Saudi solar robot cleans desert PV panels – water free | RenewEconomy

Saudi solar robot cleans desert PV panels – water free

Saudi University developed NO-water Mechanical Automated Dusting Device can clean solar panels in the desert daily, using no water at all.


A United Arab Emirates company spun out of the nation’s renewed focus on renewable energy has come up with a simple solar panel cleaner designed to clean every panel in its coverage area each day.

The NOMAD Desert Solar has released the NOMADD which stands for The NO-water Mechanical Automated Dusting Device which was developed at the King Abdullah University for Science and Technology, (KAUST) near Jeddah, Saudi Arabia.

The device has been kept simple and cost effective adding just 10c/Watt to the capital cost of a solar system to have the capacity to clean it daily.

In the past most solar systems (solar thermal and photovoltaic) have been washed by teams that drive around arrays in dedicated washing trucks armed with giant scrubbers on extension arms using significant amounts of water. Both labour and water are resources that often aren’t readily or cheaply available in locations where large solar arrays are installed. Therefore cleaning regimes have usually been on a fortnightly or monthly basis or are adapted to take into account seasonal operational and conditional requirements.

Automatic cleaners use very little water relying more on scrubbing action to get a perfect clean. Torresol’s energy’s Gemasolar plant near Seville in Spain uses the company’s smaller HECTOR robotic cleaners for its heliostat mirrors.

The difference between the NOMADD approach is that instead of cleaning during nights and aiming to clean each mirror/ panel every 7 or 14 days the NOMADD approach for North Africa and the middle east is about cleaning every panel as much as once a day, cleaning day and night, while Torresol’s approach uses a tiny bit of water the NOMADD approach uses no water at all.

For large linear photovoltaic arrays there is also the advantage that a single device can cover a very significant amount of surface area without human intervention whereas with a heliostat mirror field each mirror sub array (heliostat) measuring 70-150sq metres (or in the case of Brightsource Energy just 8square meters) needs to be individually setup with a cleaner adding a significant cost challenge to get robots from heliostat to heliostat.

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  1. James Fisher 6 years ago

    Originally an Aussie trained engineer, well done!

  2. Johnny K 6 years ago

    irobot for solar panels! 😉

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