The Working Principle of Organic Heat Carrier Boilers
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Jiangsu Shuangma New Energy Equipment Co., Ltd. is an organic heat carrier boiler supplier. An organic heat carrier boiler typically consists of a furnace, a heat exchanger, a circulation pump, and a system for controlling the temperature and pressure. The organic heat carrier, which is usually a special type of oil or fluid, plays a crucial role in transferring heat throughout the system.
Organic Heat Carrier Boilers
The process begins when the fuel is burned in the furnace, generating intense heat. This heat is then transferred to the organic heat carrier, which is circulated through the heat exchanger by the powerful circulation pump. As the heat carrier flows through the heat exchanger, it gives off its heat to the process or application that requires it.
The circulation of the organic heat carrier is a continuous and controlled process. The pump ensures that the fluid is constantly moving, preventing any local overheating or cold spots. This continuous flow also helps to maintain a uniform temperature throughout the system.
During the heat transfer process, the physical properties of the organic heat carrier come into play. It has a high heat capacity, allowing it to store and transfer large amounts of heat with relatively little temperature change. This property is essential for efficient and stable heat transfer.
The design of the heat exchanger is also critical. It is engineered to maximize the contact area between the heat carrier and the medium to which the heat is being transferred, enhancing the efficiency of the heat exchange. Different types of heat exchangers may be used depending on the specific application and requirements.
The temperature and pressure of the organic heat carrier are closely monitored and controlled. Special sensors and control systems are in place to ensure that the fluid remains within safe operating limits. If the temperature or pressure gets too high or too low, appropriate measures are taken to adjust it.
One of the key advantages of using an organic heat carrier in a boiler is its ability to operate at relatively low pressures compared to steam boilers. This makes the system safer and more manageable. Additionally, the organic heat carrier can reach very high temperatures without the need for extremely high pressures, allowing for efficient heat transfer in various industrial processes.
In some cases, multiple circuits or loops of the organic heat carrier may be used to serve different areas or processes within a facility. Each circuit can be independently controlled and adjusted to meet the specific heat requirements of that particular application.
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Jiangsu Shuangma New Energy Equipment Co., Ltd.
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