Method for Cleaning the Inner Wall of Carbon Steel Tube

Carbon steel tube is made of carbon steel, and is divided into seamless tube and welded tube according to the process. Seamless tube is made of round steel with holes, has no welds, high strength, and is suitable for high-pressure scenarios; welded tube is made of sheet metal with low cost and high production efficiency, and is mostly used for low-pressure transportation.
 
Its performance depends on the carbon content: low carbon steel (such as Q235) has good toughness and is easy to weld, while medium carbon steel (such as 45# steel) has higher strength. Ordinary carbon steel tubes are prone to rust and need to be treated with galvanizing, painting and other anti-corrosion treatments. Common standards include GB/T 8163 (fluid seamless pipes) and GB/T 3091 (low-pressure welded pipes).
 
Carbon steel tubes are widely used in petrochemical, construction, electric power and other fields, such as transmission pipelines, structural supports, etc.
It is cost-effective and easy to process, but its corrosion resistance is relatively weak, and protective measures are required in complex environments. With its stable mechanical properties and practicality, it has become the first choice for industrial basic pipes.
 
Importance of for cleaning the inner wall of carbon steel tube
 
Cleaning the inner wall of carbon steel tubes is related to the safety and efficiency of the pipeline system and is of great importance that cannot be ignored.
First, it can effectively prevent blockage. Carbon steel tubes are prone to residual impurities such as welding slag and rust during the manufacturing and installation process. If not cleaned, these impurities will flow with the fluid and block valves, instruments or downstream equipment, affecting the normal operation of the system. In the food, medicine and other industries, it can also cause product contamination.
Secondly, it helps to improve corrosion resistance. Residual rust will accelerate the corrosion of the pipe wall. After cleaning, it is easier to carry out anti-corrosion treatment and reduce the risk of under-scale corrosion.
Furthermore, cleaning the inner wall can reduce fluid resistance, reduce energy consumption, and improve transportation efficiency, while ensuring the measurement accuracy of the metering instrument and ensuring the normal operation of the equipment.
In addition, industries such as petrochemicals and gas transportation have strict standards for pipeline cleanliness. If the cleaning is not in place, the pipeline may not pass the acceptance inspection and may even cause safety accidents. For example, the friction of impurities in the combustible medium pipeline will generate static electricity, posing an explosion hazard.
 
Method for cleaning the inner wall of carbon steel tube
 
In the steel industry, carbon steel tubes are important transmission media, and the cleanliness of their inner walls directly affects the transmission efficiency and service life of the fluid.
 
1. Mechanical cleaning
Mechanical cleaning is a more traditional and direct method that mainly uses physical friction to remove rust and dirt.
Wire brush cleaning: Choose a wire brush of appropriate size, hold it tightly and scrub the inner wall of the pipe vigorously until the rust is completely removed. This method is simple and direct, but attention should be paid to the possible wear and tear on the inner wall of the pipe. It is suitable for small pipes or local cleaning.
 
Shot blasting and sand blasting to remove rust inside the pipe: For pipes with larger diameters, shot blasting or sand blasting technology can be used inside the pipe. The rust and dirt are effectively removed by impacting the inner wall of the pipe with high-speed steel shots or sand particles. Both methods are efficient and clean thoroughly, but require professional equipment support.
 
2. Chemical cleaning
Chemical cleaning uses chemicals to react with rust to achieve the purpose of dissolution or conversion.
Acidic rust removers: Common acidic rust removers include dilute hydrochloric acid, dilute sulfuric acid, etc., which can quickly dissolve rust. When using, pour the rust remover into the pipe, let it sit for a while and then rinse it with water. Attention should be paid to safety protection to avoid harm to human body and environment.
Alkaline rust removers: Unlike acidic rust removers, alkaline rust removers such as sodium hydroxide and potassium hydroxide convert rust into water-insoluble substances through chemical reactions. Again, be safe when using and rinse thoroughly.
 
3. Electrochemical cleaning
Electrochemical cleaning uses the principle of electrochemistry to remove rust by applying an electric current to cause an oxidation reaction at the anode.
Electrochemical rust removal: This method will not cause physical wear to the inner wall of the pipe and can remove rust more thoroughly. However, it requires specialized equipment and technical support and is suitable for larger or more severe rust treatments.
 
Auxiliary measures and comprehensive application
 
1. Preventive measures: Clean and maintain carbon steel tubes regularly, use rust inhibitors or coatings to protect the pipe surface, reduce the contact between oxygen and water, and prevent rust. 
2. Pipeline cleaning and maintenance: Clean the pipeline regularly to reduce the accumulation of rust and dirt. At the same time, strengthen inspection and maintenance to promptly detect and repair problems in the pipeline.
3. Innovative cleaning technology: For example, use a telescopic rod with a circular water spray pipe to initially clean the oil stains on the inner wall of the pipe with an organic solvent, then physically wipe and wash with water, and finally dry and seal both ends of the pipe to ensure that the inner wall is dry and clean.

Read more: Carbon Steel Tube Material Secrets: a Variety of Choices from Basic to High-end