Autonomous photovoltaic system for refrigerator 12V / 65watt - 75 watts
Autonomous photovoltaic kit / package for small refrigerator 65-75 watt / 12V or 220V by adding inverter
As the world moves towards sustainable energy solutions, photovoltaics have emerged as a promising option for powering homes and businesses. But with the initial cost of stand-alone PV systems being a major factor for many potential users, the question arises – is it really worth the investment? In this blog post, we'll explore the cost of stand-alone PV for both home and business use to determine whether going solar is an economical decision.
Introduction to Autonomous Photovoltaics
Introduction to Autonomous Photovoltaics
Standalone PV systems, also known as off-grid solar systems, are becoming increasingly popular as an alternative energy source for both homes and businesses. These self-sufficient systems use photovoltaic (PV) panels to convert sunlight into electricity, which is then stored in batteries for use during periods of low or no sunlight.
The main advantage of stand-alone photovoltaics is their ability to provide electricity to remote areas that are not connected to the traditional electricity grid. This makes them a viable option for those living in rural or off-grid locations where connecting to the grid can be expensive or even impossible. Additionally, stand-alone PV systems offer independence from utility companies and can lead to significant cost savings over time.
Components of Autonomous Photovoltaic Systems
A stand-alone photovoltaic system consists of several components that work together to produce and store electricity. The main components include photovoltaic panels, charge controller, battery bank and inverter.
PV Panels: These are the most critical component of a stand-alone PV system as they capture sunlight and convert it into direct current (DC) electricity. The number and size of panels required will depend on the amount of electricity required and the space available for installation.
Charge Controller: As the name suggests, this device controls how much charge goes into the battery bank from the PV panels. It ensures that batteries are not overcharged or discharged too quickly by regulating the flow of energy from the panels.
Battery Bank: The battery bank stores the excess energy produced by the PV panels for later use when sunlight is not available. Deep-cycle batteries designed specifically for solar applications are commonly used in stand-alone PV systems due to their ability to handle frequent charge and discharge cycles.
Inverter: Direct current electricity produced by solar panels must be converted to alternating current (AC) before it can be used by household appliances or fed back into the grid during times of excess power. The inverter performs this function by converting direct current electricity into alternating current.
conclusion
Standalone PV systems offer a reliable and cost-effective means of generating electricity for both residential and commercial applications. As technology advances, stand-alone PV systems are becoming more efficient and cost-effective, making them a worthwhile investment for those looking to reduce their reliance on traditional energy sources. In the following sections, we'll explore the costs associated with stand-alone PV and determine whether they're worth the investment for home and business use.
Understanding the different voltage options (12V, 24V, 48V)
When considering investing in stand-alone photovoltaic (PV) systems for your home or business, an important factor to understand is the different voltage options available. The most common options in photovoltaic systems are 12V, 24V and 48V.
First, it is important to note that voltage refers to the difference in electrical potential between two points. In a PV system, this determines how much power can be delivered and at what rate. So why are there multiple voltage options for PV systems?
The main reason is efficiency. Higher voltage systems are more efficient because they require less current (measured in amperes) to provide the same amount of power. This means that lower resistance losses occur during the transmission and distribution of electricity, resulting in higher overall system efficiency.
So which option should you choose? It ultimately depends on your specific needs and budget.
A 12V system is typically used for small-scale applications such as RVs or boats where power consumption is low. These systems are also commonly used for lighting or charging small devices such as phones or laptops. They tend to be the cheapest option due to their lower power output.
On the other hand, a 24V system is suitable for larger homes or businesses with moderate energy consumption. This option allows connecting more devices and devices without overloading the system. Additionally, using a 24V battery bank requires half the batteries that a 12V battery bank would, making it a more space efficient option.
A 48V system is ideal for larger commercial buildings or industrial facilities with high energy requirements. These systems offer even greater performance than 24V systems and can handle larger loads without risking damage to batteries or equipment.
It's worth noting that while higher voltage options may cost more upfront due to the need for specialized equipment such as charge controllers and inverters specifically designed for higher voltages, they can offer significant long-term savings in maintenance and replacement costs.
Understanding the different voltage options for stand-alone PV is crucial to making a well-informed investment decision. Consider factors such as power consumption, space constraints and budget when determining which option is best for your specific needs. With proper design and installation, stand-alone PV systems can provide cost-effective off-grid electricity solutions for home and business use.
Benefits of using standalone photovoltaics for home and business use
Stand-alone photovoltaics have become increasingly popular in recent years due to their ability to generate electricity independently, without relying on traditional electricity grids. This technology uses solar panels to convert sunlight into energy, which can then be used to power homes and businesses. In this section, we will discuss the various benefits of using standalone PV for both home and business use.
1. Lower energy costs: One of the main advantages of installing stand-alone photovoltaic systems is the significant cost savings on energy bills. By generating your own electricity, you no longer have to pay expensive utility bills or worry about rising electricity costs. In fact, many homeowners and businesses with off-grid solar systems have reported up to an 80% reduction in electricity bills.
2. Eco-friendly: Off-grid PV is a clean and renewable energy source, making it an environmentally friendly choice for powering homes and businesses. Unlike fossil fuels that emit harmful greenhouse gases into the atmosphere, solar energy does not produce pollutants or contribute to global warming.
3. Reliability: Traditional power grids can be susceptible to disruptions due to weather or technical issues. However, stand-alone PV systems provide a reliable source of electricity as they are not dependent on external factors such as power plants or transmission lines.
4. Long-term investment: Although the initial cost of installing a stand-alone PV system may seem high, it is important to think of it as a long-term investment. With proper maintenance, these systems can last up to 25 years or more, providing consistent energy savings over time.
5. Flexibility: Standalone PV can be installed in various locations such as rooftops, ground mounts or even embedded in building materials such as windows and shingles. This makes it a versatile choice for both residential and commercial properties with different design requirements.
6. Modularity: One of the key features of stand-alone PV systems is their modular design, which allows for easy scalability. This means that additional panels can be added to the system as needed, making it a flexible solution for homes and businesses with changing energy needs.
7. Tax Incentives: Many governments and local authorities offer tax incentives to encourage the adoption of renewable energy sources such as stand-alone PV. These incentives can significantly reduce the initial cost of installation, making it a more affordable option for homeowners and businesses.
There are many benefits to using standalone PV systems for home and business use. From cost savings to environmental sustainability, these systems offer a reliable and flexible solution to meet energy needs. While the initial investment may seem high, the long-term benefits make it a worthwhile investment in the future of sustainable energy.
Cost Analysis: Installation and equipment costs
When considering installing a stand-alone photovoltaic (PV) system for your home or business, it's important to understand the cost breakdown associated with this renewable energy source. In this section, we will discuss the various costs involved in both the installation and equipment aspects of implementing a stand-alone PV system.
Installation costs:
The first major expense for installing a stand-alone PV system is hiring a professional solar installer. Installation costs can vary greatly depending on the size and complexity of the project, but on average, it can range from $10.000 to $30.000. This cost includes labor fees, transportation of equipment, permit fees, and any additional materials required for installation, such as wiring and mounting equipment.
Another important factor that can affect installation costs is the location of your property. If you live in an area with strict building codes or have a complex roof structure that requires specialized equipment or techniques to install, this can add to the overall cost.
Equipment Costs:
The main component of any PV system is the solar panels themselves. The number and type of panels needed will depend on your specific energy needs and budget. On average, each painting can cost from 150 to 400 euros. So if you need 20 panels to meet your electricity needs, you could be looking at an upfront expense of between $3.000 and $8.000.
In addition to solar panels, other critical components include inverters (which convert direct current into usable alternating current), batteries (to store excess energy), charge controllers (battery charge regulation), and wiring/connectors. These equipment costs can add up quickly, but are necessary to ensure the efficiency and longevity of your PV system.
There are also optional add-ons that may increase the initial investment but provide long-term benefits, such as backup generators or monitoring systems that monitor energy production and consumption.
Cost issues:
While the initial cost of installing a stand-alone PV system may seem daunting, it's important to consider the long-term savings and benefits. With no monthly electricity bills, your investment can be amortized over time, resulting in significant cost savings. In addition, you may also be eligible for state or federal tax credits or incentives that can help offset the initial costs.
It is important to conduct thorough research, compare quotes from multiple installers, and carefully consider the size and design of your PV system before making any decisions. Remember to also factor maintenance costs such as panel cleaning and battery replacement into your budget.
Installation and equipment costs for a stand-alone PV system can vary widely, but they are necessary investments to harness sustainable energy. While it may require a significant initial cost, the long-term benefits make it a worthwhile investment for both personal and business use.
How to choose the right off-grid solar package for your needs
When considering investing in stand-alone PV systems, it's important to choose the right off-grid PV package that meets your specific needs. With a variety of options available on the market, it can be overwhelming to determine which package is best for your home or business. In this section, we'll walk you through the key factors to consider when choosing an off-grid solar package.
1. Assess your energy needs: The first step in choosing the right off-grid solar package is to understand your energy consumption patterns. Consider factors such as the size of your home or business, the number of occupants, and any appliances or equipment that require electricity. This will give you an estimate of how much power you need to generate from your standalone system.
2. Assess Available Sunlight: Off-grid PV systems rely on sunlight to generate electricity. Therefore, it is important to assess the amount and quality of sunlight that reaches your location throughout the year. Factors such as geographic location, weather patterns, and shading from nearby buildings or trees can affect solar panel performance.
3. Determine the battery storage capacity: To ensure a continuous supply of electricity even during periods of low sunlight or at night, batteries are necessary to store the excess energy produced by the solar panels. When choosing an off-grid solar package, consider the storage capacity and type of batteries included in the system. A larger battery bank may be necessary for higher power requirements.
4. Consider the system components: An off-grid PV system includes various components such as solar panels, inverters, charge controllers and wiring components. It is important to check that all of these components are included in the package you are considering and that they meet safety standards.
5. Quality and warranty: As with any investment, it is important to choose a high-quality product that comes with a reliable warranty period. Research different brands and read reviews from other customers before making a decision.
6. Find out about available incentives: Many governments and utility companies offer incentives, tax credits or rebates for installing stand-alone PV systems. Check with your local authority to see if you are eligible for any financial assistance, which can help offset the initial cost of the system.
By considering these key factors, you can make an informed decision about which off-grid solar package is best for your needs and budget. Don't forget to also consult a reputable solar installer who can provide personalized recommendations based on your specific requirements. Investing in a quality off-grid solar package will not only provide long-term energy savings but also contribute to a more sustainable future.
Real examples of successful installations and cost savings
There are numerous real-life examples of successful photovoltaic (PV) installations that have resulted in significant cost savings for both homes and companies. These success stories show the potential benefits of investing in stand-alone PV systems, making it clear that the initial cost is worth the long-term savings.
A notable example is the installation of a 12 kW rooftop solar system on a home in California. The homeowners spent $30.000 upfront to purchase and install the system, but saw immediate results on their monthly electric bills. Before the solar system was installed, they paid an average of $300 a month for electricity from the grid. After going solar, their monthly bill dropped to just $50 – resulting in an annual savings of over $3.000. At this rate, they will recoup their initial investment within 10 years and continue to save money on utilities for many years to come.
In another case study, a company located in Arizona invested in a large-scale 1MW PV system. The total cost of the installation was $2 million – a significant investment for any business. However, after just two years, the company had already saved $200.000 in electricity costs compared to what they would have paid if they had continued to rely solely on grid power. This means that within ten years, they will not only have fully recouped their initial investment but will also have significant profits through reduced energy costs.
These examples show how stand-alone PV systems can lead to significant cost savings over time – whether for homes or businesses. In addition to reducing or eliminating monthly utility bills, stand-alone PV systems also provide protection against rising energy costs from traditional sources such as fossil fuels.
In addition, these success stories highlight how stand-alone PV systems can benefit communities as a whole, reducing pressure on grids during peak demand periods and contributing to cleaner air and lower carbon emissions.
It is important to note that individual cost savings can vary depending on factors such as location, local energy prices, and the size and efficiency of the PV system. However, these real-life examples demonstrate that investing in stand-alone PV systems is a worthwhile endeavor both in terms of financial gain and environmental impact.
While the initial cost of installing stand-alone PV systems may seem daunting, the long-term cost savings make it a smart investment for homes and businesses alike. These success stories serve as proof that the use of solar energy not only reduces dependence on traditional energy sources, but also brings significant financial benefits to those who choose to make the switch.
Comparison of stand-alone photovoltaics with other renewable energy sources
Stand-alone photovoltaics (PV) are a popular choice for individuals and companies looking to harness renewable energy. However, it is important to compare stand-alone PV systems with other renewable energy options in order to determine the most cost-effective and efficient solution for your specific needs.
One of the main advantages of stand-alone photovoltaic systems compared to other renewable energy sources is their flexibility. Unlike wind or hydropower, which require specific geographic and environmental conditions, photovoltaic systems can be installed almost anywhere with access to sunlight. This makes them a viable option for both urban and rural areas, as well as countries with different climates.
Another advantage of stand-alone photovoltaic systems is low maintenance costs. While other renewable energy sources may require regular maintenance and repairs, solar panels have no moving parts and therefore do not require frequent maintenance. This means that once installed, they can continue to generate electricity at no additional cost.
In terms of efficiency, stand-alone PV systems also hold up against other renewable energy sources. While solar panels may not be able to produce as much energy as larger wind turbines or hydroelectric plants, they are still capable of producing a significant amount of electricity for individual homes or businesses. Additionally, advances in technology have led to more efficient solar panels that can convert sunlight into usable energy at higher rates than before.
However, a potential disadvantage of stand-alone PV systems is their dependence on sunlight. This means that during periods of cloudy weather or at night when sunlight is not available, the system will not be able to generate electricity unless there is a backup battery storage system. In comparison, wind turbines can continue to generate power even during cloudy days or at night when there is enough wind.
When it comes to cost-effectiveness, stand-alone PV systems may initially seem like an expensive investment compared to other renewable energy options such as wind or hydropower. However, when factors such as maintenance costs and flexibility mentioned earlier are taken into account along with the reduced cost of installing solar panels over the years, stand-alone PV systems can prove to be a more economical option in the long run.
While stand-alone PV systems may not be the most suitable option for every situation, they offer many benefits and stand up to other renewable energy sources. It is important to carefully consider your specific needs and factors such as location and budget before deciding which renewable energy source is best for you.
Potential Challenges
Potential challenges:
While the use of stand-alone photovoltaic (PV) systems for home and business use offers many benefits, there are also potential challenges to consider before making the investment. These challenges may vary by location and circumstances, but it's important to be aware of them in order to make an informed decision.
1. Initial cost:
One of the biggest obstacles for many people considering stand-alone PV systems is the initial cost. Installing a PV system requires a significant initial investment, which can range from several thousand dollars for a small residential system to tens or even hundreds of thousands of dollars for larger commercial systems. This high initial cost may deter some individuals or companies from investing in PV systems.
2. Space limitations:
Another challenge with stand-alone PV systems is finding enough space to install. Photovoltaic panels require plenty of space with direct sunlight to produce optimal energy output. For homes, this may mean having enough roof or yard space for installation. For companies, finding available roof or ground space can be difficult, and competing land uses can limit their options.
3. Dependence on weather:
Standalone PV systems rely on solar energy as their energy source, which means they are dependent on weather conditions. Cloudy days or periods of low sunlight can affect system performance and significantly reduce energy production. This means that during times when there is little sunlight, users may need to rely on alternative sources of electricity.
4. Maintenance cost:
Like any other technology, stand-alone PV systems require regular maintenance to ensure they are working properly and efficiently. This includes cleaning and monitoring the panels, checking the battery level and replacing parts if necessary. These maintenance costs should be factored into the overall cost analysis when considering investing in a stand-alone PV system.
5. Battery Storage Problems:
Standalone PV systems often rely on battery storage to store excess energy generated during peak sunlight hours for use at night or during cloudy days when energy production is reduced. However, batteries have a limited lifespan and will eventually need to be replaced, which can increase the overall cost of the system.
Despite these potential challenges, advances in technology and reduced costs have made stand-alone PV systems more efficient and cost-effective than ever before. It is important for individuals and companies to carefully evaluate their specific needs, location and budget to determine if investing in a stand-alone PV system is worthwhile for them. Although there may be some initial hurdles to overcome, the long-term benefits of using clean renewable energy sources may outweigh any potential challenges.
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Photovoltaic Panel V-TAC 11517 410W Monocrystalline half-cells
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1 pcs. Φ/Β panel Solar Energy Power plus SE 150 (150-155wp) / 12volt /. They have a positive tolerance and power in watts. That is, they always deliver more watts than their rated power, high-efficiency installed power of 150 watts up to + 5% higher efficiency. Available with 12 years factory warranty and 25 years 80% performance guarantee
1 pc. Victron pure sine wave inverter Phoenix 24/375 VE.Direct Schuko * * / 375VA, high reliability 650watt starting current. Suitable for operation of all devices of corresponding power. Provides energy savings of up to 25% on self-consumption due to stabilized sine. (5 year warranty).
1 pcs. Battery Solar ST 140 / 150AH C100. (deep discharge of closed type economy lasting 5-7 years of life).
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System analysis 0.75KWH - 0.90 kwh / 12vfinal match.AC Europe Premium (5 year warranty *) (24 hours a day during the summer months).
For a corresponding performance in Winter, double panels are required
* European panels with 12 years factory warranty
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1 pc. pure sine wave inverter Phoenix 12/375 EE Direct Schuko o* / high reliability 650watt starting power. Suitable for operation of all devices of corresponding power. Provides energy savings of up to 25% on self-consumption due to stabilized sine. Warranty 60 months (5 years)
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Provide economical Electricity without PPC in a caravan or cottage
Supply now without connection to the PPC network with your own Finance autonomous photovoltaic system the your cottage, caravan, caravan or any cottage. The economical autonomous photovoltaic packages 3kwh include 2 PV panels of 280 watt panels, pure sine wave inverter 800watt / 1000VA - 24V, 4 batteries of 150AH C10-165AH C100, charge regulator 20A PWM technology, installation materials, photovoltaic bases, solenoid panels, and blueprints with instructions for use for the installation.
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Available on backorder
Available on backorder
SET Photovoltaic Panel Mono 410W 15 pieces V-TAC 11552
Output 410W
Dimensions 1722 x 1134 x 35mm
Minimum SET purchase quantity
In stock
SET Photovoltaic Panel Mono 410W 15 pieces V-TAC 11551
Output 410W
Dimensions 1722 x 1134 x 35mm
Minimum SET purchase quantity
In stock
2.9kwh-3.6kwh / 24vfinal match.AC - 24V Photovoltaic System Europe Economy (5 year warranty *)
24V Photovoltaic System Europe Economy with batteries Seeds traction
B-2 system analysis 2.9kwh-3.6kwh / 24vfinal match.AC (24 hours a day during the summer months)
For a similar performance in Winter, double panels or a 450-500 wind turbine are required. watt
3 pcs. Φ / Β panel Solar Energy SE 270 / 270-275 watt Poly/ European. They have a positive tolerance and power in watts. That is, they always deliver more watts than their rated power, high-efficiency installed power of 810 watts up to + 5% higher efficiency. Available with 12 years factory warranty and 25 years 80% performance guarantee
1 pc. pure sine wave inverter Phoenix 24/1200 Schuko o* 2000 watt power supply high reliability. Suitable for operation of all devices of corresponding power. Provides energy savings of up to 25% on self-consumption due to stabilized sine. Warranty 60 months (5 years)
4 pcs. Batteries Solar Super heavy Duty 140 / 150AH ( C100) Seeds Traction (semi-deep discharge of closed type economy lasting 6 -8 years of life). Total capacity 560AH / 12V - 280AH / 24V
1 pc. Charging regulator BlueSolar PWM-Light 12 / 24V-30A (with Programming capability). Warranty 60 months (5 years)
Out of stock
SET Photovoltaic Panel Mono 450W 14 pieces V-TAC 11554
Output 450W
Dimensions 2094 x 1038 x 35mm
Minimum SET purchase quantity
In stock
Available on backorder
Photovoltaic kit for autonomous power supply without PPC cottage summer season and winter weekend. Comes with photovoltaic support base, installation plans.
Available on backorder
Available on backorder
3.3 kwh - 4.5kwh / 24 hours 5-6 Beaufort for at least 5-6 consecutive hours daily. Coexistence in areas with high and permanent wind potential and mainly islands
Covers Appliances: Energy class A refrigerator Medium (120-150watt) + Lighting 7-8 lamps + TV + small appliances 500wh -700wh
Price without VAT
In stock
Photovoltaic system analysis 5.9 kwh- 6.9 kwh for a holiday home
Out of stock
Available on backorder
Available on backorder
Available on backorder
Autonomous Photovoltaic with installation up to 4,5kwh
Available on backorder
PHOTOVOLTAICS-Autonomous system 4kWh + 3000VA inverter Charger Norway
Available on backorder
2.3 - 2.6 kwh / 24vfinal match.AC - 24V Photovoltaic System Europe Premium (5 year warranty *)
24V Photovoltaic System Europe Premium with deep discharge batteries and life expectancy of 10-12 years
System A analysis 2.3 - 2.6 kwh / 24vfinal match.AC (24 hours a day during the summer months).
For a similar performance in Winter, double panels or a 450-500 wind turbine are required. watt
2 pcs. Φ / Β panel Solar Energy SE 270 / 270-275 watt Poly/ European. They have a positive tolerance and power in watts. That is, they always deliver more watts than their rated power, high-efficiency installed power of 540 watts to + 5% higher efficiency. Available with 12 years factory warranty and 25 years 80% performance guarantee.
1 pc. pure halftone inverter Phoenix 24/1200 Schuko outlet * 2000 watt power supply high reliability. Suitable for operation of all devices of corresponding power. Provides energy savings of up to 25% on self-consumption due to stabilized sine. Warranty 60 months (5 years).
2 pcs. Batteries S. Energy ECO AGM 220 (220AH C20 / 250AH C100) Premium type VRLA / AGM of corresponding specifications with GEL batteries. (deep closed type discharge lasting 10-12 years of life). Total 500AH / 250AH / 24V C100.
1 pc. Charging regulator BlueSolar PWM-Light 12 / 24V-20A (with Programming capability). Warranty 60 months (5 years)
In stock
ass=”yoast-text-mark”>ass=”yoast-text-mark”>ass=”yoast-text-mark”>yle=”text-decoration: underline;”><b>2.9kwh-3.6kwh/ 24vfinal match.AC> – 24V Photovoltaic System Europe Premium (5 year warranty *)
24V Photovoltaic System Europe Premium with deep discharge batteries and life expectancy of 10-12 years
3 pcs. Φ / Β panel Solar Energy SE 270 / 270-275 watt Poly/ European.. They have a positive tolerance and power in watts. That is, they always deliver more watts than their rated power, high-efficiency installed power of 810 watts up to + 5% higher efficiency. Available with 12 years factory warranty and 25 years 80% performance guarantee
1 pc. pure sine wave inverter Phoenix 24/1200 Schuko o* 2000 watt power supply high reliability. Suitable for operation of all devices of corresponding power. Provides energy savings of up to 25% on self-consumption due to stabilized sine. 60 months warranty (5 years)
tion1″>4 pcs. Batteries S.Energy 150 / 165 AH C100) type VRLA/ AGM Long Life of corresponding specifications with GEL batteries. (deep closed type discharge lasting 10-12 years of life). Total 660AH / 12V / 330 24v C100
class=”wordsection1″>Possibility to add 2V High-strength and longer-lasting batteries in extreme uses at a small additional cost
1 pc. Charging regulator BlueSolar PWM-Light 12 / 24V-30A (with Programming capability). Warranty 60 months (5 years)
In stock
Available on backorder
What does the autonomous 5,5kwh-6kwh photovoltaic package for a holiday home include:
Available on backorder
Out of stock
Available on backorder
4.6 kwh- 5.8 kwhfinal match.vfinal match.AC - 24V Photovoltaic System Europe Economy (5 year warranty *)
24V Photovoltaics Europe Economy with batteries Seeds traction
System analysis 4.6 kwh- 5.8 kwh (24 hours a day during the summer months).
For a similar performance in Winter, double panels or a 450-500 watt wind turbine are required.
4 pcs. Φ / Β panel Solar Energy SE 270 / 270-275 watt Poly/ European. They have a positive tolerance and power in watts. That is, they always deliver more watts than their rated power, high-efficiency installed power of 1080 watts up to + 5% higher efficiency. Available with 12 years factory warranty and 25 years 80% performance guarantee
1 pc. pure sine wave inverter Phoenix 24/1600 3200 watt power supply high reliability. Suitable for operation of all devices of corresponding power. Provides energy savings of up to 25% on self-consumption due to stabilized sine. Warranty 60 months (5 years)
4 pcs. Batteries Solar 240AH Super Heavy Duty (semi-deep discharge of closed type economy lasting 6 -8 years of life). Total capacity 960AH / 12V - 480AH / 24V
1 pc. Charging regulator Phocos CXN 40 (Digital programmable) (2 years warranty)
Ability to add MPPT controller with datalogger to increase efficiency up to 25% at a small additional cost.
Available on backorder
SET Photovoltaic Panel Mono 410W black 31 pieces 12.71kW V-TAC 1151931 half-cells
Output 410W
Dimensions 1722 x 1134 x 35mm
Minimum SET purchase quantity
Out of stock
Available on backorder
Out of stock
Τthe autonomous photovoltaic 6,7Kwh - 7.7Kwh system consists of 6 deep discharge batteries 220AH / 250AH C100 (1500AH C100) and 4 photovoltaic panels 330 Watt (1320 Watt). Inverter 3000VA and built-in charger 30A. The autonomous photovoltaic 6,5Kwh - 7.7Kwh also includes the support bases for the photovoltaic panels. At the same time, plans and installation instructions are provided.
Available on backorder
4.8 kwh- 5.45 kwh (per 24 hours with the corresponding wind potential)
Price without VAT
In stock
Available on backorder
6.5kwh-7.5kwh / 24v / 220AC - 24V Europe Premium Photovoltaic System (5 year warranty *)
24V Photovoltaics Europe Premium with deep discharge batteries and life expectancy of 10-12 years
System analysis 6.5kwh-7.5kwh (24 hours a day during the summer months).
For a similar performance in Winter, double panels or a 450-500 wind turbine are required. watt
Appliances: Energy class A refrigerator Medium, ECO Medium Washing Machine (up to 1200watt) + Lighting + 8 lamps + TV + small appliances 550wh
4 pcs. Φ/Β panel Solar Energy SE 330 / 330-335 watts Poly / European.
4 pcs. Batteries S. Energy ECOGEL 250 (250AH C20 / 280AH C100) type GEL batteries. (1250 cycles DOD 50%)
1 pc. pure sine wave inverter Phoenix Inverter C 24/2000
2 pcs. Charging regulator ECO ES 150 / 30A programmable 150V with digital display (2 year warranty).
Photovoltaic support bases
Price without VAT
Out of stock
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