India Solar Tracker Market Overview, 2030

The use of solar trackers in India has been concentrated in big solar parks, notably in Rajasthan, which houses some of the largest photovoltaic projects in Asia. The high solar irradiance, the large, dry terrain of Rajasthan is perfect for ground-mounted tracker systems that can optimize energy production. Nonetheless, these areas are also susceptible to high particulate matter and regular dust storms, which has resulted in the creation of self-cleaning mechanisms and dust-resistant coatings that are integrated with tracker systems. To keep peak performance levels under severe desert circumstances, technological advancements like robotic cleaning solutions have become more and more prevalent. In particular, Gujarat has embraced dual-axis trackers in a few utility-scale applications, making it another significant center. Although single-axis trackers are still the most popular because of their lower price, dual-axis systems are being tested and used in applications that need more precise tracking in order to maximize production across seasonal changes. In hybrid agricultural-solar projects, where solar panels are placed over crop fields, giving both energy production and partial shade for specific crops, this is especially pertinent. The agrivoltaics model is becoming more popular since it enhances land use efficiency while also supporting rural livelihoods. In order to meet India's ambitious renewable energy goals, the tracker market in India has placed a primary emphasis on lowering manufacturing costs. India's Production Linked Incentive (PLI) schemes are being utilized by local producers to localize the manufacturing of tracker components, which has resulted in lower costs and less import dependency. Indian companies have benefited from collaborations with international tracker technology suppliers in terms of increasing the efficiency and longevity of their designs. In India's push to meet its 500 GW renewable energy target by 2030, solar trackers will be essential in utility-scale initiatives. India's solar tracker industry is one of the quickest-growing sectors of the country's green energy ecosystem due to its role in boosting capacity utilization factors (CUFs) and promoting agrivoltaics initiatives.

According to the research report, ""India Solar Tracker Market Overview, 2030,"" published by Bonafide Research, the India Solar Tracker market is anticipated to grow at more than 20.47% CAGR from 2025 to 2030. The nation's ambitious goal of achieving 500 gigawatts of renewable energy by 2030 is the main driver behind this expansion, which is mostly due to its increasing solar capacity. The Pradhan Mantri Kisan Urja Suraksha evam Utthaan Mahabhiyan (PM-KUSUM) scheme is one of the most important policy drivers behind this momentum. It actively encourages the deployment of decentralized solar energy systems in agricultural regions. The plan fosters the use of solar pumps and grid-connected renewable installations, paving the way for the deployment of solar trackers in rural India, especially in hybrid agricultural-energy projects. The increase in indigenous tracker innovations made by Indian manufacturers in recent years, with the goal of lessening dependence on imported technologies, has been a noteworthy change. Businesses have been more and more concentrating on cost-effective, modular tracker designs that are specifically suited to India's varied climate, which spans from the dusty deserts of Rajasthan to the humid coastal regions of Tamil Nadu. Government-backed incentives, such as the Production Linked Incentive (PLI) schemes, have reinforced the emphasis on local manufacturing by enabling domestic businesses to increase output and lower expenses. Vikram Solar, which specializes in integrated PV solutions, and Tata Power Solar, a pioneer in large-scale solar EPC projects, are two of the key players influencing the market for Indian solar trackers. Both businesses have added smart tracking systems to their products in order to boost efficiency and support India's grid modernization program. The incorporation of solar trackers into agrivoltaics projects, where solar production and agricultural activity coexist, is one of the most compelling trends.

India's Solar Tracker Market by axis type is divided into Single-Axis Tracker and Dual-Axis Tracker. Due to its cost-effectiveness and high compatibility with large-scale ground-mounted photovoltaic installations, the Indian solar tracker industry is mostly dominated by single-axis tracker systems. Compared to fixed-tilt systems, single-axis trackers, which usually rotate along a north-south axis, follow the sun's east-to-west movement to increase energy capture by 15–25%. For this reason, they are perfect for deployment in India's sun-rich regions, like Rajasthan, Gujarat, and Madhya Pradesh, where there is plenty of solar radiation and large areas of land for utility-scale installations. India's emphasis on quickly expanding its renewable energy capacity is in line with the advantages of single-axis trackers, which include their cheaper installation costs, lesser mechanical complexity, and simpler maintenance needs. Dual-axis trackers are gaining traction, particularly in project applications where optimal solar efficiency is crucial, but single-axis trackers still hold the majority. These systems are able to adjust in both the horizontal and vertical planes, allowing them to maximize sunlight capture at various times of the year and under varied weather circumstances. Dual-axis trackers have been utilized in some pilot projects in areas like Gujarat and Karnataka, particularly in connection with agrivoltaics applications, where they can provide better shade control for crops beneath while maximizing solar yields. Dual-axis systems are becoming more and more accepted in high-end installations or initiatives where land optimization is essential, even though they typically have higher upfront expenses and more mechanical complexity. Furthermore, advancements in technology for both single and dual-axis systems are being driven by government-funded research and development programs and partnerships between Indian and international tracker manufacturers.

The most popular technology in the solar tracker industry in India is solar photovoltaic (PV), especially crystalline silicon PV modules, which are widely used in distributed production and utility-scale projects. The norm in big ground-mounted installations is now a combination of solar photovoltaic (PV) systems and single-axis trackers because of their demonstrated dependability, affordability, and ease of integration. India's high solar radiation, particularly in the west and south, makes it a perfect place to get the most out of PV trackers. Bifacial photovoltaic panels that are paired with tracking systems are progressively becoming more popular in India because they can produce electricity from both the front and rear surfaces, which increases production. Although PV is the most prevalent form of solar energy, CSP, or Concentrated Solar Power, was once a major focus of India's early solar initiative, but it has not been widely used in recent years. DNI, or Direct Normal Irradiation, is necessary for CSP, and it is only found in a few places, like Rajasthan and areas of Gujarat. Pilot projects have employed CSP installations with trackers, such as parabolic troughs and heliostat systems, but adoption has been hampered by significant capital expenditures, water consumption needs, and operational challenges. In hybrid solar-thermal applications, where thermal storage complements PV-based electricity production, CSP continues to have niche relevance. In India, concentrated photovoltaic (CPV) technology, which employs mirrors or lenses to concentrate sunlight onto high-efficiency solar cells, is still in its infancy. Despite the fact that CPV systems benefit greatly from dual-axis trackers because of their requirement for exact sun alignment, their adoption has been constrained by financial constraints and the existence of less expensive PV options. Although there are a few experimental CPV projects in high-irradiation regions, widespread use has not yet occurred.

The majority of the solar tracker industry in India is made up of the ground-mounted sector, mainly because trackers are most effective in large utility-scale solar farms. Particularly in Rajasthan, Gujarat, Madhya Pradesh, and Andhra Pradesh, these installations frequently cover hundreds or even thousands of acres, making them perfect for the installation of single-axis and dual-axis tracker systems. Compared to fixed-tilt installations, ground-mounted solar installations with trackers can produce 15–25% more power, resulting in increased financial returns and quicker progress toward grid parity. Furthermore, ground-mounted installations have become crucial to India's national solar mission and other state-level renewable energy initiatives, and they typically gain from less complicated logistics for tracker installation and maintenance. These utility-scale tracker projects are in line with programs like India's Green Energy Corridor, which seek to improve transmission infrastructure for large solar farms. In contrast, because of the weight, complexity, and expense that trackers add to smaller-scale rooftop installations, rooftop-mounted solar systems with trackers are comparatively uncommon in India. For the majority of business and residential consumers, the investment is frequently not justified by the little increase in production. But rooftop-mounted trackers have been experimentally or niche adopted in certain industries, such as educational institutions, big commercial buildings, and industrial rooftops, particularly in cases where it is critical to make the most of limited roof space. Urban areas with exorbitant real estate costs are just now beginning to investigate automated rooftop tracking solutions, though these are still in their infancy in India. Hybrid models employing elevated ground-mounted tracker systems are beginning to blur the distinction between rooftop and ground installations by permitting dual land use for energy generation and agriculture as agrivoltaics applications become more popular.

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 Show more