5 Must-Have Features in a solar panel mounting robot

As solar energy becomes increasingly popular, keeping your solar panels clean is crucial for maintaining efficiency. That’s where solar panel cleaning robots come in handy. Imagine an automated device programmed as per your requirements that will automatically clean your panels without any human intervention.

View Details

These robotic devices are a game changer in the field of dry cleaning your panels, making it easier than ever to keep your photovoltaic panels in top condition without the hassle of manual cleaning.

These robots are revolutionizing solar cleaning with features like AI and remote control.

In addition, you will be amazed to know that the solar panel cleaning robot market was valued at over $621.5 million in and is expected to grow at a CAGR of 11.5% from to (source).

The market is driven by increasing demand for solar energy, especially in developing countries, and the Asia Pacific region specifically China and India are expected to dominate the market. These statistics show how fast this segment is making way for itself.

In this article, we’ll explore the best 10 solar panel cleaning robots for . You’ll learn about the latest advancements in intelligent control and modular design that make these devices so effective. 

Whether you’re looking for a portable option or a certified model, we’ve got you covered with detailed reviews and comparisons to help you find the best robot cleaner for your solar panels. Let us welcome you to the virtual world of robotic cleaning.

Top 10 Picks of Robot Cleaner For

Ecoppia

The world’s leader in robotic solar panel cleaning Ecoppia’s robots are engineered specifically for large-scale solar farms where manual cleaning is both impractical and expensive. These robots are designed for waterless cleaning.

It combines a soft microfiber and a combination of regulated airflow to eliminate dust. As the company claimed one year of Ecoppia dry cleaning saves water for more than 2 lac people for one year.

Ecoppia’s robots operate autonomously and are powered by advanced AI that enables them to clean solar panels without human intervention. The AI algorithms integrated into the system allow for real-time monitoring and adjustments, ensuring that each panel is cleaned thoroughly and efficiently. Additionally, these robots are equipped with solar-powered batteries, making them energy-independent and reducing operational costs.

Ecoppia’s robots are made from high-quality, weather-resistant materials. These materials include lightweight, corrosion-resistant alloys, and high-grade plastics designed to face extreme temperatures and UV radiation.

Having the first movers’ advantage Ecoppia has 50+ patents grants and has a market in 4 continents with 35+ large-scale sites.

SKILANCER SOLAR

This innovative Indian startup is an idea of IIT Jodhpur alumni. Skilancer Solar is designed for both water-based and waterless cleaning. These robots are providing services for not only large-scale solar farms but also rooftop solar. The water-based systems are particularly effective in regions with heavy dust, while the waterless options are ideal for areas with water scarcity.

These solar are specially programmed in integrating IoT technology allowing for real-time monitoring and control. This allows the robots to be controlled remotely via a centralized platform.

The robots feature corrosion-resistant alloys and durable plastics that can endure constant exposure to sunlight. The brushes and other cleaning components are made from soft but effective materials that ensure thorough cleaning without damaging the solar panels.

Know More: How Often You Should Clean Your Solar Panels

SolarCleano

The F1 by SolarCleano offers an adaptable and efficient cleaning solution. Its ability to clean both wet and dry solar panels. its high-speed operation is capable of cleaning up to 1,600 square meters per hour. 

The robot can be disassembled into four parts, making it easy to transport and reassemble at different sites. It comes with a camera and screen which makes it very convenient to control from a distance.

Its high-end caterpillar tracks ensure it maintains grip and stability across various surfaces, including floating solar panels, which are becoming increasingly popular in India.

Sunpure

Sunpure has established itself as a leader in the solar panel cleaning industry. Offering durable, efficient, and technologically advanced cleaning systems, at the same time specialization in automated solutions for both ground-mounted and rooftop solar panels makes them a versatile choice for solar installations worldwide.

With more than 200 registered patents and 14+ countries presence Sunpure is a to-be leading robotic company. Sunpure integrates cutting-edge technology into their solar cleaning systems, like lightweight design, windproof, UV-modified PBT brush filament, smart obstacle crossing, and twistable body.

SolaBot

Another Indian startup, SolaBot making waves in the industry with waterless, automated solar cleaning solutions. Their robots are designed to operate in extreme weather conditions, making them suitable for a variety of environments. 

Having a presence in 11 states of India SolaBot is also planning to expand internationally in the Middle East and American markets.

SolaBot designed their robots specifically for dry cleaning with long resilience in hazardous circumstances. They have many variants like SB-01, SB-03, and SB-04T which require very less to neglectable men’s power, automatic tracker, self-charging, fast response, and real-time monitoring.

Read More: How To Clean Solar Panels Without Water

Airtouch

An advanced linear, water-free robotic solar panel cleaner with wind-blowing technology can clean up to meters on a single charge. 

The robots are designed to operate on a predefined schedule, ensuring that the panels remain clean at all times. They utilize advanced algorithms to optimize the cleaning process, minimizing the time required to clean each panel.

The durability of these robots is a key selling point, as it ensures that they can operate effectively over long periods without frequent repairs or replacements. The robots are equipped with advanced sensors and AI-driven software that allow them to navigate solar farms independently. 

With a 58% sales growth rate, Airtouch is definitely in the industry to disrupt. The company’s main production unit is in India, which makes it more adaptive for the Indian market.

Jetsons Robotics

Manual cleaning with water is not a sustainable process with this tagline Jetsons Robotics provides autonomous waterless cleaning. This is specifically designed for commercial solar rooftops.

Jetsons Robotics stands out for its capacity to handle extensive solar installations, making it an ideal choice for utility-scale projects. Their robots are equipped with sophisticated navigation systems, enabling them to clean panels efficiently without human intervention.

The robots are equipped with advanced sensors, AI algorithms, and IoT connectivity. Jetsons is well positioned in the Indian market size of robotic solar cleaning.

NOMADD Solar Cleaning System

The NOMADD (NO Water Mechanical Automated Dusting Device) cleaning method is quite similar to the Ecopia system. The main distinction is the sort of brush used on the panel’s surface. Specially designed for the desert area, the NOMADD system does not contain many motors. 

It usually contains only two motors which are used to run the brush horizontally. NOMADD is unmatched at scale because of its patented “Cleaning Angle” technology. The system’s distinctive “pivoting brush endpoints” provide many major advantages.

The machine can float over misaligned tracks by automatically adjusting the angle. NOMADD has a strong presence in the Middle East, North Africa, and parts of Asia.

Greenlap Robotics

Another Indian startup by IIT Delhi alumni Greenlap Robotics provides advanced robotic solar panel cleaning solutions. It is particularly adept at handling large-scale solar installations, including utility-scale solar farms, where the sheer number of panels makes manual cleaning impractical.

If you are looking for more details, kindly visit Trinabot.

Their robots are engineered to operate in various environmental conditions, making them suitable for a wide range of geographical locations. The cleaning robot’s 39 kg weight is spread evenly thanks to its sturdy and broad TPU wheels. It runs on a solar panel frame. 

These robots can be monitored and controlled from anywhere on any device via a web dashboard. Greenlap Robotics has a presence in 7 states across the country.

Aegeus Technologies

A 100% Made in India company specializes in developing autonomous and semi-autonomous robotic systems designed to clean solar panels effectively and efficiently. One of the key specializations of Aegeus Technologies is its ability to offer customized solutions for different types of solar installations. 

The company is also known for integrating cutting-edge AI and machine learning algorithms into its robotic systems. Robots are often made of high-quality aluminium alloys and robust plastics that can face the challenges of outdoor operation. The cleaning mechanisms are non-abrasive, guaranteeing that the solar panels are completely cleaned. 

Innovative Features in Modern Solar Panel Cleaning Robots

Modern solar panel cleaning robots are transforming how we maintain and improve solar energy installations. These revolutionary gadgets include sophisticated features that make them efficient, cost-effective, and environmentally beneficial. Let’s look at some of the cutting-edge technologies that are influencing the future of solar panel maintenance.

• AI and Machine Learning Capabilities
• Advanced Sensors and Obstacle Detection

To navigate safely and efficiently, modern cleaning robots are equipped with a suite of advanced sensors. These include:

• LiDAR
• Cameras
• Ultrasonic sensors
• IR sensors
• Water Conservation Technologies
  • Dry cleaning
  • Wet cleaning
  • De-ionized water cleaning
• Integration with Solar Farm Management Systems
• Self-Diagnostic and Reporting Features
  • Data collection on energy output before and after cleaning
  • Monitoring of environmental conditions
  • Performance analysis of the cleaning process

Some Key Things To Consider When Choosing A Solar Robot Cleaner

1. Cleaning speed and coverage area: Fast cleaning speed and wide coverage areas are essential to minimize downtime and ensure efficient cleaning of large solar arrays. If your requirements are not met, then you should avoid purchasing robot cleaners.

2. Cleaning effectiveness (percentage of dirt removed): Another key point for your checklist is ensuring high cleaning effectiveness so that most of the dirt is removed, allowing solar panels to operate at their maximum efficiency.

3.  Water usage (if applicable): If you are purposefully looking for a dry cleaning method then you must consider this. Water-efficient systems reduce operational costs and environmental impact, especially important in regions where water is scarce or expensive.

4.  Energy consumption: Low energy consumption minimizes operational costs and ensures that the energy gains from cleaning exceed the energy used by the robotic system. Always invest in those which give your money a higher value.

5. Durability and Lifespan: A durable system with a long lifespan provides better value for money, reducing the need for frequent replacements and ensuring consistent operation over time. It can minimize your fixed cost for the entire setup.

6. Materials used in construction: High-quality materials improve durability and resistance to environmental factors, leading to fewer breakdowns and a longer operational life. You have to check for those that are sustainable for disposal.

7. Weather resistance: Weather-resistant systems can operate reliably in various conditions, reducing the risk of damage and ensuring continuous operation throughout the year.

8. Warranty and support offered by the manufacturer: A good warranty and strong customer support protect your investment and ensure that any issues are resolved quickly, minimizing downtime and unexpected costs. So always do your research before investing your money in robot cleaners.

9. Maintenance requirements: Systems with low maintenance needs are more cost-effective and convenient, requiring less frequent attention and fewer replacement parts, reducing overall operational costs and time as well.

10. Ease of Deployment and Operation: Easy deployment and operation reduce setup time and labour costs, making the system more user-friendly and accessible for a wider range of personnel, which is important for large-scale operations.

The user-friendliness of a solar panel cleaning robot can significantly impact its overall value. Look for robots that offer:

• Simple installation processes
• Intuitive control interfaces
• Remote operation capabilities
• Integration with existing solar farm management systems
• Compatibility with Different Panel Types
• Various panel sizes and orientations
• Cost-effectiveness and ROI

Conclusion

Solar panel cleaning robots have transformed photovoltaic system maintenance, providing a unique combination of efficiency and creativity. These devices increase energy output and reduce water use and labour expenses. 

As technology advances, we should expect even more innovative features in future cleaning robots. The top ten recommendations for represent the current state of the art, with alternatives to meet various demands and budgets. By selecting the appropriate robot for your setup, you can keep your solar panels clean and productive while increasing your return on investment in clean energy.

Does your solar-powered industrial engineering plant require a good mounting system? When you choose this energy solution, you’re choosing a cost-effective option that will provide excellent energy outputs for your engineering projects.

Top engineering and efficient installation are difficult to find, but this shouldn’t deter you from looking for the best mounting systems for your industrial plant project – all it requires is a bit of knowledge about the best systems that are available.

Some excellent news is that you’ll discover the top five mounting systems for solar-powered industrial plants right here, in this article. Take a look and find out the best energy solutions available.

Mounting structure: What are they and how do they work best?

Solar panel systems feature mounting structures which are a critical part of plants that are solar powered (one example is the ground mount). Such mounting structures provide support to modules and you can install them to make sure the panels of the system are raised, which maximizes the solar irradiation exposure.

Mounting and racking: What do these terms mean for solar mounting system construction?

Whereas mounting involves fixing panels for solar panel systems onto the ground or a rooftop, racking is best described as a kind of mount. 

What does racking and mounting do in solar mounting systems?

If you want to retrofit a system, racking facilitates this process. It also ensures that sufficient support goes to the solar array. Retrofitting is also facilitated by mounting systems – they make it very easy to provide your industrial plant with energy.

Photovoltaic type solar mounting systems: What are they?

Referred to as PV systems, modules, or PV panels, a photovoltaic type mounting system is a kind of racking. Engineers use PV systems for power plants that run on solar energy.

These units are made of specific cells that generate a current – the current is produced when sunlight reaches the cells.

You’ll find that PV panels produce powerful electric fields in places where the exposure to the sun is greatest and the sunlight is strongest.

Which main materials can you use to create module structures?

Some of the main materials that you can use to create module structures are aluminum, mild steel, and iron that has been hot-dip galvanized. The galvanization process introduces an extra material, which is either zinc or nickel, which works to protect the steel from corrosion.

5 key examples of solar mounts you can choose 

You’ve got five different solar mounts to choose from for your industrial solar-powered plant, which includes ground-mount systems, sloped-roof systems, flat-roof systems, pole mounts, and solar carports. Read the sections below to find out more about these examples of solar mounts.

Ground-mount solar panels: What are they and how do you install them?

Ground-mount solar panels are a type of system for solar panels that installers can mount to the ground. They require sufficient open space and a significant amount of sun exposure to send power to your solar-powered industrial plant.

Sloped-roof solar panels: What are they?

Sloped-roof solar panels are a kind of system that installers can place onto sloped roofs. You can place them at angles, but correct installation requires you to use a penetration or anchoring method.

Flat-roof solar panels: What are they?

You install flat roof solar panels on flat roofs. The angle tolerance is 30 degrees, which bracket components facilitate. The brackets support the mounting systems.

Pole-mount panels: How do you install them and what benefits do they provide?

Engineers can install pole-mount panels by utilizing a pole and putting it into concrete-filled holes. A top advantage of this setup is the solar trackers, which can sense and track the direction of where the sunlight is strongest. Although manual adjustment is possible, solar trackers will tilt modules toward the direction of the sun.

As the modules receive more sunlight, a pole-mount system with a tracker will give your plant more energy.

Keep in mind that some of these systems will require more maintenance.

Carport solar panels: What are they?

Engineers install carport solar panels above parking lots. This solar panel setup is mounted to the ground and can be oriented to the perfect angle. This arrangement means the panels get excellent sunlight exposure.

It doesn’t matter if your needs are industrial, residential, or commercial, you can ask your manufacturer to install custom-made carports. 

Which roof-mounted panel components should you be aware of?

There are a few essential roof-mounted panel components you should be aware of, including roof attachments, clamps, and rails.

How are roof attachments installed?

Engineers affix roof attachments to the roof’s structure. Several roof attachments are available, so you may need to choose the suitable option according to the roof type you have. For example, with shingle roofs, engineers fix roof attachments to beams to bear the load.

How are mounting rails installed?

Engineers install mounting rails using roof clamps. A mounting rail can remain secure with brackets as well, and engineers put the solar panels over the rails to secure them in place.

What are clamps used for?

Engineers affix roof attachments to rails with clamps, so you can think of clamps as the glue that holds these components together. They can then add the panels to affixed rails.

Utility-scale: What does this mean in relation to solar panels?

If solar facilities generate power and send that power to grids to provide energy to utilities, they are known as utility-scale setups. These setups are substantial in terms of the power they provide.

Find the right solar panel and mounting systems for your grid

Fast installation and cost-effective solutions for mounting system installations are easier to find than you may think. Completing your project doesn’t have to be impossible

You can get the best mounting system components for your project from the leading engineering product provider in Canada. Find out more at Pro Support Solutions: We’re waiting to give you the facts you require.

For more solar panel mounting robotinformation, please contact us. We will provide professional answers.