Ferrous Metallurgy

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Ferrous Metallurgy

Technology for Intelligent Production

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Application of Infrared Thermal Imaging in Iron and Steel Metallurgy

In the process of iron and steel metallurgical production, a variety of advanced technical means such as sensing technology, soft measurement, machine vision and data analysis may help enterprises achieve a safe, accurate and intelligent production level. As a long-distance non-contact temperature measurement technology, infrared thermal imaging is widely used in Iron and steel metallurgy manufacturing process. It is the key to detect, control and optimize the process in Iron and steel metallurgy manufacturing process


Raw material fire prevention and monitoring

Coal is stacked in the coal yard as a raw material in the process of iron and steel metallurgy. Due to the long-term stacking, the temperature of the coal rises continuously, which is easy to cause spontaneous combustion or smoldering of the coal stockpiles resulting in great losses of the enterprise. Infrared thermal imaging may monitor and measure the internal temperature of coal stockpiles in a long distance and large range, so that operators may timely understand the heating condition of coal stockpiles, and take measures as soon as possible to avoid spontaneous combustion of coal stockpiles. 


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Rotary kiln monitoring

The melting state of combustion is easy to cause coking, which may pull rings and accumulate at the rear affecting slagging;then, the boiler needs to be shut down for coke removal and the operation reliability of the equipment will be affected. Infrared thermal imaging can monitor the temperature during the production and operation of the rotary kiln, find the high-temperature area as soon as possible, help to arrange the maintenance plan in advance, prevent equipment failure and potential safety hazards, and avoid shutdown caused by the sudden falling off of refractory materials. 


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Steam pipeline leakage monitoring

The thermal insulation materials of common thermal pipelines in iron and steel smelting enterprises are prone to be ruptured or damaged under the influence of steam temperature and high pressure, resulting in leakage and energy loss as well as major potential safety hazards during the operation of thermal pipelines. The thermographic camera may quickly measure the thermal information of the target surface and visualize it in the form of image, quickly read the temperature and locate the fault, so as to help front-line engineers quickly troubleshoot the pipeline network. 

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Defect detection of steel ladles and torpedo ladles

In the process of iron and steel smelting, there would be potential hazards such as invisible wall thinning and notch of steel ladles, torpedo ladles and iron slag ladles for a long-time running, which may cause major industrial accidents. Therefore, using the on-line thermographic camera to monitor the surface temperature of the ladles throughout the day, determine the temperature and differences of the ladles, and monitor the safe operation of the ladles. Adopt uniform standard for monitoring can help operators understand the conditions of the ladles more simply and directly. 


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Converter wall monitoring

During the long operation of the converter, the internal refractory materials gradually erode and fall off, and the steel plate would be directly exposed to the high-temperature environment, resulting in burning through of the wall. Therefore, the on-line thermographic camera may be used to perform 360° all-weather monitoring over the converter, check the temperature distribution of the wall in a timely manner, monitor the safe operation of the converter. 


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Hot rolling process monitoring

Both the high-speed operation of rod rolling equipment and the uninterrupted production process pose great challenges to manual monitoring and timely handling of steel stacking accidents. Infrared thermal imaging has many advantages, it can realize 24-hour real-time monitoring without contact, and it can give alarm in a timely manner in case of any potential safety hazard, which may save time and labor, and greatly improve the operation reliability of the equipment. 


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Quenching process monitoring

The temperature of steel pipes after water quenching may have a certain impact on the stability of comprehensive mechanical properties of steel pipes. The real-time monitoring over the temperature with industrial thermographic camera may play a positive auxiliary role in improving process efficiency and product quality. 


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