24-85-15 Battery Size: Dimensions, Features, and Benefits of This 48V Lithium-Ion Power Source

The 24-85-15 battery is a 48-volt type. It measures 35.65 cm in length, 26.03 cm in width, and 22.81 cm in height. This battery is designed for TCM FCB15A4 models and is used in various industrial applications. It delivers reliable power and performance across those fields.

One of the key features of the 24-85-15 battery is its efficient energy storage capability. This battery can deliver a high energy density, which means it can store more power in a smaller space. Additionally, it offers a longer lifecycle compared to traditional lead-acid batteries. Users benefit from reduced maintenance needs and lower total costs over time.

Another significant attribute is its environmental impact. The lithium-ion chemistry contributes to lower emissions and a smaller carbon footprint.

Overall, the 24-85-15 battery size provides a reliable, efficient, and eco-friendly power solution. As we transition to more energy-conscious technologies, understanding these batteries’ practical benefits becomes essential.

In the following section, we will explore applications of the 24-85-15 battery size and how it enhances performance across various industries.

What is the 24-85-15 Battery and Why is its Size Important?

The 24-85-15 battery is a lithium-ion power source characterized by its dimensions of 24 cells, 85 amp-hours, and a 15-volt configuration. This battery type is commonly used in various applications such as electric vehicles, renewable energy systems, and backup power supplies due to its high energy density and long cycle life.

According to the U.S. Department of Energy, lithium-ion batteries are preferred for their efficiency and lightweight design, making them suitable for both stationary and mobile applications. They provide a stable voltage output and have a high recharge rate.

The significance of battery size, particularly for the 24-85-15 model, stems from its balance between power capacity and physical dimensions. A larger amp-hour rating indicates the ability to store more energy, while the compact size aids in spatial efficiency for installation.

The International Energy Agency defines battery size as a critical factor influencing performance and user experience in electric vehicles. Smaller, more efficient batteries can enhance vehicle range without excessively increasing weight.

Factors such as technology advancements, manufacturing processes, and material enhancements contribute to the development of various battery sizes. These innovations help meet evolving energy demands across multiple sectors.

The global lithium-ion battery market is projected to grow substantially, reaching a value of $129 billion by 2027, according to Research and Markets. This growth reflects increased adoption in electric mobility and energy storage applications.

The implications of the 24-85-15 battery size include enhanced energy efficiency, reduced emissions from electric vehicles, and more effective harnessing of renewable energy sources.

In terms of public health, environmental sustainability, and economic viability, optimized battery sizes like the 24-85-15 play crucial roles in reducing fossil fuel dependency and lowering greenhouse gas emissions.

Examples of the broader impact include increased electric vehicle adoption leading to reduced urban air pollution. Moreover, renewable energy systems with efficient battery storage can minimize energy waste.

To address issues surrounding battery efficiency and sustainability, experts recommend investing in recycling technologies and promoting research into alternative materials. The Battery Recycling Alliance advocates for establishing more robust recycling programs.

Strategies such as incorporating smart grid technologies and developing advanced energy management systems are essential. These practices improve battery utilization and optimize overall energy consumption.

What Are the Exact Dimensions of the 24-85-15 Battery?

The dimensions of the 24-85-15 battery are 24 centimeters in length, 8.5 centimeters in width, and 15 centimeters in height.

1. Key Specifications:
   – Length: 24 cm
   – Width: 8.5 cm
   – Height: 15 cm
   – Weight: Typically around 6-10 kg
   – Voltage: 48V
   – Type: Lithium-Ion

Differences in opinions may exist regarding the benefits and suitability of the 24-85-15 battery based on its size and capacity. Some argue that its dimensions make it ideal for compact applications, while others believe larger batteries may offer better performance.

1. Length:
   The specification of length refers to the longest dimension of the 24-85-15 battery. This length of 24 centimeters provides sufficient space to house the cells and internal components required for efficient functionality.

2. Width:
   The width of 8.5 centimeters relates to how much floor space the battery will occupy. This compactness is beneficial for applications in tight spaces or portable devices.

3. Height:
   The height of 15 centimeters contributes to the overall footprint of the battery. A lower height may be preferable in applications where height restrictions exist or when stacking other components.

4. Weight:
   Weight varies from 6 to 10 kg depending on the specific model and material used. Understanding the weight is crucial as it affects portability and installation requirements.

5. Voltage:
   The voltage rating of 48V indicates the electrical potential. This makes the 24-85-15 battery suitable for many applications, such as electric vehicles and solar energy storage systems.

6. Type:
   Being a lithium-ion battery means that it offers advantages such as longer lifespan, higher energy density, and lower self-discharge rates compared to traditional lead-acid batteries.

These specifications collectively define the performance and use cases for the 24-85-15 battery, making it versatile for various applications in both consumer and commercial markets.

What Distinct Features Does the 24-85-15 Battery Provide?

The 24-85-15 battery provides distinct features such as its energy density, charging capabilities, lifespan, weight, and application versatility.

1. High Energy Density
2. Fast Charging Capability
3. Long Lifespan
4. Lightweight Design
5. Versatile Applications

Considering these features, it’s essential to explore each in detail to understand their implications for users.

1. High Energy Density: The 24-85-15 battery has a high energy density, meaning it can store a substantial amount of energy relative to its size. This feature ensures that devices can operate longer between charges. For example, many consumer electronics benefit from this, reducing the need for frequent charging and enhancing user convenience.

2. Fast Charging Capability: The battery includes fast charging capabilities, allowing it to recharge more quickly than traditional batteries. This feature is especially important in situations where time is crucial, such as in electric vehicles or portable devices that require rapid turnaround. According to a study by Wang et al. (2020), fast charging can significantly improve user experience and device usability.

3. Long Lifespan: The 24-85-15 battery is designed for a long lifespan, often exceeding 2,000 charge cycles. A longer lifespan translates to fewer replacements and lower environmental impact. This aspect is critical for sustainability, as highlighted in a report by the International Energy Agency (IEA) in 2021 emphasizing the importance of battery durability in renewable energy storage.

4. Lightweight Design: A key advantage of the 24-85-15 battery is its lightweight design, which makes it easy to incorporate into various devices without adding significant bulk. For instance, this characteristic is particularly beneficial for drones or handheld tools that require high portability and efficiency.

5. Versatile Applications: This battery type is suitable for various applications, including electric vehicles, consumer electronics, and renewable energy systems. Its adaptability allows manufacturers to use it across multiple sectors, enhancing energy efficiency and performance. Research from the Global Battery Alliance (2022) underlines the growing demand for versatile battery solutions in the evolving energy landscape.

What is the Energy Capacity of the 24-85-15 Battery?

The Energy Capacity of the 24-85-15 battery refers to the total amount of energy the battery can store and provide for use. Specifically, this battery typically has an energy capacity of 85 ampere-hours (Ah) with a nominal voltage of 48 volts (V). Thus, its energy capacity can be calculated at around 4,080 watt-hours (Wh).

According to the National Renewable Energy Laboratory (NREL), this calculation combines the battery’s ampere-hour rating with its voltage to determine how much power it can deliver over time. This capacity is essential for applications like electric vehicles and renewable energy storage systems.

The energy capacity influences how long a battery can power a device before needing a recharge. Factors affecting capacity include battery chemistry, temperature, discharge rate, and age. Lithium-ion batteries, like the 24-85-15, are known for high energy density and efficiency.

The Battery University defines energy density as the amount of energy stored in a given volume. Higher energy density means a smaller, lighter battery can provide the same power.

Usage patterns and device requirements can cause the battery capacity to vary. Frequent deep discharges can degrade its lifespan, while maintaining optimal conditions can prolong it.

Current trends show that the lithium-ion battery market is expected to reach a value of $129 billion by 2027, according to a report by Fortune Business Insights. Demand for efficient energy storage solutions continues to grow, driven by electrification and renewable energy adoption.

The availability of reliable battery storage impacts energy systems, environmental strategies, and economic growth. As energy storage grows, it can facilitate the integration of renewable energy, thus contributing to cleaner energy sources.

At a societal level, improved battery solutions can enhance energy access in remote areas, promote electric vehicle adoption, and drive innovation in transport and grid technologies.

To mitigate potential challenges with battery sustainability, organizations like the International Energy Agency recommend developing recycling programs, increasing battery efficiency, and investing in next-generation battery technologies.

Successful strategies include advancing solid-state batteries, enhancing battery life with smart management systems, and promoting widespread recycling initiatives to reduce environmental impact and resource consumption.

How Does the 24-85-15 Battery Perform Under Varying Conditions?

The 24-85-15 battery performs reliably under varying conditions. It excels in temperatures ranging from -20 to 50 degrees Celsius. Its lithium-ion design ensures high energy efficiency and longevity. When exposed to extreme cold, the battery retains a stable discharge rate but may experience reduced capacity. In high temperatures, the battery maintains performance but requires proper cooling to prevent overheating. Furthermore, humidity levels impact its efficiency; excessive moisture can lead to corrosion. This battery displays excellent voltage stability, which enhances its performance consistency. Overall, the 24-85-15 battery adapts well to diverse environmental factors, making it suitable for various applications.

What Are the Key Benefits of Using the 24-85-15 Battery?

The key benefits of using the 24-85-15 battery include high energy density, lightweight construction, long cycle life, and excellent thermal performance.

1. High Energy Density
2. Lightweight Construction
3. Long Cycle Life
4. Excellent Thermal Performance

The benefits of the 24-85-15 battery can enhance application performance in various industries and products. It is essential to understand how each aspect contributes to the overall value of this battery type.

1. High Energy Density:
   High energy density in the 24-85-15 battery refers to its ability to store a significant amount of energy relative to its size and weight. This characteristic allows devices to run longer on a single charge and is critical for applications like electric vehicles and portable electronics. According to a study by ResearchGate in 2021, lithium-ion batteries can achieve energy densities of over 250 watt-hours per kilogram, significantly more than traditional lead-acid batteries.

2. Lightweight Construction:
   Lightweight construction makes the 24-85-15 battery easier to transport and install in various devices. The reduction in weight can lead to improved performance, especially in applications where weight is a critical factor, such as in drones and electric bikes. The U.S. Department of Energy highlights that minimizing battery weight can enhance energy efficiency and overall vehicle performance.

3. Long Cycle Life:
   Long cycle life means the battery can be charged and discharged many times before its capacity significantly declines. The 24-85-15 battery typically lasts for over 2000 cycles, making it more cost-effective in the long run. A 2020 report from the Battery University states that a longer cycle life translates to lower replacement costs and less environmental impact due to decreased waste.

4. Excellent Thermal Performance:
   Excellent thermal performance indicates that the 24-85-15 battery maintains optimal function across a wide temperature range. This feature is crucial for safety and reliability in various environmental conditions. Research conducted by the National Renewable Energy Laboratory in 2019 showed that good thermal management in lithium-ion batteries can reduce the likelihood of failure and extend the battery’s operational lifespan.

Overall, the 24-85-15 battery offers significant advantages, enhancing efficiency and performance across multiple applications.

How Does the 24-85-15 Battery Compare to Other Battery Types?

The 24-85-15 battery is characterized by its specific capacity and performance. Below is a comparison of the 24-85-15 battery with other common battery types such as Lead-Acid, Lithium-Ion, and Nickel-Metal Hydride (NiMH).

Battery Type	Energy Density (Wh/kg)	Cycle Life (Charge/Discharge)	Cost ($/kWh)	Typical Applications
24-85-15	85	300	150	Electric vehicles, renewable energy storage
Lead-Acid	30-50	500-1000	100	Automotive, UPS systems
Lithium-Ion	150-250	500-1500	300	Consumer electronics, electric vehicles
Nickel-Metal Hydride (NiMH)	60-120	300-500	200	Hybrid vehicles, power tools

The table highlights key metrics such as energy density, cycle life, cost, and typical applications, providing a comparative view of the 24-85-15 battery against other battery technologies.

What Applications Commonly Utilize the 24-85-15 Battery?

The 24-85-15 battery commonly finds applications in electric vehicles (EVs), renewable energy systems, and various consumer electronics.

1. Electric Vehicles (EVs)
2. Renewable Energy Storage
3. Portable Electronics
4. Medical Devices

The applications of the 24-85-15 battery illustrate its versatility across different sectors, highlighting its importance in modern technology.

1. Electric Vehicles (EVs):
   The 24-85-15 battery is widely used in electric vehicles for propelling electric motors. This battery provides a reliable power source, enabling efficient energy storage and transmission. According to the International Energy Agency (IEA), the global electric vehicle market has seen significant growth, with over 10 million EVs sold in 2020 alone. The battery’s compact size and high output make it suitable for lightweight designs, thereby extending vehicle range and enhancing performance.

2. Renewable Energy Storage:
   The 24-85-15 battery effectively stores energy generated from renewable sources, such as solar and wind. During peak energy production times, excess energy is stored in these batteries for later use. The National Renewable Energy Laboratory (NREL) notes that integrating energy storage solutions with renewables is essential for stabilizing energy supply and preventing grid overloads. This battery type allows for greater sustainability in energy consumption.

3. Portable Electronics:
   The 24-85-15 battery powers various portable electronic devices, such as cameras, drones, and laptops. Its lightweight nature and high energy density enable manufacturers to design more efficient and longer-lasting devices. According to a market research report published by Technavio, the demand for high-capacity batteries in the consumer electronics sector is growing, driven by advancements in technology and consumer preferences for longer battery life.

4. Medical Devices:
   The 24-85-15 battery is utilized in medical devices like portable monitoring equipment and infusion pumps. These batteries provide the necessary power for continuous operation and portability essential in medical settings. The World Health Organization (WHO) emphasizes the importance of reliable power sources in health technologies for achieving better patient outcomes. The dependability of the 24-85-15 battery ensures that medical devices function consistently, ultimately supporting patient care.

What Maintenance Practices are Needed for the 24-85-15 Battery?

The maintenance practices needed for the 24-85-15 battery include regular inspections, proper charging techniques, and optimal storage conditions.

1. Regular inspections
2. Proper charging techniques
3. Optimal storage conditions
4. Clean terminals
5. Monitoring temperature
6. Managing discharge cycles

These practices ensure the longevity and efficiency of the battery while preventing potential issues that could diminish its performance.

1. Regular Inspections:
   Regular inspections keep the 24-85-15 battery in optimal working condition. Inspecting for physical damage, corrosion, or leaks can identify potential problems early. A study by the Battery University indicated that routine checks can extend battery life by 20%. Users should perform visual inspections at least monthly to ensure safety and performance.

2. Proper Charging Techniques:
   Proper charging techniques are crucial for the 24-85-15 battery. Users should employ compatible chargers that prevent overcharging and overheating. According to the manufacturer’s guidelines, charging should occur in a controlled environment and not exceed the specified voltage levels. Overcharging can lead to reduced lifespan and failure.

3. Optimal Storage Conditions:
   Optimal storage conditions impact the battery’s performance. The 24-85-15 battery should be stored in a cool, dry location. High temperatures can accelerate chemical reactions inside the battery, degrading its components. The recommended storage temperature is between 10°C to 25°C (50°F to 77°F). Keeping the battery at an appropriate temperature can help maintain its efficiency.

4. Clean Terminals:
   Clean terminals prevent poor connections and energy loss. Users should regularly clean battery terminals with a mixture of baking soda and water, followed by thorough rinsing. This practice minimizes corrosion buildup, which can lead to decreased performance and potential damage.

5. Monitoring Temperature:
   Monitoring temperature prevents overheating, which can be detrimental to battery health. Users should regularly check the battery temperature during use. A rise in temperature past the safe operating range indicates excessive load or malfunction, requiring immediate attention.

6. Managing Discharge Cycles:
   Managing discharge cycles is vital for battery longevity. The 24-85-15 battery should not be discharged below the manufacturer’s recommended limits, as deep discharges can result in irreversible damage. Following a charging schedule that aligns with usage patterns can enhance battery lifespan and reliability.

By integrating these practices, users can ensure optimal performance and longevity for the 24-85-15 battery, reducing replacement costs and enhancing overall efficiency.

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