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The LNG electric tracing zone is a heating device specifically designed for LNG storage and transportation systems. It is mainly used to prevent the liquid natural gas in the pipeline from solidifying at low temperatures, so as to ensure the normal operation and safety of the pipeline. The LNG electric tracing zone converts electrical energy into heat energy and transfers heat evenly along the surface of the pipeline to ensure that the medium temperature in the pipeline is kept within an appropriate range.
The working principle of LNG electric tracing zone is based on the principle of resistance heating. When the current passes through the conductor of the electric tracing belt, the electrical energy is converted into heat energy due to the action of resistance. This heat energy is then transferred to the pipe surface by means of radiation, convection, and conduction, thereby increasing the temperature of the pipe and its surrounding medium.
The design of the LNG electric tracing belt must take into account a variety of factors, including but not limited to pipe material, diameter, wall thickness, operating environment, and the required heating power. In addition, in order to ensure safety and efficiency, the installation of the electric tracer should follow specific specifications, ensure good contact between the heating element and the pipe, and have appropriate insulation measures.
In practical applications, LNG electric tracing belts are often used in conjunction with temperature control systems to accurately monitor and regulate pipeline temperatures. This can effectively prevent pipeline ruptures or liquefied natural gas leaks caused by too low temperatures, and also reduce energy waste. The use of LNG electric tracing belts is essential to ensure the reliability and safety of the LNG supply chain.
In short, the LNG electric tracing zone is an efficient and safe heating solution that ensures that the LNG stays flowing throughout transportation and storage by providing a continuous heat input, avoiding problems caused by low temperatures.