PAD RES and Electrum Concreo will build a photovoltaic power plant complex with a total capacity of 130.4 MWp. The complex, named PV Stargard, will be located in the West Pomeranian Voivodeship. The agreement, signed by both companies in recent weeks, also includes the creation of an energy distribution system consisting of 63 km of MV and HV cable lines.
Electrum Concreo, a company operating within the Electrum group with a climate tech profile, has previously collaborated with PAD RES as a general contractor on several projects. It has previously completed the construction of the 35 MW Genowefa photovoltaic farm, located in central Poland, and is currently constructing two solar facilities with a total capacity of 117 MW in Sztum and Mikołajki.
“The PV Stargard complex is another significant initiative within the portfolio of renewable energy projects in the PAD RES group, emphasizing our commitment to the development of green energy and active involvement in the energy transformation process,” evaluates Wojciech Jasiński, Director of Construction Department at PAD RES. “It is no coincidence that we invited Electrum to implement this project. This decision was influenced, among other things, by the successful cooperation in the implementation of previous contracts and understanding the complexity of the planned undertaking. We see that we share common goals – we want our projects to contribute to further transforming Poland towards a more sustainable energy future,” explains Wojciech Jasiński.
“This is our next investment carried out jointly with PAD RES in Pomerania. Investments in this region are of particular importance to our business,” emphasizes Tomasz Słyż, Director of Implementation Team at Electrum Concreo. “We are pleased that through this implementation, we have the opportunity to work together with our partner towards the development of modern technologies for energy transformation and economic decarbonization,” adds Tomasz Słyż.
The PV Stargard photovoltaic power plants will cover an area of 176 hectares and generate energy equivalent to powering 69,000 households, thereby avoiding emissions of over 118,000 tons of carbon dioxide. The installation is expected to be operational in the first quarter of 2025.
About Electrum
Electrum Group is a leading Polish Climate Tech business based in Białystok, offering comprehensive solutions in the field of cutting-edge technology development, project construction, and management in the energy and information sectors. The technological maturity of its experts allows them to deliver products and services that respond to the evolving needs of the industry and businesses in line with the ongoing energy transformation. Electrum creates and implements solutions and builds projects based on the idea of an individual energy mix, striking a balance between the social and environmental responsibility of the business and its economic aspect.
PAD RES is a Polish developer of clean energy specializing in projects related to renewable energy, infrastructure investments, and commercial real estate. Founded in 2010, the company successfully manages the development of its investments from inception to the “ready for construction” or “ready for operation” stage. In September 2021, the majority of PAD RES shares were acquired by Griffin Capital Partners and Kajima Europe. The group plans to focus on further developing the PAD RES portfolio, which includes investments in photovoltaic and wind projects at various stages of development, both in the developer phase and ready for construction, with a total secured capacity exceeding 1 GW. Such a portfolio places the platform at the forefront of the developing national renewable energy sector.
Solar power plants are among the most promising sources of renewable energy, helping to reduce carbon emissions and save on costs. However, to fully benefit from this technology, proper solar power maintenance is essential.
In this article, you’ll learn about:
The process of solar power maintenance,
Diagnostic systems that monitor the condition of panels, inverters, meters, and other components of solar installations,
Analytical systems that use sensor data to detect anomalies, forecast energy production, optimize system performance, and generate reports,
Security systems that protect the farm from intrusions, fires, surges, or mechanical damage using motion, smoke, temperature, and humidity sensors.
How does solar power maintenance and servicing work?
Managing photovoltaic farms requires continuous attention and specialized knowledge.
24/7 Control Center
We ensure continuous operation and quick response to potential failures. Our team of farm specialists monitors systems around the clock, and if irregularities are detected, a diagnostic procedure is immediately initiated. If possible, repairs are done remotely, allowing for rapid restoration of full functionality.
Preventive Maintenance
This includes regular technical inspections conducted on a monthly, semi-annual, and annual basis. These inspections help anticipate potential problems and ensure long-term efficiency of the installation. They are tailored to the client’s specific needs and comply with both manufacturer recommendations and construction law.
We offer comprehensive corrective repairs that restore equipment to its pre-fault condition. We also support our clients in warranty and insurance claims processes, preparing necessary reports, damage assessments, and identifying elements that may require future attention.
At Electrum, we ensure that every solar power plant operates flawlessly. Our O&M services provide peace of mind and the assurance that our clients’ investments are in good hands.
EMACS is a modern diagnostic system that revolutionizes power plant management. With EMACS, operational costs are reduced through continuous infrastructure monitoring and quick response to failures, often with the option for remote repairs. This system not only improves technological processes through automation but also provides detailed insights into the energy balance, which is crucial for industrial installations.
With EMACS, you reduce the risk of failures and increase safety thanks to comprehensive insight into energy production and equipment condition. Moreover, the system provides full control over the facility, is easily accessible from any device, requires no specialized infrastructure, and offers intuitive operation with customizable access management.
Solar power maintenance and network diagnostics with Centrix Evolution
Centrix Evolution, offered by Electrum, provides unparalleled precision and safety in locating and repairing power network faults. As the only modern measurement vehicle of its kind in Poland, Centrix Evolution uses advanced technology to efficiently inspect and service power grids, delivering the fastest and most accurate results while minimizing risk and costs.
Features of Centrix Evolution
Centrix Evolution is more than just fault location. With functions like IFL, ICE, and Decay, ARM® Multishot, ProRange, and MFM 10, this system enables full network diagnostics. Integrated with advanced software, Centrix Evolution provides comprehensive information about the technical condition of infrastructure, allowing for intelligent repair predictions.
Teleflex® Locator for solar power maintenance
With Teleflex®, a top-class locator, Electrum ensures precise fault localization, saving time and resources. Additionally, Centrix Evolution supports electrical endurance tests and HV diagnostics, offering services like tg delta diagnostics, cable route location using the Signal-Select® method, and MeggerBook – an intelligent database for optimal data management.
SCADA: The heart of modern solar power monitoring and service
The SCADA (Supervisory Control and Data Acquisition) system is a key element ensuring the professional management of photovoltaic farms by providing security, reliability, and performance optimization. As a central IT system, SCADA collects valuable data from various measurement and execution devices, enabling their visualization and effective control of production processes.
With SCADA, solar farm operators have access to real-time measurements, can visualize data in clear diagrams, charts, and tables, and can automate the energy production process. This system also allows for the archiving of historical data and the generation of detailed reports, which are invaluable for long-term analysis and optimization.
Quick response to irregularities
SCADA is indispensable for solar farms, as it provides comprehensive oversight of areas where the farms are located, as well as the operational parameters of the equipment. Detecting and alerting about irregularities, such as intrusions or exceeding alarm thresholds, allows for a quick response and minimizing damage risk. The SCADA system also enables remote control of the energy production process, adjusting operational parameters to current weather conditions and energy demand. This results in increased efficiency and quality of the energy delivered to the grid.
Solar power maintenance – Summary
By utilizing maintenance solutions, photovoltaic farms can not only increase efficiency and reliability but also reduce maintenance costs. This makes photovoltaic farms an even more attractive source of renewable energy for homes, businesses, and communities.
Photovoltaic panels, also known as PV panels or solar panels, are devices that capture electrical energy from solar radiation. This is achieved by utilizing the photovoltaic effect, where solar photons generate electric current in specialized modules.
Photovoltaic panels (PV) are a technology that is gaining increasing popularity as a means of generating one’s renewable electrical energy. In simple terms, solar panels allow for the transformation of solar energy into electrical energy, which can significantly reduce electricity bills and positively impact the environment.
1.2 Structure of Photovoltaic Panels
PV panels consist of several key components, including:
photovoltaic cells,
a direct current to alternating current converter,
and protective frame.
Each of these components plays a crucial role in the process of converting solar energy into electricity.
II. How PV Panels Work
2.1 Processing Solar Radiation
The primary function of PV panels is to process solar radiation into electrical energy. This process involves the stimulation of electrons in photovoltaic cells by solar photons, which generates electric current.
2.2 Photovoltaic Modules
Photovoltaic modules are comprised of numerous photovoltaic cells connected into a single unit. These modules are responsible for converting solar energy into electrical energy. It’s essential to understand the differences between monocrystalline, polycrystalline, and amorphous cells, as they impact the efficiency of PV panels.
Solar panels operate based on the photovoltaic effect. This means that after being exposed to sunlight, photovoltaic modules generate electric current. Each panel consists of multiple individual photovoltaic cells, and the entire installation may contain multiple panels connected in one system.
III. Benefits of Using Photovoltaic Panels
3.1 Cost Savings
One of the primary reasons people choose to install solar panels is to reduce their electricity bills. Energy produced by photovoltaic panels can power a household, resulting in substantial long-term savings.
PV panels are an investment that yields financial savings over time. While the initial cost of purchase and installation may be significant, this investment pays off multiple times in the long run. Why? Because solar panels allow for the production of one’s electricity, reducing electricity bills. In some cases, surplus energy can be sold to the grid, generating additional income.
3.2 Environmental Impact
Using solar energy is not only economically beneficial but also environmentally friendly. PV panels do not emit harmful greenhouse gases or other air pollutants, contributing to a reduced impact on climate change.
Photovoltaic panels are environmentally friendly. They utilize solar energy, producing no emissions of harmful greenhouse gases or other air pollutants. Therefore, using solar panels not only leads to financial savings but also actively contributes to environmental protection.
IV. Installation and Maintenance of PV Panels
4.1 PV Panel Installation
PV panel installation is a complex process that requires technical knowledge. Before commencing the installation, it’s necessary to obtain the required permits and conduct a thorough assessment of the installation site.
The PV panel installation process begins with a precise evaluation of the installation site. Specialists take into account the direction and slope of the roof to optimize panel efficiency. Then, PV panels are mounted on an appropriate structure, and the entire system is connected to the electrical grid.
Solar panels require regular maintenance to maintain their efficiency at an optimal level. There are also servicing options available to address any breakdowns or installation issues.
PV panel maintenance involves monitoring their performance, cleaning the modules, and checking that all system components are functioning correctly. Regular inspections are advisable to prevent unplanned disruptions in electricity supply.
V. PV Panels and the Future of Energy
5.1 Alternative Energy Systems
Solar panels play a crucial role in the development of alternative energy systems. They are an integral part of the energy transition, reducing dependence on traditional energy sources.
Photovoltaic panels are an essential element of the future of energy. As energy demand grows, and concerns about greenhouse gas emissions rise, PV technology becomes increasingly vital. It contributes to sustainable energy development.
5.2 Climate Tech
In the context of the growing importance of climate technologies, PV panels are a vital component of the fight against climate change. By producing clean energy, they contribute to the protection of the planet.
Photovoltaic panels are part of the trend in climate technologies, aiming to reduce the negative impact of human activities on the environment. This solution combines economic and ecological aspects, creating a win-win situation for users and the planet.
How to choose PV panels? When choosing solar panels, important factors to consider include energy efficiency, performance in various weather conditions, and investment costs.
6.2 Technical Support
Finding the right supplier and technical support is crucial for a successful PV panel installation. A good partner can help in selecting the right system and provide essential post-installation support.
If you need a trusted partner for collaboration, contact us!
In summary, PV panels are an attractive solution from both an economic and ecological perspective. They enable the production of electricity, reducing electricity bills and positively impacting the environment. If you are considering investing in a renewable energy source, photovoltaic panels are worth considering.
VIII. Costs and Return on Investment
8.1 Initial Investment
Investing in PV panels involves initial costs, including panel purchase, installation, inverters, and other accessories. These costs may vary depending on the chosen system and supplier. However, it’s essential to remember that this is an investment that pays off over time.
8.2 Return on Investment (ROI)
The value of PV panels lies not only in electricity production but also in the return on investment. The ROI depends on various factors, including location, panel efficiency, energy prices, and financial support. For many people, the return on investment is achieved in a relatively short period, making solar panels an attractive solution.
IX. Technologies and Trends in PV Panel Development
9.1 Advancements in PV Technology
The photovoltaic industry is continuously evolving, introducing new technologies and improvements that enhance the efficiency of PV panels. One example is PERC (Passivated Emitter Rear Cell) technology, which boosts the efficiency of photovoltaic modules.
9.2 Energy Storage
Energy storage systems has become a significant trend in the energy industry. PV panels allow for the production of surplus energy that can be stored in batteries for use when it’s most cost-effective.
The PV panel market in Poland is growing rapidly. The increase in ecological awareness and government support in the form of grant programs have contributed to the popularity of this technology.
10.2 Current Trends
Currently, there is a growing number of households in Poland opting to install PV panels. This demonstrates the increasing awareness of society regarding the use of renewable energy sources.
XI. PV Panels in Industry
11.1 Industrial Utilization
Solar panels are not limited to residential use. An increasing number of companies and industrial facilities are adopting this technology to power their operations, reducing costs and gaining access to green energy.
Solar farms encompass extensive areas covered with PV panels, generating substantial energy. They are used to power cities, industrial plants, and other large consumers.
Solar panels are one of the elements of the future of renewable energy. Renewable sources are becoming increasingly competitive compared to traditional ones.
12.2 The Role of PV Panels
Photovoltaic panels will play a key role in the energy transformation. As the demand for energy grows, PV technology will be crucial in providing clean energy.
XIII. How to Choose the Optimal PV System
13.1 Consultation with Experts
When choosing the right PV system, it’s advisable to consult with experts who can help select the best solution based on individual needs.
13.2 Efficiency Analysis
It’s worth analyzing thoroughly the benefits that can be achieved by installing PV panels, taking into account local climate conditions, energy prices, and available financial support.
PV panels represent an innovative solution with enormous potential in the field of electricity production. Their growing popularity is due to numerous benefits, such as financial savings, a positive environmental impact, and advancing technology.
XV. Frequently Asked Questions
Is investing in photovoltaic panels profitable in the long run?
What financial support is available for those choosing to install PV panels?
Are solar panels environmentally friendly?
What are the costs and benefits of storing energy generated by photovoltaic panels?
What future technologies may impact the development of PV panels?
Is investing in solar panels cost-effective in the long term?
Yes, investing in photovoltaic panels is cost-effective in the long term. Although the initial costs may be significant, PV panels allow for the generation of your own electricity, leading to a reduction in electricity bills. In many cases, the return on investment is achieved in a relatively short period.
What financial support is available for those choosing to install PV panels?
In Poland, there are several forms of financial support for individuals installing PV panels. You can take advantage of government programs such as “Mój Prąd” or “Czyste Powietrze,” which offer grants or preferential loans for the installation of photovoltaic panels. Additionally, there are various EU funds and local initiatives supporting renewable energy sources.
Are solar panels environmentally friendly?
Yes, solar panels are environmentally friendly. They harness solar energy without emitting harmful greenhouse gases or other air pollutants. Therefore, using PV panels contributes to the protection of the natural environment and reduces the impact on climate change.
What are the costs and benefits associated with storing energy generated by photovoltaic panels?
The costs of storing energy generated by photovoltaic panels depend on the type and capacity of the storage system. However, energy storage can be cost-effective, allowing you to use your own energy when it is most profitable, such as during peak hours when electricity prices are higher. It also provides energy independence in case of power outages.
What future technologies may impact the development of solar panels?
The future of PV panels is promising, and evolving technologies can enhance their efficiency. One example is PERC (Passivated Emitter Rear Cell) technology, which increases the efficiency of photovoltaic modules. Additionally, energy storage technologies are advancing, enabling even more efficient utilization of energy generated by PV panels.
Considering these answers, the installation of PV panels represents an attractive investment from both an economic and environmental perspective.
Solar panels – an investment in the future
Photovoltaic panels are not just a source of energy but also an investment in the future that can bring many benefits to households, businesses, and the natural environment. If you are considering the installation of PV panels, it is a step toward a more sustainable and economically sound future. Properly adapting solar panels to your needs and local conditions can bring both economic and environmental advantages. Generating your electricity can lower electricity bills and contribute to environmental protection. PV panels are an investment that pays off in the long term while remaining eco-friendly. It’s worth considering the installation of photovoltaic panels as a way to increase energy independence and reduce the impact on climate change.
Electrum Group, a leading Polish Climate Tech business, has begun the implementation of another large-scale project as the general contractor. The construction of two photovoltaic farms with a combined installed capacity of 117.1 MW has just commenced in the locations of Sztum and Mikołajki Pomorskie in the Pomeranian Voivodeship. The completion of both projects is scheduled for spring 2025.
The power plants in Sztum and Mikołajki Pomorskie mark the second collaboration between Electrum and PAD RES, a prominent Polish developer in the clean energy sector, and the sixth major project announced by the contractor this year. In recent months, Electrum has completed work on a joint venture with Nofar Energy on a solar farm in Krzywińskie, and on September 21, as part of its cooperation with investor EDP Renewables, Electrum Group officially inaugurated the construction of a power plant in Przykona. Additionally, Electrum plans to expand into international markets.
„PV Sztum and PV Mikołajki are significant projects for Electrum. We are progressively working towards our goal and utilizing technology and knowledge to build the energy infrastructure of the future. The projected annual production of PV Sztum and PV Mikołajki will have the capacity to power up to 65,000 households” – said Robert Rogowski, Senior Project Manager at Electrum Group.
The Sztum power plant is a comprehensive project, including photovoltaic panels with a capacity of 86.1 MW, spread across two smaller farms with a total area of 113.3 hectares – PV Barlewice (65.8 MW DC) and PV Koślinka (20.3 MW DC). Adequate connections between the components of the complex will be ensured by two medium-voltage power lines of approximately 30 kV and a common length of about 13 kilometers, while the critical point responsible for connecting to the power grid will be the GPO Kępina substation.
The smaller installation, the photovoltaic farm in Mikołajki Pomorskie, has a production capacity of 31 MW on an area of 50 hectares, distributed between PV Mikołajki (5 MW DC) and PV Gdakowo (26 MW DC). In this case, investments have also been made in extensive supporting infrastructure, including nearly 5 kilometers of power lines and a high-voltage line with a length of about 500 meters. The power grid will be connected to the farm through the GPO Mikołajki substation, operating at a voltage of 110/30 kV.
The finalization of formalities related to the implementation was announced in August of this year. The construction of both farms simultaneously began in September, with their completion expected in the spring of 2025.
Electrum Group is a leading Polish Climate Tech business based in Białystok, offering comprehensive solutions in the field of cutting-edge technology development, project construction, and management in the energy and information sectors. The technological maturity of its experts allows them to deliver products and services that respond to the evolving needs of the industry and businesses in line with the ongoing energy transformation. Electrum creates and implements solutions and builds projects based on the idea of an individual energy mix, striking a balance between the social and environmental responsibility of the business and its economic aspect.
Renewable Energy Contractor and Comprehensive Implementation
A Renewable Energy Contractor is an entity that specializes in the comprehensive implementation of projects related to renewable energy sources. In today’s world, as climate change becomes increasingly apparent and electricity costs rise, investments in renewable energy are becoming more profitable. A renewable energy contractors offer complete business solutions in the energy sector, including the construction of energy sources such as photovoltaic and wind farms.
Services Offered and Benefits of Working with a RES Contractor
Comprehensive energy solutions are one of the services provided by a RES contractor. This includes the design and construction of energy installations that utilize renewable energy sources.
Wind farms construction and solar farms construction (as well as hybrid renewable energy systems) is another service offered by the renewable energy contractor. This involves designing and building photovoltaic installations and wind turbines that harness solar and wind energy for electricity production. This helps reduce greenhouse gas emissions and contributes to the protection of the natural environment.
Collaborating with a general RES contractor operating as a one-stop-shop for renewable energy installations can bring numerous benefits. Primarily, such a company offers complete business solutions in the energy sector, encompassing design, construction, and maintenance of energy installations based on renewable sources.
Renewable Energy Contractors and One-Stop-Shop
Working with a one-stop-shop allows for saving time and money, as there’s no need to search for multiple contractors to execute renewable energy projects. Another benefit of partnering with a one-stop-shop contractor is the support provided in navigating the formalities and administrative procedures related to the implementation of renewable energy projects.
In summary, collaborating with a one-stop-shop for renewable energy installations can yield many advantages. Through comprehensive business solutions in the energy sector, it is possible to reduce greenhouse gas emissions and lower electricity generation costs.
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Read more about the One-Stop-Shop concept: About Us
Alternative Energy as a New Path in Energy Production
Alternative energy is a field that is gaining popularity as the climate crisis advances. Alternative energy systems, such as the solar farm construction and wind farm construction, are becoming increasingly common to meet the demand for electrical power.
Alternative Energy and RES
Renewable energy sources (RES) are a key component of alternative energy. Among them, photovoltaic farms and wind farms stand out. The construction of photovoltaic farms involves the installation of PV panels that convert solar energy into electrical energy. PV panels are becoming more efficient and cheaper to produce, making them increasingly popular. Wind farm construction involves the installation of wind turbines that convert the kinetic energy of the wind into electrical energy. Wind farms are particularly effective in regions with strong winds.
Climate Tech
Alternative energy is a crucial component of Climate Tech – technologies aimed at combating climate change. Unlike traditional energy sources such as fossil fuels, RES do not emit greenhouse gases and do not contribute to global warming. Furthermore, RES are unlimited and available worldwide.
Challenges for Alternative Energy
One of the challenges for alternative energy is the lack of stability in the energy supply. In the case of photovoltaic and wind farms, energy is only produced when weather conditions are appropriate. To address this issue, it is necessary to develop new technologies for storing electrical energy.
Renewable Energy Systems as a Solution to Problems
In summary, alternative energy is a new path in electrical energy production. Alternative energy systems, such as the construction of photovoltaic and wind farms, are a key element of this field. RES are unlimited and available worldwide, and they do not emit greenhouse gases. One of the challenges for alternative energy is the lack of stability in the energy supply, but the development of new technologies for storing electrical energy can help address this issue.
