energy yang mudah ditemukan dalam keseharian dan juga merupakan energi yang tidak akan pernah habis. Pemanfaatan energy angin menjadi energy yang tepat guna salah satunya adalah dengan menggunakan turbin angin sebagai media untuk menghasilkan energy  Listrik. Dalam penelitian ini  type kincir yang digunakan adalah Type vertical Savinious Tujuan penelitian ini untuk mengetahui besarnya energi listrik yang dihasilkan oleh seperangkat pembangkit listrik tenaga angin dengan kincir tipe Vertikal Savoniuos. Dalam penelitian ini metode yang digunakan adalah metode eksperimen.  Hasil penelitian menunjukkan kincir angin mampu menggerakan motor listrik sehingga dengan gerakan putaran ini dapat mengkonversi energy mekanik menjadi energy Listrik. Untuk itu dalam perancangan ini dikembangkan prototype dengan melakukan perancangan kincir angin savonious untuk membangkitkan tenaga listrik menggunakan generator DC yang menghasilkan energi listrik dengan memanfaatkan kecepatan angin yang relatif rendah.Perancangan ini menghasilkan  listrik dengan menggunakan kincir angin savonious 3 sirip. Dan hasil pengujian pada kecepatan 2.6 m/s di ambil rata-rata menghsilkan tegangan listrik sebesar 0,3004 V dengan arus sebesar 0,0198 mA dan daya sebesar 0,089 Watt, untuk kecepatan 3.3 m/s diambil rata-rata  menghasilkan tegangan listrik sebesar 0,370 V dan 0,024  mA dengan daya 0,137 Watt , dan pada kecepatan  3.7 m/s diperoleh rata-rata tegangan sebesar 0,421 V dan 0,022 mA dengan daya sebesar 0,140 Watt.
Prototipe Perancangan Control System of Corn Dryer Machine Dengan Mikrokontroler Syaiful Hasan; Amalia Herlina; Muhammad Hasan Basri
Buletin Ilmiah Sarjana Teknik Elektro Vol. 1 No. 3 (2019): Desember
Publisher : Universitas Ahmad Dahlan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.12928/biste.v1i3.1099

Abstract

Selama ini masyarakat di Indonesia melakukan pengeringan jagung dengan cara konvensional, yaitu dengan cara menjemur langsung di bawah sinar matahari. Selain tidak efektif cara tersebut juga sangat bergantung pada cahaya matahari. Oleh karena itu, penelitian ini mengusulkan tentang mesin pengering jagung dengan menggunakan mikrokontroler dan pengendali PID agar pengeringan dapat berjalan dengan maksimal. Selain itu alasan pembuatan alat ini adalah agar pengeringan biji jagung dapat terus berjalan tidak bergantung pada cahaya matahari. Untuk mencapai kondisi jagung yang sesuai standar pengeringan yaitu 14%, diperlukan sensor SHT11 untuk mendeteksi kadar air yang ada pada jagung. Untuk pemanas menggunakan 5 elemen pemanas serta exhaust fan sebagai penghantar panas. Pengaturan kelembaban menggunakan set point yang ada pada mikrokontroler. Berdasarkan pengujian, alat dapat berjalan dengan baik dan memiliki keunggulan waktu yang pengeringan yang lebih pendek daripada metode konvensional. Hasil pengujian diperoleh hasil bahwa nilai rata-rata MEA (Mean Absolute Error) adalah 0,611% dan rata-rata RMSE (Root Mean Square Error) adalah 0,687%, Time Constan = 55 detik, Rise Time = 6,95 detik dan Setting Time = 164,45 detik pada set point RH 21,5%.So far, people in Indonesia are drying corn in a conventional way, namely by drying directly in the sun. Besides being ineffective, this method is also very dependent on sunlight. Therefore, this study proposes a corn drying machine using a microcontroller and PID controller so that drying can run optimally. Besides that, the reason for making this tool is that the drying of corn kernels can continue without dependence on sunlight. To achieve the conditions of corn in accordance with the drying standard of 14%, the SHT11 sensor is needed to detect the moisture content in corn. For heaters use 5 heating elements and exhaust fans as heat conductors. Humidity regulation using the setpoint that is on the microcontroller. Based on testing, the tool can run well and has the advantage of shorter drying time than conventional methods. The test results obtained that the average value of the MEA (Mean Absolute Error) is 0.611% and the average RMSE (Root Mean Square Error) is 0.687%, Time Constant = 55 seconds, Rise Time = 6.95 seconds and Setting Time = 164.45 seconds at 21.5% RH setpoint.
Pengaruh Bentuk Blade Turbin L Dan S Pada Gravitation Water Vortex Power Plant (GWVPP) Berbasis Basin Silinder Muhammad Hasan Basri
CYCLOTRON Vol 3, No 2 (2020): CYCLOTRON
Publisher : Universitas Muhammadiyah Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (398.388 KB) | DOI: 10.30651/cl.v3i2.4583

Abstract

Pengaruh ketinggian posisi turbin Pada Pembangkit Listrik Tenaga Pusaran Air Dengan Menggunakan bentuk blade turbin L dan S Berbasis Basin Silinder dengan menggunakan generator DC. Penelitian ini bertujuan untuk mengetahui berapa torsi yang dihasilkan, daya efektif, daya potensi, tegangan, arus, dan daya yang dihasilkan oleh pembangkit listrik tenaga pusaran gravitasi air, serta membandingkan pengaruh ketinggian posisi turbin. Pada hasil data yang didapatkan.Penelitian dilakukan dengan menggunakan basin silinder yang memiliki diameter input 50 cm sedangkan diameter outputnya 5 cm, menggunakan bentuk blade turbin L 4 sudu dan 6 sudu, dan bentuk blade turbin S 4 sudu dan 6 sudu berbentuk trapesium dan menggunakan variasi ketinggian penempatan sudu turbin pada ketinggian 8 cm, 13 cm, 18 cm, 23 cm dan 28 cm dihitung dari permukaan air, debit yang digunakan tetap yaitu sebesar 59 L/ m. Torsi maksimum yang dihasilkan sebesar 0,00059 Nm untuk bentuk blade turbin L dan S dengan 4 dan 6 sudu, nilai daya efektif terbesar yang dihasilkan dengan menggunakan basin silinder dan bentuk blade turbin L dan S dengan 4 sudu dan 6 sudu yaitu 0,049 waat. Sedangkan besar tegangan dan arus yang dihasilkan adalah sebesar 2,54 V dan 0,8 mA dengan kedalaman 8 cm. Ketinggian posisi turbin yang terbesar menghasilkan data yang maksimal.
Eksperimen Variasi Tabung Basin Silinder Pada Gravitation Water Vortex Power Plant (GWVPP) Berbasis Basin Silinder Muhammad Hasan Basri
CYCLOTRON Vol 3, No 2 (2020): CYCLOTRON
Publisher : Universitas Muhammadiyah Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (505.479 KB) | DOI: 10.30651/cl.v3i2.4597

Abstract

energi terbarukan
Desain Kontrol Tracking Sudut Yaw Pada AUV Menggunakan State Dependent Riccati Equations (SDRE)-LQT Muhammad Hasan Basri
Jurnal Sains dan Informatika Vol. 5 No. 2 (2019): Jurnal Sains dan Informatika
Publisher : Teknik Informatika, Politeknik Negeri Tanah Laut

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.34128/jsi.v5i2.179

Abstract

Dalam merealisasikan permasalahan control tracking sudut yaw pada AUV, penggunaan metode State Dependent Riccati Equations berdasarkan Linear Quadratic Tracking (SDRE-LQT) direalisasikan. Algoritma ini menghitung perubahan permasalahan tracking sudut yaw melalui perhitungan perubahan parameter dari Autonomous Underwater Vehicle (AUV) secara online dengan Algebraic Riccati Equations. Sehingga sinyal kontrol yang diberikan ke plant dapat mengikuti perubahan kondisi dari plant itu sendiri. Metode control SDRE-LQT bekerja dengan cukup baik ketika ada faktor non linearitas dari sistem, yaitu pengaruh dari sudut roll dan sudut pitch yang mempengaruhi state sudut yaw, yang menyebabkan timbulnya overshoot dan undershoot, dimana kontroler SDRE-LQT mampu mengendalikan sudut yaw AUV sesuai dengan perubahan sinyal referensi yang diberikan dengan error steady state kecil, yaitu e = -0.01282 %.
Pemanfaatan Saluran Irigasi sebagai Pembangkit Listrik Tenaga Air (VORTEX) untuk Daerah Tidak Terdampak Pasokan Listrik PLN Muhammad Hasan Basri; Rahmat Rizky; Alfin Febrianto; Annasrullah Annasrullah; Aminuddin Aminuddin; As’Aad Bayu Ramadhan; Ahmad Albar Ramadhan; Yoga Kiani Awk; M. Badrus Zaman; M. Alvin Aris V; Anwar Zamani; Burhanudddin Burhanudddin
GUYUB: Journal of Community Engagement Vol 2, No 1 (2021): Pendampingan Pendidikan, Agama, dan Teknologi
Publisher : Universitas Nurul Jadid

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33650/guyub.v2i1.1907

Abstract

Duren village, ivory sub-district, located in the mountainous area south of Probolinggo Regency, is one of the mountainous villages that has limited electricity supply or has not yet received electricity supply from PLN. Because they have not yet received electricity supply from PLN, the local community uses the irrigation channel as a vortex power plant. Where the area of Duren village is very possible to make a vortex power plant because the irrigation canal is very suitable as a manufacturing location. With the existence of a whirlpool (vortex) power plant, it can alleviate the community of Duren village due to the electricity needs that have not received electricity supply from PLN. Results obtained from channel utilization activities a whirlpool (Vortex) irrigation power plant in the village of Duren areIncreased public knowledge about Vortex Before installing the equipment, first hold a meeting with community leaders in Duren village to determine the important places or facilities to install the equipment. At the installation location and an explanation of the Vortex to the responsible citizen. Instructions are also given directly to those who are given the task of operating the equipment on a daily basis at the time of installation. From this activity it is known that the community does not know how to properly care for and maintain the whirlpool power plant facilities. The material presented was about the basic principles of Vortex and continued with installation and maintenance procedures.
Pelatihan Pembuatan Payung Solar Cell Sulistiyanto Sulistiyanto; Ach Najihuddin; Adi Riyanto; Taufiq Hidayatullah; Moh Basri
Jurnal Abdimas Berdaya : Jurnal Pembelajaran, Pemberdayaan dan Pengabdian Masyarakat Vol 4, No 02 (2021): Jurnal Abdimas Berdaya
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/jab.v4i02.130

Abstract

Formulasi Trigonometri Dalam Pembuatan Software Penentuan Arah Kiblat berbasis Visual Basic Mustafa Syukur; Muhammad Hasan Basri
Jurnal Intake : Jurnal Penelitian Ilmu Teknik dan Terapan Vol. 10 No. 2 (2019): Jurnal Intake : Jurnal Penelitian Ilmu Teknik dan Terapan
Publisher : FT- UNDAR

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48056/jintake.v10i2.56

Abstract

The science of Falak is basically divided into two types, namely the science of Falak Ilmiy, and the science of Falak Amaliy. The science of Falak discussing the direction of Qibla is basically calculating the amount of angles flanked by meridian lines that pass through a place that is called the Qibla direction with a large circle passing through the relevant place and the Kaaba, and calculating what time the sun cuts the path to the Kaaba. The problem that arises is not everyone is able to calculate the correct direction about the Qibla direction but instead uses a range of directions. It is possible to make an application program for determining the direction of Qibla and others so that it can be used for the general public and is easy to apply. This research helps how to calculate the direction of Qibla and how to make and apply the software of Qibla direction determination using visual basic. The results of this study can be used as a reference in solving various cases of physical analysis in various aspects related to other astronomy.
The Effect Of Turbine Level Of Model L And Turbine Model S In Gravitation Of Water Vortex Plant Power (GWVPP) Based On Cylinder Basin Muhammad Hasan Basri; Fredi Kusuma Putra; Tijaniyah Tijaniyah; Bachtera Indarto
JEEE-U (Journal of Electrical and Electronic Engineering-UMSIDA) Vol 4 No 1 (2020): April
Publisher : Muhammadiyah University, Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/jeeeu.v4i1.322

Abstract

The effect of the height of the L model turbine and the S model turbine on the Vortex Power Pland Gravitation Water Using a Cylinder Basin Based Gearbox using a DC generator. This study aims to determine how much torque is generated, rotations per minute, voltage, current, and power generated by the power plant of gravity vortex airs and compare the influence of the height of the turbine position on the results of the data obtained. The study was conducted using a cylindrical basin that has an input diameter of 50 cm while the output diameter is 5 cm, using a 4 blade turbine shaped L and S models and using variations in the height of the turbine placement at depths of 10 cm, 12 cm, 14 cm, 16 cm, and 18 cm is calculated from the surface of the water, the fluid flow varies. The largest electric power using a L model turbine at a torque load of 0,0005886 Nm with a water discharge of 0.66 l / s obtained electrical power of 1.368 watts, and low electrical power is present at a torque load of 0,0002943 Nm with a water discharge of 0.73 electrical power obtained 0.872 watts. Whereas in the S model turbine, the largest electric power with a torque load of 0.0011772Nm with a water discharge of 0.85 l / s obtained an electric power of 2.097 watts, and low electrical power was found when the torque load was 0.0005886 Nm with a water discharge of 0.75 obtained electric power 1,856 watts. The highest elevation of the turbine position produces maximum data at 28 cm height.
Design Of Turbine L On Basin Cylinder Walls With 5cm And 10cm Turbine Distance Various On The Effect Of Electrical Power In The Gravitation Water Vortex Power Plant (GWVPP) Muhammad Hasan Basri; Muhammad Syaifuddin Zuhri; Hilman Saraviyan Iskawanto; Bachtera Indarto
JEEE-U (Journal of Electrical and Electronic Engineering-UMSIDA) Vol 4 No 1 (2020): April
Publisher : Muhammadiyah University, Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/jeeeu.v4i1.330

Abstract

The current source of energy tthat is mostly done in research on renewable energy is water flow. In daily life - electrical energy is widely used by everyone, both young and old. But over time this power source will be exhausted due to continuous use. That is because most of the existing electricity sources come from non-renewable sources. So it is therefore necessary to feel that renewable sources are being used to generate electricity. So the idea emerged to examine a type of small type power plant that is the Water Vortex Power Plant (GWVPP) Generator. Here a study was carried out on the effect of the distance of the L model turbine on the cylindrical basin. For the effective of power in the L model turbine with a distance of 5 cm to the cylinder basin wall is able to produce the highest effective power of 2.89 Watt at a height of 10 cm, while the highest effective power of the L model turbine with a distance of 10 cm towards the cylinder basin wall is 0.14 Watt at 10 cm height from the outlet water output. For the potential power of L model turbines with a distance of 5 cm can produce the highest potential power at an altitude of 28 cm with a potential power of 4.61 watts. While the potential power of the L model turbine with a distance of 10 cm can produce 4.02 watts with a height of 10 cm towards the outlet of the water outlet.
Co-Authors Ach Najihuddin Ach. Najihuddin Adi Riyanto Ahmad Albar Ramadhan Ahmad Muhtadi Ainun Nasuki Alfi Tranggono Agus Salim Alfin Febrianto Aminuddin Aminuddin Annasrullah Annasrullah Anwar Zamani As’Aad Bayu Ramadhan Bachtera Indarto, Bachtera Burhanudddin Burhanudddin Darul Hasan Djaman . Farah Zakiyah Rahmanti Fredi Kusuma Putra Hilman Saravian Iskawanto Hilman Saraviyan Iskawanto Hilman Saraviyan Iskawanto Ilmi Rizki Imaduddin Ilmir Rizki Imaduddin Ilmirrizki Imaduddin imam basuki Lukmanul Hakim M. Alvin Aris V M. Badrus Zaman Mochammad Ilman Nafi’ Moh Iqbal Kurniawan Moh Khotib Mohammad Alfian Faisol Mustaqim Muhammad Anton Muhammad Imaduddin Muhammad Syaifuddin Zuhri Munif, Muhammad Mustafa Syukur Musthafa Syukur Nanang Arianto Rahmat Rizky RAUDHATUL JANNAH Rena Roy Zulkarnaen Risto Moyo Sukardi Sukardi Sulistiyanto Sulistiyanto Sulistiyanto, Sulistiyanto Syaiful Hasan Taufiq Hidayatullah Tijaniyah Tijaniyah Yoga Kiani Awk Yuli Prasetyo