5KW Off-Grid Solar System
Model:SE-OGS-5KW-A
Description
Off-grid solar systems with lead-acid battery are working widely in many developing countries, and lead-acid battery could be 100% recycled now!
Product Features
- Solar Modules
- Racking System
- Hybrid Inverter
- Batteries
- Cables
- Connectors
20KW Off-Grid Solar System
Model:
SE-OGS-20KW-A
Description :
Off-grid solar systems with lead-acid battery are working widely in many developing countries, and lead-acid battery could be 100% recycled now!
Product Features
- Solar Panel
- Mounting System
- Hybrid Inverter
- Batteries
- Cables
- Connectors
SE-OGS-20KW-A
2030
De-carbonizing
2030
De-carbonizing
100%
Recycling
100%
Recycling
1KW
Per KW Cost Low
1KW
Per KW Cost Low
How Could An Off Grid Solar System Make Your Daily Life Better?
Off-grid solar systems have emerged as a transformative power solution, particularly beneficial in regions like the Republic of South Africa, where access to stable electrical grids is often a challenge. These systems aren’t just about energy independence; they encompass a broad spectrum of advantages that significantly enhance daily life.
Enhanced Daily Living through Off-Grid Solar Systems
In case of a fire, rapid shutdown systems enable quick de-energization of the solar array, reducing the risk of electric shock for firefighters navigating the roof.
Electrical Safety
Maintenance or emergency situations require the de-energization of solar panels to prevent electrical shocks to workers and others in proximity to system components.
Compliance with Codes and Regulations
Consistent Power Source: These systems ensure a steady and reliable power supply, a crucial benefit in remote or grid-challenged areas prone to power disruptions.
Freedom from Utility Grids: Off-grid solar systems liberate users from dependence on utility companies, shielding them from the vagaries of power outages, fluctuating energy costs, and grid instabilities.
Eco-Friendly Impact: Embracing solar energy means a shift towards a cleaner, renewable energy source, diminishing reliance on fossil fuels and cutting down on carbon emissions. This eco-conscious choice fosters a healthier environment, directly enhancing community and individual well-being.
Economic Efficiency: Although initial installation costs may be substantial, these systems eventually lead to significant savings on electricity expenses. Once the initial investment is recovered, the energy provided is essentially free.
Minimal Maintenance Needs: Solar power systems are renowned for their low maintenance requirements, offering a convenient alternative to other power sources that demand regular upkeep or fuel.
Empowerment Through Education: Implementing and maintaining an off-grid solar system offers valuable learning experiences, empowering users to better understand and manage their energy use.
Safety Enhancements: In areas with unreliable power, off-grid systems ensure the continued operation of essential safety and security devices like motion detectors, security cameras, and communication systems.
Support for Essential Appliances: Tailored to prioritize power for critical appliances, these systems keep vital equipment like refrigerators, water pumps, and medical devices running smoothly during outages.
Customizable and Scalable: Off-grid solar systems are adaptable to individual requirements and can be expanded as needed, making them suitable for a variety of applications, from small households to larger community endeavors.
Catalyst for Rural Advancement: By powering essential services like schools, medical centers, and community halls, these systems play a pivotal role in fostering rural development and improving access to education and healthcare.
Government Incentives: Many regions offer incentives, rebates, or tax benefits for solar system installation, making the initial investment more accessible and promoting sustainable practices.
Silent Operation: Solar panels operate quietly, offering a noise-pollution-free environment and contributing to a more serene living space.
Portable and Modular Design: Certain off-grid solar systems are crafted for portability and modularity, ideal for temporary setups, RV living, or camping.
In summary, off-grid solar systems offer a reliable, cost-effective, and environmentally friendly alternative to traditional grid electricity. They provide energy autonomy, reduce environmental impact, and deliver practical solutions for energy needs in off-grid scenarios, significantly improving daily life.
Is Lead-Acid Battery Still a Practical Choice?
Lead-acid batteries have remained a popular and cost-effective option for off-grid solar systems over the years, presenting both advantages and drawbacks that should be carefully considered.
Advantages
Cost-Effectiveness: When comparing upfront costs, lead-acid batteries tend to be more budget-friendly than alternatives like lithium-ion, making them an appealing choice for those establishing off-grid solar systems on a tight budget.
Availability: Widely accessible in various sizes and capacities, lead-acid batteries offer consumers flexibility in finding a suitable option that aligns with their specific needs.
Reliability: Demonstrating a history of reliable performance in off-grid applications, lead-acid batteries prove their dependability when properly maintained.
Recyclability: With a well-established recycling infrastructure in many parts of the world, lead-acid batteries are highly recyclable, contributing to environmental sustainability.
Drawbacks
Maintenance: Regular maintenance, including monitoring electrolyte levels and specific gravity, along with equalization charges, is necessary to prevent issues like sulfation and stratification.
Weight and Size: Compared to newer technologies like lithium-ion, lead-acid batteries are heavier and have a lower energy density, requiring more space for the same storage capacity.
Depth of Discharge (DoD): Lead-acid batteries typically have a lower DoD compared to lithium-ion, and regularly discharging them below 50% can significantly reduce their lifespan.
Lifespan: The lifespan of lead-acid batteries is generally shorter than that of lithium-ion batteries, especially if not properly maintained or frequently deeply discharged.
Efficiency: Lower charge and discharge efficiencies in lead-acid batteries result in more energy being lost as heat during these processes compared to lithium-ion batteries.
Temperature Sensitivity: Extreme temperatures can negatively impact the performance and lifespan of lead-acid batteries.
When contemplating the use of lead-acid batteries in an off-grid solar system, it’s crucial to evaluate these pros and cons in light of specific needs, budget constraints, and the ability to perform regular maintenance. For those capable of managing maintenance and accommodating a larger battery bank, lead acid remains a viable and cost-effective solution. However, if long-term costs, maintenance demands, and space limitations are concerns, alternative battery technologies like lithium-ion may be a preferable choice, despite their higher initial costs.
Maximizing Sustainability
100% Recycling of Lead-Acid Batteries
Resource Conservation
By recycling lead-acid batteries, we actively preserve natural resources, curbing the demand for new lead and plastic. This process allows finite resources like lead to be reused multiple times, effectively extending the lifespan of materials sourced from the earth.
Environmental Impact Reduction
Traditional mining and processing of lead can inflict environmental harm through air and water pollution and land degradation. Recycling mitigates the need for these processes, thereby reducing associated environmental impacts.
Waste Minimization
Recycling prevents the buildup of hazardous waste in landfills. Lead-acid batteries contain toxic elements such as lead and sulfuric acid, which, if improperly disposed of, pose a threat to soil and water contamination.
Energy Efficiency
The energy required to recycle lead from used batteries is significantly lower than that needed to produce new lead from ore. This energy efficiency not only results in greenhouse gas emission reduction but also contributes to overall lower energy consumption.
Economic Benefits
The recycling process generates employment opportunities in the collection, transportation, and processing of used batteries. Additionally, industries utilizing recycled materials for manufacturing benefit from this eco-friendly practice.
Pollution Prevention
Proper recycling practices involve the containment and neutralization of toxic substances, preventing the release of lead and acid into the environment. This safeguards ecosystems and human health.
Regulatory Compliance
Many countries have stringent regulations governing the disposal and recycling of lead-acid batteries. Embracing recycling ensures compliance with these regulations, averting potential fines and legal complications.
Import Dependence Reduction
Nations without native lead sources can diminish their reliance on imports by recycling used lead-acid batteries. This not only enhances national self-sufficiency but also contributes to economic security.
Circular Economy Support
Recycling lead-acid batteries exemplifies a circular economy, where products and materials are kept in use for as long as possible. This approach maximizes the value extracted from them during use and facilitates the recovery and regeneration of products and materials at the end of their service life.
Encouraging Sustainable Practices
Successful lead-acid battery recycling can serve as a model for other industries, promoting the adoption of sustainable product design and recycling systems for various product types.
In conclusion, the 100% recycling of lead-acid batteries stands as a sustainable, cost-effective practice with significant environmental and economic benefits. It plays a pivotal role in modern waste management and material recovery efforts, emphasizing the importance of responsible and eco-conscious practices.
How Could An Off Grid Solar System Make Your Daily Life Better?
Off-grid solar systems have emerged as a transformative power solution, particularly beneficial in regions like the Republic of South Africa, where access to stable electrical grids is often a challenge. These systems aren’t just about energy independence; they encompass a broad spectrum of advantages that significantly enhance daily life.
Enhanced Daily Living through Off-Grid Solar Systems:
Consistent Power Source: These systems ensure a steady and reliable power supply, a crucial benefit in remote or grid-challenged areas prone to power disruptions.
Freedom from Utility Grids: Off-grid solar systems liberate users from dependence on utility companies, shielding them from the vagaries of power outages, fluctuating energy costs, and grid instabilities.
Eco-Friendly Impact: Embracing solar energy means a shift towards a cleaner, renewable energy source, diminishing reliance on fossil fuels and cutting down on carbon emissions. This eco-conscious choice fosters a healthier environment, directly enhancing community and individual well-being.
Economic Efficiency: Although initial installation costs may be substantial, these systems eventually lead to significant savings on electricity expenses. Once the initial investment is recovered, the energy provided is essentially free.
Minimal Maintenance Needs: Solar power systems are renowned for their low maintenance requirements, offering a convenient alternative to other power sources that demand regular upkeep or fuel.
Empowerment Through Education: Implementing and maintaining an off-grid solar system offers valuable learning experiences, empowering users to better understand and manage their energy use.
Safety Enhancements: In areas with unreliable power, off-grid systems ensure the continued operation of essential safety and security devices like motion detectors, security cameras, and communication systems.
Support for Essential Appliances: Tailored to prioritize power for critical appliances, these systems keep vital equipment like refrigerators, water pumps, and medical devices running smoothly during outages.
Customizable and Scalable: Off-grid solar systems are adaptable to individual requirements and can be expanded as needed, making them suitable for a variety of applications, from small households to larger community endeavors.
Catalyst for Rural Advancement: By powering essential services like schools, medical centers, and community halls, these systems play a pivotal role in fostering rural development and improving access to education and healthcare.
Government Incentives: Many regions offer incentives, rebates, or tax benefits for solar system installation, making the initial investment more accessible and promoting sustainable practices.
Silent Operation: Solar panels operate quietly, offering a noise-pollution-free environment and contributing to a more serene living space.
Portable and Modular Design: Certain off-grid solar systems are crafted for portability and modularity, ideal for temporary setups, RV living, or camping.
In summary, off-grid solar systems offer a reliable, cost-effective, and environmentally friendly alternative to traditional grid electricity. They provide energy autonomy, reduce environmental impact, and deliver practical solutions for energy needs in off-grid scenarios, significantly improving daily life.
Is Lead-Acid Battery Still a Practical Choice?
Lead-acid batteries have remained a popular and cost-effective option for off-grid solar systems over the years, presenting both advantages and drawbacks that should be carefully considered.
Advantages:
Cost-Effectiveness: When comparing upfront costs, lead-acid batteries tend to be more budget-friendly than alternatives like lithium-ion, making them an appealing choice for those establishing off-grid solar systems on a tight budget.
Availability: Widely accessible in various sizes and capacities, lead-acid batteries offer consumers flexibility in finding a suitable option that aligns with their specific needs.
Reliability: Demonstrating a history of reliable performance in off-grid applications, lead-acid batteries prove their dependability when properly maintained.
Recyclability: With a well-established recycling infrastructure in many parts of the world, lead-acid batteries are highly recyclable, contributing to environmental sustainability.
Drawbacks:
Maintenance: Regular maintenance, including monitoring electrolyte levels and specific gravity, along with equalization charges, is necessary to prevent issues like sulfation and stratification.
Weight and Size: Compared to newer technologies like lithium-ion, lead-acid batteries are heavier and have a lower energy density, requiring more space for the same storage capacity.
Depth of Discharge (DoD): Lead-acid batteries typically have a lower DoD compared to lithium-ion, and regularly discharging them below 50% can significantly reduce their lifespan.
Lifespan: The lifespan of lead-acid batteries is generally shorter than that of lithium-ion batteries, especially if not properly maintained or frequently deeply discharged.
Efficiency: Lower charge and discharge efficiencies in lead-acid batteries result in more energy being lost as heat during these processes compared to lithium-ion batteries.
Temperature Sensitivity: Extreme temperatures can negatively impact the performance and lifespan of lead-acid batteries.
When contemplating the use of lead-acid batteries in an off-grid solar system, it’s crucial to evaluate these pros and cons in light of specific needs, budget constraints, and the ability to perform regular maintenance. For those capable of managing maintenance and accommodating a larger battery bank, lead acid remains a viable and cost-effective solution. However, if long-term costs, maintenance demands, and space limitations are concerns, alternative battery technologies like lithium-ion may be a preferable choice, despite their higher initial costs.
Maximizing Sustainability: 100% Recycling of Lead-Acid Batteries
Resource Conservation: By recycling lead-acid batteries, we actively preserve natural resources, curbing the demand for new lead and plastic. This process allows finite resources like lead to be reused multiple times, effectively extending the lifespan of materials sourced from the earth.
Environmental Impact Reduction: Traditional mining and processing of lead can inflict environmental harm through air and water pollution and land degradation. Recycling mitigates the need for these processes, thereby reducing associated environmental impacts.
Waste Minimization: Recycling prevents the buildup of hazardous waste in landfills. Lead-acid batteries contain toxic elements such as lead and sulfuric acid, which, if improperly disposed of, pose a threat to soil and water contamination.
Energy Efficiency: The energy required to recycle lead from used batteries is significantly lower than that needed to produce new lead from ore. This energy efficiency not only results in greenhouse gas emission reduction but also contributes to overall lower energy consumption.
Economic Benefits: The recycling process generates employment opportunities in the collection, transportation, and processing of used batteries. Additionally, industries utilizing recycled materials for manufacturing benefit from this eco-friendly practice.
Pollution Prevention: Proper recycling practices involve the containment and neutralization of toxic substances, preventing the release of lead and acid into the environment. This safeguards ecosystems and human health.
Regulatory Compliance: Many countries have stringent regulations governing the disposal and recycling of lead-acid batteries. Embracing recycling ensures compliance with these regulations, averting potential fines and legal complications.
Import Dependence Reduction: Nations without native lead sources can diminish their reliance on imports by recycling used lead-acid batteries. This not only enhances national self-sufficiency but also contributes to economic security.
Circular Economy Support: Recycling lead-acid batteries exemplifies a circular economy, where products and materials are kept in use for as long as possible. This approach maximizes the value extracted from them during use and facilitates the recovery and regeneration of products and materials at the end of their service life.
Encouraging Sustainable Practices: Successful lead-acid battery recycling can serve as a model for other industries, promoting the adoption of sustainable product design and recycling systems for various product types.
In conclusion, the 100% recycling of lead-acid batteries stands as a sustainable, cost-effective practice with significant environmental and economic benefits. It plays a pivotal role in modern waste management and material recovery efforts, emphasizing the importance of responsible and eco-conscious practices.
System Brochure
To install SolarEpoch's flexible light solar panels on the exterior of your balcony, use the attached belts to secure all installation holes and commence the installation.
Ensure that all the holes in the solar modules are securely fastened.
Repeat the initial step and mount all the solar modules onto the balcony rack.
Connect the solar panels individually, and if you require an extension cable, you can purchase it from our SolarEpoch website. Contact our 24/7 customer service before making a purchase, and we’ll provide complimentary cables if you specify the required length.
After ensuring the proper connection of all solar modules, insert the cable into the micro-inverter, allowing the balcony solar system to be seamlessly integrated with the electricity grid.
System Application
Monocrystalline Solar Panel
Specification:550W 2279*1134*35mm 28.5kg
Quantities:10
Mounting Bracket
Specification:Tile mounting bracket
Quantities:1
Inverse Control All-in-One
Specification:48V100A MPPT-5KW220V
Rated power: 5kw
Peak power: 10kw
Quantities:1
Inverter-Battery Cable
Specification:10 square 1.5m*2 strips, 60CM*4 strip
Quantities:6
gel lead-acid battery
Specification:12V200AH
Quantities:4
Solar Panel Wires
Specification:Red 30 meters, black 20 meters
Quantities:1
connectors
Specification:1 pair
Quantities:4
Why Choose Us?
Silicon crystalline solar modules are engineered for a 25 to 30-year power generation lifespan, mirroring the duration of our warranty. Our electrical components undergo rigorous testing in third-party laboratories, such as UL/TUV, ensuring optimal performance and reliability. Manufacturing processes are closely monitored by SolarEdge technicians, each boasting over a decade of experience in solar product manufacturing. We actively analyze feedback from both our factory and customers to inform and implement continuous improvements for the next generation of solar products.
SolarEpoch provides round-the-clock online support, available 24/7, for technical issues and after-service inquiries. Kindly email us with the details, and we will diligently assist you with our best efforts. We value and welcome your feedback to enhance our products and related services.
We hold ourselves accountable to our customers, ensuring that the product quality and service delivery align with our promises. Our team is dedicated to delivering value through our solar modules, solar systems, smart solar modules, and monitoring platform. We stand firm in our commitment, leaving no room for excuses if expectations are not met.
SolarEpoch, backed by self-owned factories and robust supply chains, meticulously manages all materials in accordance with certified Bill of Materials (BOM). By eliminating intermediary trading processes and leveraging modern commercial tools such as online shops and TikTok direct selling, we have successfully reduced costs. Our overarching goal is to empower customers to make direct purchases from our factories.
At SolarEpoch, every member of our team, from management and online supervisors to sales and after-service leaders, has demonstrated their capabilities in delivering flawless products and wholehearted customer service. We take pride in considering our team as the most valuable asset of the company.
As a leading provider of solar products, our team comprises skilled designers, engineers, and service experts.
We specialize in delivering top-quality solar modules, solar systems, solar batteries, smart solar modules, and exceptional services to meet your renewable energy needs. service experts.
System Application
Monocrystalline Solar Panel
Specification:550W 2279*1134*35mm 28.5kg
Quantities:10
Mounting Bracket
Specification:Tile mounting bracket
Quantities:1
Inverse Control All-in-One
Specification:48V100A MPPT-5KW220V
Rated power: 5kw
Peak power: 10kw
Quantities:1
Inverter-Battery Cable
Specification:10 square 1.5m*2 strips, 60CM*4 strip
Quantities:6
gel lead-acid battery
Specification:12V200AH
Quantities:4
Solar Panel Wires
Specification:Red 30 meters, black 20 meters
Quantities:1
connectors
Specification:1 pair
Quantities:4
Our Offers
Not only the products and services, we also share the news of solar industry and answer the frequantly asked questions to help our customers to detect the market trend and select the most proper products which are suitable for their usage; SolarEpoch built a knowledge center to spread the interesting things from solar industry and the media center will bring you the latest videos which are brilliant.
What Is The N-type Solar Module?
Common Problems With
Solar Panels
Will The Solar Price Go Down Rapidly?
Common Problems With
Solar Panels
What Is Happening In Solar Industry?
Common Problems With
Solar Panels
Why Choose Us?
As a leading provider of solar products, our team comprises skilled designers, engineers, and service experts. We specialize in delivering top-quality solar modules, solar systems, solar batteries, smart solar modules, and exceptional services to meet your renewable energy needs.
Silicon crystalline solar modules are engineered for a 25 to 30-year power generation lifespan, mirroring the duration of our warranty. Our electrical components undergo rigorous testing in third-party laboratories, such as UL/TUV, ensuring optimal performance and reliability. Manufacturing processes are closely monitored by SolarEdge technicians, each boasting over a decade of experience in solar product manufacturing. We actively analyze feedback from both our factory and customers to inform and implement continuous improvements for the next generation of solar products.
SolarEpoch provides round-the-clock online support, available 24/7, for technical issues and after-service inquiries. Kindly email us with the details, and we will diligently assist you with our best efforts. We value and welcome your feedback to enhance our products and related services.
We hold ourselves accountable to our customers, ensuring that the product quality and service delivery align with our promises. Our team is dedicated to delivering value through our solar modules, solar systems, smart solar modules, and monitoring platform. We stand firm in our commitment, leaving no room for excuses if expectations are not met.
Built on SolarEpoch’s innovative and dependable technologies, we provide extended workmanship and performance warranties compared to our market competitors. Take, for instance, our recently launched thin double glass bi-facial module, for which we offer a global warranty of 30 years plus an additional 30 years, showcasing our commitment to customer satisfaction and product durability.
SolarEpoch, backed by self-owned factories and robust supply chains, meticulously manages all materials in accordance with certified Bill of Materials (BOM). By eliminating intermediary trading processes and leveraging modern commercial tools such as online shops and TikTok direct selling, we have successfully reduced costs. Our overarching goal is to empower customers to make direct purchases from our factories.
At SolarEpoch, every member of our team, from management and online supervisors to sales and after-service leaders, has demonstrated their capabilities in delivering flawless products and wholehearted customer service. We take pride in considering our team as the most valuable asset of the company.
Our Offers
Not only the products and services, we also share the news of solar industry and answer the frequantly asked questions to help our customers to detect the market trend and select the most proper products which are suitable for their usage; SolarEpoch built a knowledge center to spread the interesting things from solar industry and the media center will bring you the latest videos which are brilliant.
What Is The N-type Solar Module?
N-type solar module was used in the satallites 60 years ago, but when the industry evoloved...
Will The Solar Price Go Down Rapidly?
Recently the solar product prices went lower and lower, will this trend last to ...
What Is Happening In Solar Industry?
700W plus solar modules will be published in the next several months...
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