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https://repositori.uma.ac.id/handle/123456789/25610
Title: | Rancang Bangun Sistem Monitoring Konversi Energi pada Panel Surya Berbasis Website |
Other Titles: | The Design of an Energy Convertion Monitoring System on a Website-Based Solar Panel |
Authors: | Saputra, Reza |
metadata.dc.contributor.advisor: | Satria, Habib |
Keywords: | konversi energi;web server;sensor ina219;efisiensi energi;energy conversion;ina219 sensor;energy efficiency |
Issue Date: | 2-Apr-2024 |
Publisher: | UNIVERSITAS MEDAN AREA |
Series/Report no.: | NPM;198120025 |
Abstract: | Dalam menghadapi tuntutan untuk meningkatkan efisiensi penggunaan energi, penelitian ini bertujuan untuk merancang dan membangun sebuah sistem monitoring konversi energi pada panel surya berbasis website. Penelitian ini bertujuan meningkatkan efisiensi penggunaan energi melalui desain dan implementasi sistem monitoring konversi energi pada panel surya berbasis website. Fokus penelitian adalah pengukuran arus, tegangan, dan daya panel surya sebagai sumber energi terbarukan. Sistem ini mengintegrasikan sensor presisi dan mentransfer data ke web server, memungkinkan akses real-time melalui antarmuka pengguna responsif. Metode pengukuran yang presisi memberikan gambaran akurat terhadap performa panel surya, mendukung pemantauan efektif produksi energi. Penelitian ini berhasil mengukur dan memonitor tegangan, arus, dan daya pada panel surya berbasis IoT. Sensor INA219, sensor tegangan, sensor suhu, dan mikrokontroller ESP8266 digunakan untuk mengumpulkan data yang dikirim ke web server Blynk IoT. Keberhasilan implementasi teknologi ini memungkinkan pemantauan dan analisis kinerja panel surya secara efektif. Temuan penelitian menyoroti fluktuasi produksi energi, memberikan pemahaman respons panel terhadap perubahan cahaya matahari. Analisis hubungan suhu lingkungan dengan efisiensi konversi energi memberikan kontribusi penting untuk pengelolaan suhu yang lebih baik. Antarmuka web server memberikan visualisasi data harian, mingguan, dan bulanan, memberikan wawasan mendalam terhadap kinerja sepanjang waktu. In facing demands to increase the efficiency of energy use, this research aims to design and build a website-based energy conversion monitoring system for solar panels. This research aims to increase the efficiency of energy use through the design and implementation of a website-based energy conversion monitoring system for solar panels. The focus of the research is measuring current, voltage and power of solar panels as a renewable energy source. The system integrates precision sensors and transfers data to a web server, enabling real-time access through a responsive user interface. Precise measurement methods provide an accurate picture of solar panel performance, supporting effective monitoring of energy production. This research succeeded in measuring and monitoring voltage, current and power on IoT-based solar panels. The INA219 sensor, voltage sensor, temperature sensor, and ESP8266 microcontroller are used to collect data which is sent to the Blynk IoT web server. Successful implementation of this technology enables effective monitoring and analysis of solar panel performance. The research findings highlight fluctuations in energy production, providing insight into the panel's response to changes in sunlight. Analysis of the relationship between environmental temperature and energy conversion efficiency makes an important contribution to better temperature management. The server's web interface provides visualization of daily, weekly and monthly data, providing deep insight into performance over time. |
Description: | 40 Halaman |
URI: | https://repositori.uma.ac.id/handle/123456789/25610 |
Appears in Collections: | SP - Electrical Engineering |
Files in This Item:
File | Description | Size | Format | |
---|---|---|---|---|
198120025 - Reza Saputra - Fulltext.pdf | Cover, Abstract, Chapter I, II, III, Bibliography | 1.27 MB | Adobe PDF | View/Open |
198120025 - Reza Saputra - Chapter IV.pdf Restricted Access | Chapter IV | 475.81 kB | Adobe PDF | View/Open Request a copy |
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