Comparison of photovoltaic cleaning robot and other photovoltaic cleaning solutions
Currently, the photovoltaic industry has a good momentum of development, with installed capacity increasing year by year. Its power generation issue has aroused widespread concern in the industry. Everyone knows how to clean photovoltaic power plants. The following is a comparative analysis of cleaning solutions for photovoltaic power plants.
Hand-push dry cleaning device: squeeze away dust, mainly used for cleaning curtain walls, hotels, hotels, etc. Disadvantages: different operators apply different forces and pressures to the components, which will deform the components and cause the battery to crack. In addition, the dry cleaning module has low efficiency and is often contaminated by dust on the mop. Some traces remaining on the surface will obscure many shadows.
Manual cleaning of parts: Manual cleaning is a transportation method with water storage function, such as tractors with water tanks or city sprinklers. The price is similar to manual cleaning, but it requires two people to operate at the same time, one to drive, and one to spray water to clean the parts. Disadvantages: When the PV module pressure is too high, the battery will rupture. At the same time, because the higher the water pressure, the faster the cleaning speed and the higher the nozzle pressure, the better the effect. Another shortcoming is that the cleaned components are dried and water stains are formed on the surface of the components, which masks the related components.
Construction vehicle cleaning equipment: At present, construction vehicles have large power and high efficiency as carrier cleaning equipment. The cleaning operation is kept in good agreement with the pressure of the workpiece, and it will not cause uneven pressure of the parts and cause the parts to crack. There are two cleaning methods: cleaning and cleaning. Disadvantages: The cleaning of PV panels by engineering vehicles at one time can only solve the problem of cleaning photovoltaic panels. It is unrealistic to clean every day.
Photovoltaic cleaning robot: In order to effectively improve the cleaning efficiency of dust on the surface of photovoltaic modules, intelligent cleaning robots regularly and thoroughly clean the dust on the surface of the modules to improve the efficiency of power generation. The photovoltaic cleaning robot can perform regular automatic cleaning and unattended. It can be operated with a mobile phone.
Compared with traditional cleaning methods, photovoltaic cleaning robots have six advantages: self-power, energy storage, no external power supply; intelligent control, unattended, saving labor costs; water saving, cleaning, energy saving, environmental protection, and water saving; operating frequency It can be set freely and can be cleaned regularly according to the on-site environment; the cleaning is even, and the battery chip will not be broken. The robot can be used at night.