Saudi Arabia Solar Tracker Market Overview, 2030

The development of solar trackers in Saudi Arabia is closely linked to the nation's ambitious Vision 2030 renewable energy plan and high-profile initiatives like NEOM. With its futuristic megacity now under construction in the northwest desert, NEOM prioritizes sustainability and clean energy. These advancements, particularly in big solar farms intended to optimize production in a harsh desert setting, depend heavily on solar trackers. The angle of solar panels is becoming increasingly optimized throughout the day using single-axis and dual-axis trackers, which boost efficiency by as much as 30% when compared to static systems. This is a crucial consideration when powering huge projects like NEOM's The Line. The accumulation of desert sand has been a major technological difficulty for solar trackers in Saudi Arabia. The effectiveness of solar panels is diminished by frequent dust storms, and the need for maintenance rises. In order to combat this, novel robotic cleaning systems and anti-soiling coatings are being integrated with tracker operations, especially in distant and off-grid areas. Furthermore, specialized lubrication systems for tracker motors and gears have been created to withstand large temperature variations and abrasive sand, guaranteeing mechanical durability in harsh environmental conditions. In accordance with Saudi Arabia's larger sustainability objectives, solar tracker systems are being implemented outside NEOM in energy initiatives that provide power to water desalination facilities and in remote desert communities that are off the grid. These facilities use tracker technology to lessen reliance on fossil fuels for water and electricity generation. As part of its move towards 50% renewable energy by 2030, Saudi Arabia's Vision 2030 actively encourages the incorporation of solar trackers.

According to the research report, ""Saudi Arabia Solar Tracker Market Overview, 2030,"" published by Bonafide Research, the Saudi Arabia Solar Tracker market is anticipated to grow at more than 18.88% CAGR from 2025 to 2030. The aggressive Vision 2030 renewable energy targets, which aim for 50% of the Kingdom's electricity generation to come from renewable sources, are the main factor behind this expansion. Given Saudi Arabia's enormous desert scenery and strong solar irradiance, solar electricity is essential for meeting these goals. By greatly enhancing the effectiveness of photovoltaic installations, particularly in utility-scale projects, solar trackers play a key role in this plan. Massive projects must optimize returns in a capital-intensive energy transition, the focus on efficiency is essential. The creation of tracker systems that are extremely robust and made for use in the severe desert environment has been one of the most important innovations in the Saudi tracker market. Among these improvements are improved mechanical structures that can endure high temperatures and the abrasive effects of continuous dust exposure, as well as self-cleaning coatings and anti-corrosive materials. In the harsh climate of Saudi Arabia, this kind of durability is essential for reducing operating expenses and maintaining long-term viability. As a major player in Saudi Arabia's renewable energy industry, ACWA Power is one of the key players driving this change. ACWA Power has been at the forefront of several solar mega-projects throughout the Kingdom, gradually incorporating cutting-edge tracker technologies to increase project output. Their projects, frequently carried out in collaboration with international technology suppliers, aid in establishing industry standards for upcoming installations. The integration of trackers with large-scale energy storage systems is a significant trend influencing the Saudi tracker industry. Tracking solar arrays combined with battery storage provide a more dependable and consistent power supply, which is critical for grid stability and advancing Saudi Arabia's objectives of energy sustainability and independence.

In Saudi Arabia's changing solar energy sector, installations are dominated by single-axis trackers, particularly in the vast desert areas where huge solar parks are being built. The solar panels on these systems are able to follow the sun's trajectory throughout the day since they often rotate on one axis, usually from east to west. Single-axis trackers are popular because of their cost-effectiveness, mechanical simplicity, and proven effectiveness, especially in flat landscapes like the Saudi deserts. When compared to fixed-tilt systems, they have the ability to raise energy production by between 15% and 25%, giving developers of utility-scale photovoltaic facilities an advantage. Despite their higher cost and greater mechanical complexity, dual-axis trackers are becoming more and more popular in certain Saudi Arabian industries. These systems maximize panel orientation in two directions by monitoring the sun's daily trajectory and seasonal fluctuations. In the past, dual-axis systems were thought to be less ideal for the harsh desert environment because of dust, heat, and sandstorms, but recent technological advances have made them more practical. Among the innovations are cutting-edge lubrication technologies, sand-resistant joints, and sealed motor systems, all of which have been designed specifically for desert use. Dual-axis trackers are becoming more popular in pilot projects, high-end utility installations, and hybrid renewable systems where maximizing yield is crucial, especially in projects linked to notable developments like NEOM. Every percentage point increase in efficiency in these high-profile projects results in a large amount of energy savings throughout the course of the project. Dual-axis systems are used in research and specialized off-grid facilities where it's crucial to optimize solar capture regardless of the terrain's complexity or weather conditions. With the speed of Saudi Arabia's Vision 2030, we can anticipate that both single-axis and dual-axis trackers will coexist, with single-axis trackers dominating mainstream deployment while dual-axis systems grow increasingly popular in premium, innovation-driven projects funded by government and commercial collaborations.

The majority of solar tracker sales in Saudi Arabia are due to solar photovoltaic (PV) technology, which is the foundation of the majority of the nation's large-scale solar projects. PV systems are highly compatible with both single-axis and dual-axis solar trackers, resulting in notable increases in efficiency and energy output. Due to its simplicity, scalability, and decreasing costs, PV technology has become the main option for initiatives like the ambitious NEOM city energy projects and the Al Dhafra Solar Park. In Saudi Arabia's sun-rich, clear-sky environments, PV modules can generate significantly more daily energy when used with cutting-edge tracking systems. Although it accounts for a smaller proportion of the Saudi solar market, Concentrated Solar Power (CSP) is essential for specialized energy generation, particularly in initiatives that require thermal energy storage. CSP systems generate heat that powers turbines to produce electricity by concentrating sunlight onto a receiver using mirrors or lenses. To maintain the best solar focus, CSP facilities need dual-axis trackers. The Duba Green Integrated Solar Combined Cycle (ISCC) plant is just one example of Saudi Arabia's use of CSP, which makes use of the country's abundant direct normal irradiance (DNI). In conjunction with trackers, CSP provides dispatchable solar power, which complements PV in meeting the renewable energy goals of the nation. Concentrated photovoltaic (CPV) technology, which is still in its infancy, uses an original strategy by focusing sunlight onto highly efficient solar cells. Maintaining accurate focus on the sun is an intrinsic need for CPV systems, which require dual-axis trackers. Ongoing research and pilot installations in Saudi Arabia show increasing interest in CPV adoption, particularly for applications that are either off-grid or research-based, despite the current constraints caused by system complexity and price considerations.

Ground-mounted systems are perfect for maximizing solar potential because of the abundance of open desert landscapes. The energy production of these installations is greatly enhanced by solar trackers, which align photovoltaic (PV) panels with the sun's path during the day. Projects like the Sakaka PV plant and future installations in NEOM city depend significantly on dual-axis and single-axis tracking systems to maximize electricity output. Furthermore, the desert climate requires tracker configurations that can withstand sand buildup, extreme heat, and mechanical wear, which contributes to the technological sophistication and efficiency of ground-mounted trackers in Saudi Arabia's environment. To further increase productivity by collecting reflected sunlight from sandy landscapes, these systems are frequently coupled with bifacial panels. On the other hand, rooftop-mounted solar systems make up a lesser but expanding portion of the market, mainly in commercial, governmental, and high-density urban developments. Rooftop solar in Saudi Arabia benefits from the country's commitment to distributed energy generation as part of Vision 2030, which seeks to diversify energy sources and encourage energy independence. Due to structural and space limitations, most rooftop systems conventionally use fixed-tilt mounting; however, novel, lightweight, and compact tracker designs are beginning to make their way into the Saudi market. Although single-axis trackers are usually used for simplicity and cost-effectiveness, these sophisticated systems enable industrial facilities, warehouses, and institutional buildings to boost rooftop solar production by following the sun. The inclusion of solar trackers in rooftop and ground-mounted applications makes a major contribution to Saudi Arabia's renewable energy goals.

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Solar Tracker Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Technology
• Solar Photovoltaic (PV)
• Concentrated Solar Power (CSP)
• Concentrated Photovoltaic (CPV)

By Installation Type
• Ground-Mounted
• Rooftop-Mounted