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Battery Thermal Management

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Battery Thermal Management

Kontaktieren Sie uns noch heute für die perfekte Lösung zur Temperaturkontrolle

 

What is Battery Thermal Management?

Battery Thermal Management, in short, is a process in which components such as batteries use heating or cooling and other related methods to adjust and control the temperature and temperature difference of the target object. The basic principles involved include three heat transfer processes: heat conduction, convective heat transfer or thermal radiation, and these three processes all involve temperature differences, so the thermal management process consumes energy to create a temperature difference between the target object and the external environment.

There are many application scenarios, and it has been widely used in industry, communications industry, consumer electronics, servers, energy storage, new energy vehicles and other scenarios. It has a very positive effect on the normal and stable operation of related equipment or electronic components. With the With the rapid development of related industries, the thermal management industry will also receive more and more attention.

 

Battery Thermal Management

 

Importance of Battery Thermal Management

1. Thermal management can prevent overheating and system failures. With the rapid development of thermal management-related application scenarios, the functions of related equipment have increased, and the work of components has accumulated a large amount of heat. Excessive heat accumulation will cause damage to electronic components, reduced device performance, and even the collapse of the entire system. Through reasonable thermal management measures, heat can be effectively dissipated to ensure that the system operates within an appropriate temperature range and improve system reliability.

2. Through thermal management, the performance and service life of the equipment can be greatly enhanced. Taking currently commonly used mobile phones as an example, since the internal structure of the mobile phone is quite compact, there are basically few gaps between various electronic components. If the heat from the battery and processor cannot be discharged in time, it will affect the various temperatures of other components, thereby breaking the coordination of various hardware, which will not only affect the performance of the device but also the service life of the mobile phone.

3. From the perspective of safety necessity. Thermal management systems are indispensable in related industries. Taking the energy storage industry as an example, with the increase in the scale of energy storage power stations and the increase in the number and power of batteries, a large amount of heat will accumulate during operation. If the heat cannot be dissipated effectively and timely, it will It will cause serious consequences of thermal runaway. Therefore, effective thermal management is of great significance to safety.

4. Thermal management can improve energy utilization. In new energy vehicles, too high or too low working environment will affect the performance of the battery, thus affecting the cruising range of new energy vehicles. Through reasonable and effective thermal management strategies, the operating temperature can be maintained at a reasonable temperature, energy consumption can be reduced, and operating costs can be reduced.

To sum up, the importance of Battery Thermal Management is reflected in preventing overheating and system failure, enhancing the performance and life of equipment, as well as from safety considerations, energy efficiency and cost savings.

Application fields of Battery Thermal Management

The thermal management industry currently has many applications in the power battery industry and energy storage industry. In the field of power batteries, new energy vehicle thermal management is growing rapidly. As new energy vehicles increase market penetration and the performance of related products upgrades, thermal management systems have huge market space and value in new energy.

Thermal management has multiple meanings for new energy vehicles. First of all, the cruising range of new energy vehicles is one of the indicators that consumers are very concerned about. The thermal management system can effectively control the battery temperature to prevent battery performance degradation caused by overheating and overcooling of the battery pack and improve battery performance. Battery usage efficiency extends the vehicle’s cruising range.

Secondly, the safety of power batteries can be strong. Power batteries are the power source and important components of new energy vehicles. The thermal management system can effectively control the operating temperature through the BMS system, prevent fires and other accidents caused by thermal runaway, and ensure the safety of vehicles and passengers. Safety. Moreover, with the development of the new energy vehicle industry, relevant departments have increasingly higher requirements for the safety performance and quality of complete vehicles. Relevant laws and regulations also require car companies to have corresponding thermal management capabilities to ensure the safety and quality of complete vehicles.

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Heizen/Kühlen Temperatur- und Durchflussregelsysteme

(Benutzerdefinierte Designs)

Temperatursimulation für die Qualitätsprüfung von Fahrzeugen: Prüfung der Batterielebensdauer, Prüfstand für Einspritzdüsen/Motoren, Airbag-Prüfung, Komponentenprüfstand, usw.

 

Temperaturbereich -25°C ~ +100°C -40°C ~ +100°C0°C ~ +100°C  -40°C ~ +135°C
Kühlleistung2,8 ~ 38kW1,2 ~ 60kW1.8 ~ 60kW4 ~ 60kW

 

Temperatur/Druck/Durchfluss können unabhängig voneinander geregelt werden.

1&2: eine Maschine für zwei Kontrollgruppen.

Temperaturbereich -40 ~ +100℃ 1&20 ~ +100℃ 1&2
Kühlleistung1.8kW*2 ~ 60kW*21.8kW*2 ~ 60kW*2

 

Die Temperatur bleibt konstant, Druck und Durchfluss können unabhängig voneinander geregelt werden.

1&3: eine Maschine für drei Kontrollgruppen.

1&6: eine Maschine für sechs Kontrollgruppen.

Temperaturbereich -40 ~ +100℃ 1&2 -40 ~ +100℃ 1&3 -40 ~ +100℃ 1&6 -20 ~ +100℃ 1&6 0 ~ +100℃ 1&2 0 ~ +100℃ 1&3 0 ~ +100℃ 1&6
Kühlleistung2,5 ~ 60kW4 ~ 60kW10 ~ 60kW10 ~ 60kW7 ~ 60kW11 ~ 60kW18 ~ 60kW

 


 

Testkühlgeräte für Automobile -40~135°C (speziell für elektronische Pumpen)

Ölkühler

(Benutzerdefinierte Designs)

Temperatursimulation für die Qualitätsprüfung von Fahrzeugen: Prüfung der Batterielebensdauer, Prüfstand für Einspritzdüsen/Motoren, Airbag-Prüfung, Komponentenprüfstand, usw.

Temperaturbereich0℃ ~ +160℃ +5℃ ~ +135℃
Kühlleistung11 ~ 60kW15 ~ 38kW

 


 

Autotest-Kühlgeräte -40~100°C (für 2 Gruppen Kontrolle)

 

Kühl- und Heizsysteme für elektronische Pumpen

(Benutzerdefinierte Designs)

 

 

 

Temperaturbereich  -40°C ~ +135°C
Kühlleistungbis zu 60kW

 


explosionssicher

 

Hoch-Tief-Temperatur-Batterie-Testkammer

(Benutzerdefinierte Designs)

 

 

 

Temperaturbereich -40℃ ~ +100℃ -40℃ ~ +100℃
Kühlleistung1.8 ~ 7.5kW4 ~ 15kW

 


Testkühlgeräte für die Automobilindustrie -40~100°C

 

Direkte Kühl- oder Heizsysteme für Kraftfahrzeuge

(Benutzerdefinierte Designs)

 

 

 

TypenDirekte KühlungDirekt Kühlung & Heizung
Kühlleistung5 ~ 10kW5 ~ 10kW

 


 

Kältemaschinen für die Energiespeicherung

 

Flüssigkeitskühlung für Batterie-Energiespeichersysteme

(Benutzerdefinierte Designs)

 

 

 

 

TypenFür Converting StationFür EnergiespeicherbatterieFür die Ladestation
Kühlleistung45kW5 ~ 8,5kW4kW

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