배터리 열 관리 시스템의 종합 개요 (비티엠에스) 전기자동차용


Introduction to Battery Thermal Management Systems

전기자동차 (EV) 리튬 이온의 효율적인 성능에 크게 의존 (리튬 이온) 배터리 팩. 이 배터리 팩은 특히 온도 변화에 민감합니다., 이는 전반적인 효율성에 큰 영향을 미칠 수 있습니다., 범위 포함, voltage performance, and charge times. Effective management of these temperatures is crucial for ensuring the longevity and reliability of EV battery packs.

The Impact of Temperature on Li-Ion Battery Performance

Effects of Low Temperatures

At low temperatures, the performance of Li-Ion batteries can be severely hindered. As temperatures drop, the chemical reactions within the battery cells slow down, leading to an increase in internal resistance. This phenomenon reduces the charge and discharge capacity, as well as the power capabilities of the battery pack.

In extremely cold conditions (below 0°C), the functionality of the battery can be compromised, potentially ceasing altogether. At temperatures below -20°C, there is a risk of irreversible damage to the battery pack, significantly affecting its cycle life and efficiency.

Effects of High Temperatures

거꾸로, high temperatures can also degrade battery performance. Elevated temperatures (above 60°C) can cause the battery pack to lose capacity and power. This loss is attributed to the depletion of lithium and the reduction of active materials within the battery cells. An increase in internal resistance further contributes to the decline in power output.

In extreme cases, high temperatures can lead to thermal runaway, where the battery heats uncontrollably, potentially causing self-ignition or explosion. Such scenarios underscore the necessity for a robust Battery Thermal Management System (비티엠에스) to maintain optimal operating conditions for the battery pack.

Role of the Battery Thermal Management System

A BTMS is engineered to keep the battery pack within its optimal temperature range (typically 20°C to 45°C) irrespective of external ambient conditions. By maintaining this temperature range, the BTMS ensures the battery’s performance, 안전, 그리고 장수.

Components and Functionality of BTMS

A comprehensive BTMS includes various components such as heat exchangers, smart electric products, wiring, hoses, and a master controller with tailored firmware. This plug-and-play system is designed for seamless integration into the vehicle’s chassis, simplifying the setup process.

Cooling and Heating Mechanisms

수냉식 배터리 팩, coolant circulates through the Battery Management System (BMS), transferring heat to and from the battery cells either via direct immersion or conduction through a battery plate. The coolant then flows through the BTMS, where it is conditioned to maintain the desired temperature.

  • Heating Mode

In heating mode, the BTMS ensures that the battery pack remains within the optimal temperature range during cold conditions, preventing performance degradation due to low temperatures.

  • Cooling Mode

In cooling mode, the BTMS prevents overheating, protecting the battery pack from the adverse effects of high temperatures and reducing the risk of thermal runaway.

Intelligent Control and Monitoring

An integrated master controller within the BTMS communicates with the Vehicle Control Unit (VCU) to receive inputs such as the average battery pack temperature and operational mode. In automatic mode, the BTMS controller adjusts its operation to maintain the set-point temperature efficiently.

The system is equipped with multiple pressure and temperature sensors, allowing the master controller to monitor and optimize the BTMS’s performance continuously. Critical data and fault codes are transmitted to the VCU, facilitating vehicle-level monitoring, diagnostics, and troubleshooting.

결론

TKT’s well-designed Battery Thermal Management System (비티엠에스) is critical for optimal performance, safety and longevity of lithium-ion battery packs in electric vehicles. By effectively regulating the temperature of the battery pack, the BTMS improves the range, efficiency and reliability of the vehicle, ensuring that electric vehicles are able to meet the demanding requirements of modern transportation.


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