PVH awarded Solar Tracker contract for 300 MW Project in Saudi Arabia

PVH, Spain announced in a statement that it has awarded Solar Tracker supply contract for the 300 MW PV Solar Photovoltaic Independent Power Project located at Rabigh, Saudi Arabia.

The Project was awarded by main EPC, China Energy Engineering Group Guangdong Power Engineering Co.,ltd ,a subsidiary of Energy China. (read more)

Rabigh, which will be located in Makkah region in the Kingdom of Saudi Arabia, will be equipped with the Monoline solar tracker in 2V bifacial configuration, designed and tested in adverse weather conditions.

ML2V is specially designed to maximize the performance of bifacial modules, increasing production, and reducing the LCOE. It should be noted that the poles are manufactured with a specific coating for the project, which will prevent the corrosiveness of the soil from affecting the structure.

Álvaro Casado, Managing Director in the Middle East, said: “Rabigh comes at a time of success in attracting large projects and clients to our value proposition. It is a great project and we would like to thank CEEC for the trust it has placed in our work. We are increasingly adapted and integrated in a market for which we have been specializing our products for years; not only in terms of climate, but also in terms of regulations and technology”.

We have already opened our first manufacturing facility in the country, which allows us to provide our own resources within the region, comply with mandatory local manufacturing standards and, in short, offer solid and secure control over the entire value chain of the design, manufacture and supply our products within the country. “Generating economic activity and contributing, through technological innovation and large-scale manufacturing, to the achievement of a responsible and sustainable electricity production model — these are the two main keys on which we are currently working”.

Along with the bifacial ML2V units, we will install controllers integrating the 3D adaptive backtracking algorithm to maximize the plant’s production. “Thanks to this algorithm, we avoid the generation impact that might have an uneven terrain and the relative positioning of the trackers, as well as avoiding shadows along the entire length of the tracker and the hot spots that they generate.”, statement mentioned.