- For special industrial vehicle applications, we have professionally customized and developed high-rate lithium iron phosphate batteries, which feature high rate capability, long cycle life, high safety performance, strong consistency, and wide environmental adaptability.
- An intelligent battery management system is used to scientifically manage the batteries, achieving automatic balancing and extending battery life.
- Key components and electronic control systems have undergone rigorous reliability testing and market validation to ensure the safety and stability of the overall machine performance.
- CAN bus data transmission enables seamless integration with the vehicle’s control system and charging system.
Description
Lithium-ion (Li-ion) batteries have revolutionized the industrial vehicle sector, replacing traditional lead-acid and nickel-based batteries due to their superior performance, efficiency, and sustainability. Industrial vehicles, including forklifts, automated guided vehicles (AGVs), airport ground support equipment, and heavy-duty material handling systems, increasingly rely on Li-ion technology to meet the demands of modern logistics, manufacturing, and warehousing. This article explores the key features, benefits, and technical aspects of Li-ion batteries in industrial applications.
This media regeneration in our walnut shell filter is achieved using the kinetic model of a Continuous Stirred-Tank Reactor (CSTR).
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- High energy density.
- High power output.
- Long cycle life.
- High security.
- Wide temperature range adaptation.
- Intelligent battery management system (BMS).
- Environmentally friendly and pollution-free.
- Customized solutions.
- Non-destructive testing technology.
- Fast charging capability.
- Data communication management.
- Shockproof, waterproof and explosion-proof.
Core Advantages
Li-ion batteries offer distinct advantages over conventional alternatives. First, their **high energy density** enables compact designs, reducing the battery footprint while delivering extended runtime. This is critical for vehicles operating in space-constrained environments like warehouses. Second, Li-ion batteries exhibit **rapid charging capabilities**, often achieving full charge in 1–2 hours compared to 8–10 hours for lead-acid batteries. This minimizes downtime and supports 24/7 operations. Third, they boast a **longer lifespan**, typically lasting 3,000–5,000 cycles (vs. 1,500 cycles for lead-acid), reducing replacement costs and waste. Additionally, Li-ion batteries require **zero maintenance**, eliminating the need for watering or equalization charging.
Technical Specifications
Industrial Li-ion batteries are engineered for robustness. They commonly use **lithium iron phosphate (LFP)** or **nickel manganese cobalt (NMC)** chemistries. LFP is favored for its thermal stability, safety, and cycle life, while NMC offers higher energy density. Batteries are designed to withstand harsh conditions, including vibrations, temperature fluctuations (-20°C to 60°C), and high discharge rates. Key components include:
– **Battery Management System (BMS):** Monitors cell voltage, temperature, and state of charge (SOC)
Technical Specifications
| 24V/210AH | 24V/220AH | 24V/230AH | 24V/315AH | |
| Voltage(V) | 25.6 | |||
| Capacity (Ah) | 210 | 220 | 230 | 300 |
| Electricity (KWh) | 5.37 | 5.63 | 5.88 | 7.68 |
| Size | Customized according to needs. | |||
| Battery weight (Kg) | 75 | 80 | 80 | 105 |
| Operating voltage (V) | 22~29.2 | |||
| Charging voltage (V) | 29.2 | |||
| Charging current (A) | ≤105 | ≤110 | ≤115 | ≤150 |
| Rated operating current (A) | 105 | 110 | 115 | 150 |
| Maximum operating current (A) | 210 | 220 | 230 | 300 |
| Charging temperature (℃) | 0~55 | |||
| Discharge temperature (℃) | -20~55 | |||
| Storage temperature (℃) | 0~45 | |||
| Chemical materials | Lithium Iron Phosphate | |||
| Warranty | 5 years | |||
| Compatible models | Linde L14-16/E15 series; Toyota SPE120/SWE120/LPE200 series; Baoli CDD10/CBD15 series | |||
Technical Specifications
| 24V/210AH | 24V/220AH | 24V/230AH | 24V/315AH | |
| Voltage(V) | 25.6 | |||
| Capacity (Ah) | 210 | 220 | 230 | 300 |
| Electricity (KWh) | 5.37 | 5.63 | 5.88 | 7.68 |
| Size | Customized according to needs. | |||
| Battery weight (Kg) | 75 | 80 | 80 | 105 |
| Operating voltage (V) | 22~29.2 | |||
| Charging voltage (V) | 29.2 | |||
| Charging current (A) | ≤105 | ≤110 | ≤115 | ≤150 |
| Rated operating current (A) | 105 | 110 | 115 | 150 |
| Maximum operating current (A) | 210 | 220 | 230 | 300 |
| Charging temperature (℃) | 0~55 | |||
| Discharge temperature (℃) | -20~55 | |||
| Storage temperature (℃) | 0~45 | |||
| Chemical materials | Lithium Iron Phosphate | |||
| Warranty | 5 years | |||
| Compatible models | Linde L14-16/E15 series; Toyota SPE120/SWE120/LPE200 series; Baoli CDD10/CBD15 series | |||
Features and Benefits
- High energy density.
- High power output.
- Long cycle life.
- High security.
- Wide temperature range adaptation.
- Intelligent battery management system (BMS).
- Environmentally friendly and pollution-free.
- Customized solutions.
- Non-destructive testing technology.
- Fast charging capability.
- Data communication management.
- Shockproof, waterproof and explosion-proof.
Industry Applications
Our Walnut Shell Media Filter Systems can be used in a variety of different applications including:
Not sure what type of filtration you need or have questions about your equipment?
Ask our team of experienced applications engineers to review your application, process, and facility then make recommendations that will be best for your business.
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