Designed with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueEmploy a finned structure to rapidly evaporate liquid into vapor form. By increasing the heat exchange surface area with the external environment, accelerates the heat transfer process and achieves efficient evaporation. This type of evaporator is commonly used in refrigeration systems and air conditioning equipment.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueEmploy a finned structure to rapidly evaporate liquid into vapor form. By increasing the heat exchange surface area with the external environment, accelerates the heat transfer process and achieves efficient evaporation. This type of evaporator is commonly used in refrigeration systems and air conditioning equipment.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueEmploy a finned structure to rapidly evaporate liquid into vapor form. By increasing the heat exchange surface area with the external environment, accelerates the heat transfer process and achieves efficient evaporation. This type of evaporator is commonly used in refrigeration systems and air conditioning equipment.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueVenttech designs and manufactures Parallel Flow Air-Cooled Condensers (microchannel condensers) and Automotive Condensers for HVAC applications.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueEmploy a finned structure to rapidly evaporate liquid into vapor form. By increasing the heat exchange surface area with the external environment, accelerates the heat transfer process and achieves efficient evaporation. This type of evaporator is commonly used in refrigeration systems and air conditioning equipment.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueDesigned with a structure of tubes and fins, which enables efficient heat transfer. The fins effectively increase the heat exchange surface area between the fluid within the tubes and the external environment, thereby enhancing the heat transfer efficiency. It is suitable for various applications involving heat transfer between liquids, gases, or a combination of both.
Click to ContinueAHU condensers are mainly used in low-moderate cooling occasions, such as hospitals, clean rooms, ships, chemical air conditioner, food, paper industry, tobacco, and other factories or laboratories.
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