This concept could potentially apply to various industries or settings, including automotive, aviation, or even residential environments. Here's how such a system might function:
Cold Storage Evaporator: This component likely serves as part of an air conditioning or cooling system. The evaporator is responsible for absorbing heat from the cabin's air, cooling it down through a refrigeration cycle.
Temperature Control: The developed technology might have an enhanced evaporator system that efficiently absorbs and removes heat from the cabin air, ensuring that the temperature remains within a desired range. This could involve improved heat transfer mechanisms or better refrigerant circulation to enhance cooling efficiency.
Regulating Cabin Temperature: By effectively managing the heat removal process, this system aims to prevent excessive temperature rise within the cabin, especially in scenarios where external factors (such as high ambient temperatures) could lead to discomfort or safety concerns.
Application: Such a system could find application in various vehicles (cars, trucks, buses, airplanes) or enclosed spaces (such as cabins in remote locations or temporary shelters) where maintaining a comfortable or controlled temperature is essential for human comfort, safety, or to preserve perishable goods.
The goal of this technology appears to be to prevent the interior temperature from rising beyond a certain threshold by utilizing an advanced cold storage evaporator system, thereby ensuring a more pleasant or controlled environment within the cabin. This innovation could potentially improve comfort, productivity, and safety in various settings that require regulated temperature conditions.
Develops cold storage evaporator that Limits the Rise in Cabin
125
