Solar projects require a power supply to operate so the power supply can be available from both renewable & nonrenewable sources. Renewable sources are air, water, and sun whereas nonrenewable sources are coal, oil, and fossil fuels. The main disadvantage of using fossil fuels is; they are very dangerous to human life while extracting, takes lots of time to produce, shortage, and have a high maintenance cost.
To overcome this disadvantage, natural power resources like solar power systems are used. These systems are designed with solar panels that trap solar energy to convert it into electrical power & store it in a battery for future purposes. The main advantage of solar systems provides higher cost efficiency, high power efficiency, and reduces electricity bills. A few of its applications are solar charges, solar bikes, solar robots, and many more. This article lists various Solar Projects using different technologies.
Solar Projects for Engineering Students
The list of solar projects using Eh, Arduino, wireless, IoT, LED, battery, microcontroller, inverter & other projects are discussed below. These projects are very helpful for beginners, diploma students, and engineering students.
Solar Projects Arduino
Arduino is a software and hardware-based microcontroller used for designing a digital application. Arduino with solar platforms provides benefits in terms of controlling power between source and load. They are used in many applications such as solar energy-based tracking systems, telemetry applications, and charge controllers. The list of solar projects using Arduino is listed below.
1). Sun Tracking Using Solar Panel and Arduinos
The aim of this project is to design a system that automatically checks for the presence of maximum solar energy. The components used in this project are solar panels to trap solar energy, an Arduino board to control different activities, and a power reader. Thus, maximum solar energy is collected and stored in the system for future use.
2). Dual Axis Type Solar Tracking System With Weather Sensor And Arduino
The aim of this project is to design a solar-based power tracking system with a dual-axis design along with a weather sensor and Arduino controller. This project gives maximum power output with a dual-axis tracker as it traps solar power in multi directions. So it is used for tracking weather reports using a weather sensor & display it on LCD. Other components used in this are the Arduino controller, servo and stepper motor, temperature, humidity, and rain sensor.
3). Telemetry Based Solar Cell Design Using An Arduino
The aim of this project is to design a smart telemetry system that operates on solar energy. The components used in this project are Arduino, solar panel, Zigbee, LCD, and x-cut software. The interface of Zigbee and Arduino communicates data using power from a solar cell, where this data is operated using x_ctu software and displayed on LCD.
4). Arduino Based Solar Type Charge Controller
The aim of this solar energy project is to design a smart charger using a solar platform by interfacing it with an Arduino controller. The main components used in this project are the Arduino board, solar panel, battery, and load. Arduino detects voltage levels from the battery and solar panel and controls the charge level whether it fully charges the battery up to 12v of the solar system.
5). Development of Dual-Axis Solar Tracking Using Arduino With Lab View
The aim of this project is to design a dual axis-based solar energy tracking system interfaced with an Arduino controller. The components used are solar panels to trap solar energy, a set of light resistors to detect maximum luminosity from the source and Arduino interfaced with Labview HMI to maximize battery output.
6). Flashlight Controlled Type Solar Powered Robot Using Arduino
The aim of this project is to design a smart robot on solar technology. The components used in this project are a robot, solar panel, Arduino, and battery. When power from a solar panel is fed to the robot Arduino controls their movements based on the sensitivity of the flashlight.
Solar Wireless Projects
Wireless technology has made many advancements in the present generation. It has removed the necessity of complex wired circuits that occupy a large area. Solar-based applications such as wireless chargers, monitoring systems, and power transfer provide an advantage in terms of cost, output efficiency, and low maintenance.
1). Wireless Type Solar Charger
The aim of this project is to design a wireless type charger using solar technology. This project is used for charging the mobile phone. Components used in this project are a 6v solar panel, battery mobile phone, and USB-based charging circuit. The advantage of this project is to provide a portable mobile charger that can be carried to any location.
2). Solar Technology-Based Water Purity Tracking System Through Wireless Type Sensor Network
The aim of this project is to design a smart water purity tracking system using wireless and solar technology. This project is designed using a wireless sensor that tracks data such as oxygen level, turbidity, and ph value using solar power supplied from solar panels, and data collected from a sensor is forwarded to a base station.
3). Solar Wireless Type Power Transfer
The aim of this project is to design a system that transmits power without using wires through solar energy. This solar energy is trapped into batteries on solar panels from the sun. Power collected is transmitted between transmitter and receiver in form of em waves.
4). Forest Flame Identifying Using Optimized Type Solar Energy Wireless Type Sensor Networks
The aim of this project is to detect any fire breakdown in the forest using solar and wireless technology. This project is designed using solar panels, Zigbee WSN (Wireless Type Sensor Network) interfaced to the microcontroller that detects and alerts authenticator wirelessly to alerting device. The advantage of this project is, it reduces dense forest damage from fire accidents.
Solar LED Projects
LED stands for light-emitting diode and it is a semiconducting type diode that operates when a small voltage is supplied to it. These voltages or power can be supplied using solar energy from solar panels that track sun energy & convert it to electrical energy. The advantage of using led with solar-based energy is less maintenance is required, easy to install, and eco-friendly. The solar projects using LED are listed below.
1). Controlling of Solar Energy Power Using LED
The aim of this project is to design a solar-based energy charger. Components used in this project are solar panels to trap solar power, battery to store power, op-amps to monitor panel and load voltage and current, LED to display green color when charged fully, red when not fully charged, and MOSFET to disconnect supply on fully charged
2). Solar Based Pv Powered Energy Efficient Led Lighting Type System
The aim of this project is to design a solar-based PV system using led. The components used in this project are a solar panel to provide power, led, and dialux 4.11 for illuminating light. The number of batteries and solar panels required in this project depends on the load used to store and generate power. This project is used for residential domestic applications & in classrooms for good lighting areas.
3). Solar Based Road Marker Using LED
Although there are many indicators on a road that works on batteries to alert drivers from a distance of speed breakers or crosswalks. The aim of this project is to design a road maker to minimize power consumption using solar technology. This project is developed using many led drivers, rechargeable cells, and solar panels.
4). Solar Powered Domestic Lighting System
The aim of this project is to design a solar-based home appliances system. Components used in this project are led light for glowing when a user requires light, a solar panel that traps the light from the sun and converts it into electrical energy. The advantage of this project is it saves wastage of excess power.
Solar Battery Projects
A battery is an electrical device that consists of 2 or more cells. They operate on 2 main terminals positive and negative. They are used for charging using an external power source and discharging purposes using load. An external power source such as solar panels is used for naturally charging batteries hence they are called solar-based batteries. Few of the solar projects using batteries are mobile charges, window charges, and many more.
1). Wind & Solar Power Based Laptop Mobile Charging Station
With a busy lifestyle, many of us forget to charge up our electronic gadgets like laptops, smartphones, and watches from time to time. In the worst situation where our gadgets battery power becomes zero in case of emergency, we require a power socket. Hence in order to over this difficulty, a portable solar and wind-based charger for electronic gadgets is designed along with an anti-theft feature.
2). Solar Based UPS Project
The aim of this project is to design a solar interfaced UPS application, which traps solar energy directly from the sun and charges a 12v dc battery where this battery in turn is connected to an ac appliance using an inverter. This inverter converts 12v dc to a max of 150 volts ac. It benefits in terms of standalone power that does not require any external power when power cut.
3). Lead-Acid Type Battery Type Regulator to Solar Based Panel Systems
The aim of this project is to design a battery that regulates power from solar power systems. Components used here are solar panels, lead-acid battery and loads such as electronic appliances.
4). Solar Window Type Charger Circuit
The aim of this project is to design a window charger that powers up using solar energy. Here the components used are a window charger, Li (lithium) battery, and solar panels. The window charger is mounted on the window glass where there is solar energy available so that the interface solar panels trap solar energy and charges the battery. USB used here is connected to a battery to charge up.
5). Battery Charger For Wind And Solar Energy Conversion System Using Buck Converter
The aim of this project is to design a battery that charges both solar and wind energy conversion equipment. The components used here are buck converter, solar panel, wind blades, and their power systems.
6). Solar Lipoly Type Charger
The aim of this project is to charge lithium polymer batteries with solar technology. Here the solar energy trapped from the sun is collected using solar pannel of 5v to 6v. This collected power is used for charging batteries such as lithium polymer batteries. These batteries have weight as the critical feature which is employed in applications such as mobile phones, e-vehicles, and radio-controlled type aircraft.
7). DIY Solar Boost Converter Using Mppt Type Charge Controller Circuit
The aim of this project is to design a DIY solar-based boost converter. Components used in this project are voltage limiters, boost converter, solar panels, and MPPT charge controller. The voltage limiter and boost converter used here charges a battery of 12v using a 6v solar-based panel.
8). Solar Chargers for Handbag
The aim of this project is to design a solar-based charger attached to users’ handbags. The components used are a portable solar panel, handbag, USB wire. The advantage of using this project is a user can charge their smartwatches, i-pods, and mobile phones whenever required.
9). Solar Battery Charging for Indicator
The aim of this project is to design a circuit that shows the charging percentage of a solar-based batter. The advantage of this project is, it can alert the user when power is fully charged or no charge at all.
10). FPGA Based Battery Energy Storage System Using Solar Cells
The aim of this project is to design a battery used in FPGA (field-programmable gate array ) with a solar platform. They trap solar energy using observation and perturbation methods to obtain maximum power.
11). Solar Base Lantern
The aim of this project is to design a lantern lamp that charges using solar energy. This project is designed using a NiMH-type battery covered with lanterns, solar panels, and led. Here solar energy from the sun is utilized by later that in turn charges NiMH battery up to 1watt. This is used to power up the LED light. They are used for decoration, and lighting purposes.
12). Effective Battery Charging System using Solar Energy, Microcontroller and C Programming
The aim of this project is to design an effective battery using solar technology. The battery is charged from solar panels’ collected energy and further this battery acts as a regulator that regulates power flow between load-driving electrical appliances and storage battery.
13). Design of Simple Solar Charger Circuit for Mobile Phones
The aim of this project is to design a mobile phone charger that charges its battery using solar energy. This project is designed with basic components such as mobile phone battery, and solar panels.
14). Solar Powered Fans
The aim of this project is to design a solar-based power fan. Here, a fan is operated using a normal battery that is operated through solar energy. The advantage of this project is eco-friendly. Solar fans are used for heating and cooling purpose in industrial fields.
15). Developing Solar-based Charger Circuit
The aim of this solar project is to design a battery that charges using solar energy from a solar panel. The function of this charger is to regulate the current and voltage to battery and disconnect automatically at high voltage conditions. This project is implemented using a 1.3 amph 12volts lead-acid battery, solar panel. These chargers are used in applications to charge a battery with a standard voltage variant.
Solar Microcontroller Projects
Microcontrollers are the main components of any electronic circuit. They are used for regulating power or voltage flow within the circuit. A microcontroller used with solar technology provides lots of benefits in terms of power saving, power regulating, turning of battery or power systems automatically when charged fully, or alerting the user when battery or power charging systems are zero charges or fully charged.
1). Rotating Solar Inverter Project using Microcontroller 50w
An inverter is an electrical device that converts direct current into ac current. They have mainly been used as backup power supply like an alternative for power resources at house or office electrical appliances when there is a power cut. The aim of this project is to design an inverter that uses solar energy to charge up. Components used in this are atmega 328 microcontrollers, dc typer inverter, MOSFET switch, charger, and solar panel.
2). Vertical Axis Type Wind Turbine With Inverter
The aim of this project is to design a solar-based wind turbine designed in a vertical position and interfaced with an inverter. This project is designed using atmega 328, microcontroller, LCD, MOSFET, dc motor, inverter, and windmill. Here windmill generates mechanical energy using blades and converts to electrical energy charges power cell up to 12v using dynamo and displays the readings in LCD.
3). Smart Solar Grass Cutter With Lawn Coverage
The aim of this project is to design a smart robot that cuts the grass on the lawn operating at a higher speed using a solar platform. This robot is featured to operate on solar energy and cover the entire lawn. The components used are robots, solar panels, an ultrasonic-based sensor for detecting corners and zigzag movement, a dc motor, and a microcontroller. The advantage of this project is it reduces human powers, saves time and cost.
4). Light Tracking Using Solar Panels Interface with Atmega8 Controller
The need for renewable resources plays an important role in modernization. The aim of this project is to automatically align solar-type panels along the direction of solar max light intensity. This project is designed using LDR (light-dependent resistors) interfaced with an avr-atmega controller & solar.
Solar Inverter Projects
An inverter is a device that acts as a power storage device. Solar power systems along with inverters are used for converting direct current (dc) into alternative current (ac). Few of the applications include domestic usage, power systems, and industries. The advantage of embedding an inverter with solar technology is it provides maximum output power, efficient grid assistant, and an increase in power production.
1). Solar Inverter Using Sg3525
The aim of this project is to design an inverter using solar energy. Components used in this project are sg3525 is pulse width type controller whose function is to control the duty cycle and voltage output of the circuit. They are used for batteries that charge up to 7.2ah.
2). Portable Solar Power Inverter
The aim of this project is to design an inverter using solar technology. This project converts the 12 volts dc current present in the solar storage battery to 230 volts ac current. The advantage of using this is, it reduces the wastage of power and illuminates continuously.
3). Quasi-Z-Source Solar Inverter Fed Bldc Drive
Various renewable type energy sources such as (PV) photovoltaic, fuel cell, biomass, and farms are used in many applications such as microgrid. The aim of this project is to design an AI-based solution to integrate and provides maximum output power from PV-type power generating systems in a standalone-based operation. Components used are solar panel, quasi Z-source type inverter, dc motor, pic controller, and mppt controller.
4). Solar Based Inverter For Domestic Appliances
Solar type inverter is similar to an electric inverter, but the main difference between these two is; electric inverter works on electric power using batteries, whereas a solar inverter works on using energy directly from the sun. The aim of this project is to provide input to the solar inverter directly from the sun and convert it into electrical current to operate domestic appliances such as tv, ac, and lights.
Solar IoT (Internet of Things) Projects
IoT stands for the internet of things, is a platform that connects multiple devices, software, sensors, and other electronic appliances over the internet wirelessly. Solar-based IoT projects help in driving the load sources without any human observation and aid users in tracking data online over the cloud platform. Few of the applications are live data tracker systems and dual management systems.
1). Solar Tracker For Live Data Feed Through Windows IoT
The aim of this project is to design a smart live data tracker system using solar technology. This project is developed using a windows computer, raspberry pi-2, a solar panel, and batteries. Live data with solar technology is operated using windows based IoT running on raspberry pi version 2.
2). Solar Panel Dual Management Type System
The aim of this project is to design a smart maintenance system using solar technology. This project mainly focuses on minimizing the accumulation of dust formation on solar panels and monitors from panels being theft. The advantage of this project is it minimizes maintenance costs and labor work.
Solar-based technology is used in various other platforms such as in surveillance for detecting suspicious events, robots for reducing humans work, water heaters for minimizing power consumption, and robotics-based vehicles that auto drives the user to the destination, and many more other solar projects. The following section describes various solar projects.
1). Self Charging Solar Power System for Surveillance Drone
Drones are air robots, used in areas such as security surveillance, agriculture, and military areas which do not require human presence. They broadcast and allows users from remote to observe live data over the internet. The aim of this project is to design a self-charging drone system using solar energy, that operates for a longer time.
2). Solar Technology For Design Of Vacuum Cleaner & Floor Cleaner Robot
The aim of this project is to design a robot that automatically cleans the floor. This project is designed to interfacing robots and solar panels, where the robot operates using solar energy from the sun. The features of this project are cleaning instantly, being used for both dry and wet floors, and reduces humans effort. Applications of this project are terraces, campuses, and restaurants.
3). Mini 20 Liter Solar Based Water Heater for Rooftop
With the advancement in heaters technology, many of them use the electric heater at home that runs on a power supply from batteries or direct sockets. But the disadvantage is they consume heavy power. Unlike traditional water heaters which work on coils but consume more time. The aim of this project is to design a traditional water heater that can heat up to 2000watts using solar energy in small time.
4). Tidal Energy Sea Wave Based Power Generator With Solar Energy
Along with solar energy, there is another important renewal energy that can be used for the generation of electricity, which is a water source. The aim of this project is to design an electricity or power generator using wind, solar, and sea waves as resources. The advantage of this project is it does not require to depend on all the 3 resources, works with higher efficiency, and is suitable in all climatic conditions.
5). Solar Sea Water Desalination Machine Using Ro Uv Purifier
About 3% of the earth has freshwater, where and other 2/3 percent is present in frozen format. Many people lack to access fresher water. The aim of this project is to design a solar-based seawater desalination type machine with a ro-UV purifier that purifies seawater in 3 filtration stages. The advantage is it provides fresh water desalination, is portable, sterilizes viruses, and is easy to maintain.
6). Floating Type Sun Tracker Using Hydraulic Solar Panel
Solar panels used for tracking solar energy occupy a large amount of space on rooftops and are very difficult to maintain their position. The aim of this project is to design a solar panel that can be installed on water bodies to trap solar energy from the sun along with a panel motion system that directs itself automatically in the direction of the sun. The advantage is that they don’t occupy land areas.
7). Solar Powered Water Trash Collector With Atmega328
A maximum percentage of water bodies are being polluted due to many reasons, to clean them requires lots of labor work, time, and cost. The aim of this project is to design a solar-based water wasted collector on the surface of seas, oceans, and ponds. This project is designed using dc pumps, servo motors, solar panels, wire-gauge, and atmega 328 controllers.
8). Solar Outdoor Air Purifier Using Air Quality Monitor
Air is getting polluted due to the usage of electrical appliances like chimneys, e-bikes and due to other reasons such as vehicles, industries, etc. The aim of this project is to design an air purifier using solar technology for outdoor-based air purification. This project is implemented with a heavy-duty type suction fan, carbon filters, and HEPA for removing pollutants and gases.
9). Design and Manufacturing of Solar Powered Seed Sprayer Machine
The aim of this project is to design a solar-based seed spraying drone that automatically sprays seeds into the soil using a blower or fan. Components used are solar panels to run the blower, hopper, and battery. The advantage of using this project is it reduces time, manpower and protects from skin diseases.
10). RF Controlled Based Solar Panel Based Robotic Vehicle
The aim of this project is to design a robot using solar technology. This robot is used for tracking living things’ movements mainly for surveillance applications. The components in this project are a 360-degree camera, a solar panel to charge, atmega 328 controllers to control the robot’s action. The advantage of this project is it replaces human power in the surveillance field.
11). Face Recognition Technology for Auto Door Latch System Using Raspberry Pi
With the development in technology, security systems in surveillance, fields have also improved from passwords, swipes, fingerprints to face recognition. The aim of this project is to design a door system that allows authenticated users into the room with valid biometric access of using the face recognition feature.
12). SCR Based Solid State Switch Solar Charge Control
The aim of this project is to design an SCR charger using solar technology. These switches are mainly used in dc-based applications that latch, switch, and reverses the polarity of diodes such as reverse type blocking thermistors. The advantage of this project is it is a standalone power device that operates with greater efficiency.
13). Off-Grid Type Solar System
The aim of this project is to design an off-grid type solar power system. The components used are batteries, solar panels, and off-grid. Off-grid-based solar power systems trap solar energy conserve and utilize the max amount of stored power during nighttime. The advantage of using this project is it provides power for critical loads and self-starting property. They are used in rural and remote area’s power supply systems.
14). Solar Radio Systems
The aim of this project is to design a solar-based radio system. This project helps users where there is a shortage of power supply. They provide an advantage in terms of cost, do not require any external input plugins, and replaces the usage of batteries.
15). Nano Solar Based Pv System
Photovoltaic or PV systems are photosensors used for generating electrical power. The aim of this project is to design a PV cell using solar based nanotechnology power system. Due to heavy usage of equipment & costly power generating system, this project focuses on minimizing cost and are using nanotechnology.
16). Design of Dust Removal System for Solar Photo Voltaic Cell
Due to various internal and external factors, solar power systems might get damage. One of the main causes is dust accumulation in these panels. The aim of this project is to design a solar-based photovoltaic cell cleaning systems that automatically cleans dust on its panels. The advantage of using this project is it minimizes power consumption, maintenance cost and works more efficiently.
17). Soil Erosion Prevention Using Sustainable Type Phytoremediation Process Through Fertilisation System And Solar Irrigation System
For any farmland to produce the maximum amount of crops, it is necessary for the soil to be fertile. But due to heavy rains, the fertility of soil gets washed away leading to soil erosion. The aim of this project is to design solar-based systems that prevent soil erosion using the phytoremediation process via fertilization and solar irrigation system.
18). Electric Based Energy Management Using Solar Cell
Solar power systems are charged only during the daytime if the sun is available. But at night or other seasons like rainy or non-sunny days, it would become difficult to trap solar energy. Hence, the aim of this project is to design solar energy management systems that maintain solar power system sustainability to supply power to electrical type load and to energy perspective.
19). Electricity Generation in Villages using Renewable Solar Energy
Electric power in rural areas where there is a shortage of power can be overcome by designing a smart electric power system based on solar energy. The advantage of this project is, it minimizes cost and power consumption
20). Accumulating Thermal Type Energy from Solar Collectors for The Needs of a Detached House
The aim of this project is to design a smart power system using solar energy for meeting a basic domestic needs of a house such as hot water and electricity. These solar projects are employed in village areas to provide advantages in terms of free electricity generation and low power consumption.
21). Design of Energy Efficient Based Power System
The aim of this project is to design a power system that generates electricity using photovoltaic cells and a dual-axis solar panel system. This project benefits in terms of cost save energy and operate for a long time.
22). Parabolic Shaped Solar Oven
The aim of this project is to design a solar oven that is in the shape of a parabola. This project is designed using aluminum foil shaped in parabolic, plywood, solar energy, and steel containers with food items to be cooked. The parabolic-shaped solar oven cooks up to 50 minutes for 3 members and boils the water of 1 liter for up to 20 minutes.
23). Programmed Smart Solar Oven
The aim of this project is to design a smart oven using solar and programming technology. This project is designed in such a way that the oven in a parabolic shape is programmed to automatically turns its self in direction of max sunlight while cooking and comes back to normal once completely cooked.
24). Solar Technology-Based Lawn Mower
A lawnmower is a device used for clearing the extra grass in the lawn. The aim of this project is to design an electrical lawn mower that operates on solar energy. This project is employed with components such as solar panels, lawn movers, blades, and connecting wires.
25). Solar Based Cockroach Shaped Virbobot
The aim of this simple project is to design a vibrator in the shape of a cockroach using solar technology. Components used in this project are solar energy, solar panels, wires, solar battery, and vibrators.
26). Solar Based Night Light
The aim of this project is to design a smart light that automatically turns on during nighttime and stores electricity in its power system during day time. This project is designed using light, solar energy, solar panels, and battery. Lights in this project automatically turn off during the daytime. Thus saves extra wastage of electric power and works efficiently.
27). Solar Car
The aim of this project is to design a toy car that works on power using solar technology. This project is designed using toy car accessories like wheels, rods, fan, transformer, wires, battery, and solar panels. Once all the components are embedded and placed under the sun the solar energy gets trapped on a solar panel, stores in a battery, and operates the car in a forward direction.
28). Solar Based Bug using Capacitors
The aim of this project is to design a toy bug that blinks its eyes using led bulbs. Components used in this project are led bulbs, wires, touch conductive type wire, solar panels, capacitors. Here the charge collected from the sun is stored using capacitors. Once capacitors charge, meeting the 2 ends of touch conductive wire allows the bulbs connected to the circuit to blink.
29). Solar Based Roller
The aim of this project is to design a fun roller that rolls when charged using solar energy. Components used in this project are rollers, wires, capacitors, solar panels, and fans. Here the solar energy is stored using capacitors, once they are fully charged they allow the rollers to move in a forward direction slowly discharging the power and stop once discharge completely.
30). Design of Solar Based Smart Energy Meter
The aim of this solar project is to design a smart energy meter that measures the quantity of energy generated by the solar panels. Here the meter operates in 2 conditions that are when the battery is fully charged it disconnects itself from the AC supply and if it’s not fully charged it connects and draws the AC supply automatically.
Features of Solar Power Systems
The features provided by the solar power system are described below.
- Less maintenance
- Low power consumption
- Long service
- Easy to install
- Solar batteries provide higher efficiency
Advantages of Solar Power Systems
The advantage of solar power systems includes the following.
- Electricity independent
- Provides stable output
- Eco friendly
- Servers for a long duration.
Disadvantages of Solar Power Systems
The disadvantage of solar power systems includes the following.
- High initial cost
- Depends on the weather condition
- Occupies a large area
- Damages with pollutions.
Application of Solar Power System
Some of the application fields of solar power systems mainly include the following.
- Malls, hospitals, schools
- Commercial complexes
Few of the other Solar Projects Ideas
List of other solar projects include
- Docking System Based Solar Project
- Beacon Based Projects on Solar Power System
- Solar Paint
- Solar Tents
- Design of path to provide for Solar Based Bike
- Floating Based Solar Farm
- Airport Powered Solar System
- Chernobyl Based Solar Plant
- Sungrow Based Solar Farm
- Solar Based Impulse
- Train Based Tunnel Powered through Solar in Belgium
This article covers a list of solar projects using different technologies such as Arduino, wireless communication, battery technology, LED, IoT, microcontroller, and inverter. If you have any queries regarding solar-based projects please comment below.