scholarly journals PENGEMBANGAN PENGGERAK SOLAR PANEL DUA SUMBU UNTUK MENINGKATKAN DAYA PADA SOLAR PANEL TIPE POLIKRISTAL

2019 ◽  
Vol 5 (3) ◽  
Author(s):  
Wendryanto Wendryanto ◽  
Gede Widayana ◽  
I Wayan Sutaya
Keyword(s):  
Solar Energy ◽  
Dc Motor ◽  
Solar Panel ◽  
The Sun ◽  
Electrical Voltage ◽  
Solar Tracking ◽  
Solar Tracker ◽  
Is Design ◽  
Sun Light ◽  
Test Result

ABSTRAK     Prototipe ini didesain agar panel surya mampu senantiasa tegak lurus dengan matahari dengan menggunakan Arduino Nano 3.0 Atmega 328 CH340G sebagai control otomatis, serta komponen lain seperti sensor cahaya (LDR) dan motor DC. Prinsip kerja dari mikrokontroler ini dalam penggerak panel surya 2 sumbu ini yaitu output dari sensor LDR diolah oleh mikrokontroler Arduino Nano 3.0 Atmega 328 CH340G dengan menggunakan bahasa pemrograman. Apabila sensor LDR tidak tegak lurus terhadap matahari, maka akan memiliki nilai tahanan yang berbeda. Jika terjadi perbedaan maka mikrokontroler akan merespon dan menggerakkan motor agar medapat nilai resistansi yang sama. Dari hasil pengujian dengan membandingkan panel surya yang statis, dengan pengerak 1 sumbu dan dengan penggerak 2 sumbu, didapat bahwa panel surya yang dilengkapi dengan penggerak 2 sumbu memiliki daya serap energi matahari yang lebih optimal. Hal ini dibuktikan dengan pengukuran tegangan listrik yang dihasilkan panel surya lebih besar apabila dibandingkan dengan panel surya yang statis maupun yang dengan penggerak 1 sumbu. Dari data yang didapat, terjadi peningkatan tegangan mulai pukul 09.00 dan tegangan maksimal yang didapat terjadi pada pukul 12.00, setelah itu terjadi penurunan tegangan yang dihasilkan. Kata-kata kunci : Arduino Nano 3.0 Atmega 328ch340g, Motor DC, Penggerak Panel Surya 2 Sumbu.ABSTRACTThis prototype is design for has be able to track the position of the sun with using an Arduino Nano 3.0 Atmega 328 CH340G for automatic control, with another component as well as LDR censor, and DC motor. The principle of this microcontroller in solar tracker dual axis is output of LDR censor processed by microcontroller Arduino Nano 3.0 ATmega 328 CH340G with assembly. If the LDR cencor not perpendicular with sun light, so cencor LDR have a deiferification the value of resistance. If that happens, so microcontroller will respond and move the DC motor to get the same value of resistance. Of the test result of compare static solar energy, solar tracker with one axis, and solar tracker with dual axis, be obtained that solar tracking with dual axis have a power to exploit of the sun light is more optimally. This can be proved with measuring of electrical voltage greater than static solar energy as well solar tracker with one axis. From the obtained of data, the increase of electrical voltage start from at 09.00 am and maksimum electrical voltage can be reach from 12.00 am, after that happen decline of electrical voltage. Key Words: Arduino Nano ATmega 328 CH340G, DC Motor, Solar Tracker Dual Axis,

scholarly journals Development of Solar Powered Sprinkler Robot Based on Watering Plant Using IOT Approach

2021 ◽  
Vol 2107 (1) ◽  
pp. 012024
Author(s):  
Lim Xin You ◽  
Nordiana Shariffudin ◽  
Mohd Zamri Hasan
Keyword(s):  
Renewable Energy ◽  
Solar Energy ◽  
System Analysis ◽  
Tracking System ◽  
Sprinkler System ◽  
Solar Panel ◽  
Maximum Efficiency ◽  
Solar Tracking ◽  
Solar Tracker ◽  
Solar Powered

Abstract Nowadays, solar energy’s popularity is growing consistently every year, along with the growth of amazing solar technologies, which is considered to be one of the most popular. Non-renewable energy like petrol and gasoline is being replaced with solar energy, which is renewable energy. The main objective of this project is to design and simulate a robot solar system. The robot is developed using Arduino Mega 2560 as the main brain of the system. This system is equipped with a solar tracking system to track the movement of the sun and LDR is used to detect the presence of sunlight. The solar tracker is used to get the maximum efficiency of solar energy and reduce power losses. In addition, the solar tracker can rotate from 0° - 180°, which is the best angle for the solar panel to reach the sunlight. This robot will be attached to the sprinkler system to perform the watering process. This robot is developed for use in the agriculture field to reduce the manpower and cost of the watering process. Three analyses will be conducted in this project such as solar panel analysis, Wi-Fi connectivity analysis and sprinkler system analysis. The result shows the solar panel will gain the highest intensity of the sunlight at 12.00 pm and a sunny day compared to the other time and a cloudy day. The maximum range of Wi-Fi connectivity and the water pump, time used to finish the watering process and watering area will be discussed.

scholarly journals Analysis and study of the potential increase in energy output generated by prototype solar tracking, roof mounted solar panels

F1000Research ◽  
2020 ◽  
Vol 9 ◽  
pp. 1381
Author(s):  
Jacek Harazin ◽  
Andrzej Wróbel
Keyword(s):  
Solar Energy ◽  
Energy Output ◽  
The Sun ◽  
Solar Panels ◽  
Free Standing ◽  
Potential Increase ◽  
Solar Tracking ◽  
Solar Tracker ◽  
Analysis And Study

Roof mounted solar panels come in form of fixed panels, unable to adjust to sun’s position during day and throughout the year. As an effect, the efficiency of such solution is usually dependent on the roof slope and position of the building in relation to sun’s day arc during seasons. These problems can be bypassed in free standing solar installations by equipping solar panels with solar tracker installations. Thanks to solar tracking, solar panels can be dynamically positioned perpendicular to the sun position and gather energy more efficiently throughout the day. This article presents a possibility of creating a roof mounted solar tracking panel to increase its efficiency. A prototype of solar tracking panel with two axes of movement was designed with an intention of an easy adaptation to being mounted on sloped surfaces of building roofs. A reference stationary panel was used to compare the efficiency of both solutions. A 5-day study was carried out to determine if the proposed solution could provide any benefits. Based on the study, the authors made an attempt to draw a conclusion whether the design could considerably increase the solar energy output to be worth the extra spending associated with solar tracker installation.

scholarly journals Design of Solar Tracking System for Capturing Maximum Amount of Solar Energy

2019 ◽  
Vol 8 (12S) ◽  
pp. 145-147
Keyword(s):  
Solar Energy ◽  
Tracking System ◽  
Electrical Energy ◽  
Maximum Amount ◽  
Solar Panel ◽  
Advanced Technology ◽  
The Sun ◽  
Solar Tracking

This paper proposes a design of solar tracking system for capturing maximum amount of solar energy by rotating the solar panel. From sun rise to sun set, the sun changes its direction several times due to which the static solar panel fails to capture maximum solar energy throughout the day. Therefore, it is required to develop a system that is capable of generating electrical energy by making use of maximum amount of solar energy. This paper discloses about the rotatable solar tracking system capable of rotating along the sun direction for tracking maximum amount of solar energy. This advanced technology not only utilize the solar energy more effectively but also improves the efficiency of whole system.

scholarly journals EN Solar panels work and control system modeling in LabVIEW and LTSpice XVII. Comparison of the perspectives of panels using

2021 ◽  
Vol 57 (1) ◽  
pp. 37-44
Author(s):  
O. Drozd ◽  
L. Scherbak
Keyword(s):  
Solar Energy ◽  
System Integration ◽  
Tracking System ◽  
System Modeling ◽  
Renewable Energy Sources ◽  
Solar Panel ◽  
The Sun ◽  
Solar Panels ◽  
Solar Tracker ◽  
Solar Electricity

This paper is dedicated to the research of solar energy issues, namely to increase the efficiency of solar panels and to compare the performance of solar panels in different configurations. The author researches and compares the performance of solar panels with and without trackers. The sun is an inexhaustible source of energy that mankind has yet to appreciate. Solar energy is the kinetic energy of radiation (mainly light) generated by thermonuclear reactions in the bowels of the sun. Solar energy is one such alternative, the neglect of which will in the near future lead to catastrophic consequences for humanity. Solar energy is a progressive method of obtaining various types of energy through solar radiation. Solar energy is one of the most promising and dynamic renewable energy sources (RES). Each year, the increase in commissioned capacity is approximately 40-50%. In the last fifteen years alone, the proportion of solar electricity in the world has exceeded the 5% mark. To increase the efficiency of solar panels, designers and engineers are developing new devices and devices, one of which is a solar tracker. A solar tracker is a device that allows you to control the movement of the sun across the sky, as well as move the solar panel to the position where the absorption of sunlight is most effective. After the conducted experiment , calculations an comparison we can see the next results. Without the solar tracker our panel generated maximum power in 2.4 Watt. After the solar tracking system integration, our panel generated almost 20 (19.8) Watt of power! After this comparison we can tell that the generated power increase in 8.25 Watts. We can also admit that the amount of generated power depends on light intensity. But solar panels are the most effective when the solar beam falls perpendicular to solar cell and solar panel is at an angle of 75 – 85 degrees

scholarly journals Automatic dual-axis solar tracker system design

2020 ◽  
Vol 331 ◽  
pp. 06002
Author(s):  
Nurhani Amin ◽  
Agustinus Kali ◽  
Muchsin ◽  
Firman Syam
Keyword(s):  
Solar System ◽  
Solar Energy ◽  
System Design ◽  
Output Voltage ◽  
Electrical Energy ◽  
Solar Panel ◽  
The Sun ◽  
Output Current ◽  
Solar Tracker ◽  
Photo Voltaic

Sunlight is one of the energy that can be used to generate electricity. Converting solar energy into electrical energy required a device called Photo-Voltaic (PV). However, output of PV hardly depends on the position of PV to the sun. The maximum PV output will reach when the sun position perpendicular to the surface of PV. Therefore, the device that can track the position of PV is needed. The aim of this research is to design a track solar system using Arduino and LDR sensor to follow the sun movement. This method will be applied to a 80 Wp solar panel. The output of the tracker solar system was compared to the fixed PV. The result shows that the output voltage of the tracker solar system reached 18. 81 V that was higher than the fixed PV about 18,56 V and the output current of the tracker solar system reached 4,27 A that was higher than the fixed PV about 4,19 A.

scholarly journals Sunflower Mimic Robot for Development of Dual Axis Solar Tracking System

2019 ◽  
Vol 8 (2S3) ◽  
pp. 554-557
Keyword(s):  
Solar Energy ◽  
Fossil Fuels ◽  
Tracking System ◽  
Region Of Interest ◽  
Solar Panel ◽  
The Sun ◽  
It Use ◽  
Dc Motors ◽  
Solar Tracking ◽  
Power Yield

This Today's world depends upon utilization of some form of energy. Be it use of mobiles, vehicles, power supply in houses etc., everything functions on the basis of energy input. The use of energy derived from fossil fuels began in early 1800 and is used till date. In the current theme that calls for saving energy and reducing pollution, it’s undoubtedly of great significance to make full use of solar energy. The solar panel system sprouted with the use of a simple magnifying glass to concentrate solar energy which has now revolutionized by using a much higher solar panel system. The framework consists of webcam, electronic circuit, Microprocessor and two DC motors. This solar tracking system is autonomous, dual axis and hybrid type. This tracking system is camera-based and can track the sun continuously. By using Region of Interest algorithm, we can get the sun coordinates from the frame. These values are sent to the microcontroller to actuate the motors and reposition the panel. This framework works free of its primary settings and can be utilized in any geological area. It holds the solar panel opposite to illumination of sun to get the most extreme solar energy and hence produce most effective power yield for the duration of the day. This study yields an output of up to 2-3% increase from a stationary solar panel.

scholarly journals Design and Programming of a Micro-Controller-Based Solar Tracking System

2020 ◽  
Author(s):  
Saman Sarkawt Jaafar ◽  
Farhad Muhsin Mahmood
Keyword(s):  
Tracking System ◽  
Solar Panel ◽  
The Sun ◽  
Servo Motor ◽  
Solar Tracking ◽  
Photo Sensor ◽  
Output Efficiency ◽  
Solar Tracker ◽  
Photo Voltaic ◽  
Two Sides

This paper is regarding design and program an Micro-controller Arduino Uno board by using Arduino software to work as a photo-sensor(Active) single axial solar tracker system(SASTS). A solar panel, two photo-resistors (LDR) in two sides (north/south) of the photo-voltaic(PV) and a servo motor are connected to the Uno board, which is running a code that prepared by Arduino software IDE in advanced then it works as a tracking system. Here, the LDRs send the signal of presence or absence of the light to the board and based on that sent signal the Uno reflects a new signal to the servo motor to rotate and finds the light source. Lastly, the photo-sensor single axis tracker is made while Continuously, the system tries to face the panel to the sun and whilst changing the irradiance intensity it starts searching to find the angle of highest irradiance. Based on results that are extracted from the data, the tracker system significantly boosts the output efficiency of the solar panel. By using the Micro-controller Uno board, LDRs, servo motor and special designed mechanical base, the tracking system is constructed, based on acquired data the influence of the STS on the increasing the solar panel efficiency is more obvious. Significantly, the tracker system rises the efficiency of the PV .

scholarly journals Solar Tracker

2020 ◽  
Vol 2 (1) ◽  
pp. 59-65
Author(s):  
Irfan Danial Hashim ◽  
Ammar Asyraf Ismail ◽  
Muhammad Arief Azizi
Keyword(s):  
Fossil Fuels ◽  
Electrical Energy ◽  
Maximum Amount ◽  
Solar Panel ◽  
Angle Of Incidence ◽  
The Sun ◽  
Continuous Change ◽  
The Earth ◽  
Solar Tracker ◽  
Rotation Of The Earth

Solar Tracker The generation of power from the reduction of fossil fuels is the biggest challenge for the next half century. The idea of converting solar energy into electrical energy using photovoltaic panels holds its place in the front row compared to other renewable sources. But the continuous change in the relative angle of the sun with reference to the earth reduces the watts delivered by solar panel. Conventional solar panel, fixed with a certain angle, limits their area of exposure from the sun due to rotation of the earth. Output of the solar cells depends on the intensity of the sun and the angle of incidence. To solve this problem, an automatic solar cell is needed, where the Solar Tracker will track the motion of the sun across the sky to ensure that the maximum amount of sunlight strikes the panels throughout the day. By using Light Dependent Resistors, it will navigate the solar panel to get the best angle of exposure of light from the sun.

scholarly journals Intelligence Solar Power System with Mobile Power Analysis

2021 ◽  
pp. 95-101
Author(s):  
Balaji K ◽  
Dharshan T R ◽  
Mahendran P ◽  
Priyadharsini R
Keyword(s):  
Solar Cells ◽  
Power Output ◽  
Power Analysis ◽  
Tracking System ◽  
Maximum Amount ◽  
Solar Panel ◽  
The Sun ◽  
Energy Demands ◽  
Solar Tracking ◽  
Reducing Costs

The renewable energies, solar energy is the only energy gained its popularity and importance quickly. Through the solar tracking system, we can produce an abundant amount of energy which makes the solar panel’s workability much more efficient. Perpendicular proportionality of the solar panel with the sun rays is the reason lying behind its efficiency. Pecuniary, its installation charge is high provided cheaper options are also available. The main control circuit is based upon NodeMcu microcontroller. Programming of this device is done in the manner that the LDR sensor, in accordance with the detection of the sun rays, will provide direction to the DC Motor that in which way the solar panel is going to revolve. Through this, the solar panel is positioned in such a manner that the maximum amount of sun rays could be received. Though a hike in the efficiency of the solar panel had a handsome increase still perfection was a far-fetched goal for it. Below 40%, most of the panels still hover to operate. Consequently, peoples are compelled to purchase a number of panels in order to meet their energy demands or purchase single systems with large outputs. Availability of the solar cells types with higher efficiencies is on provided they are too costly to purchase. Ways to be accessed for increasing solar panel efficiencies are a plethora in number still one of the ways to be availed for accomplishing the said purpose while reducing costs, is tracking. Tracking helps in the wider projection of the panel to the Sun with increased power output. It could be dual or single axis tracker

scholarly journals Development of Automatic Solar Tracking System for Small Solar Energy System

2018 ◽  
Vol 7 (3.18) ◽  
pp. 11
Author(s):  
Musse Mohamud Ahmed ◽  
Mohammad Kamrul Hasan ◽  
Mohammad Shafiq
Keyword(s):  
Solar Energy ◽  
High Efficiency ◽  
Tracking System ◽  
Energy System ◽  
Maximum Energy ◽  
Solar Panel ◽  
Energy Output ◽  
Small Scale ◽  
Angular Movement ◽  
Solar Tracking

The main purpose of this paper is to present a novel idea that is based on design and development of an automatic solar tracker system that tracks the Sun's energy for maximum energy output achievement. In this paper, a novel automatic solar tracking system has been developed for small-scale solar energy system. The hardware part and programming part have been concurrently developed in order for the solar tracking system to be possible for it to operate accurately. Arduino Uno R3, Sensor Shield V4 Digital Analog Module, LDR (Light Dependent Resistor), MPU-6050 6DOF 3 Axis Gyroscope has been used for tracking the angular sun movement as shown in Fig. 1. Accelerometer, High-Efficiency Solar Panel, and Tower Pro MG90S Servo Motor have been used for the hardware part. High-level programming language has been embedded in the hardware to operate the tracking system effectively. The tracking system has shown significant improvement of energy delivery to solar panel comparing to the conventional method. All the results will be shown in the full paper. There are three contributions the research presented in this paper which are, i.e. perfect tracking system, the comparison between the static and tracking system and the development of Gyroscope angular movement system which tracks the angular movement of the sun along with another tracking system.  

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