Europe Solar Tracker Market Outlook, 2030

The Europe solar tracker industry is experiencing notable growth as the continent accelerates its commitment to renewable energy and decarbonization. Solar trackers, which allow photovoltaic (PV) panels to follow the sun’s path and optimize energy generation, are increasingly viewed as essential tools in maximizing solar farm output and improving the return on investment for solar energy projects. As Europe intensifies its focus on energy independence, particularly in the aftermath of geopolitical disruptions and the push to reduce reliance on fossil fuel imports, solar trackers are emerging as a strategic technology to harness every possible watt from available solar resources.

One of the most significant drivers of the solar tracker market in Europe is the European Union’s Green Deal and its overarching climate goals, which aim for carbon neutrality by 2050. Countries across the region are boosting solar capacity targets and modernizing energy grids to accommodate large-scale solar inputs. This policy-driven momentum, combined with technological innovation, is fostering a shift away from fixed-tilt systems to more dynamic solar tracking solutions especially for utility-scale and ground-mounted PV installations. As land availability becomes more constrained and cost-efficiency gains are prioritized, solar trackers offer a way to generate more energy per square meter of land, making them a compelling investment.

According to the research report “Europe Solar Tracker Market Outlook, 2030” the market is projected to add USD 2.87 Billion from 2025 to 2030.Technological advancements and customization options have made trackers more adaptable to Europe’s diverse climatic and topographic conditions. While single-axis trackers are increasingly used in southern European countries with higher solar irradiance such as Spain, Italy, Greece, and Portugal dual-axis trackers are finding applications in regions with variable sunlight angles or where maximizing output during shorter daylight periods is critical.

European manufacturers and global players active in the region are developing trackers capable of withstanding high wind loads, snow, and varying soil types, thereby expanding the geographic feasibility of tracker deployment. A key trend supporting tracker adoption in Europe is the growing deployment of bifacial solar panels. These panels, capable of generating power from both their front and rear sides, perform optimally when paired with solar trackers that can position them to capture reflected light more effectively. This synergy enhances overall plant efficiency and lowers the levelized cost of electricity (LCOE), making the technology particularly attractive to project developers aiming to maximize energy returns without significantly increasing land use or installation footprint.

Market Drivers

• EU Green Deal and Net-Zero Targets: The European Union's commitment to achieving climate neutrality by 2050 through the European Green Deal and the Fit for 55 package is a critical driver. These frameworks are pushing member states to scale up renewable energy installations including utility-scale solar PV where solar trackers are essential to optimize land use and maximize energy yield.
• Land Scarcity and Efficiency Optimization: In many European countries where land is at a premium, solar developers are prioritizing higher-efficiency solutions. Trackers, particularly single-axis horizontal systems, enable more electricity generation per square meter, making them attractive in densely populated nations like the Netherlands, Germany, and the UK.

Market Challenges

• Climate and Terrain Variability:Europe’s diverse geography from the snowy Nordic countries to the hilly regions of Central Europe presents a technical challenge for tracker deployment. Wind loads, snowfall, and uneven terrain can affect tracker stability and necessitate custom engineering, increasing installation and maintenance costs.
• Fragmented Policy and Regulatory Landscape:Unlike a centralized energy market, Europe has varying solar policies and permitting processes across member states, which creates inconsistent incentives and timelines for tracker adoption. This lack of harmonization can complicate expansion plans for pan-European solar developers and technology providers.

Market Trends

• Agri-PV and Co-Use with Solar Trackers: The integration of solar PV with agriculture (Agri-PV) is rising in countries like France, Italy, and Germany. Elevated or spaced solar trackers allow crops or livestock to coexist with solar installations, increasing rural land use efficiency and boosting tracker demand in farming regions.
• Domestic Manufacturing and Energy Security: In response to geopolitical tensions and supply chain disruptions, Europe is reviving domestic solar component manufacturing. This includes tracker production as part of a broader strategy to enhance clean tech sovereignty and reduce dependence on imports, especially from Asia.

Active solar trackers are leading in the Europe solar tracker market due to their enhanced energy efficiency, growing adoption in large-scale renewable projects, and alignment with the region’s net-zero carbon ambitions.

Active solar trackers have emerged as the leading technology in the Europe solar tracker market because they offer superior energy output by continuously adjusting the angle of solar panels to follow the sun's path. This capability aligns perfectly with Europe's strong commitment to renewable energy expansion and carbon neutrality goals. Countries such as Spain, Italy, and Greece, which enjoy high solar irradiation levels, are increasingly deploying active trackers in their utility-scale solar farms to maximize efficiency and return on investment.

The European Union’s Green Deal and other regional policies are also providing substantial funding and regulatory support for advanced solar technologies, which incentivizes the use of more sophisticated systems like active trackers over static or passive alternatives. Moreover, advancements in automation, software integration, and predictive maintenance make active trackers more reliable and cost-effective over time. As grid parity becomes a reality across more European markets, the need to extract the maximum possible output from each solar installation has made active trackers a strategic choice.

Utility-scale projects are leading in the Europe solar tracker market due to increasing government support for large renewable installations and the need for high-efficiency solutions to meet the continent’s ambitious climate targets.

Utility-scale solar projects dominate the Europe solar tracker market because they are central to the region’s strategy for transitioning to clean energy and reducing carbon emissions. European countries are aggressively working toward climate neutrality, driven by policies like the EU Green Deal and national renewable energy action plans. To meet these goals, large-scale solar farms are being developed at an accelerated pace across countries such as Spain, France, Italy, and Germany, where land availability and solar irradiance are favorable. In these vast installations, solar trackers particularly single-axis and dual-axis active systems play a critical role in maximizing energy generation per unit area.

Their ability to increase efficiency by up to 25-35% compared to fixed-tilt systems makes them particularly valuable for utility developers seeking strong returns and optimal grid integration. Furthermore, economies of scale make tracker deployment more financially viable in utility projects than in smaller installations. Coupled with streamlined permitting processes, access to financing through green bonds, and rising power purchase agreements (PPAs), the growth of utility-scale solar in Europe is both a strategic and economic necessity propelling solar trackers as the default technology in these ventures.

Ground-mounted installations are leading in the Europe solar tracker market due to their compatibility with large-scale utility projects and the need for optimal sunlight exposure to maximize energy yield.

Ground-mounted solar installations are at the forefront of the Europe solar tracker market because they provide the structural flexibility and spatial scale necessary for integrating solar tracking systems effectively. Unlike rooftop setups, ground-mounted systems can be precisely oriented and adjusted to follow the sun’s trajectory throughout the day, significantly boosting energy output. This advantage is particularly important in Europe’s expanding utility-scale solar farms, which are being rapidly developed to meet the region’s renewable energy and decarbonization targets.

Countries like Spain, Greece, and Portugal are leveraging vast tracts of underutilized or rural land for solar parks, where ground-mounted trackers offer a scalable and cost-efficient solution. Additionally, such systems are easier to install, maintain, and upgrade compared to rooftop alternatives, and they support both single-axis and dual-axis tracker technologies. The ability to fine-tune tilt angles and orientations on open land allows ground-mounted systems to capture maximum irradiance and improve return on investment.

Germany is leading in the Europe solar tracker market due to its strong commitment to renewable energy, robust policy support, and advanced technological infrastructure driving large-scale solar deployments.

Germany's leadership in the Europe solar tracker market is largely rooted in its long-standing and proactive approach to renewable energy adoption, exemplified by its Energiewende (energy transition) policy. This national strategy has prioritized a shift away from fossil fuels toward clean energy sources, with solar power playing a pivotal role. Germany has consistently maintained one of the highest solar capacities in Europe, supported by government incentives, feed-in tariffs, and a well-developed regulatory framework that encourages investment in solar infrastructure.

As solar farms grow in scale and efficiency becomes increasingly critical, solar trackers particularly single-axis systems have become a natural choice for maximizing energy yield from Germany’s relatively moderate solar irradiance. Additionally, the country’s strong industrial base and research capabilities have enabled the development and deployment of cutting-edge solar tracking technologies.

This includes partnerships between engineering firms, energy providers, and automation companies that support customized tracker solutions suited to local conditions. Furthermore, Germany's advanced grid infrastructure and emphasis on smart energy solutions make it easier to integrate solar tracker-enabled installations into the national energy system, further accelerating their adoption.

• In April 2023, The French company Luciole & Basilic announced the development of a PV tracker that can provide up to 12% more energy than previous trackers.
• In March 2023, Nextracker Inc. secured a new deal in Europe for its terrain-following solar tracker NX Horizon-XTR, demonstrating the increasing demand for tracking technology to enable solar developers to construct power plants on sites with a complex topography and unique environmental constraints. Ib Vogt, a German international solar developer, selected Nextracker's XTR for the Garnacha solar power plant in Spain.

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

The approach of the report:

This report consists of a combined approach of primary as well as secondary research. Initially, secondary research was used to get an understanding of the market and listing out the companies that are present in the market. The secondary research consists of third-party sources such as press releases, annual report of companies, analyzing the government generated reports and databases.

After gathering the data from secondary sources primary research was conducted by making telephonic interviews with the leading players about how the market is functioning and then conducted trade calls with dealers and distributors of the market. Post this we have started doing primary calls to consumers by equally segmenting consumers in regional aspects, tier aspects, age group, and gender. Once we have primary data with us we have started verifying the details obtained from secondary sources.

Intended audience

This report can be useful to industry consultants, manufacturers, suppliers, associations & organizations related to this industry, government bodies and other stakeholders to align their market-centric strategies. In addition to marketing & presentations, it will also increase competitive knowledge about the industry.