Designing an Android-Based Solar Home System Performance Monitoring System in Pasarbatang Village, Brebes Regency

Authors

  • Afrizal Abdi Musyafig Electrical Engineering Study Program Cilacap State
  • Wahyu Edifikar Computer Engineering Study Program, Nahdlatul Ulama University2
  • Taufiq Kamal Computer Engineering Study Program, Nahdlatul Ulama University2

Keywords:

Photovoltaic, Solar home system, Cloud drive, Android, Pasarbatang Brebes

Abstract

The use of renewable energy sources in the last 10 years has developed very rapidly. There are many kinds of renewable energy sources, including water, geothermal, wind, solar, biogas, biomass, and ocean waves. But what Indonesians can easily access is solar or solar power. The device used for harnessing sunlight into electrical energy is the photovoltaic (PV) solar panel. The location which is difficult to reach the electricity grid from the state electricity company (PLN) is very appropriate to be integrated with the Solar Home System (SHS) as a solution. But there are other problems that arise in the application of this SHS, namely the absence of performance monitoring on the PV used. The purpose of this research is to review the availability of solar energy sources to be used as power plants with SHS. Then with this research also known electricity generation for SHS. Remote monitoring system design for SHS can be implemented in Pasarbatang Brebes Village. The design in this study uses a sensor at the PV output to be connected to an Arduino microcontroller. The data recording from the sensor by the microcontroller is sent to the online storage media (cloud drive) via a wifi communication device. The results of the research can be accessed anywhere and anytime because the system was built using online storage media. This makes it easier to monitor the progress of the PV installed via the web or Android smartphone. Monitoring on android applications using NodeMCU ESP8266 to send and receive data. So that it can monitor the measurement results from the current and voltage sensors in real time.

References

Angelia, S. (2018). Prototype Sistem Pelacakan Sinar Matahari Pada Sistem Pembangkit Listrik Tenaga Surya Berbasis Arduino. Surakarta: Universitas Muhammadiyah Surakarta.

Budiawan, H. (2017). Sistem Pengendali Beban Arus Listrik Berbasis Arduino. Makassar: Universitas Islam Negeri Makassar.

ESDM, K. (2016). Program Strategis EBTKE dan Ketenagalistrikan. Jurnal Energi. Edisi 02, 100. Jakarta: Kementerian Energi dan Sumber Daya Alam

Cahyo, BN., dkk. (2018). Manajemen Kebutuhan Energi Listrik Di Provinsi Dki Jakarta Menggunakan Leap Untuk Proyeksi Tahun 2015 - 2050, Prosiding Seminar Nasional Sains dan Teknologi, 01(01), 149-154.

Cahyo, BN., dkk. (2018). Energy Demand and Supply Forecasting Based on Electricity Consumption Intensity and Production Capacity for Development of Operating Support in Headquarter of Indonesian National Army, International Conference on Energy, Environmental and Information System, 73,1-5.

Fadhlullah, K. (2017). Solar Tracking System Berbasis Arduino. Makassar: Universitas Islam Negeri Makassar.

Ginting, M. (2018). Rancang Bangun Solar Tracker Dengan Sensor Ldr Berbasis Mikrikontroler Atmega 8. Sumatra Utara: Universitas Sumatra Utara.

Junaidi, & Prabowo, Y.D. (2018). Projek Sistem Kendali Elektronik Berbasis Arduino. Bandar Lampung : AURA CV Anugrah Utama Raharja.

Julisman A., dkk. (2017). Prototipe Pemanfaatan Panel Surya Sebagai Sumber Energi Pada Sistem Otomasi Atap Stadion Bola. Jurnal Karya Ilmiah Teknik Elektro, 2(1), 35-42.

Keputusan Menteri ESDM Republik Indonesia Nomor 39 K/20/MEM/2019. (2019). Tentang Pengesahan Rencana Usaha Penyediaan Tenaga Listrik PT Perusahan Listrik Negara (Persero) Tahun 2018-2027. Jakarta : Sekretariat Negara.

Maghfiroh ,A., dkk,. (2018). Sx – Utracs, Sistem Portabel Pembasmi Jentik Nyamuk Ramah Lingkungan. JIPI (Jurnal Ilmiah Penelitian dan Pembelajaran Informatika), 30(2), 122-129.

Muhamad, W. (2019). Prototype Sistem Otomasi Pengendalian dan Pengawasan Via Android Berbasis Web. Bandung: Universitas Pendidikan Indonesia.

Musyafiq, AA., & Cahyo BN. (2018). Pemilihan Teknologi Waste To Energy Untuk Pembangkit Listrik Tenaga Sampah (Studi Kasus: Tpa Mojorejo Kabupaten Sukoharjo Jawa Tengah), Prosiding Seminar Nasional Sains dan Teknologi, 01(01), 1-18.

Pangestu, DA., dkk. (2019). Sistem Monitoring Beban Listrik Berbasis Arduino Nodemcu Esp8266, Jurnal Ampere. 04(01), 187-197.

Peraturan Pemerintah Nomor 79. (2014). Tentang Kebijakan Energi Nasional. Jakarta : Sekretariat Negara.

Pramana, DGD., dkk. (2017). Rancang Bangun Sistem Monitoring Kinerja Panel Surya Berbasis Mikrokontroller Atmega 328. E-Journal SPEKTRUM, 04(02), 89-96.

Risma. (2019). Pengembangan Android Mobile Learning Menggunakan Mit App Inventor Sebagai Media Pembelajaran Matematika Pada Materi Dasar-Dasar Logika. Lampung: Universitas Islam Negeri Lampung.

Rochmanda S.D., dkk. (2016). Sistem Kontrol Directional Maintaining Stability Pada Uav Glider. Prosiding SENTIA, Vol. 8, 35-41.

Sugiyono, A., Anindhita, Wahid, L. M. A., Adiarso. (2018). BPPT – OEI 2018 Pengembangan Energi untuk Mendukung Industri Hijau. ISBN 978 – 602 – 74702 – 0 – 0. Jakarta : Pusat teknologi Sumber Daya Energi dan Industri Kimia (PTSEIK). Badan Pengkajian dan Penerapan Teknologi (BPPT).

Suryawinata, H., dkk. (2017). Sistem Monitoring pada Panel Surya Menggunakan Data logger Berbasis ATmega 328 dan Real Time Clock DS1307, Jurnal Teknik Elektro, 09(01), 30-36.

Tian, SU. (2017). Prototipe Sistem Monitoring Parameter Pembangkit Listrik Tenaga Surya Berbasis Internet Of Things. Yogyakarta: Universitas Negeri Yogyakarta.

Tricahyono, R.W., Kholis, N. (2018). Sistem monitoring intensitas cahaya dan daya pada dual axis solar tracking system berbasis IOT. Jurnal Teknik Elektro, 07(03), 17-27.

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Published

2021-02-12

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