For any country with 1.4 billion peoples water is a rare commodity, and maneuvering with it for energy consumption is a big concern. The creation of solar and wind generating device are very much significant as they will not only constraint air pollution but also cultivate the use of limited water than a thermal generation.
This means at the initial level many of the solar devices use some water.
The cleaners face a big challenge while cleaning solar devices especially in dull and dry regions where water is rare, and especially water that is ideal for using on photovoltaic devices. Cleaning solar modules will increase the life span of the device. It will increase the efficiency of the device as well.
Calling for the necessity of solar cleaning increases to clean the surface from the bird droppings, dust, or any other particulate components that lead to reductions in energy consumption. Apart from manual cleaning, recently many new technologies of Robotic Cleaning Of Solar Panel have been deducing to the market offering an efficient method to cleaning the solar panels. The most common features of Robotic Cleaning Of Solar Panel encompasses are:-
- module cleaning robots,
- driving robots, and
- AI-enabled robots.
After the registration in the robotic cleaning market of latest technologies the senior management official Mr. Aayushman Goyal, & a product developer of Ganges Internationale said that – “The present-day technologies incorporate with trolleys that can expedite easily between two rows in a plant, which will bring down the CAPEX (capital expenditure) outstandingly. Including the thermal imaging cameras with Robotic Cleaning Of Solar Panel is another new technology that will shape the future, as it gives plant owners the capability to determine and fix any hive that may arise on their modules.”
The acceptance of Robotic Cleaning Of Solar Panel is steadily clinching, whereas it became reasonable at the time of project sizes increase. Remember that – if the size of the project is big enough then more labor has to introduce which means it increases the cost of utility-scale developers and solar park operators to opt for automated cleaning solutions.
As the demand for the robotic solution increases many domestic and start-up companies providing the service are withdrawing the attraction of many businesses, encouraging them in funding. Similarly in India, one of the Noida-based domestic clean-tech start-up company i.e., Skilancer Solar received funding from Venture Catalysts. This domestic company is well known for offering a robotic cleaning system that is capable of cleaning the photovoltaic modules without the use of water and manual intervention. Based on the survey by Mercom India Research, significant developers like SB Energy, Spring Energy, and so on have installed the robotic cleaning system on their projects
Depending on the economical character of robotic cleaning many topmost businessmen do admit that Robotic Cleaning Of Solar Panel eradicates three major components of cost which resulted in ROI i.e., the water cost, manpower cost, and higher electricity generation due to daily cleaning. Adding this up will increase, the ROI by nearly 15-20% from robotic solar panel cleaning.
At every cycle of a single panel generally 2 ltrs. water is required for cleaning, whereas in a 1 MW plant 3200 panels are there. Currently, if we are going to calculate every cycle of cleaning, then nearly 6,400 ltrs of water is required. Hence by the means of a robotic cleaning system, 12,800ltrs of water is saved per month. So, in this case of 1 MW installation, the developer can save nearly up to $9778.55.
Robotic cleaning required capital investments, while most of the developers are strapped. Now a question will arise in your mind that will it be fruitful for long-term investment in this technology? For most countries like India, it’s all about cost.
Robotic Cleaning of Solar Panel is the most advanced & best method available. No one will ever be going to refuse that the amount of installation of the robotic cleaning for the solar panel will be more than the conventional cleaning. Whereas if you look out on bigger plants that are kept to operate for 25years, if their tariff is reduced, it will lead to less ROI for the solar power project owner. Whereas on the other hand two ancillary costs are introduced in the traditional method, one is the labor cost and the second is the water cost. By using this robotic system, the plant owners will not only save the labor and water charges but also been benefited from the higher generation of electricity.