The year 2026 has been clearly designated as the “turning point year for the transition of European agricultural photovoltaic from pilot projects to large-scale industrial deployment. It is completely different from rooftop distributed power generation. Agricultural photovoltaic (especially those with high supports and large-span structures) must be cleaned because plowing, harvesting, and fertilizing generate a large amount of dust, and the rate of dust accumulation is much higher than that on ordinary rooftops. The pollution is extremely severe. In addition, agricultural photovoltaic usually has subsidies or PPA, and the power generation volume directly affects the repayment ability of the project. Moreover, crops cannot be contaminated: the cleaning water must not contain chemicals, and the water consumption and the wide areas of runoff must be controlled. Suspended cleaning robots are very suitable for the cleaning needs of agricultural photovoltaic.”
Why is it said that suspended cleaning machines are suitable for agricultural photovoltaics?
1. Completely isolated operation: Walk along the frame of the photovoltaic panels or on a dedicated track, without touching the ground, without crushing crops, and without interfering with agricultural activities. This is not “reducing impact”, but “physical isolation”.
2. Zero conflicts during the farming season: From March to September, this is the crop growth period and cleaning demand peak period for agricultural photovoltaics in Europe and southern China. The problem of competing for road rights between ground equipment and harvesters, and irrigation vehicles is avoided by hanging-mounted systems.
3. Matching equipment design lifespan with the solar power station cycle: The equipment’s designed lifespan is aligned with the 25-year cycle of the photovoltaic power station, rather than following a consumable logic.
If you are planning to equip your solar farm or other agricultural photovoltaic power stations with suspended robots, you might want to consider this particular model of robot.
The fully automated G2 cleaning robot can clean solar panels back and forth. You can choose between water washing and dry cleaning modes. The walking speed is 12-20 meters per minute. It can clean 1,640 square meters in an hour. This robot offers fast and efficient cleaning for your power station. It also supports remote control. You can directly control the robot through the web. It’s very effortless. If you are interested in this robot, please provide the on-site layout pictures, inclination angles and dimensions of your solar power station. The engineers will customize an exclusive cleaning plan for you.
Post time: Feb-14-2026