What are the advantages of cracking furnaces
Cracking furnace is a core equipment in the petrochemical and coal chemical fields that converts heavy raw materials into light chemical basic raw materials. Its advantages are mainly reflected in the strong adaptability of raw materials, high product value, flexible and controllable processes, significant energy conservation and consumption reduction, as follows:
Cracking furnace is a core equipment in the petrochemical and coal chemical fields that converts heavy raw materials into light chemical basic raw materials. Its advantages are mainly reflected in the strong adaptability of raw materials, high product value, flexible and controllable processes, significant energy conservation and consumption reduction, as follows:
1. Wide range of raw material adaptation, capable of efficiently utilizing various types of hydrocarbon raw materials
The cracking furnace can process a full range of hydrocarbons from light to heavy, adapting to different resource conditions and market demands
Light raw materials: natural gas, ethane, propane, naphtha, etc. After cracking, low-carbon olefins such as ethylene and propylene are mainly produced, with high purity and stable yield;
Heavy raw materials: diesel, vacuum wax oil, hydrogenated tail oil, and even residual oil. By optimizing cracking processes (such as deep cracking and catalytic cracking), heavy components can be converted into high-value olefins and aromatics, greatly improving the utilization efficiency of heavy oil and avoiding resource waste.
This wide adaptability allows the cracking furnace to not only connect with oil and gas rich production areas, but also adapt to refining systems with a high proportion of heavy oil.
2. High added value of products, supporting the core demand of downstream chemical industry chain
The core products of cracking furnaces are basic chemical raw materials such as ethylene, propylene, butadiene, benzene, toluene, xylene (BTX), etc. These products are the "mother" of tens of thousands of chemical products such as synthetic plastics, rubber, fibers, coatings, pharmaceutical intermediates, etc., with high market demand and added value.
Compared to directly selling crude oil or heavy fuel oil, the value of products converted through cracking furnaces can be increased several times, which is a key link for refining enterprises to improve their profitability.
3. The process is flexible and controllable, and the product structure can be adjusted correctly
The cracking furnace can adjust the three core parameters of reaction temperature, residence time, and hydrocarbon partial pressure to correctly control product distribution and match market supply and demand changes:
Increasing the cracking temperature and shortening the residence time can improve the yield of low-carbon olefins such as ethylene and propylene, which is suitable for the market with high olefin prices;
Reduce cracking intensity and extend residence time: can increase the output of aromatic products, meeting the needs of the chemical fiber and rubber industries;
At the same time, modern cracking furnaces are equipped with excellent DCS control systems, which can monitor parameters such as furnace tube temperature, pressure, and raw material flow in real time, achieve automated adjustment, ensure production stability, and reduce manual intervention errors.
4. High thermal efficiency, outstanding energy-saving and environmental performance
Adequate utilization of waste heat recovery: The cracking reaction requires high temperature (the furnace temperature of the tubular cracking furnace can reach 1100 ℃ or above), and the furnace body is equipped with a waste heat boiler, which can recover the high-temperature waste heat of the cracking gas and generate high-pressure steam for power generation or compressor driving, greatly reducing the comprehensive energy consumption of the device; The waste heat recovery rate of some cracking furnaces can reach over 90%.
Low emission design: using low nitrogen burners to reduce the generation of pollutants such as NOx; After the cracking gas is treated by subsequent rapid cooling and separation processes, the waste gas and wastewater can be discharged in compliance with modern environmental protection requirements.
Long service life of furnace tube: Made of high-temperature resistant alloy material (such as HP series alloy), it can withstand high-temperature oxidation and carburizing corrosion. The operating cycle of furnace tube can reach 1-3 years, reducing the frequency of shutdown maintenance and improving the operating rate of the device.
5. The device has a high degree of scale and significant economies of scale
Cracking furnaces can achieve large-scale and scalable construction, with a single cracking furnace capable of producing hundreds of thousands of tons of ethylene per year, and supporting separation devices can also be synchronously scaled up. Large scale production can dilute the investment and operating costs of unit products, enhance the market competitiveness of enterprises, and is a core component of modern large-scale integrated refining and chemical projects.
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