DALL·E 2024-11-12 16.08.15 - An illustration showing the growing impact of photovoltaics on real estate value. The image includes a modern house with solar panels on the roof, sur (1)

How to Increase Property Value with Modern Energy Solutions?

by Blog

In the last few years, photovoltaics have ceased to be just a technology for ecologists. They have become one of the most cost-effective and strategic solutions that can dramatically affect the value of a property. Why is it worth investing in photovoltaics? What are the benefits for property owners? In this article, we will try to answer these questions and show why photovoltaics are the future of the real estate market.

1. Growing Ecological and Economic Awareness

More and more people are aware of the need to protect the environment, and photovoltaics is one of the most effective ways to achieve sustainable development. Solar panels, which allow you to generate your own energy, are becoming a symbol of ecological responsibility. Homeowners who invest in photovoltaics not only reduce their carbon footprint, but also help create a future in which renewable energy sources play a key role.

However, photovoltaics also offer tangible financial benefits. Profits from your own energy production and the ability to sell surpluses to the grid make photovoltaics an investment that pays off in the long term, but with clear savings after the first few years.

2. Property Value – Higher Price Thanks to Photovoltaics

Research conducted by experts on the real estate market clearly indicates that houses and apartments equipped with photovoltaic systems are enjoying greater interest, and their sale price may increase by as much as 3-5%. Potential buyers are increasingly looking for properties that offer not only comfort, but also long-term savings on energy bills.

Photovoltaic systems are a great way to increase the attractiveness of a property against the competition. Thanks to them, investing in a property becomes more profitable, which makes it more desirable on the market. What’s more, photovoltaics combined with an energy storage system can make the property practically energy independent, which is another advantage that attracts buyers.

3. Energy Storage – Added Value to Your Property

Combined with a photovoltaic system, energy storage is a real revolution. Thanks to the energy storage, the house becomes more independent from external energy suppliers. Energy produced during the day can be stored and used at night or in times of increased demand. This means not only savings, but also greater energy stability, especially in the face of rising electricity prices.

Energy storage, such as those offered by Digital Energy, is also a great solution for those who want to increase their energy independence. Properties equipped with photovoltaic systems and energy storage are becoming more attractive not only from a savings perspective, but also in the context of the growing demand for more independent, ecological solutions.

4. Future Predictions: Photovoltaics Is an Investment in Sustainable Development

As leaders in the renewable energy sector, we can confidently say that photovoltaics is a technology that is gaining in importance every year. Changing government policies, support for ecological solutions and growing social awareness make photovoltaic installations a key investment element. It is worth noting that the value of properties equipped with solar panels will only increase, and interest in them will continue to grow.

Photovoltaics is no longer just a trend – it is the future that is becoming a reality on the real estate market. Investing in photovoltaics is an investment in an ecological future and higher profits from selling real estate. So, if you are considering buying a property or want to increase the value of yours, photovoltaics should definitely be among the options you are considering.

Summary

Installing photovoltaics in your home is not only a step towards greater energy independence, but also an investment that significantly increases the value of your property. Solar panels and energy storage are becoming standard in modern homes, and their presence on the real estate market is not only attractive from an ecological perspective, but also financially. It is worth investing in renewable energy, because the profits that this investment can bring are priceless – both in terms of the value of the property itself and the savings they offer.

Invest in the future and make your property more attractive on the market – both for you and for future owners.

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LiFePO4 Batteries: The Future of Energy Storage

by Blog

As the world accelerates its transformation towards sustainable energy sources, energy storage is becoming a key element of renewable energy systems. In this context, the LiFePO4 (lithium iron phosphate) battery is becoming an increasingly popular choice. What is this technology, what are its advantages and why is it particularly valued in energy storage systems?

What are LiFePO4 batteries?

LiFePO4 batteries are a type of lithium-ion battery that uses iron phosphate instead of the classic cobalt or nickel-based cathode material. This makes their chemical structure more stable, and the battery itself can withstand greater loads. LiFePO4 technology has its roots in lithium battery research, but offers unique advantages that attract the attention of users around the world.

Advantages of LiFePO4 batteries in renewable energy systems

  1. Durability and long life cycle
    • One of the biggest advantages of LiFePO4 batteries is their long life cycle. Standard batteries of this type can survive from 2,000 to even 7,000 charge/discharge cycles, which is much greater than in the case of traditional lithium-ion batteries. Thanks to this, they can serve users for many years, minimizing replacement costs.
  2. Safety of use
    • LiFePO4 batteries are highly resistant to overheating, making them a safer choice, especially in home installations. Unlike other lithium batteries, LiFePO4 batteries do not explode or catch fire due to overheating or damage, which provides users with greater comfort and safety.
  3. Thermal stability and energy efficiency
    • Withstands high temperatures and maintains performance over a wide temperature range, LiFePO4 batteries are ideal for use in environments with variable climates. High energy conversion efficiency and low self-discharge mean that energy is stored and used more efficiently.
  4. Ecological
    • LiFePO4 batteries are more environmentally friendly than other lithium-ion batteries because they do not contain toxic elements such as cobalt. This makes their production and disposal less burdensome for the environment, which is in line with the ideas of sustainable development and green energy.
  5. Charge and discharge speed
    • Another advantage of LiFePO4 batteries is their ability to charge and discharge quickly. This is especially important when the battery acts as an energy storage in photovoltaic systems – fast charging allows for effective capture of solar energy, and fast discharge allows for energy to be supplied when it is needed most.

Applications of LiFePO4 batteries in renewable energy systems

LiFePO4 batteries are successfully used in a wide range of systems, including:

  • Home energy storage – ideal for use with photovoltaic panels, where energy is collected during the day and used in the evening.
  • Hybrid inverters – enable flexible switching between different energy sources, increasing system stability.
  • Off-grid applications – in places where access to the power grid is limited or impossible.

LiFePO4 Batteries in Digital Energy’s Offer

At Digital Energy, we focus on modern energy storage solutions that not only ensure safety but also contribute to environmental protection. Our offer includes advanced systems based on LiFePO4 batteries, which are ideal for photovoltaic and hybrid installations. Our products are characterized by high quality, durability and are ideally suited to the needs of customers who are looking for modern and effective solutions.

Summary

LiFePO4 batteries are one of the most interesting and promising solutions in energy storage. Thanks to their durability, safety and high efficiency, they are the ideal support for renewable energy sources. At Digital Energy, we are constantly looking for innovations that can contribute to the development of the renewable energy market and we are proud to be able to offer products based on LiFePO4 technology, helping our customers build a sustainable future.

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Deye Inverters: The Perfect Choice for Your Renewable Energy System

by BlogRenewable energy

With renewable energy becoming increasingly popular, choosing the right components for your RES system is becoming a key element of any investment. Deye inverters are gaining recognition among installers and users, and their combination with energy storage devices such as Felicity ESS opens up new possibilities in energy management.

High Efficiency and Stability

Deye inverters are distinguished by their high energy conversion efficiency, which translates into maximum use of solar energy. Thanks to modern technologies, these devices ensure stable operation even in difficult weather conditions, which is crucial for the long-term efficiency of the system. Thanks to them, we can be sure that we will use the energy generated by our photovoltaic panels at any time.

Easy Connection to Energy Storage

One aspect worth highlighting is the ability to easily connect Deye inverters to Felicity ESS energy storage, which greatly simplifies the installation and integration of the entire system. This solution makes installation easier and the system performance optimal. Together, these devices create a harmonious whole that allows for effective energy management.

Intelligent Energy Management

Deye inverters also offer intelligent energy management functions, which give users the ability to monitor and control energy production and consumption. By integrating with storage systems, we can optimize our energy consumption, which not only leads to savings but also increases our energy independence. In today’s times of rising energy prices, such independence is worth its weight in gold.

Versatility and Quality

There are many inverters on the renewable energy market, but Deye stands out for its quality of workmanship and versatility. The ability to connect to different types of energy storage makes it a universal product, ideal for adapting to the individual needs of the user. This makes Deye inverters not only a solution, but also a long-term investment in savings and sustainable development.

Ecological Future

By choosing Deye inverters and Felicity ESS storage systems, we are investing in a future that will be greener and more sustainable. Long-term savings, support for intelligent energy management and reliability are arguments that speak for themselves. If you are considering choosing an inverter for your renewable energy system, Deye will be one of the best choices on the market. With these solutions, you can enjoy not only savings, but also peace of mind, knowing that you are working to protect the environment.

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Increase in Budget for the My Electricity 6.0 Program – New Opportunities for Prosumer Energy Systems

by GrantsRenewable energy

In the context of global climate change and rising energy prices, investments in renewable energy sources are becoming increasingly important. The government’s Mój Prąd 6.0 program is one of the key initiatives supporting the development of photovoltaics in Poland, and the recent increase in the budget by PLN 850 million, raising the total amount of the program to PLN 1.25 billion, is a significant opportunity for new and existing prosumers.

Change in financing – greater opportunities for prosumers

The new budget comes from the EU program European Funds for Infrastructure, Climate, Environment (FEnIKS) 2021-2027 and allows for more subsidies, including for investments in electrical and thermal energy storage facilities . This is a key step towards modernising the Polish energy market and promoting energy independence among citizens.

From September 2, 2024, as part of the sixth edition of the program, prosumers can apply for support for photovoltaic installations and energy storage. By October 9, applications have already been submitted 49 thousand applications , of which 18.4 thousand concerned energy storage. It is worth emphasizing that energy storage is becoming an increasingly desirable element of PV installations, allowing for effective management of the energy produced.

What subsidies does Mój Prąd 6.0 offer?

There are a few key elements worth noting:

  • Electricity storage facilities : Prosumers can receive up to 16 thousand PLN subsidies for storage with a capacity of at least 2 kWh. This significantly increases the availability of these technologies for the average user.
  • Heat storage : Funding is offered up to 5 thousand zlotys for warehouses with a minimum capacity of 20 dm3, which may be an attractive option for people using heat pumps.
  • Photovoltaics : The subsidy for PV installation is up to 6 thousand zlotys , while for those who also decide to use energy storage facilities, the support can amount to 7 thousand zlotys .

Why are energy storage so important?

Energy storage plays a key role in stabilization renewable energy systems, especially photovoltaics. The net-billing system, which was introduced as a new form of settlement for prosumers. It means that surplus energy produced by PV installations is sold to the grid at variable market prices, which may affect the profitability of the investment. The energy storage allows for storage of surplus energy produced during periods of maximum sunlight and its later use when energy demand is higher – in the evening or during periods of lower availability of sunlight.

Thanks to this, prosumers can benefit from:

  • Savings : Instead of sending surplus energy to the grid at low prices, they can use it for their own needs.
  • Increased independence : Stored energy allows for independence from energy price fluctuations on the market and reduces dependence on the energy grid.
  • Faster return on investment : Investing in an energy storage facility, especially with the help of subsidies, speeds up the payback period for the entire PV system.

What has changed in the Mój Prąd 6.0 program?

One of the most important changes in the current edition of the program is the condition of obtaining a subsidy for PV installations reported after August 1, 2024. In order to be eligible for financing, it is necessary to invest in an electricity or heat storage facility . The power of the installation can range from 2kW to 20kW , and energy storage facilities are becoming an essential element of the installation if prosumers want to maximize the benefits of renewable energy sources.

Future prospects

The increase in the budget of the Mój Prąd 6.0 programme shows that the government is focusing on development sustainable energy and transformation of the Polish energy market. This is a great opportunity for those interested in installing PV and energy storage to take advantage of available subsidies and reduce their investment costs.

Investing in energy storage in the context of the net-billing system and subsidies, it is not only a financial saving, but also a step towards greater energy independence. This is becoming increasingly important in the face of changing market realities. By using subsidies for energy storage, prosumers can maximize profits from your own energy production and better manage your energy consumption.

If you would like to learn more about the possibilities of investing in energy storage, please contact us. Our company offers comprehensive solutions that will help you fully utilize the potential of renewable energy.

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Optimization of energy consumption in photovoltaic installations: comparison of systems with and without energy storage.

by Energy StorageRenewable energy

In the context of rapidly rising energy prices and the growing need to increase energy independence, photovoltaic installations are becoming one of the key elements of modern households and businesses. However, in order to fully use the potential of this technology, it is necessary to use energy storage , which allow for the optimization of the energy balance. Based on two graphs showing the energy consumption in a household with and without energy storage, we will present the key differences in the functioning of these systems.

1. Photovoltaic installation without energy storage

In case of installation without energy storage , the PV system works only during the hours of sunlight, when energy production is the highest. In such a system, the following phenomena can be seen

  • Current energy consumption during the day (yellow) is fully covered by the production from photovoltaic panels. In practice, this means that during the afternoon hours the household uses almost exclusively free solar energy.
  • Surplus production energy at peak times (around noon) is fed back into the grid (yellow line). While the Polish prosumer settlement system allows for some recovery of this energy, it is usually done in the form of balancing, which means that we receive the supplied energy at lower rates or with fees, which reduces the profitability of this solution.
  • In the evening and at night , when energy demand increases (especially between 6:00 and 10:00 p.m.), the PV installation no longer produces energy and the household is forced to draw energy from the grid (orange area). This increases operating costs and reduces the efficiency of the photovoltaic investment, because we use energy from external suppliers, often at times of higher rates.

2. Photovoltaic installation with energy storage

Inclusion energy storage to the PV system significantly improves its efficiency and increases the level of self-consumption. In such a solution, the following key changes occur:

  • Current energy production During the day it still covers the energy needs of the farm, but the surplus production is not fed into the grid but loaded into energy storage (green area on the graph). In this way, the excess energy produced is stored and can be used efficiently later.
  • In the evening and at night , when the demand for energy increases, the household uses the energy stored in the storage (light green area), instead of drawing it from the grid. This solution minimizes the costs associated with purchasing energy from suppliers, increases self-consumption and improves the economic balance of the entire installation.
  • Energy storage it also enables greater flexibility in managing energy production and consumption. In the context of increasingly frequent changes in energy tariffs, storage facilities allow avoiding the collection of electricity during peak periods, when prices are the highest, which additionally improves the profitability of the entire system.

3. Benefits of using an energy storage

Photovoltaics combined with energy storage becomes a more efficient and independent system from the user’s perspective. Below are the key advantages resulting from the integration of these two technologies:

  • Increased self-consumption : In the case of a PV installation without a storage, the average self-consumption is around 20–30%. With an energy storage, this indicator can be increased to 70–90%, which directly translates into savings.
  • Limiting energy output to the grid : Sending surpluses to the grid is not very profitable from a financial point of view. The storage allows for full use of the produced energy within one’s own needs.
  • Independence from the energy grid : Energy storage enables minimizing energy purchases from the grid, which not only reduces costs but also increases resilience to energy price fluctuations and potential failures.
  • Protection against rising energy prices : Rising energy costs are one of the main challenges facing modern power systems. Energy storage, combined with photovoltaics, gives users greater control over energy consumption and costs.
  • Economic efficiency : Although investing in an energy storage facility requires an initial financial outlay, the benefits resulting from reduced energy purchase costs and increased self-consumption mean that systems with storage facilities pay off much faster than those based solely on photovoltaics.

4. Is energy storage the future of efficient PV systems?

The introduction of energy storage to photovoltaic installations is a step towards modern, efficient and sustainable energy. They enable the full use of the potential of renewable energy sources and increase the energy independence of users. In an era of variable energy tariffs, rising electricity prices and the need to increase energy security, investing in an energy storage becomes not only beneficial, but also necessary.

Summary:

Integrating photovoltaics with energy storage is the most effective solution for modern households and companies that want to optimize energy consumption, reduce costs and gain greater independence from energy suppliers. With the development of energy storage technologies, these systems are becoming more affordable and cost-effective, making them an indispensable element of future energy solutions.

Devices on the basis of which the chart visualization was created:

Magazyn energii 15KWh Lux-Y-48300LG01
Innowacje W Odnawialnych Źródłach Energii: Budowa Lepszej Przyszłości Energetycznej

Renewable Energy or Renewable Energy Innovations: Building a Better Energy Future

by BlogRenewable energy

Renewable energy is energy sources that are a key part of the strategy to combat climate change and transition to more sustainable energy sources. In recent years, we have seen a dynamic development of technologies in the field of renewable energy sources, which are becoming more and more efficient, accessible and innovative. In this article, we will discuss the latest solutions in the field of renewable energy sources and their impact on the future of energy.

Use of Solar Energy:

  • New Photovoltaic Technologies: In recent years, we have seen rapid development of photovoltaic technologies, including higher efficiency photovoltaic panels, thin film panels, hybrid technologies combining photovoltaics with other energy sources, and innovative solutions that increase the efficiency of converting solar energy into electricity. As a result, renewable energy in this case is very effective.
  • Intelligent Energy Management Systems: Intelligent energy management systems are increasingly used, which enable optimal use of solar energy by dynamically adjusting energy production and consumption depending on weather conditions and user needs (energy storage).
energia sloneczna

Wind Energy:

  • Modern Wind Turbines: New wind turbine designs utilize innovative aerodynamic designs and materials to increase energy efficiency and reduce the costs of producing wind energy.
  • Advanced Monitoring and Diagnostic Systems: Nowadays, advanced monitoring and diagnostic systems are being developed, which allow for continuous monitoring of wind turbine operation, identification of potential faults and optimization of the performance of the entire wind farm. As you can easily guess, wind turbines as renewable energy are
Energia wiatrowa

Hydroelectric Energy:

  • Modern Water Turbine Solutions: Thanks to the use of advanced engineering technologies, modern water turbines are more efficient, reliable and environmentally friendly, contributing to an increased share of hydroelectric energy in the global energy mix.
  • Hybrid Energy Systems: Combining hydroelectric power with other renewable energy sources, such as solar or wind, enables the creation of hybrid energy systems that are more stable and flexible.
Energia hydroelektryczna

Summary: Innovations in renewable energy promise a more sustainable, clean and efficient energy future. With the rapid development of photovoltaic, wind, hydroelectric and other renewable energy technologies, we are becoming increasingly independent from fossil fuels and contributing to the reduction of greenhouse gas emissions. As technology continues to advance, we can expect even greater transformations and independence from traditional energy sources and renewable energy.

We encourage you to check out our offers where you can find products from a reputable company FelicityESS

Magazyny energii w fotowoltaice: Klucz do zrównoważonej energetyki przyszłości

Photovoltaic Energy Storage: The Key to a Sustainable Energy Future

by BlogEnergy Storage

Photovoltaic energy storage is a relatively new topic in the renewable energy industry. With the growing demand for clean and sustainable energy, photovoltaics is becoming an increasingly popular solution for generating electricity. However, one of the main challenges facing the photovoltaic industry is the effective management of electricity, especially in conditions of variable sunlight availability. In this context, energy storage plays a key role, enabling the collection and use of energy in a more flexible and efficient way. In this article, we will discuss the role of energy storage in photovoltaics and the benefits of using them.

The role of energy storage in photovoltaics: Energy storage in photovoltaics plays a key role in ensuring the continuity of electricity supply and increasing energy independence. Thanks to energy storage, it is possible to collect excess electricity during periods of intense sunlight and use it later, when energy production is lower or when energy demand is higher. This allows for the optimal use of electricity generated by photovoltaic panels, increasing the efficiency of the entire system and reducing the need to use traditional energy sources.

Benefits of using energy storage in photovoltaics:

  1. Energy independence: Energy storage devices enable energy independence by enabling the storage and use of electricity produced by photovoltaic panels even in the event of a power grid failure.

  2. Optimal use of renewable energy: Photovoltaic energy storage enables the collection of electricity generated from renewable sources, such as solar energy, and its use during periods of low sunlight or low energy production, contributing to an increased share of renewable energy sources in the global energy mix.

  3. Reduction in energy bills: Energy storage allows electricity to be stored during periods when energy prices are lower and used during periods when prices are higher, thereby reducing electricity bills.

  4. Stabilization of the electrical grid: Photovoltaic energy storage can help stabilize the electricity grid by providing energy during periods of high demand or in the event of outages, contributing to increased reliability and security of the energy system.

Summary: Photovoltaic energy storage plays a key role in transforming the photovoltaic industry by enabling more flexible, reliable and sustainable management of electricity. Their use contributes to increasing the share of renewable energy sources in the global energy mix and improving the efficiency and reliability of energy systems. With energy storage, photovoltaics becomes an even more attractive option for individuals and businesses looking for clean and sustainable energy sources.

We encourage you to check out our offers where you can find products from a reputable company FelicityESS

Mój Prąd 6.0

Everything you need to know about My Electricity 6.0: New opportunities for renewable energy

by BlogGrants

Mój Prąd 6.0 is a program that continues the initiative to support renewable energy sources, which has generated a lot of interest among people looking for ways to reduce their electricity bills and improve their ecological footprint. Although detailed information about this year’s subsidies is not yet available, there are many reasons to consider investing in photovoltaics now:

1. Continuation of the program : My Electricity 6.0 will continue in 2024, as confirmed by the Ministry of Climate and Environment.

  1. 2. There is no official date set for the start of the application process. : While the start date for the program has not yet been announced, it is important to stay tuned for updates as it pays to be ready to act quickly.
  3. 3. Amount of subsidy : Details regarding the amount of funding this year have not been disclosed, but it can be expected that they will be similar or higher than in previous editions.
  5. 4. Scope of funding : The scope of funding under Mój Prąd 6.0 will cover various forms of renewable energy source installations, including photovoltaic micro-installations, heat pumps, energy storage facilities and others.

  7. 5. Who can benefit : Detailed information regarding the beneficiaries of the Mój Prąd 6.0 program has not yet been disclosed, but may be similar to the criteria of previous editions.

  8. 6. Investment value : Even without subsidies, investing in photovoltaics is profitable, with a return of around 6-7 years. However, taking advantage of subsidies can shorten this time and increase the financial benefits.

Conclusion: Although detailed information about Mój Prąd 6.0 is still unknown, now is a good time to make a decision to invest in photovoltaics, due to the financial and ecological benefits. Waiting for the official details of the program to be announced may delay the project, and installation prices may increase. Therefore, it is worth considering buying now to avoid these risks.

Odzyskiwanie ciepła z koparek do wydobycia Kryptowalut

Heat Recovery from Cryptocurrency Mining Machines. With our submerged systems, you can recover up to 85% of the energy used as heat!

by BlogRenewable energy

Cryptocurrency mining is often associated with high energy consumption. Cryptocurrency miners generate huge amounts of heat during operation, which is traditionally treated as waste. However, more and more companies and individuals are beginning to see the potential of using this heat for beneficial purposes through the process of heat recovery.

How does the heat recovery process for cryptocurrency miners work?

Using Miners to Mine Cryptocurrencies : Cryptocurrency miners are used to solve complex mathematical problems, which allows for the extraction of new units of cryptocurrency. This process requires significant computing resources and generates a lot of heat.

Heat Recovery : Instead of treating this heat as a loss, it is transferred to special heat recovery systems. These systems use the heat energy generated by the excavators to heat water or rooms.

Application of Heat : The heated water can be used to heat utility water in buildings or to power heating systems. The heat can also be transferred to central heating systems or to heat rooms directly.

Benefits of Heat Recovery from Cryptocurrency Mining Machines:

Sustainable Use of Resources : Using the heat generated by miners to mine cryptocurrencies allows for sustainable use of energy resources. Therefore, recovering heat from miners is a great idea to reduce bills.

Energy Saving : The heat recovery process reduces the amount of energy needed to heat water or spaces, which helps to reduce energy bills.

Reduction of CO2 emissions : Using heat recovered from miners to mine cryptocurrencies can help reduce carbon dioxide emissions by reducing the use of traditional energy sources. Heat recovery from miners in this case significantly contributes to reducing Co2

Additional Income for Investors: For owners of cryptocurrency mining rigs, the ability to recover heat can provide an additional source of income by selling the heat energy produced.

Heat recovery – with the help of our immersion systems, you can recover up to 85% of the consumed energy in the form of heat!

Summary

Recovering heat from cryptocurrency mining rigs is an innovative approach that benefits both the environment and users. Using heat in this way allows for more efficient use of energy resources and a reduction in environmental impact, making it an attractive option for those interested in sustainability and energy savings.

We encourage you to check out our offers where you can find products from a reputable company FelicityESS