- All
- Product Name
- Product Keyword
- Product Model
- Product Summary
- Product Description
- Multi Field Search
 |
| Quantity: | |
|---|---|
Lead-acid gel energy storage batteries suitable for large-capacity solar power generation in harsh environments and remote areas
With the global demand for sustainable energy solutions growing, the combination of solar power generation and advanced energy storage systems has become a key approach to addressing power shortages in remote areas and harsh environmental conditions. The sealed structure and gel electrolyte of these batteries offer significant advantages in terms of maintenance requirements, cycle life and performance at extreme temperatures, making them an ideal choice for power supply systems in remote areas.
Gel lead-acid batteries represent a significant advancement in lead-acid battery technology and are specifically designed for renewable energy applications. Lead-acid gel batteries belong to the valve-regulated lead-acid (VRLA) battery family. Their core feature is the use of a gel-like electrolyte - a mixture of sulfuric acid and silicon-based gel, which replaces the liquid electrolyte in traditional lead-acid batteries. This innovative design fundamentally addresses the limitations of traditional energy storage technologies and creates a series of technical advantages for extreme working conditions. This fundamental modification brings several key advantages to solar storage under demanding conditions, including reduced maintenance, enhanced vibration resistance, and outstanding performance over a wide temperature range.
Application in large-capacity solar energy machine rooms
The application of gel lead-acid batteries in solar power generation systems has achieved remarkable success in addressing the power challenges in remote mountainous areas. Solar large-capacity machine rooms located in harsh and remote areas face unique energy challenges: unstable solar input, restricted grid access, and high maintenance difficulty. Lead-acid gel batteries precisely address these pain points through targeted performance advantages:
Stable power supply: During the day, solar panels convert light energy into electrical energy, which is then regulated by an intelligent charge and discharge controller and stored in a gel battery pack. At night, on cloudy days or during peak electricity consumption periods, the battery releases the stored electrical energy to provide 7× 24-hour uninterrupted power supply for the servers, cooling systems and critical infrastructure in the computer room. Its high charging acceptance efficiency ensures rapid energy replenishment during peak hours of sunlight, maximizing energy utilization.
Before the implementation of solar energy storage systems, these communities relied on small hydropower stations with limited capacity, resulting in frequent power outages during peak electricity consumption periods when "washing machines couldn't operate and electric stoves couldn't boil water".
Suitable for scenarios far from the grid: In remote villages, mountainous areas or isolated industrial zones without grid coverage, gel batteries have become the core of energy storage. The maintenance-free design eliminates the need for frequent on-site inspections, and its durability reduces the frequency of replacement, significantly lowering the long-term operating costs of remote data centers.
Large capacity scalability: Gel batteries support modular expansion and can be combined into large-capacity battery packs to meet the energy demands of computer rooms. Whether it is small and medium-sized facilities or large data centers, they can all meet specific energy storage requirements through customized battery arrays and maintain stable performance even under high-load conditions.
Environmental sustainability and cost-effectiveness
In addition to its performance advantages, lead-acid gel batteries also have significant environmental and economic value:
Environmental protection design and recyclability: The battery is made of non-toxic materials and does not emit any harmful gases during operation. Minimize environmental impact to the greatest extent and align with the concept of circular economy.
Cost competitiveness: Although the initial investment of gel batteries is slightly higher than that of ordinary lead-acid batteries, their longer service life, lower maintenance requirements and higher durability make their total life cycle cost more advantageous. Compared with lithium batteries that are 2 to 3 times more expensive, gel batteries offer a reliable and economical option for remote data centers with limited budgets without sacrificing performance.
Weight | 66kg |
Type of Battery | Sealed GEL |
Rated Capacity | 250AH |
Rated Voltage | 12V |
Lead-acid gel energy storage batteries suitable for large-capacity solar power generation in harsh environments and remote areas
With the global demand for sustainable energy solutions growing, the combination of solar power generation and advanced energy storage systems has become a key approach to addressing power shortages in remote areas and harsh environmental conditions. The sealed structure and gel electrolyte of these batteries offer significant advantages in terms of maintenance requirements, cycle life and performance at extreme temperatures, making them an ideal choice for power supply systems in remote areas.
Gel lead-acid batteries represent a significant advancement in lead-acid battery technology and are specifically designed for renewable energy applications. Lead-acid gel batteries belong to the valve-regulated lead-acid (VRLA) battery family. Their core feature is the use of a gel-like electrolyte - a mixture of sulfuric acid and silicon-based gel, which replaces the liquid electrolyte in traditional lead-acid batteries. This innovative design fundamentally addresses the limitations of traditional energy storage technologies and creates a series of technical advantages for extreme working conditions. This fundamental modification brings several key advantages to solar storage under demanding conditions, including reduced maintenance, enhanced vibration resistance, and outstanding performance over a wide temperature range.
Application in large-capacity solar energy machine rooms
The application of gel lead-acid batteries in solar power generation systems has achieved remarkable success in addressing the power challenges in remote mountainous areas. Solar large-capacity machine rooms located in harsh and remote areas face unique energy challenges: unstable solar input, restricted grid access, and high maintenance difficulty. Lead-acid gel batteries precisely address these pain points through targeted performance advantages:
Stable power supply: During the day, solar panels convert light energy into electrical energy, which is then regulated by an intelligent charge and discharge controller and stored in a gel battery pack. At night, on cloudy days or during peak electricity consumption periods, the battery releases the stored electrical energy to provide 7× 24-hour uninterrupted power supply for the servers, cooling systems and critical infrastructure in the computer room. Its high charging acceptance efficiency ensures rapid energy replenishment during peak hours of sunlight, maximizing energy utilization.
Before the implementation of solar energy storage systems, these communities relied on small hydropower stations with limited capacity, resulting in frequent power outages during peak electricity consumption periods when "washing machines couldn't operate and electric stoves couldn't boil water".
Suitable for scenarios far from the grid: In remote villages, mountainous areas or isolated industrial zones without grid coverage, gel batteries have become the core of energy storage. The maintenance-free design eliminates the need for frequent on-site inspections, and its durability reduces the frequency of replacement, significantly lowering the long-term operating costs of remote data centers.
Large capacity scalability: Gel batteries support modular expansion and can be combined into large-capacity battery packs to meet the energy demands of computer rooms. Whether it is small and medium-sized facilities or large data centers, they can all meet specific energy storage requirements through customized battery arrays and maintain stable performance even under high-load conditions.
Environmental sustainability and cost-effectiveness
In addition to its performance advantages, lead-acid gel batteries also have significant environmental and economic value:
Environmental protection design and recyclability: The battery is made of non-toxic materials and does not emit any harmful gases during operation. Minimize environmental impact to the greatest extent and align with the concept of circular economy.
Cost competitiveness: Although the initial investment of gel batteries is slightly higher than that of ordinary lead-acid batteries, their longer service life, lower maintenance requirements and higher durability make their total life cycle cost more advantageous. Compared with lithium batteries that are 2 to 3 times more expensive, gel batteries offer a reliable and economical option for remote data centers with limited budgets without sacrificing performance.
Weight | 66kg |
Type of Battery | Sealed GEL |
Rated Capacity | 250AH |
Rated Voltage | 12V |
