MachineU > China Products > Electrical Equipment & Supplies > Electrical Instruments > Battery Testers
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Specifications
Brand Name :
PRECISION
Model Number :
WIC-15
Certification :
ISO
Place of Origin :
CHINA
MOQ :
1
Price :
$6000
Payment Terms :
T/T
Supply Ability :
100/month
Delivery Time :
15 working days
Packaging Details :
Standard export packaging
Customized support :
OEM ODM
Temp range :
+150~-70℃
Internal material :
304 Stainless Steel
External material :
Powder coated #304 Stainless Steel
Temperature Uniformity ℃ :
0.01
Humidity Uniformity % R. H. :
0.1
Temperature stability ℃ :
±0.3
Description

Fast Delivery Custom Walk - in Environmental Test Chamber for Lithium Battery

1. Introduction

In the modern era of portable electronics and electric vehicles, lithium - ion batteries have become the cornerstone of energy storage. These batteries are expected to perform consistently and safely across a wide range of environmental conditions. Our Custom Walk - in Environmental Test Chamber for Lithium Battery is a specialized and innovative solution designed to meet the rigorous testing requirements of these critical energy storage devices. This large - scale chamber provides a controlled environment where lithium - ion batteries can be subjected to various real - world environmental scenarios, enabling manufacturers, researchers, and quality control teams to evaluate their performance, durability, and safety under different conditions.

2. Key Features

2.1 Spacious and Configurable Interior

The walk - in environmental test chamber features a spacious and configurable interior. With customizable dimensions, it can accommodate different types and sizes of lithium - ion batteries, from small coin - cell batteries used in wearable devices to large - format batteries for electric vehicles. The standard chamber sizes range from 6 cubic meters to 100 cubic meters, allowing for the testing of multiple batteries simultaneously or the setup of complex battery systems. The interior is equipped with adjustable racks, holders, and electrical connection systems to securely hold and power the batteries during testing. This flexibility enables comprehensive testing of individual batteries, battery modules, and complete battery packs.

2.2 Precise Environmental Parameter Control

This chamber offers precise control over a comprehensive set of environmental parameters relevant to lithium - ion batteries. Temperature can be adjusted from extremely low (- 70°C) to very high (150°C) with an accuracy of ± 0.1°C. This wide temperature range is essential as lithium - ion batteries may operate in diverse climates, from cold arctic regions to hot desert environments. Humidity levels can be regulated between 10% and 95% relative humidity, simulating different levels of moisture in the air. Additionally, the chamber can simulate altitude changes (up to [20000] meters equivalent altitude), air pressure variations, vibration, and exposure to different levels of dust and chemicals. These capabilities allow for the replication of almost any environmental condition a lithium - ion battery might encounter in the real world.

2.3 Customizable Test Profiles

We understand that different lithium - ion batteries have unique design requirements, intended applications, and expected service conditions. Therefore, our chamber allows for fully customizable test profiles. Manufacturers and testers can program complex temperature and humidity cycles, vibration patterns, and exposure times to replicate the specific environmental conditions that the batteries will face during their lifespan. For example, a battery used in an electric vehicle may require a test profile that includes exposure to high - temperature and high - humidity conditions during summer driving, as well as low - temperature and vibration conditions during winter driving. A battery for a portable electronic device may need a profile that focuses on low - humidity and vibration - free conditions during normal use. This flexibility ensures that each battery is tested under the most relevant and accurate conditions, leading to reliable and actionable test results.

2.4 Advanced Monitoring and Data Acquisition

The walk - in environmental test chamber is equipped with a state - of - the - art monitoring and data acquisition system. Multiple sensors are strategically placed throughout the chamber and on the batteries themselves to continuously monitor environmental parameters and battery performance. These sensors can measure temperature, humidity, pressure, vibration, and various battery - specific data such as voltage, current, capacity, internal resistance, and state of health. The real - time data is accessible and analyzable through an intuitive touch - screen control panel. The system also has the ability to record and store historical data, enabling users to compare results from different tests and analyze trends over time. This comprehensive data collection and analysis capabilities provide valuable insights into the behavior of lithium - ion batteries under different environmental conditions.

2.5 Robust and Safe Construction

Built with high - quality materials and advanced engineering techniques, the walk - in environmental test chamber is designed to withstand the rigors of continuous use and the extreme conditions it simulates. The exterior is constructed from a strong, fire - resistant and corrosion - resistant alloy that can endure exposure to harsh chemicals and extreme temperatures. The internal components, including heating, cooling, humidity control, and vibration simulation systems, are built to last and are regularly maintained to ensure consistent performance. Safety features such as emergency stop buttons, over - temperature protection, gas leakage detection, and fire suppression systems are in place to protect operators and the valuable batteries being tested. In case of any abnormal conditions, these safety features can quickly take action to prevent potential hazards.

2.6 User - Friendly Interface

The chamber is equipped with a user - friendly interface that simplifies the testing process. The intuitive touch - screen control panel allows operators to easily set up test profiles, start and stop tests, and monitor real - time data. The interface also provides access to historical test data, enabling users to compare results from different tests and make informed decisions about battery design and improvement. Additionally, the system can be integrated with other testing equipment and software, allowing for seamless data transfer and comprehensive analysis of the test results.

3. Specifications

Model WIC-6 WIC-11 WIC-15 WIC-48 WIC-66 WIC-100
Inside dimension(W x D x H) mm 200 x 220 x 150 250 x 220 x 200 350 x 220 x 200 500 x 240 x 400 500 x 240 x 400 100 x 100 x 100
Outside dimension(W x D x H) mm 280 x 260 x 180 350 x 260 x 230 455 x 260 x 230 610 x 280 x 430 680 x 280 x 530 155 x 190 x 160
Internal material #304 Stainless Steel
External material Powder coated #304 Stainless Steel
Temperature range + 150℃~ - 70 ℃
Humidity range 20% ~ 98% R. H
Temperature resolution ℃ 0.01
Humidity resolution % R. H. 0.1
Temperature stability ℃ ±0.5
Humidity stability % R. H. ±2
Heating time 30min
Cooling time -40℃/50min, -20℃/30min
Air circulation system Mechanical convection system
Cooling system Sirocco Fan
Heating system Sus316 Stainless steel Efficient heater
Humidification system Steam Generator
Humidification water supply Reservoir, Sensor-controller solenoid valve, recovery-recycle system
Controller Touch panel
Electrical power requirements Please contact us for requirements of specific models
Safety device Circuit system load protection, compressor load protection, control system load protection, humidifier load protection, overtemperature load protection, fault warning light

4. Benefits for the Battery Industry

4.1 Enhanced Battery Performance and Quality

Subjecting lithium - ion batteries to comprehensive environmental testing in our walk - in chamber allows manufacturers to identify and address potential weaknesses in design, material selection, and manufacturing processes. By exposing the batteries to extreme environmental conditions, manufacturers can detect issues such as capacity degradation, increased internal resistance, and safety hazards. This enables them to make necessary design modifications and manufacturing improvements, resulting in higher - quality batteries that are more reliable and perform better in different environments.

4.2 Cost Savings

Early detection of battery issues through environmental testing can save the battery industry significant costs. By identifying and resolving problems before mass production, companies can avoid expensive rework, production delays, and potential product recalls. The ability to test multiple batteries simultaneously in the large - capacity chamber also reduces testing time and costs, improving the overall efficiency of the battery development process.

4.3 Meeting Regulatory Requirements

The battery industry is subject to numerous international and national regulations regarding the safety and performance of lithium - ion batteries. Our walk - in environmental test chamber helps manufacturers ensure that their batteries comply with these regulations. By conducting thorough testing in accordance with relevant standards, manufacturers can demonstrate compliance and gain regulatory approval more easily.

4.4 Competitive Advantage

In a highly competitive battery market, offering lithium - ion batteries that can withstand extreme environmental conditions gives manufacturers a significant competitive edge. By using our custom walk - in environmental test chamber to conduct in - depth and comprehensive testing, companies can differentiate their products from competitors and showcase their commitment to quality and reliability. This can lead to increased customer confidence, more market share, and a stronger position in the global battery industry.

5. Applications

5.1 Electric Vehicle Battery Testing

  • Thermal Management: Test electric vehicle (EV) batteries to evaluate their thermal management systems under different temperature conditions. This includes testing the ability of the battery pack to dissipate heat during fast charging and high - load driving, as well as its performance in cold weather. Understanding the thermal behavior of EV batteries is crucial for ensuring their long - term reliability and safety.
  • Capacity and Cycle Life: Evaluate the capacity and cycle life of EV batteries under various environmental conditions. This helps determine how the battery's performance degrades over time in different climates and usage scenarios. Manufacturers can use this data to optimize battery design and improve the overall lifespan of EV batteries.
  • Safety and Reliability: Test the safety and reliability of EV batteries under extreme conditions, such as over - charging, over - discharging, and short - circuit scenarios. This includes evaluating the battery's ability to withstand mechanical shocks and vibrations during vehicle operation. Ensuring the safety of EV batteries is of utmost importance for consumer acceptance and the widespread adoption of electric vehicles.

5.2 Portable Electronics Battery Testing

  • Performance in Different Environments: Test batteries for portable electronics, such as smartphones, laptops, and tablets, to evaluate their performance in different temperature and humidity conditions. This includes testing the battery's capacity, discharge rate, and charging time in various environments. Understanding how portable electronics batteries perform in different conditions helps manufacturers optimize battery usage and improve the user experience.
  • Self - Discharge and Shelf Life: Evaluate the self - discharge rate and shelf life of portable electronics batteries under different environmental conditions. This helps determine how long the battery can be stored without significant loss of capacity. Manufacturers can use this data to improve battery storage and transportation procedures.
  • Compatibility with Charging Systems: Test the compatibility of portable electronics batteries with different charging systems in various environmental conditions. This includes testing the battery's ability to charge safely and efficiently using different chargers and charging protocols. Ensuring compatibility is crucial for providing a seamless charging experience for users.

5.3 Energy Storage System Battery Testing

  • Long - Term Durability: Test batteries for energy storage systems (ESS), such as those used in solar power plants and grid - scale energy storage, to evaluate their long - term durability under different environmental conditions. This includes testing the battery's capacity retention, cycle life, and performance degradation over time. Understanding the long - term behavior of ESS batteries is crucial for ensuring the reliability and cost - effectiveness of energy storage systems.
  • Power Output and Efficiency: Evaluate the power output and efficiency of ESS batteries under different load conditions and environmental factors. This helps determine how the battery's performance is affected by factors such as temperature, humidity, and altitude. Manufacturers can use this data to optimize the design and operation of ESS batteries.
  • Grid - Connection and Integration: Test the grid - connection and integration capabilities of ESS batteries under different environmental conditions. This includes testing the battery's ability to synchronize with the grid, respond to grid fluctuations, and provide grid - support services. Ensuring seamless grid - connection and integration is crucial for the successful deployment of ESS batteries.

Lithium Battery Walk In Environmental Test Chamber Ss 304Lithium Battery Walk In Environmental Test Chamber Ss 304

6. Conclusion

Our Custom Walk - in Environmental Test Chamber for Lithium Battery is a state - of - the - art solution that offers a comprehensive and reliable platform for testing the performance, durability, and safety of lithium - ion batteries. With its advanced features, precise environmental control, and user - friendly interface, it enables the battery industry to enhance battery quality, reduce costs, meet regulatory requirements, and gain a competitive advantage. Whether you are a manufacturer looking to improve your battery products or a researcher seeking to understand the behavior of lithium - ion batteries, our chamber is the ideal choice. Contact us today to learn more about how our chamber can meet your specific testing needs.
Send your message to this supplier
Send Now

Lithium Battery Walk In Environmental Test Chamber Ss 304

Ask Latest Price
Product Detail
Brand Name :
PRECISION
Model Number :
WIC-15
Certification :
ISO
Place of Origin :
CHINA
MOQ :
1
Price :
$6000
Contact Supplier
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304
Lithium Battery Walk In Environmental Test Chamber Ss 304

Dongguan Precision Test Equipment Co., Ltd.

Verified Supplier
1 Years
guangzhou
Since 2006
Business Type :
Manufacturer, Exporter, Trading Company, Seller
Main Products :
Environmental Test Chambers, Climatic Test Chamber, Thermal Shock Test Chamber
Total Annual :
5000000-10000000
Employee Number :
50~100
Certification Level :
Verified Supplier
Discover similar products
View More

Find Similar Products By Category:

Supplier Homepage Products Walk In Chamber
MachineU China Products Electrical Equipment & Supplies Electrical Instruments Battery Testers
Contact Supplier
Submit Requirement