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Writer's pictureSubodh Mahajan

Tracking the Sun: Breakthrough in Solar Plant Sun Tracking Structure Technology

Welcome to the radiant world of solar energy, where the sun never sets on innovation! Today, we're diving into the heart of solar evolution, exploring the groundbreaking tracking system structures that are lighting up the industry. Bigwit Energy, a luminary in the realm of sustainable power, has rolled out a game-changer: their state-of-the-art Sun Tracker Structures.

Picture this: a solar plant, not just basking in the sun’s glory but actively following its path across the sky like a sunflower chasing the daylight. This isn't a scene from a sci-fi novel; it's the reality Bigwit Energy is crafting right here in our backyard.

In this blog, we'll unravel the secrets behind these tracking solar structures, shedding light on how they're revolutionizing the way we harness solar energy. From the intricate mechanics of the sun tracker to the robust architecture of the structure, we're setting the stage for a journey into the heart of solar efficiency.

So, buckle up, and let's embark on this enlightening journey together, where every sunrise brings us closer to a more sustainable future, thanks to Bigwit Energy's innovative spirit. And who knows? By the end of this, you might just find yourself tracking more than just the sun - perhaps a new perspective on sustainable energy!


Titled tracking solar structure

The sun tracking systems, a marvel of modern engineering, operate on a beautifully simple yet profoundly effective principle. At its core, the purpose of a sun tracker is to align solar panels or modules towards the sun, ensuring they capture the maximum possible solar radiation throughout the day. This alignment maximizes the efficiency of the solar plant, making the most out of every ray of sunshine.


Here’s a breakdown of how this ingenious sun tracking solar plant system works:

  1. Dual-Axis Tracking: The most advanced sun trackers, like those implemented by Bigwit Energy, utilize a dual-axis tracking system. This allows the panels to move both horizontally and vertically, following the sun’s trajectory from sunrise to sunset and throughout the seasons. It’s like a dance choreographed by nature, with the panels tilting and turning to face the sun at the perfect angle.

  2. Light Sensors and Controllers: These trackers are equipped with light sensors that detect the intensity and direction of sunlight. These sensors send data to a controller, which then calculates the optimal position of the solar panels. Think of it as a smart, responsive system that reacts to the sun’s movements in real-time, much like a sunflower instinctively turns towards the light.

  3. Motors and Actuators: The controller commands motors and actuators to adjust the panels. These components are the muscles of the system, doing the heavy lifting to position the panels precisely. This movement is smooth and calculated, ensuring that the panels are always angled in the best possible way to capture solar energy.

  4. Energy Output Maximization: By constantly aligning with the sun, these tracking systems can significantly increase the energy output of solar panels. Studies suggest that sun tracking systems can enhance energy production by 10-25% compared to fixed-tilt solar systems, a substantial leap in efficiency.

  5. Software Optimization: Beyond the physical movement, software plays a vital role in optimizing the tracking system. Advanced algorithms consider various factors like geographic location, time of the year, and weather conditions to predict the sun’s path and adjust the panels even under cloudy skies.

In essence, sun tracking systems represent a perfect harmony of mechanical engineering, electronic control systems, and software intelligence. This synergy leads to a more efficient capture of solar energy, propelling us further into a sustainable future, brightly lit by the endless power of the sun. With companies like Bigwit Energy at the forefront, the promise of a cleaner, greener planet is not just a dream—it's a rapidly approaching reality.


Single pole tracking solar plant structure

The construction of sun tracking systems is a testament to the fusion of strength and precision. Various materials are employed in these structures, each chosen for its unique properties that contribute to the overall durability, efficiency, and functionality of the system.

Some of the key materials used in these sun tracking solar plantstructures:

  1. Steel: Steel stands as the backbone of many sun tracking structures. Known for its incredible strength and durability, it's often used in the framework and support systems. Galvanized steel, in particular, is a popular choice due to its resistance to corrosion, ensuring longevity even in harsh weather conditions.

  2. Aluminum: Lightweight yet strong, aluminum is another favored material, especially for parts that require movement, like the frames holding the solar panels. Its lightness aids in reducing the load on motors during tracking, and its resistance to corrosion is a significant plus for outdoor applications.

  3. Stainless Steel: For components that demand both strength and corrosion resistance, stainless steel is often the go-to material. It's particularly useful in nuts, bolts, and other fastening elements, providing a secure and long-lasting hold.

  4. Polymer and Composites: Advanced polymers and composite materials are increasingly finding their place in sun tracking systems. These materials are used for protective casings and certain structural components. Their advantages include resistance to environmental degradation, flexibility, and reduced weight.

  5. Glass and Protective Coatings: The solar panels themselves are made of glass and semiconductor materials (like silicon). The glass is often treated with anti-reflective coatings to enhance light absorption and reduce losses due to reflection.

  6. Copper and Electrical Wiring Materials: For the electrical components, copper is a primary material due to its excellent conductivity. Quality insulation materials are also crucial to ensure safety and efficiency in the system's wiring.

  7. Concrete: For ground-mounted tracking systems, concrete is used for the foundation. It provides stability and ensures that the structure remains securely anchored, even in varying soil conditions and during extreme weather.


Each of these materials plays a pivotal role in the construction of sun tracking systems, contributing to their efficiency, reliability, and longevity. With the meticulous selection of materials, companies like Bigwit Energy ensure their sun tracking structures are not only technologically advanced but also robust and enduring, ready to harness the sun’s power for years to come.


Solar plant structure

The adoption of sun tracking systems marks a significant leap in solar energy production compared to traditional, fixed-tilt solar trackers. The increase in solar production afforded by these dynamic trackers is both impressive and essential for maximizing the efficiency of solar installations.

  1. Enhanced Direct Sunlight Capture: Sun tracking systems optimize the angle of solar panels throughout the day, maintaining perpendicular alignment to the sun's rays. This optimal positioning allows for maximum absorption of direct sunlight, a key factor in solar efficiency.

  2. Increased Energy Output: Studies and real-world data indicate that sun tracking systems can increase solar energy production significantly. On average, single-axis trackers can boost energy output by about 25-35%, while dual-axis trackers can offer an increase of up to 40% or more compared to fixed-tilt systems.

  3. Extended Peak Production Hours: Unlike fixed systems, where peak production is limited to a few hours around solar noon, tracking systems extend these peak production hours. This extension results in not only more energy produced overall but also a more consistent output throughout the day.

  4. Reduced Seasonal Variability: Dual-axis trackers, in particular, are effective in reducing the impact of seasonal variations in the sun's path. They adjust both horizontally and vertically, ensuring optimal solar capture even during times of the year when the sun is lower or higher in the sky.

  5. Efficiency in Varied Geographies: Sun tracking systems are especially beneficial in regions with high solar irradiance, maximizing the potential of solar installations in these areas. However, they also bring notable efficiency improvements in less sunny regions, making solar energy a more viable option across diverse geographies.

  6. Improved Land Utilization: With increased efficiency, these tracking systems can produce more energy on the same amount of land compared to fixed systems. This improved land utilization is crucial in densely populated or land-scarce areas.

  7. Return on Investment (ROI): The ROI of sun tracking systems is a bright spot. Despite the higher initial investment, the increased energy production can lead to a faster payback period. Over the lifespan of the system, you’re likely to see a higher return on investment compared to fixed systems.


Bigwit Energy, for instance, harnesses these advantages to optimize solar production in their installations. By utilizing advanced tracking technology, they ensure that each solar panel works at its maximum potential, turning every sunbeam into sustainable energy. The result is not just an increase in energy output but also a stride towards a more sustainable and energy-efficient future.


Maintenance in solar plant

Installation and Maintenance Insights of sun tracking solar plant system:

Embarking on the journey of installing a sun tracking solar system can feel like navigating uncharted waters. But fear not, solar adventurers! Bigwit Energy has charted a course that makes the installation and maintenance of these high-tech systems as smooth as a sunny day. Let's shed some light on what this journey involves.


Installation: The Set-Up Saga

  1. Site Assessment: Every great journey starts with a map, and in the solar world, this means a thorough site assessment. Bigwit Energy's team of solar scouts will evaluate factors like geographical location, sun exposure, and land topography. This helps in designing a system that fits the site like a glove.

  2. Design and Engineering: Armed with data, the engineers then design a system that maximizes solar capture. This involves calculating the optimal orientation and tilt for the trackers, ensuring every panel gets its day in the sun.

  3. Permitting and Paperwork: Navigating the sea of paperwork can be daunting, but Bigwit Energy’s experienced crew knows the ropes. They handle the necessary permits and regulations, ensuring a compliant and hassle-free installation.

  4. Installation: This is where the rubber meets the road, or rather, where the tracker meets the soil. Professional installers set up the tracking systems with precision and care, ensuring every component, from panels to trackers, is perfectly aligned and securely installed.

  5. Testing and Commissioning: Before handing over the reins, Bigwit Energy ensures everything is shipshape. The system undergoes rigorous testing to ensure it tracks the sun as smoothly as a compass follows north.

Maintenance: Keeping the System Shipshape

  1. Regular Inspections: Regular check-ups are key. Inspections help in identifying and addressing any wear and tear or mechanical issues, ensuring the system operates at peak efficiency.

  2. Cleaning the Panels: Just like a ship needs a good scrub, solar panels perform best when they’re clean. Periodic cleaning, especially in dusty areas, keeps the panels efficient and effective.

  3. Monitoring System Performance: Thanks to modern technology, you can keep an eye on your solar system’s performance from afar. Monitoring systems provide real-time data on energy production and system health, allowing for prompt responses to any issues.

  4. Professional Support: When in doubt, Bigwit Energy’s crew of experts is ready to assist. Their maintenance services ensure your system continues to perform optimally over the years, with minimal fuss on your part.

  5. Warranty and Service Agreements: To keep your solar voyage worry-free, Bigwit Energy provides warranties and service agreements. This safety net ensures that any unforeseen issues are swiftly and efficiently handled.

In essence, while the installation of sun tracking systems is a bit more complex than traditional solar panels, Bigwit Energy's expertise ensures a smooth and efficient process. And with a solid maintenance plan in place, these solar trackers will keep your energy sails full for years to come, steering you towards a sustainable future.


Single pole tracking solar plant structure

FAQs about Sun Tracking Solar Plant Systems

When it comes to sun tracking systems, curiosity shines as bright as the sun itself. Here are some frequently asked questions that might be twinkling in your mind, along with answers to help illuminate the topic.

Q1: How Do Sun Tracking Systems Actually Track the Sun?

A1: Sun tracking systems use a combination of light sensors, GPS technology, and sophisticated algorithms to determine the sun's position in the sky. Based on this data, motors adjust the panels throughout the day to maintain optimal alignment with the sun.

Q2: Are Sun Tracking Systems More Expensive Than Fixed Systems?

A2: Initially, yes. Sun tracking systems have higher upfront costs due to their more complex design and additional components. However, the increased energy output can lead to greater savings over time, making them a cost-effective option in the long run.

Q3: How Much Maintenance Do Sun Tracking Systems Require?

A3: While sun tracking systems do have moving parts, modern designs and technology have made them quite low maintenance. Regular inspections and occasional cleaning are generally sufficient to keep them running smoothly.

Q4: Can Sun Tracking Systems Withstand Harsh Weather?

A4: Absolutely! Bigwit Energy designs its sun tracking systems to be robust and weather-resistant. They can withstand high winds, heavy rains, and other challenging weather conditions, ensuring consistent performance.

Q5: Are Sun Tracking Systems Suitable for Residential Use?

A5: While traditionally more common in commercial and utility-scale installations, technological advancements have made sun tracking systems increasingly viable for residential use, especially for homeowners with sufficient space and a desire for maximum energy efficiency.

Q6: How Much More Energy Can I Expect to Generate with a Sun Tracker?

A6: Sun tracking systems can increase energy production by approximately 25-40% compared to fixed-tilt systems. The exact increase depends on your geographical location, system design, and type of tracker used.

Q7: Is It Possible to Retrofit an Existing Solar System with Sun Trackers?

A7: In some cases, yes. Retrofitting depends on several factors, including the existing system’s design and the structural capacity of the installation site. Bigwit Energy can assess the feasibility of such an upgrade.

Q8: Do Sun Tracking Systems Impact the Environment?

A8: Sun tracking systems are designed to maximize energy production while minimizing environmental impact. By increasing efficiency, they help reduce the carbon footprint and promote sustainable energy use.

Q9: How Long Do Sun Tracking Systems Last?

A9: Sun tracking systems are built to last, with many models designed for a lifespan of 20-25 years or more, similar to traditional solar panels.


Single pole tracking solar plant structure

Global Impact and Adoption Trends for Sun tracking structure:

As the world sails towards a more sustainable future, sun tracking systems are playing a pivotal role in the global solar energy landscape. Their impact and adoption have been growing at an impressive pace, signaling a bright future for this innovative technology. Let's explore the global trends and impacts of sun tracking systems.

The Surge in Global Adoption

  1. Rising Popularity in the U.S. and Europe: The United States and Europe have seen a significant increase in the adoption of sun tracking systems, especially in large-scale solar projects. These regions are leveraging the technology to maximize solar energy production and meet their renewable energy targets.

  2. Growth in Asia-Pacific Markets: Countries like China, India, and Australia are rapidly adopting sun tracking systems. With vast land areas and high solar irradiance, these regions are ideal for maximizing the benefits of solar tracking technology.

  3. Emerging Markets Joining the Bandwagon: Countries in Africa, Latin America, and the Middle East are increasingly recognizing the potential of sun tracking systems. Despite challenges like funding and infrastructure, these regions are taking strides in solar energy adoption.

Environmental and Economic Impacts

  1. Reduction in Carbon Footprint: By enhancing solar energy production, sun tracking systems contribute significantly to reducing global carbon emissions. This is crucial in the fight against climate change and aligns with international goals like the Paris Agreement.

  2. Boosting Renewable Energy Capacity: Sun tracking systems are enabling countries to increase their renewable energy capacity more efficiently, reducing dependence on fossil fuels and promoting a cleaner energy mix.

  3. Economic Benefits: The growth of the sun tracking market is creating new job opportunities and stimulating economic growth, especially in regions transitioning from traditional energy sources to renewables.

Technological Innovations Driving Adoption

  1. Advancements in Efficiency and Durability: Continuous improvements in design and materials have made sun tracking systems more efficient, durable, and resistant to harsh weather conditions.

  2. Integration with Smart Grids: The integration of sun tracking systems with smart grids and energy storage solutions is enhancing their efficiency and reliability, making them an attractive option in diverse energy markets.

  3. Cost Reductions: As technology advances, the cost of sun tracking systems is gradually decreasing, making them more accessible and appealing to a wider range of users.


Shining solar panels

Challenges and Future Prospects

While the adoption of sun tracking systems is on the rise, challenges such as high initial costs, complex installation processes, and maintenance requirements still exist. However, with ongoing technological advancements and increasing global commitment to renewable energy, these hurdles are becoming more manageable.

The future of sun tracking systems looks bright, with their potential to significantly contribute to global renewable energy goals and combat climate change. As companies like Bigwit Energy continue to innovate and expand the reach of this technology, we can expect to see a continued increase in its adoption and impact across the globe.

In conclusion, sun tracking systems are not just a technological marvel; they're a key player in the global shift towards sustainable energy. Their growing adoption and impact underscore the world's collective effort to embrace cleaner, more efficient energy sources, paving the way for a brighter, greener future.

As we journey through the landscape of solar energy, it's clear that sun tracking systems, championed by innovators like Bigwit Energy, are not just a fleeting trend but a significant leap towards a sustainable future. Their ability to harness the sun's power more efficiently and effectively places them at the forefront of solar technology.

The global adoption and impact of these systems paint a picture of a world increasingly committed to renewable energy. From the bustling cities of the U.S. and Europe to the expansive landscapes of Asia-Pacific, and even in the emerging markets of Africa and Latin America, the adoption of sun tracking systems is a testament to the global community's dedication to combating climate change and reducing our carbon footprint.

While challenges remain, including the initial cost and complexity of installation, the benefits these systems offer in terms of increased energy output, environmental sustainability, and long-term economic savings are undeniable. The continuous advancements in technology and reduction in costs promise an even brighter future for sun tracking systems.

In essence, sun tracking systems represent a harmonious blend of innovation, efficiency, and environmental stewardship. As we look ahead, it's evident that these systems will play a crucial role in shaping the future of solar energy. Companies like Bigwit Energy are not just providing a product; they are paving the way for a cleaner, greener, and more sustainable world.

So, as the sun sets on this exploration of sun tracking systems, one thing remains brightly illuminated – the future of solar energy is dynamic, promising, and undoubtedly on the right track. Let's embrace this solar-powered journey, knowing that with every sunrise, we are stepping closer to a more sustainable and energy-efficient tomorrow.

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