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Industrial Liquid Cooling System
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An industrial liquid cooling system is a way of dissipating heat from electronic equipment by flowing a liquid (usually water) through the heat sink of the electronic equipment, absorbing the heat generated by the equipment, and then removing the heat, thereby reducing the temperature of the equipment. Compared with traditional air cooling methods, liquid cooling can more effectively reduce the temperature of the equipment and improve the performance and life of the equipment.
Liquid cooling technology is mainly divided into two types: direct liquid cooling and indirect liquid cooling. Direct liquid cooling refers to flowing liquid directly through the radiator of the electronic device to remove the heat. Indirect liquid cooling involves flowing a liquid through a heat exchanger, transferring heat to another liquid through the heat exchanger, and then taking the heat away. Direct liquid cooling is more efficient but requires higher maintenance costs and a more complex design.
Liquid cooling technology has been widely used in high-performance computing, data centers, artificial intelligence and other fields. As the performance of electronic equipment continues to improve, heat dissipation issues have become more and more prominent. Liquid cooling technology will become one of the mainstream methods of heat dissipation for electronic equipment in the future.
The principle of industrial liquid cooling system:
The principle of industrial liquid cooling system is to reduce the temperature of the equipment by flowing liquid (usually water) through the radiator of electronic equipment, absorbing the heat generated by the equipment, and then taking the heat away. Liquids conduct heat better than air, so liquid cooling can remove the heat generated by the device faster.
Liquid cooling systems usually consist of radiators, water pumps, water pipes, and water tanks. Liquid cooling systems move liquid through a radiator, and the fins in the radiator allow the liquid to more easily absorb the heat generated by the device. The water pump then flows the liquid with the heat into the tank, where a radiator dissipates the heat to the surrounding environment. Liquid cooling systems can control the temperature of the device by adjusting water flow and water temperature.
Liquid cooling technology is mainly divided into two types: direct liquid cooling and indirect liquid cooling. Direct liquid cooling refers to flowing liquid directly through the radiator of the electronic device to remove the heat. Indirect liquid cooling involves flowing a liquid through a heat exchanger, transferring heat to another liquid through the heat exchanger, and then taking the heat away. Direct liquid cooling is more efficient but requires higher maintenance costs and a more complex design.
Advantages of industrial liquid cooling system:
Compared with traditional air cooling methods, industrial liquid cooling system has the following advantages:
Higher heat dissipation efficiency: Liquid cooling technology can reduce the temperature of the device more effectively and improve the performance and life of the device. Liquids conduct heat better than air, so liquid cooling can remove the heat generated by the device faster.
Lower noise: Compared with the noise generated by fans, liquid cooling has lower noise and can provide a quieter working environment.
More flexible design: Liquid cooling technology allows for more flexible design, and the radiator and liquid pipeline can be installed in different locations to better adapt to the design requirements of the equipment.
More environmentally friendly: Liquid cooling can save energy and reduce environmental impact. The liquid can be recycled more easily than the heat generated by the fan.
The disadvantages of liquid cooling technology are higher costs, higher maintenance costs and more complex designs. However, as the performance of electronic equipment continues to improve, heat dissipation issues have become more and more prominent. Liquid cooling technology will become one of the mainstream methods of heat dissipation for electronic equipment in the future.
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Präzisionskältemaschinen / Kleinkältemaschinen
Die Kältemaschine kann in verschiedenen Industrien und Labors eingesetzt werden und unterstützt kundenspezifische Designs.
| Temperaturbereich | -18°C ~ +30°C | +5°C ~ +35°C Reihe |
| Kühlleistung | 0,35 ~ 0,9kW | 1,8 ~ 50kW |
Rückkühler
Unser Rückkühler arbeitet mit Niedertemperatur-Kältetechnik, die Temperatur beträgt bis zu -120℃, und verschiedene Zubehörteile sind anpassbar.
| Temperaturbereich | Serie -25°C ~ +30°C | -45°C ~ +30°C Reihe | Serie -60°C ~ -20°C | Serie -80°C ~ -20°C | Serie -120°C ~ -70°C |
| Kühlleistung | 0,8 ~ 30kW | 0,75 ~ 12kW | 0,4 ~ 6kW | 0,2 ~ 6kW | 0,3 ~ 5kW |
Niedertemperatur-Kühlgeräte
Wir haben uns auf die Herstellung von Niedertemperaturkältemaschinen mit einem Temperaturregelbereich von bis zu -150°C spezialisiert, die den Kühlbedarf verschiedener Branchen decken.
| Temperaturbereich | Serie -25°C ~ -5°C | Serie -45°C ~ -10°C | Serie -60°C ~ -10°C | Serie -80°C ~ -30°C | Serie -110°C ~ -50°C | Serie -150°C ~ -110°C |
| Kühlleistung | 12 ~ 360kW | 6 ~ 180kW | 6 ~ 180kW | 4 ~ 180kW | 2 ~ 120kW | 2,5 ~ 11kW |
Temperatursimulation für die Qualitätsprüfung von Fahrzeugen: Prüfung der Batterielebensdauer, Prüfstand für Einspritzdüsen/Motoren, Airbag-Prüfung, Komponentenprüfstand, usw.
Geeignet für die präzise Temperaturkontrolle von elektronischen Bauteilen. Bei der Herstellung von elektronischen Halbleiterkomponenten für raue Umgebungen umfassen die Phasen der IC-Gehäusemontage sowie der Entwicklungs- und Produktionstests auch elektronische Wärmetests und andere Simulationen von Umwelttests.
Flüssigkeitskühlung für Batterie-Energiespeichersysteme
| Typen | Für Converting Station | Für Energiespeicherbatterie | Für die Ladestation |
| Kühlleistung | 45kW | 5 ~ 8,5kW | 4kW |
Baureihe ZLFQ
Kühlmittelverteilereinheit
Flüssigkeitskühlgeräte eignen sich für die Prüfung von Halbleitern, die Prüfung elektronischer Geräte bei konstanter Temperatur, die Kühlung der Serverinfrastruktur und andere Orte, an denen die Temperatur von Flüssigkeiten kontrolliert wird.
| Temperaturbereich | +5°C ~ +35°C | +5°C ~ +35°C |
| Kühlleistung | 15 ~ 150kW | 200 ~ 500kW |
MD-Thermofutter-Serie
Es wird für die Prüfung von HF-Bauteilen und Leistungsbauteilen mit hoher Dichte (IGBTs und MOSFETs) verwendet und kann auch für die schnelle Kühlung von flachen Laborplatten (Plasma, biologische Produkte, Batterien) usw. eingesetzt werden.
| Temperaturbereich | -75°C ~ +225°C |
| Temperaturgenauigkeit | ±0.1℃ |
Schraubenkühler (Benutzerdefinierte Designs)
Niedertemperatur-Schraubenkühlmaschinen und Raumtemperatur-Schraubenkühlmaschinen
| Temperaturbereich | +5°C ~ +30°C | +5°C ~ +30°C | +5°C ~ +30°C | +5°C ~ +30°C | -25°C ~ +5°C | -25°C ~ +5°C |
| Kühlleistung | 107 ~ 1027kW (Einzelverdichter) | 299 ~ 2134kW (Doppelkompressor) | 98 ~ 934kW (Einzelverdichter) | 272 ~ 1940kW (Doppelkompressor) | 48 ~ 467kW (Einzelverdichter) | 51 ~ 497kW (Einzelverdichter) |
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