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.
You May Also Be Interested In:
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.
Electrum starts construction of photovoltaic farms in Sztum and Mikołajki Pomorskie
Electrum Group, a leading Polish Climate Tech company, has launched another large-scale investment project as a general contractor. Construction has officially begun on two photovoltaic farms with a total installed capacity of 117.1 MW in Sztum and Mikołajki Pomorskie, in the Pomeranian Voivodeship. Both projects are scheduled for completion in spring 2025.
The solar power plants in Sztum and Mikołajki Pomorskie mark the second collaboration between Electrum and PAD RES — a leading Polish developer in the clean energy sector — and the sixth major project under execution announced by the contractor this year. In recent months, Electrum has completed, among others, the Krzywińskie solar farm project in partnership with Nofar Energy. On September 21, together with investor EDP Renewables, Electrum celebrated the official opening of the Przykon solar power plant. The company also plans to expand into foreign markets.
“PV Sztum and PV Mikołajki are another milestone for Electrum. We are consistently achieving our goal by using advanced technologies and expertise to build the energy infrastructure of the future. The projected annual output from PV Sztum and PV Mikołajki will be enough to power up to 65,000 households.”– Robert Rogowski, Senior Project Manager at Electrum Group.
The Sztum power plant is a comprehensive project with 86.1 MW of PV capacity installed across two sub-sites covering a total area of 113.3 hectares — PV Barlewice (65.8 MW DC) and PV Koślinka (20.3 MW DC). The integration of all components within the complex will be supported by two 30 kV medium-voltage transmission lines with a total length of approximately 13 kilometers. The connection to the national grid will be made via the GPO Kępina substation.
The smaller installation — the Mikołajki Pomorskie solar farm — consists of 31 MW of production capacity across 50 hectares, divided between PV Mikołajki (5 MW DC) and PV Gdakowo (26 MW DC). Here too, extensive supporting infrastructure is being built, including nearly 5 kilometers of transmission lines and a 500-meter-long high-voltage line. The site will be connected to the grid via the GPO Mikołajki substation, operating at 110/30 kV.
The permitting and legal processes were finalized in August this year. Construction on both farms began simultaneously in September, with completion expected in spring 2025.
Electrum Group is a leading Polish Climate Tech company based in Białystok, offering comprehensive solutions using the latest technologies for the development, construction, and management of energy and information projects. The technological maturity of its experts enables the delivery of products and services tailored to the evolving needs of industry and business as the energy transition advances. The company designs and implements solutions and delivers projects based on the concept of an individual energy mix — balancing social and environmental responsibility with economic performance.
Wind farms are one of the most popular sources of renewable energy. They contribute to reducing greenhouse gas emissions and air pollution.
How Do Wind Power Plants Work?
Wind power plants harness the force of the wind to generate electrical energy. The wind drives the turbine blades, which then transfer the energy to a generator. The generator converts it into electrical energy. Wind power plants are typically constructed in areas with high wind speeds, such as coastal regions or mountains.
Advantages of Wind Power Plants
Wind power plants offer several advantages, including:
Clean Energy: Wind power plants do not emit greenhouse gases or other air pollutants.
Renewable: Wind is an infinite source of energy, meaning wind power plants can operate for many years without the need for fuel replenishment.
Low Operating Costs: After installing a wind power plant, operating costs are relatively low.
Scalability: Wind power plants can be built in various sizes, from small turbines on rooftops to large wind farms.
Disadvantages of Wind Power Plants
Wind power plants also have several disadvantages, including:
Dependence on Weather Conditions: Wind power plants require strong and consistent winds to generate electrical energy. In the absence of wind or in the presence of excessively strong winds, the power plant may cease to operate.
Environmental Impact: The construction of wind power plants can affect the natural environment, particularly if they are built in protected areas or areas inhabited by wildlife.
Alternative Energy Systems
Wind power plants are just one of many alternative energy sources. Other alternative energy systems include solar power plants, hybrid power plants, geothermal power plants, and hydroelectric power plants.
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:
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.
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.
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
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.
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.
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!
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.
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.
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.
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.
In the face of climate change and the growing need for efficient energy utilization, building RES (Renewable Energy Sources) has become a crucial element in the transformation of the energy sector. Modern technologies like Climate Tech open up new horizons in energy generation, contributing to the creation of a sustainable future.
RES Construction – hybrid, wind and solar farms
One of the main trends in the development of alternative energy is the solar farm construction. PV panels enable the conversion of solar energy into electricity, reducing our dependence on fossil fuels. However, they are not the sole source of clean energy. The construction of wind farms and wind power plants harness the power of the wind to produce electricity, becoming increasingly efficient and accessible.
From design to construction completion
To implement RES projects, it is crucial to engage a general contractor for RES and a general contractor for power grids. They play a key role in planning, designing, and implementing the infrastructure that enables the efficient utilization of renewable energy.
After RES construction – management of renewable energy facilities
It’s important to remember that building RES is not just about physical infrastructure but also about the maintenance and servicing of existing solutions. Solar power maintenance and wind turbine maintenance are an integral part of the RES ecosystem, ensuring the uninterrupted operation of installations and their long-term efficiency.
As technologies become more advanced, comprehensive technological solutions allow for more effective management and monitoring of RES systems. Companies offering comprehensive business solutions in the field of energy and comprehensive energy solutions provide tools that support sustainable development and energy management.
In summary, building RES and developing energy systems based on renewable energy sources are crucial steps towards a sustainable future. They open up new horizons in energy generation, contributing to the reduction of CO2 emissions and the protection of our natural environment. Therefore, investing in RES-related projects and utilizing comprehensive technological solutions is a significant contribution to building a more eco-friendly and 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.
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.
In today’s world, as climate change becomes increasingly visible, investments in renewable energy sources are crucial for the future of power engineering. Alternative energy systems such as wind farms and photovoltaics, along with climate technologies and the construction of new energy sources, form the foundation for future investments in power engineering.
Wind farms harness the power of the wind to generate electrical energy. In Poland, one of the largest wind farms in Europe can be found – the Wind Park in Potęgowo, consisting of 81 turbines with a total capacity of 219 MW. This facility helps reduce CO2 emissions by approximately 514,000 tons annually.
On the other hand, photovoltaic farms use solar energy to produce electricity. In our country, we can boast one of the largest solar power plants in Europe, located in Przykona, Wielkopolska. It is the second-largest photovoltaic farm in Poland, comprising 380,000 PV panels with the potential to produce 220 GWh of electrical energy annually, enough to power over 100,000 households.
Climate technologies are innovative solutions that aid in reducing greenhouse gas emissions and increasing energy efficiency. One example is the cable pooling solution, designed to facilitate the development of large photovoltaic farms, secured by connections for installations such as wind turbines. Another example is smart grid technology, which enables better management of the power grid through the use of intelligent monitoring and control systems.
Construction of Energy Sources
The construction of renewable energy sources requires careful planning and design. The first step is selecting the appropriate location to ensure optimal energy source efficiency. Next, the installation must be designed to meet technical and safety requirements.
If you’re interested in building renewable energy sources, also read:
Investments in renewable energy sources are pivotal for the future of power engineering. Alternative energy systems, like wind and photovoltaic farms, as well as climate technologies, such as cable pooling and smart grids, offer innovative solutions to reduce greenhouse gas emissions and increase energy efficiency. The construction of renewable energy sources demands proper planning, design, and support from the government.
Climate Tech and the Development of Alternative Energy Systems
Climate Tech refers to the application of modern information and communication technologies (ICT) to address issues related to climate change and the energy transition.
Table of Contents
How does Climate Tech affect the development of RES?
Easier integration of RES into the power grid
Greater energy efficiency
Climate Tech and the development of electric and low-emission mobility
Development of energy communities and prosumer initiatives
Impact of Climate Tech – Summary
How does Climate Tech affect the development of RES?
The climate technology sector influences the development of alternative energy systems by:
Easier Integration of RES into the Power Grid
Facilitating the integration of renewable energy sources (RES) into the power grid through the use of smart meters, sensors, algorithms, and digital platforms to monitor, manage, and optimize energy production, distribution, and consumption.
Greater Energy Efficiency
Increasing energy efficiency and energy savings by utilizing Internet of Things (IoT) technologies, artificial intelligence (AI), machine learning (ML), and data analytics to automate and personalize lighting, heating, ventilation, and air conditioning (HVAC) systems in buildings and vehicles.
Climate Tech and the Development of Electric and Low-Emission Mobility
Supporting the development of electric and low-emission mobility through the use of blockchain technology, 5G, cloud computing, and big data to create smart charging networks, manage electric vehicle fleets, and facilitate shared transportation.
Promoting the Development of the Hydrogen and Biogas Economy
Promoting the development of the hydrogen and biogas economy through the use of biotechnology, nanotechnology, electrolysis, and catalysis technologies for the production, storage, transportation, and use of hydrogen and biogas as energy carriers.
Development of Energy Communities and Prosumer Initiatives
Enabling the development of energy communities and prosumer initiatives by using social networking technologies, mobile applications, games, and gamification to engage citizens, foster ecological education and awareness, and promote collaboration among energy users.
Impact of Climate Tech – Summary
The sector is crucial for accelerating the energy transition and combating climate change. According to the Climate Tech VC report, the sector attracted over 60 billion dollars in investments in 2020, marking a 3000% increase compared to 2013. The sector also has significant potential for creating new jobs, fostering innovation, and enhancing competitiveness in the global market.
Nearly 308,000 double-sided photovoltaic panels will generate enough energy to power over 100,000 households annually. The Przykona photovoltaic farm will be the second-largest installation of its kind in Poland, but with the potential to increase its capacity by an additional 40 MW, it has the potential to become one of the largest photovoltaic power plants in Central and Eastern Europe.
Solar farm construction lasted for over a year, with nearly 500 people working on the construction site during peak periods. The project has a total installed capacity of 200 MWp and will generate approximately 220 GWh annually, thus avoiding the use of traditional fossil fuels to produce the same amount of energy.
The Przykona Power Plant will also prevent the emission of over 208,000 tons of CO2 annually. It was installed on the site of a rehabilitated brown coal mine and covers an area of 270 hectares, equivalent to 375 soccer fields. This new photovoltaic power plant in the Przykona municipality represents a significant step in the development of renewable energy in Poland. The project, created in collaboration with EDP Renewables, is an excellent example of effective energy infrastructure implementation.
During the project, we made every effort to propose optimal and modern solutions to our partner, which will allow for the full utilization of the facility’s potential during its operational phase and add value to the investment. The Przykona PV photovoltaic farm is not the first project that Electrum has completed for EDP Renewables, and we hope it won’t be the last. We feel that in EDP Renewables, we have found a partner who shares our vision of a sustainable future and takes concrete actions towards building a green energy system – says Tomasz Taff from the Electrum Group.
The Przykona PV solar farm is another milestone in our collaboration with EDP Renewables, demonstrating our commitment to building a sustainable energy future.”
A charitable balloon filled with music will once again rise into the air over the most charming areas of Podlasie as part of the Second Flying Ambient Salon campaign. The project’s goal is to support the Prophet Elijah Hospice Foundation, which takes care of improving the lives of seniors. Those willing to support the campaign and experience a unique flight in the air with the sounds of Ambient still have a chance to participate in a special online fundraiser.
The unique formula of the Flying Ambient Salon combines unforgettable experiences offered by a balloon flight with an artistic feast for music lovers. The event is organized for the second time. Last year, thanks to the generosity of donors, the organizers of the campaign raised over 20,000 PLN, which was donated to the Give Children Strength Foundation.
In this year’s edition of the Flying Ambient Salon, we want to draw attention to the fact that by taking care of the future of our planet, it is worth remembering the people who took care of it in the past. For this reason, we have decided that the entire amount collected as part of the campaign will go to the Prophet Elijah Hospice Foundation. We are delighted that, just like last year, we can collaborate with the Up To Date Festival in such a noble cause, and an extraordinary artist from the domestic Ambient scene, known as Botanica, has also joined our efforts,– says Agata Kalinowska, Brand Business Partner at the Electrum Group, the organizer of the event.
The Second Flying Ambient Salon will be realized with the participation of a producer and DJ hiding under the pseudonym Botanica. Botanica creates relaxing ambient music, sometimes interspersed with rhythmic tracks bordering on dub techno and house. The artist is an enthusiast of field recordings, which he uses in his compositions and publishes on his Bandcamp profile. His recordings appear in film productions, during yoga classes, in relaxation and meditation apps, and as the musical background of design exhibitions. So far, Botanica’s productions have been released by labels such as MOST, Father And Son Records & Tapes, Dom Trojga, and Neoviolence. The artist’s recordings are available online on his profiles at https://sayyestobotanica.bandcamp.com/ and https://soundcloud.com/thisisbotanica.
“We are delighted that, as the Up To Date Festival, we have the opportunity to co-create the Second Flying Ambient Salon. In the past, we undertook various activities for seniors. We painted murals, organized intergenerational dances – it’s easy, light, and enjoyable to talk about it, but it’s not easy to talk about those who are slowly leaving us. Together with Electrum, we take on this challenge and invite you to help. Let’s remember the generations that were here before us and to whom we owe a lot,” – says Jędrzej Dondziło, co-creator of the campaign and Program Director of the Up To Date Festival.
People interested in participating in a visual and musical feast during a balloon flight over Narwia and Knyszyn Forest can still take part in the online fundraiser at https://zrzutka.pl/6zy4h9. The event is planned for September 25, 26, 27, and 28, depending on the weather. The launch is expected at around 4:00 PM. The campaign can also be supported in other ways, such as purchasing attractive “bricks,” for example, a yoga lesson.
About Electrum
The Electrum Group is a leading Polish Climate Tech business headquartered in Białystok, offering comprehensive solutions in the latest technology for the development, construction, and management of projects in the energy and information sectors. The technological maturity of its experts allows it to provide products and services that meet the changing needs of the industry and business as they evolve with the ongoing energy transformation. It creates and implements solutions and builds projects based on the idea of an individual energy mix, maintaining a balance between the social and environmental responsibility of business and the economic aspect.
Within the joint venture (JV) between the Białystok-based Electrum Group, specializing in Climate Tech, and the Israeli green energy company, Nofar Energy, the photovoltaic farm project in Krzywińskie, Warmian-Masurian Voivodeship, has been successfully completed. The next stage of cooperation between Electrum and Nofar Energy will involve the completion of an investment in Dziewoklucz, Greater Poland Voivodeship.
Nofar Energy is a global energy group involved in solar energy and energy storage projects in Europe, Israel, and the USA. This includes the development, localization, permitting process, operation of photovoltaic farms, floating solar farms, and energy storage. In this collaboration, Electrum Group is responsible for project design, construction, installation, and system assembly.
“As Electrum Group, we served as the general contractor in the EPC formula, which means we were responsible for the entire construction process, from obtaining construction permits to obtaining occupancy permits and energy production licenses. In the case of the photovoltaic farm in Krzywińskie, we plan to apply Renedium to meet the requirements of the NC RFG network code. Additionally, for both investments, we will use the EMACS System as SCADA for facility monitoring and control. These innovative solutions will ensure efficient management,”says Marcin Grudniewski, Member of the Electrum Nofar Energy Board.
“We are proud of our partnership with Electrum Group, which effectively carries out profitable, large-scale photovoltaic projects. We are currently working together on over 77 MW of solar projects (combined with preliminary construction), with hundreds of MW in the development phase. Together with our partners, we plan to become a leading player in the Polish renewable energy market,” says Nadav Tene, Global CEO of Nofar Energy.
Work on the photovoltaic farm in Krzywińskie (Warmian-Masurian Voivodeship) began in November 2022, and it is being carried out by Solarika sp. z o.o., an investor belonging to the Electrum Nofar Energy Group. Photovoltaic system installation has already been completed, and work has started on commissioning the installation. The completion of work is expected in the coming months.
The photovoltaic farm in Krzywińskie is equipped with a total installed capacity of 20 MW. Efficient power output is achieved at high voltage, ensuring effective energy supply to the grid. This investment is a significant step in the development of renewable energy infrastructure in the region.
As part of continued cooperation between Electrum and Nofar, the implementation of another investment in Dziewoklucz, Greater Poland Voivodeship, is planned. Work commenced in January 2023, following the signing of an agreement between the contractors. The official investor of this project is MDW Energy sp. z o.o., a company belonging to Electrum Nofar Energy, part of the Electrum Holding structure. The solar farm in Dziewoklucz will have an installed capacity of 20 MW. Completion of the investment is planned for March 2024.
About Electrum
Electrum Group is a leading Polish Climate Tech business based in Białystok, offering comprehensive solutions in the field of the latest technology for the development, wind farm construction, solar farm construction and management of projects in the energy and information sectors. The technological maturity of its experts allows them to deliver products and services that respond to the changing needs of the industry and business in line with the ongoing energy transformation. They create and implement solutions and build projects based on the idea of an individual energy mix, balancing the social and environmental responsibility of the business with the economic aspect.
Nofar is a global leader in renewable energy investment. Since 2020, Nofar has been publicly listed on the stock exchange (TASE: NOFR). Over the last 12 years, Nofar has grown dynamically and consistently, with a broad portfolio of projects and subsidiaries in eight territories, over 200 employees worldwide, and approximately 2 GW of solar energy and 1 GW of energy storage projects (combined with preliminary construction) in Israel, Europe, and the USA.
