Heat tracing is regarded as a crucial process for the systems and tools, which require freeze protection. Through the use of self-regulating technologies, the heat tracers are known to work, thereby maintaining or increasing the temperature in the vessels, pipes, and equipment, which are exposed to the winter climates.
There are different industries that are using a plethora of heat tracers, such as electric power, gas and oil. Through the use of the specific application, the heat tracers can control the coldest and adverse weather conditions. In this write-up, you can seek information about the different benefits of heat tracing:
They offer amazing freeze protection in adverse weather conditions
During the winter season, the ice and snow are recognized to be a primary threat to the equipment and pipes. Heat tracers prevent the freezing from interrupting production, thereby offering energy to prevent anything frozen. It assures that each and everything remains at a reasonable temperature. The Thermon KRS self-regulating cable happens to be a primary instance of the heat tracer in action, which is meant to melt the ice and snow specifically.
Such heatline cables are equipped with immense strength, which can withstand that the cables are not buried under the concrete. The heat tracer is known to survey the surrounding concrete’s temperature. As the temperature is present below the freezing point, it enhances the power output. In addition to this, it is known to heat the ground, thereby melting the ice and snow.
As the cable gets exposed to adverse environmental conditions, it enhances the power output as it is placed in contact with the ice and snow. After melting, the cable will decrease the power, thereby maintaining the warm and steady temperature.
Heat tracing is essential for the oil and gas sector
The petroleum industry depends on heat tracing heavily in a wide array of applications. It is known to work to cool down and heat up the equipment, which is meant to store, process and produce the oil. In the industry’s upstream sector, the enhanced temperature is necessary for bringing natural gas and oil to the surface.
Heat tracing is essential in different aspects of the gas and oil sector, including gas processing, production and exploration, synfuels processing, heavy oils, chemical and petrochemical processing.
You can achieve the balanced and sustained hot water supply
As the heat tracers boast of self-regulating technology, you can use them to maintain certain temperatures. During hot water supplies, you can heat and maintain the water tanks without any hassles. The self-regulating Heatline heating cable of heat tracing is meant for accomplishing such tasks. Such cables play an integral role in forming the WarmTrace system.
It acts as the replacement of the return pipes max. It reduces the costs to run the pumps continuously. In addition, you can save water, as the consistent regulator reduces the waiting time for the heating of the water.
Processing the temperature maintenance with the steam exposure
During the process temperature maintenance applications and freeze protection application, the heat tracking cable gets exposed to the higher temperature than the specific maintenance temperature, as steam is beneficial in cleaning the pipes. In such an application, the cable helps accomplish the maintained temperature needs and the exposure temperature needs.
Though the exposure of the cleaning temperature is for the shorter term, it will damage the cable. In the process of temperature maintenance and freeze protection applications, the process will operate at a higher temperature than the maintained temperature. During such cases, the heatline heating cable will be capable of withstanding the normal operating temperature in the prolonged period.
Speaking of such applications, self-regulating technology is considered to be the preferred choice of heat tracing. Use of self-regulating cables results in the reduced cable sheath temperature. Therefore, it is essential for different hazardous area applications. The potential audience should be capable of specifying the cable while maintaining 250 degrees F temperature. The primary key is that the cable can endure the higher steam temperature.
Processing the temperature maintenance without the steam exposure
With the processing of temperature maintenance apps, there are requirements for fluids viscosity control. They help maintain the temperature needs, which are available in the range of 140-230 degrees F. It is possible to use self-regulating technology in such cases.
As the maintained temperature gets higher, the losses of heat are known to be higher in such apps. Hence, you should select a cable, which accomplishes the temperature needs. It offers more power output. Therefore, it provides a suitable choice to the potential audience in having fewer cables run and produce extra heat for the app.
Long Line Heating
The long line heat tracing apps are essential as the circuit lengths, in the range of 1000 ft to different miles, are known to be powered from a singular powerpoint. Also, they are essential for heating the longer pipelines, thereby offering freezing protection for the viscosity control and specific fluid temperature maintenance.
Such applications are inclusive of the unloading and loading of the facilities for the trucks and rails at the depots, unloading and loading of facilities for the ocean transport vessels at the pipers, storage facilities which are necessary for the transfer of the products from and to the farms, transfer of the lines between different processing plants.
The manufacturers are known to create different unique technologies, which are beneficial for heat tracing. Suppose you want to select the proper technology. In that case, it is essential to determine the specific process needs, which are inclusive of field labor costs, insulation thickness and type, pipe materials, types of fluids, power outputs, circuit lengths, to name a few.
The STS or heat tracing systems are considered to be a suitable choice for extremely long pipelines. They are meant for the circuits length, which are about 15 miles. In addition to this, they are capable of withstanding the temperature of about 390 degrees F, with the 480 degrees F temperature.