High-Quality Lead Battery Storage: DZM Series
Product Main Parameters
| Nominal Voltage | 12V (6 Cells) to 16V (8 Cells) |
|---|---|
| Cycle Life | ≥ 600 cycles @ 80% DOD |
| Float Charge Voltage | 2.27V/cell - 2.30V/cell |
| Equalization Charge Voltage | 2.45V/cell - 2.48V/cell |
| Low Discharge Rate | ≤ 3% per month |
| Container Material | ABS |
Common Product Specifications
| Applications | E-Bike/Scooter, E-Tools, E-Tricycle |
|---|---|
| Weight | Various models, average 35 kg |
| Dimensions | Various models, average 320mm x 170mm x 220mm |
| Operating Temperature | -20°C to 55°C |
| Storage Temperature | 0°C to 40°C |
Product Manufacturing Process
The manufacturing process of High-Quality lead battery storage involves several key steps to ensure performance, reliability, and safety. First, high-purity lead and lead dioxide are prepared for the positive and negative plates, respectively. These plates are pasted with an active material and cured for strength and integrity. Next, the plates are assembled into battery cells, with separators placed between them to prevent short circuits. These cells are then placed in an ABS container and filled with sulfuric acid electrolyte. The final stage involves sealing the container and performing rigorous quality control tests, including capacity, voltage, and safety checks, to ensure each battery meets stringent standards. (Source: Journal of Power Sources)
Product Application Scenarios
High-Quality lead battery storage is widely used in various applications due to its robustness and cost-effectiveness. In the automotive industry, these batteries are used for starting, lighting, and ignition purposes, providing reliable power to start engines and power vehicle electronics. They are also prevalent in renewable energy systems, storing excess energy from solar or wind sources for later use. In industrial sectors, High-Quality lead battery storage is used in forklifts, golf carts, and other electric vehicles. Lastly, uninterruptible power supplies (UPS) rely on these batteries to provide backup power to critical infrastructure during grid outages. (Source: Energy Storage Journal)
Product After-Sales Service
HRESYS provides comprehensive after-sales service for High-Quality lead battery storage. This includes a standard warranty covering manufacturing defects, technical support for installation and maintenance, and a customer service hotline for any inquiries. We also offer periodic maintenance checks to ensure optimal battery performance and longevity.
Product Transportation
Transportation of High-Quality lead battery storage adheres to strict safety standards to prevent damage and ensure regulatory compliance. Batteries are securely packaged in robust, impact-resistant containers and labeled according to hazardous materials guidelines. We work with experienced logistics partners to facilitate timely and safe deliveries worldwide.
Product Advantages
- Cost-Effective: Affordable compared to other rechargeable batteries.
- Long Cycle Life: More than 600 cycles at 80% depth of discharge.
- Reliable Seal Structure: Can be used in any direction except inversion.
- Low Self-Discharge: High-quality grid alloy and electrolyte ensure low self-discharge.
- High Safety: Enhanced ABS container and safety valve design for durability and reliability.
- Environmental-Friendly: High recyclability with low environmental impact.
Product FAQ
- What is the cycle life of High-Quality lead battery storage?
High-Quality lead battery storage from HRESYS has an exceptional cycle life of over 600 cycles at 80% depth of discharge (DOD), making it highly durable for various applications.
- Can High-Quality lead battery storage be used in any orientation?
Yes, the battery can be used in any direction except for inversion, thanks to its reliable seal structure.
- What applications are suitable for High-Quality lead battery storage?
Applications include electric bikes/scooters, electric tricycles, E-tools, and other devices requiring a DC power source.
- What are the voltage specifications for charging?
The float charge voltage is 2.27V to 2.30V per cell, and the equalization charge voltage is 2.45V to 2.48V per cell.
- What is the self-discharge rate for High-Quality lead battery storage?
The self-discharge rate is less than 3% per month, which ensures long-term reliability.
- Is the battery maintenance-intensive?
Regular maintenance can prolong the service life by 50% to 100% or more. However, it also features benefits akin to VRLA batteries, making maintenance easier.
- What are the advantages of using ABS containers?
ABS containers offer enhanced durability, impact resistance, and safety, making them ideal for various environmental conditions.
- Can the battery withstand harsh weather conditions?
Yes, High-Quality lead battery storage can operate within a temperature range of -20°C to 55°C, suitable for various climatic conditions.
- What is the environmental impact of High-Quality lead battery storage?
The batteries are highly recyclable, with recycling rates often exceeding 95%, reducing the environmental impact significantly.
- What support does HRESYS provide for High-Quality lead battery storage?
HRESYS offers comprehensive after-sales services, including a standard warranty, technical support, and periodic maintenance checks to ensure optimal performance.
Product Hot Topics
- The Evolution of High-Quality Lead Battery Storage
High-Quality lead battery storage has come a long way since its inception. Initially discovered by Gaston Planté in 1859, this technology has evolved significantly, becoming a cost-effective and reliable energy storage solution. Modern advancements have improved cycle life, reduced maintenance needs, and enhanced recyclability, making it a staple in automotive, renewable energy, and industrial applications. Despite the rise of lithium-ion batteries, High-Quality lead battery storage remains relevant due to its affordability and established recycling infrastructure.
- Why Choose High-Quality Lead Battery Storage for E-Bikes?
When it comes to powering electric bikes, High-Quality lead battery storage offers several distinct advantages. These batteries provide a robust and reliable source of power with a long cycle life of over 600 cycles at 80% DOD. Their cost-effectiveness makes them an attractive choice for budget-conscious consumers. Additionally, the low self-discharge rate ensures that the batteries remain charged and ready for use, even after prolonged periods of inactivity. Enhanced with durable ABS containers, these batteries can withstand various environmental conditions, making them ideal for daily commuting.
- The Role of High-Quality Lead Battery Storage in Renewable Energy Systems
High-Quality lead battery storage plays a crucial role in renewable energy systems. These batteries store excess energy generated during peak production times from sources like solar and wind. This stored energy can then be used during low production periods or when energy demand is high. The robustness and cost-effectiveness of these batteries make them a preferred choice for renewable energy applications. However, ongoing advancements in technology are enhancing their efficiency and cycle life, ensuring they remain a vital component in the transition to cleaner energy solutions.
- Advantages of High-Quality Lead Battery Storage for Industrial Applications
In industrial settings, High-Quality lead battery storage offers unparalleled reliability and performance. Applications such as forklifts, golf carts, and other electric vehicles benefit from these batteries' high surge current capabilities and cost-effectiveness. Their long cycle life and low maintenance requirements make them suitable for rigorous industrial use. Furthermore, the high recyclability of lead-acid batteries aligns with sustainability goals, reducing environmental impact. The combination of these factors makes High-Quality lead battery storage a preferred choice for many industrial applications.
- High-Quality Lead Battery Storage vs. Lithium-Ion: A Comparative Analysis
High-Quality lead battery storage and lithium-ion batteries each have their unique advantages and drawbacks. Lead-acid batteries are more cost-effective, have a long-established recycling infrastructure, and are known for their robustness and reliability. On the other hand, lithium-ion batteries offer higher energy densities, longer cycle lives, and reduced maintenance requirements. While lithium-ion is becoming more prevalent, High-Quality lead battery storage remains relevant due to its affordability and extensive application history. The choice between the two depends on the specific needs and budget of the application.
- The Importance of Recycling High-Quality Lead Battery Storage
Recycling is a critical aspect of the lifecycle of High-Quality lead battery storage systems. With recycling rates often exceeding 95%, lead-acid batteries are one of the most recycled products globally. The lead and plastic components can be reused in new batteries, significantly reducing environmental impact. Proper recycling not only conserves natural resources but also ensures that hazardous materials are managed responsibly. This makes High-Quality lead battery storage an eco-friendly choice, aligning with global sustainability goals.
- Understanding the Maintenance Requirements of High-Quality Lead Battery Storage
While High-Quality lead battery storage requires some level of maintenance, it is generally straightforward and manageable. Regular checks on water levels and terminal cleanliness can prolong the battery's service life by 50% to 100% or more. This maintenance ensures optimal performance and longevity. However, modern advancements have also led to maintenance-free variants, providing the benefits of traditional lead-acid batteries without the upkeep. Understanding these maintenance needs can help users get the most out of their High-Quality lead battery storage systems.
- Impact of Temperature on High-Quality Lead Battery Storage Performance
Temperature can significantly affect the performance and lifespan of High-Quality lead battery storage systems. These batteries are designed to operate within a range of -20°C to 55°C, making them suitable for various climatic conditions. However, extreme temperatures can impact their efficiency and cycle life. In colder environments, the chemical reactions within the battery slow down, reducing capacity. Conversely, high temperatures can accelerate degradation. Therefore, it's essential to consider environmental factors when deploying High-Quality lead battery storage systems to ensure optimal performance.
- Why High-Quality Lead Battery Storage is Ideal for Backup Power Solutions
High-Quality lead battery storage is an excellent choice for backup power solutions, such as uninterruptible power supplies (UPS). These batteries provide reliable power during grid outages, ensuring continuous operation of critical infrastructure like hospitals, data centers, and telecommunications facilities. Their ability to deliver high surge currents makes them ideal for applications requiring immediate power. Additionally, their cost-effectiveness and long-established reliability make them a preferred choice for backup power solutions, providing peace of mind and operational continuity.
- The Future of High-Quality Lead Battery Storage
Despite the rapid advancements in battery technology, High-Quality lead battery storage continues to hold a significant place in the market. Ongoing improvements in design, efficiency, and recyclability are enhancing their performance and sustainability. While newer technologies like lithium-ion are gaining prominence, the affordability and established recycling infrastructure of lead-acid batteries ensure they remain relevant. As research progresses, we can expect further innovations that will keep High-Quality lead battery storage competitive in an evolving energy landscape.
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