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Thermoelectric Cooling
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Thermoelectric Cooling technology is based on the thermoelectric effect of semiconductor materials. When an electric current passes through the point of contact between two different types of semiconductor materials, the electrons in these materials transfer energy due to the temperature difference. This phenomenon is called the thermoelectric effect. Using this effect, heat energy can be transferred from one side to the other, thereby achieving a cooling effect.
Thermoelectric Cooling technology has broad application potential in multiple fields. One of the most important applications is the cooling of electronic equipment. As electronic devices continue to evolve and develop, their integration and power consumption are also increasing, so the need for cooling is becoming more and more urgent. Thermoelectric Cooling technology can provide efficient cooling effects for electronic equipment and help maintain the normal operating temperature of the equipment. In addition, it can also be used in optical devices, lasers, biomedicine, aerospace and other fields.
Compared with traditional refrigeration technology, Thermoelectric Cooling technology has obvious advantages in energy efficiency and environmental sustainability. First of all, Thermoelectric Cooling technology has a high energy conversion rate, which can convert electrical energy into cooling effect and reduce energy waste. Compared with traditional compressor refrigeration technology, Thermoelectric Cooling technology is more energy efficient, can provide better cooling effects, and reduce energy consumption.
Secondly, Thermoelectric Cooling technology does not use traditional refrigerants, such as hydrofluorocarbons (CFCs) and hydrofluorocarbons (HFCs), which have a negative impact on the destruction of the atmospheric ozone layer and the greenhouse effect. In contrast, Thermoelectric Cooling technology uses non-toxic, non-polluting materials such as semiconductor materials such as silicon and germanium, thereby reducing adverse environmental impacts. This makes Thermoelectric Cooling technology an environmentally friendly cooling solution.
Although Thermoelectric Cooling technology has many potentials and advantages, it still faces some challenges in its widespread application, one of which is cost. Currently, the manufacturing cost of Thermoelectric Cooling technology is high, which limits its popularity in large-scale applications. However, with the continuous advancement of technology and the expansion of production scale, it is believed that manufacturing costs will gradually decrease, making this technology more competitive.
In addition, Thermoelectric Cooling technology requires more research and innovation to improve efficiency and reliability. For example, improving the characteristics and thermoelectric conversion efficiency of semiconductor materials, optimizing the design and structure of refrigerators, etc. This will require close collaboration between academia, industry and government to jointly promote the development of Thermoelectric Cooling technology.
As electronic devices continue to be updated and miniaturized, the need for efficient cooling will continue to grow. Thermoelectric Cooling technology can provide efficient and reliable cooling solutions for electronic equipment.
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Precision Chillers / Small Chillers
The chiller can be widely used in various industries and laboratories, and supports customized design.
| Temperature range | -18°C ~ +30°C | +5°C ~ +35°C series | |||||||
| Cooling Capacity | 0.35 ~ 0.9kW | 1.8 ~ 50kW | |||||||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
Recirculating Chillers
Our recirculating chiller adopts low-temperature refrigeration technology, the temperature is as low as -120℃, and various accessories are customizable.
| Temperature range | -25°C ~ +30°C series | -45°C ~ +30°C series | -60°C ~ -20°C series | -80°C ~ -20°C series | -120°C ~ -70°C series | ||||
| Cooling Capacity | 0.8 ~ 30kW | 0.75 ~ 12kW | 0.4 ~ 6kW | 0.2 ~ 6kW | 0.3 ~ 5kW | ||||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
Low Temperature Chillers
We specialize in the production of low-temperature chillers with a temperature control range as low as -150°C, which can meet the refrigeration needs of different industries.
| Temperature range | -25°C ~ -5°C series | -45°C ~ -10°C series | -60°C ~ -10°C series | -80°C ~ -30°C series | -110°C ~ -50°C series | -150°C ~ -110°C series | |||
| Cooling Capacity | 12 ~ 360kW | 6 ~ 180kW | 6 ~ 180kW | 4 ~ 180kW | 2 ~ 120kW | 2.5 ~ 11kW | |||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
Temperature simulation for vehicle quality test: battery life test, fuel injector/motor test bench, airbag test, component test bench, etc.
Suitable for precise temperature control of electronic components. In the manufacture of semiconductor electronic components for harsh environments, the IC packaging assembly and engineering and production testing phases include electronic thermal testing and other environmental testing simulations.
Liquid Cooling For Battery Energy Storage Systems
| Types | For Converting Station | For Energy Storage Battery | For Charging Station | ||||||
| Cooling Capacity | 45kW | 5 ~ 8.5kW | 4kW | ||||||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
ZLFQ Series
Coolant Distribution Unit
Liquid cooling equipment is suitable for semiconductor testing, electronic equipment constant temperature testing, cooling server supporting infrastructure, and other fluid temperature control places.
| Temperature range | +5°C ~ +35°C | +5°C ~ +35°C | |||||||
| Cooling Capacity | 15 ~ 150kW | 200 ~ 500kW | |||||||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
MD Thermal Chucks Series
It is used for testing RF devices and high-density power devices (IGBTs and MOSFETs), and can also be used for rapid cooling of laboratory flat panels (plasma, biological products, batteries), etc.
| Temperature range | -75°C ~ +225°C | ||||||||
| Temperature accuracy | ±0.1℃ | ||||||||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
Screw Chillers (Custom Designs)
Low temperature screw chillers and room temperature screw chillers
| Temperature range | +5°C ~ +30°C | +5°C ~ +30°C | +5°C ~ +30°C | +5°C ~ +30°C | -25°C ~ +5°C | -25°C ~ +5°C | |||
| Cooling Capacity | 107 ~ 1027kW (Single Compressor) | 299 ~ 2134kW (Dual Compressor) | 98 ~ 934kW (Single Compressor) | 272 ~ 1940kW (Dual Compressor) | 48 ~ 467kW (Single Compressor) | 51 ~ 497kW (Single Compressor) | |||
| Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized | |||||||||
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