PVcase proudly presents a new functionality allowing you to add terrain-following trackers to your solar projects in the PVcase Ground Mount tool.
Ideal sites are getting more difficult to find, so terrain-following trackers allow engineers to adapt solar plants for more complex landscapes. Terrain-following trackers mitigate risks associated with undulating terrain and improve project-level economics. Unlike traditional trackers that require extensive grading and steel foundation, this slope-adaptive architecture allows for a constant pier reveal height, which results in a terrain-following tracker installation that reduces grading costs by 30% to 90%.
This design reduces earthwork costs and limits opportunities for soil erosion, resulting in improved soil integrity and reduced operations and maintenance costs over the operational life of an asset. Furthermore, the grading reductions also mitigate risks associated with unpredictable project variables, such as environmental review, grading-related change orders, and schedule delays, that span the project development timeline.
How do they work?
Basically, a terrain-following tracker is a segmented regular tracker with segments that allow the tracker to fit more easily onto uneven terrain. An excellent example would be a rope on the ground. If you lay it on the ground, it follows the undulations as opposed to a plank that stays flat. So the standard tracker is like a plank, while the terrain-following one is like a rope that can bend according to the surface.
Terrain-following trackers use sensors to detect the angle and direction of the sun, as well as the position and slope of the ground. These sensors can include GPS, accelerometers, inclinometers, and other devices.
The data from the sensors is sent to a controller, which calculates the optimal position for the solar panels based on the position of the sun and the contour of the ground. The controller then sends commands to the motors to adjust the position of the panels.
Terrain-following trackers use motors to adjust the position of the solar panels in real time. The motors can tilt, rotate, or pivot the panels to match the ground’s contour and maximize the amount of sunlight they capture.
The solar panels are mounted on a structure that allows them to move in response to the commands from the controller. The mounting system is designed to be strong and durable, to withstand the stresses of movement and changes in weather.
Terrain-following trackers require a power supply to run the sensors, controllers, and motors. The power can be provided by a battery, a grid connection, or a combination of both.
Benefits of terrain-following trackers
Here are some of the benefits of terrain-following trackers:
– Increased energy production. Terrain-following trackers can increase energy production by up to 5-15% compared to fixed-tilt systems. By adjusting the panel angle to match the terrain, the panels can capture more sunlight throughout the day.
– More stable output. The angle of the panels in a terrain-following system changes throughout the day to match the contour of the land. This leads to a more stable output, as the panels are always positioned to capture the maximum amount of sunlight the terrain allows.
– Better adaptability. Terrain-following trackers are ideal for uneven or sloped terrain, as they can adjust to the angle of the land. This makes them a good choice for locations where fixed-tilt or standard single-axis tracker systems would be impractical.
– Lower costs. By increasing energy production and reducing the amount of ground grading required, terrain-following trackers can be more cost-effective than fixed-tilt or standard single-axis tracker systems.
– Reduced environmental impact. Terrain-following trackers can reduce the environmental impact of solar installations by minimizing land use and preserving natural habitats. By reducing the amount of ground movement needed for solar installations, terrain-following trackers can help protect natural resources and ecosystems.
Now you can also grade multiple areas at once
Now you can grade more than one area at once. This will save you a lot of time with your ground-grading tasks.
You can easily locate this feature under the Ground grading tab in the Civil analysis section. By clicking the Grade the selected surfaces button, you can grade your chosen surfaces.
Check out more info on our new functionality and schedule a demo.
You might also be interested in:
December 12, 2024
Why Locational Marginal Pricing (LMP) data is essential for solar development?
Locational Marginal Pricing (LMP) data helps solar developers forecast profitability, minimize financial risk, and optimize site selection. Let’s break down what LMP data is, its…
December 11, 2024
PVcase product updates — November highlights
With PVcase November updates, you can achieve faster, more accurate results today — no need to make them your New Year’s resolutions. Dive into the major updates from the PVcase…
December 9, 2024
The importance of quality GIS data for solar site selection
Discover the impact of high-quality GIS data on solar site selection. Learn how parcel data, grid capacity, and LMP data optimize solar project development, reduce risks, and…
December 2, 2024
Consequences of extreme weather events: can we still afford it?
Floods, hurricanes, wildfires — whether we want them or not, extreme weather events have become the new normal. This year alone, there have been 24 billion-dollar weather…
November 14, 2024
Fail fast, succeed faster: the developer’s guide to streamlining solar projects with early-stage development software
Discover how solar developers thrive by adopting the 'fail fast, succeed faster' approach. Explore the role of early-stage development software, such as PVcase Prospect, in…
November 11, 2024
PV plant performance: challenges and solutions for large-scale solar projects
Large-scale PV plants are essential for the global transition to renewable energy. Their successful deployment and operation require addressing various challenges related to site…
November 7, 2024
From hours to minutes. The role of automated solar design software in solar projects
Extended timelines, inefficiency, and many different tools for solar projects are things of past. With automated solar design software you can reduce 50% time spent on layout…
October 30, 2024
How to design PV systems on complex roofs?
Discover how to navigate roof complexities, conduct effective site assessments, and uncover best practices with PVcase Roof Mount software while designing on complex roofs.
October 25, 2024
Understanding the importance of siting with Capacity information
Find out what Capacity is, why it matters, and how PVcase offers solar developers a tool that makes a real difference in the siting process.
October 10, 2024
Net energy metering: how does it work and what are the benefits?
Learn about net metering, how it works and its benefits for renewable energy users and the grid.
October 9, 2024
Solar lease vs. buy: which is better?
Explore the benefits and drawbacks of leasing or owning solar panels to determine the best option for your renewable energy needs.
October 8, 2024
Solar energy vs. fossil fuels: what’s the difference?
Want to understand the differences between solar energy and fossil fuels? Explore the pros and cons, including their environmental impacts and financial considerations.
October 7, 2024
Is solar power truly renewable or nonrenewable?
Discover whether solar energy is considered renewable or nonrenewable and explore the benefits of solar power for a sustainable future.
October 6, 2024
Understanding on-grid solar systems. Powering homes and businesses
Find out how grid-tied solar systems work, their advantages and why they're popular for homeowners and businesses looking to harness solar energy efficiently.
October 4, 2024
Solar energy vs. wind energy. Pros and cons
Discover whether solar energy is considered renewable or nonrenewable and explore the benefits of solar power for a sustainable future.