Sistem Monitoring Online Dan Analisis Perfomansi Plts Panel Surya Monocrystalline 100 Wp Berbasis Web

Duanaputri, Rohmanita; Heryanto/Eryk, Irwan; Sajidan, Muhammad Firas; Wardani, Ayusta Lukita

doi:10.33795/elposys.v10i1.715

Cited by 3 publications

(3 citation statements)

References 3 publications

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“…Figure 8 shows the modified solar panel on the electric scooter. Additionally, the monitoring tools include a Solar Charge Controller, which provides vital information regarding solar panel performance, battery charging current, voltage, and charging status [12]. The PZEM-015 sensor module complements these functionalities by reading battery energy consumption and displaying comprehensive data on the LCD, encompassing voltage, current, power, energy, capacity, and battery condition.…”

Section: Modified Solar Panel On Electric Scootermentioning

confidence: 99%

Modification of Polycrystalline PV String for Charging on Electric Scooter

Hazrina,

Purwiyanto,

Ali

et al. 2024

PEC

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Electric scooters rely on batteries to power BLDC motors, which are traditionally recharged through the household electricity grid. However, alternatives like solar energy are being explored to reduce dependency on conventional power sources. A challenge arises due to the discrepancy in voltage compatibility between standard solar panels and scooter batteries. Typically, a 36 V scooter battery requires a higher voltage input than the 18 V output of a single solar panel. This requires modifications to align solar cell design with battery voltage requirements. This study implements a PZEM-015 sensor for monitoring battery energy consumption. The contribution of this study is twofold: to develop and optimise solar cell modification for effective battery charging and to assess battery consumption concerning speed and travel duration. Testing reveals that a series circuit modification yields an average voltage of 39.2 V and an average current of 0.55 A, resulting in 21.8 Wp of power output. Analysis of scooter performance indicates that maintaining speeds between 4.16 m/s and 5.55 m/s significantly extends travel time and conserves battery energy. These findings highlight the potential of modified solar PV in enhancing electric scooter efficiency and sustainability.

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Section: Modified Solar Panel On Electric Scootermentioning

confidence: 99%

Modification of Polycrystalline PV String for Charging on Electric Scooter

Hazrina,

Purwiyanto,

Ali

et al. 2024

PEC

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“…Baterai, sebaliknya, biasanya diisi pada tegangan 14 hingga 14,7 volt. Tanpa alat khusus yang disebut solar charge controller, baterai bisa rusak karena terlalu banyak diisi dan tegangannya terus berubah [7].…”

Section: Solar Charge Controller (Scc)unclassified

Monitoring Sun Tracking Solar Panel Statis Secara Real-Time Berbasis Website

Hanifiyah Darna Fidya Amaral,

Santoso,

Harijanto

et al. 2023

elposys

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The ability of solar panels to absorb energy depends on environmental conditions. Therefore, the power generated will fluctuate. Web-Based Real-Time Solar Panel Monitoring Design Research can facilitate monitoring the condition of solar panels so as to speed up action when there is a problem with solar panels with the monitoring system sent to users. The component used is NodeMCU ESP32 as a connecting device between solar panels and the internet. The measurement data of the current and voltage sensors installed on the solar panels is sent through an internet connection to the web server. The web server will receive the data and display real-time solar panel current and voltage information through a web interface that can be accessed by users. The test was carried out by taking current and voltage data on static solar panels and solar trackers for 11 hours at 07.00 – 17.00 WIB. Based on the measurement results, a total power of 16.04 Wh without a solar tracker (static) and 17.43 Wh with a solar tracker was obtained. The percentage of increase in current and power between static solar panels and solar trackers is 7.22% and 3.05%.

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“…Data ini menunjukkan bahwa tiap 1 kW photovoltaic (PV) dapat menghasilkan 4,8 kWh energi listrik setiap harinya. Energi surya di Indonesia merupakan potensi yang seharusnya dapat dimanfaatkan untuk menghasilkan energi listrik secara optimal [2]. Salah satunya yaitu dengan adanya Pembangkit Listrik Tenaga Surya (PLTS), dengan menggunakan program "solarrooftop" di setiap rumah dan digunakan sebagai lampu penerangan bertenaga surya [3].…”

Section: Pendahuluanunclassified

Pengembangan Alat Estimasi Pola Peningkatan Kekotoran Panel PV

Wibowo,

Sigit Setya Wiwaha,

Irwan Heryanto/Eryk

2023

elposys

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Photovoltaic (PV) panels play a pivotal role in converting solar radiation into electrical energy. The efficiency of PV panels is susceptible to the impact of shadows and accumulated dirt on the panel surfaces. This research aims to establish a correlation between the level of dirt accumulation and the resultant power generation. The methodology employed involves a comparative analysis of power output from PV panels under clean and dusty conditions. To quantify the increase in dust over a 3-day data collection period, a glass surface was exposed outdoors to collect dust, serving as a reference for comparison with the PV panel surface. The glass, containing accumulated dust, was then subjected to data retrieval using an LED as a light source. A light intensity sensor (BH1750) was employed to measure the decrease in light intensity as dust coverage increased on the glass surface over time.The results of the PV fouling test, utilizing 10 grams of dust, indicate a relatively stable voltage generation with only a 0.8-volt loss. In contrast, the current generated experienced losses of 0.28 amperes before and after fouling. These losses significantly impact the overall power generation capacity of the PV panel. This research sheds light on the importance of mitigating dust accumulation on PV surfaces to optimize and sustain efficient solar energy conversion.

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Sistem Monitoring Online Dan Analisis Perfomansi Plts Panel Surya Monocrystalline 100 Wp Berbasis Web

Cited by 3 publications

References 3 publications

Modification of Polycrystalline PV String for Charging on Electric Scooter

Modification of Polycrystalline PV String for Charging on Electric Scooter

Monitoring Sun Tracking Solar Panel Statis Secara Real-Time Berbasis Website

Pengembangan Alat Estimasi Pola Peningkatan Kekotoran Panel PV

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