Arduino Based Efficient Energy Storage Systems Using Solar and Wind Power

Rakib, Md Abdullah Al; Rahman, Md. Moklesur; Anik, Md Shamsul Alam; Masud, Fayez Ahmed Jahangir; Islam, Sanjib; Rahman, Md. Ashiqur; Chakraborty, Shantanu; Abbas, Fysol Ibna

doi:10.24018/ejeng.2022.7.2.2743

Cited by 2 publications

(1 citation statement)

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“…Solar Windows: Researchers are developing transparent solar panels or solar panels that can be embedded in building windows. This allows for solar energy utilization without compromising the functionality of the building [11]. 5.…”

Section: Introductionmentioning

confidence: 99%

Modeling and Design for a Sun Tracker Prototype Using Solar Cell and Arduino

Pangestu,

Santiko

2023

JMTT

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Solar cells are devices that can convert sunlight into electrical energy directly using photovoltaic technology. One of the factors that influences optimal absorption from solar cells is the installation of the solar cell surface. Installing the solar cell surface perpendicular to direct sunlight will maximize the energy produced. But in reality, most solar cell installations are still static or permanent with a fixed elevation angle so the solar cells cannot get the maximum intensity of sunlight because the sun always moves from east to west. Based on the existing problems, this prompted the author to create a prototype sun tracker to optimize solar cell absorption. This research uses experimental research methods with methods of data collection, observation, literature study, and system development from planning, needs analysis, design, testing, and results analysis. This system will work by directing the surface of the solar cell so that it is perpendicular to the direction of sunlight to Get maximum solar energy by using Arduino Uno as the main control which gets input values from the LDR sensor which is then processed and Arduino Uno will order the servo motor to move the solar cell towards the incoming sunlight. Monitoring this prototype work system uses a 16x2 LCD and also adds an IoT (Internet of Things) feature for monitoring the prototype work system remotely via smartphone.

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Section: Introductionmentioning

confidence: 99%

Modeling and Design for a Sun Tracker Prototype Using Solar Cell and Arduino

Pangestu,

Santiko

2023

JMTT

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Cost Effective Weather Monitoring Station

Rakib

Samad

Rahman

et al. 2023

EJENG

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The system suggested in this study is a cutting-edge approach for tracking meteorological conditions in a specific location and making the data available elsewhere in the globe. The Internet of Items (IoT) is the technology underlying this, and it is a sophisticated and efficient method for connecting things to the internet and linking the entire universe of things in a network. Electronic devices, sensors, and vehicle electronic equipment might all be found here. The system uses sensors to monitor and regulate ambient factors such as temperature and relative humidity, and then sends the data to a web page, where it is plotted as graphical statistics. The data updated by the established system may be accessed over the internet from any location on the planet.

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Arduino Based Efficient Energy Storage Systems Using Solar and Wind Power

Cited by 2 publications

References 0 publications

Modeling and Design for a Sun Tracker Prototype Using Solar Cell and Arduino

Modeling and Design for a Sun Tracker Prototype Using Solar Cell and Arduino

Cost Effective Weather Monitoring Station

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