Solar farm construction: How We Do It at Electrum

Solar farm construction is a unique endeavor that provides society with clean electrical energy and contributes to environmental protection. At the same time, it’s an investment whose profitability continues to grow.

We invite you to watch a video about one of our projects – PV Gryf solar farm:

 

And one more piece of good news – we will be executing a solar project in Denmark: Electrum to build photovoltaic (PV) project for BeGreen in Denmark

 

Electrum Group begins a photovoltaic project for BeGreen in Denmark.

Table of Contents

  • PV Panels
  • Stages of Photovoltaic Farm Construction
  • Step-by-Step Guide to Building a Photovoltaic Farm
  • Monitoring and Maintenance of Photovoltaic Farms
  • Investment in Photovoltaic Farm Construction
  • Renewable Energy EPC Contractors

In Brief

The key stages of building a solar farm include designing, site preparation and foundations, installation of photovoltaic panels, and electrical connections and testing.

In the design phase, important steps include planning the layout of panels and inversion systems, integration with other systems, obtaining permits and complying with regulations, and selecting the solar farm’s location.

Technological advancements in PV panels are increasing the profitability of photovoltaic farms. The construction process of a photovoltaic farm can take anywhere from a few months to several years, depending on the scale of the project, location, weather, and other factors.

The benefits of building photovoltaic farms are immense, both economically and environmentally.

Solar farm construction by Electrum Holding

 

Let’s start by taking a closer look at PV panels.

Photovoltaic panels, also known as PV panels, are the fundamental component of solar farms. They are often one of the highest costs in the investment.

How exactly do they work, and why is the progress in their efficiency so important?

Photovoltaic technology is based on harnessing solar energy to generate electricity. PV panels contain silicon solar cells that convert sunlight into electricity.

Advances in this technology include increased efficiency in converting solar energy into electrical power. New panels are more efficient, allowing for greater energy production from the same amount of sunlight.

Stages of Solar Farm Construction

Solar farm design

The preparation of a solar farm design is a crucial step in the entire project. Planning the layout of panels and inversion systems is essential.

Attention must also be paid to integrating various energy systems within the farm to ensure everything operates smoothly. When creating a solar farm design, it is necessary to consider regulatory and permitting issues.

Read the guide: Solar Power System Design – What You Need to Know?

Location of the Solar Farm

Designing solar farms also requires analyzing the location. The choice of the farm’s location affects the amount of available sunlight and the efficiency of the panels. Therefore, it is essential to thoroughly examine the geographical and climatic conditions to select the optimal site for the farm.

We have extensive design experience and conduct processes to prepare renewable energy facilities for the Ready to Build stage.

Step-by-Step Guide to Building a Photovoltaic Farm

solar farm

After the design process is completed, we move on to the construction of the photovoltaic farm. This process involves several key steps.

Site Preparation and Foundations

The construction of a photovoltaic farm begins with preparing the site where the PV panels will be installed. It is essential to clear any obstacles and prepare the land for installation. Foundations are crucial as they provide stability to the photovoltaic panels. They must be properly reinforced and adapted to the local conditions.

Installation of Photovoltaic Panels

Next, we proceed with the installation of the photovoltaic panels. The panels are mounted on the foundations in the appropriate layout to maximize the use of available sunlight. The installation process is carefully monitored to ensure the stability and efficiency of the system.

Solar farm installation by Electrum Holding

Electrical Connections and Testing

After the panels are installed, the next phase involves electrical connections and testing. The panels are interconnected and connected to the inversion system, which converts direct current (DC) into alternating current (AC), suitable for residential or industrial use. Testing is essential to ensure that the entire system operates correctly.

Monitoring and Maintenance of Solar Farms

Once the construction of the farm is completed, it is crucial to monitor its performance and conduct routine maintenance and servicing.

Monitoring systems enable continuous oversight of the photovoltaic panels’ operation. In case of failures or issues, a quick response is possible. Routine maintenance includes cleaning the panels and checking their technical condition.

Read also: PV panel maintenance: The key to extended life and efficiency

How long does it take to build a solar farm?

The construction time of a solar farm depends on factors such as:

  • The scale of the project and the capacity of the photovoltaic farm,
  • Location and regulations,
  • Weather conditions,
  • Chosen technologies and methods,
  • Efficiency and experience of the general contractor.

As Electrum Holding, a general contractor for solar farms and other renewable energy facilities, we have completed numerous projects. Below, you’ll find out how long it took to build some of the photovoltaic farms we’ve delivered:

  • Przykona Solar Farm – just over a year
  • Krzywińskie Solar Farm – approximately 9 months

 

If you’re looking for a photovoltaic farm contractor with a rich portfolio, get to know us better!

Who We Are – Electrum Holding

Economic and Environmental Benefits

One cannot overlook the benefits that photovoltaic farms bring. Savings on energy costs are one of the main arguments for investing in the construction of photovoltaic farms. The sun is a free source of energy, and photovoltaic panels allow for its efficient harvesting. This means lower electricity bills for farm owners and potential profits from surplus energy that can be sold back to the grid.

The environmental benefits of building photovoltaic farms are equally important. Photovoltaic farms are environmentally friendly because they do not emit carbon dioxide or other harmful substances into the atmosphere. This significantly reduces the impact on climate change and improves air quality.

Investing in Solar Farm Construction

The cost of building a solar farm depends on factors such as:

  • Size and Capacity of the Farm: A large photovoltaic farm will require more solar panels, support structures, inverters, and other equipment, which will impact costs.
  • Location of the Farm: Land costs, availability of energy infrastructure, permit fees, and differences in labor costs can vary significantly depending on the location.
  • Technology and Equipment: The selected PV panels, inverters, and other components of the photovoltaic farm affect construction costs.
  • Availability of Materials: Prices for construction materials can vary depending on the region and may change over time.
  • Labor Costs: Costs associated with hiring workers to install panels and perform other tasks related to the construction of the farm.
  • Other Factors: Such as project management costs, insurance, costs related to connecting the farm to the energy grid, etc.

Innovations and the Future of Solar Systems

The latest innovations in the field of solar power plants include increased efficiency of photovoltaic panels. New panel technologies allow for more efficient use of sunlight, which increases the overall efficiency of solar farms. Additionally, thin photovoltaic layers are being developed, which can be flexible and easier to install. This opens up new possibilities in the design and use of PV panels.

Challenges and Solutions in Photovoltaic Farm Construction

Solar farm construction construction may encounter various challenges. One of them is obtaining the necessary permits and adhering to regulations concerning renewable energy projects. In some regions, this process can be complicated and time-consuming. Obtaining permits and selecting the location of a solar farm are crucial factors that should be handled with the help of specialists.

Another challenge is managing photovoltaic farm projects. Coordinating the actions of multiple teams, procuring materials, meeting delivery deadlines, and maintaining high safety standards are important issues that need to be considered.

Installation of solar panels. Electrum Holding solar project

Solar Energy Contractors

Collaborating with an EPC contractor for renewable energy projects (RES) offers many advantages. EPC contractors have extensive experience in designing, building, and managing photovoltaic farms and other renewable energy projects. This allows investors to benefit from expert knowledge, increasing project efficiency and minimizing risk.

Solar energy contractors also handle comprehensive project management, meaning investors can focus on their core activities while specialists take care of all technical and logistical aspects of the project.

Read about our solar projects:

Another Innovative Project Completed by Electrum – PV Kotuń with Solar Tracker Technology

Lipno Solar Park: One of the Largest Photovoltaic Farms in Poland Built by Electrum

Electrum Initiates Construction of Photovoltaic Farms in Sztum and Mikołajki Pomorskie

Solar Farm Construction – Summary

Building solar farms is not only economically beneficial but also contributes to environmental protection. The development of photovoltaic technology, investment in renewable energy sources, and collaboration with EPC contractors for renewable energy projects are key factors in building the future of sustainable energy. Photovoltaic farms represent an important step towards more eco-friendly and efficient energy production.

Build a Solar Farm with Electrum Holding!

Contact Us

 


Solar Farm Construction FAQ

1. What are the main benefits of building solar power plants?

The main benefits of building solar power plants include energy cost savings, the production of clean energy, the reduction of greenhouse gas emissions, improvement of air quality, and potential profits from surplus energy that can be sold back to the grid. For investors, this also means a stable source of income.

2. Are solar farms profitable in all regions?

Solar farms can be profitable in many regions, especially where there is abundant sunlight. However, the farm’s efficiency depends on location and climatic conditions. Therefore, a thorough analysis of the site and project is essential before constructing a farm.

3. What are the latest technological innovations in solar panels?

The latest innovations in photovoltaic technology focus on increasing the efficiency of converting solar energy into electricity. New panel technologies allow for more efficient use of sunlight. Additionally, thin photovoltaic layers are being developed, which are more flexible and easier to install.

4. What does it mean to be an EPC contractor for renewable energy projects?

EPC (Engineering, Procurement, and Construction) contractors for renewable energy projects are specialized solar farm construction companies that manage renewable energy projects, including solar, wind power plants, and more. Collaboration with an EPC contractor allows investors to benefit from expertise and professional project management.

5. What challenges might arise during the solar farm construction?

Solar power plant construction  can face various challenges, including obtaining the necessary permits and complying with regulations for renewable energy projects. The construction contractor is responsible for executing multiple stages of the project. Coordinating the efforts of multiple teams, procuring materials, meeting delivery deadlines, and maintaining high safety standards are crucial issues. Collaboration with an EPC contractor for renewable energy projects can help effectively manage these challenges.

Climate Tech Trends: Technologies for a Sustainable Future

Climate Tech refers to modern technologies that aid in combating climate change. Among these are alternative energy systems, which are essential for a sustainable future.

Alternative energy encompasses various technologies, such as the solar farm construction or wind farms construction. These power plants use renewable energy sources like the sun and wind to generate electricity. Thanks to them, we can reduce our dependence on fossil fuels and contribute to environmental protection.

Climate Tech

Remember, Climate Tech technologies are our future. With their help, we can create a world that is sustainable and safe for future generations.

Climate Tech Trends

Climate Tech technologies in the power industry also cover a wide range of innovations aimed at combating climate change. The future of the power sector looks promising, focusing on creating more sustainable and efficient energy systems. Below are some key trends.

Accelerating the Development of Renewable Energy Systems

As technologies become more advanced, renewable energy sources like solar and wind power are becoming more efficient and accessible.

Phasing Out Fossil Fuels

As the world strives to reach net-zero emissions, fossil fuels are gradually being phased out in favor of cleaner energy sources.

Expanding the Power Grid

To meet the growing demand for energy, power grids must be expanded and modernized.

Decarbonizing Industry

Industry is one of the main sources of carbon dioxide emissions, so decarbonization is crucial to achieving climate goals.

Power Electronics

Power electronics play a key role in converting voltages and currents from one level to another, which is essential for the efficient use of energy.

Engineering Innovations

Breakthrough engineering discoveries, such as perovskite solar cells, solid-state batteries, nuclear energy, and smart grids, are shaping the future of the energy sector.

All these trends aim to create a more sustainable and efficient future for the power industry.

Read Also:

Skip to content