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What is the Pipeline Pigging?







What is the Pipeline Pigging?








Pipeline Pigging refers to the practice of using devices or implements known as 'pigs' to perform various cleaning, clearing, maintenance, inspection, dimensioning, process, and pipeline testing operations on new and existing pipelines. For existing operational pipelines pigging is normally performed without stopping the flow of the product in the pipeline. The 'pigs' can be of different materials and configurations such as Polyurethane Open Cell Foam, Cast Polyurethane, and Rubber.
There are some hypotheses for why the process is called 'pipeline pigging', though none have been confirmed. One theory states that in the past, a leather-bound tool was sent through the pipeline, making the sound of a squealing pig as it passed through. Another theory is that after opening a pig trap, the tool lies in a pile of mud, in the same way, a pig does.








How does the Pigging process work?

By inserting the Pig into a Pig Launcher (or Launching Station) and then applying flow under pressure to the rear of the device it will move into the pipeline. The force applied by a pig as it traverses a pipeline can be calculated by multiplying the cross-sectional area of the back of the pig by the pressure applied to the rear of the pig.





Once a pig has launched and is moving through the pipeline the differential pressure can be calculated by subtracting the pressure in front of the pig from the pressure acting on the back of the pig. The pig speed can be calculated by tracking the pig at various points along the pipeline and calculating the time it takes to arrive at each point against the input pressure and flow rate and then converting to velocity.
Generally, the outside diameter of most pigs will be sized to be larger than the internal bore and the resultant 'interference' enables the pig to scrape and remove debris as it traverses the pipeline. The degree of effectiveness in cleaning or clearing a pipeline is determined by the type of pig employed along with other influencing factors such as flow rate, pig speed, pressure, temperature, the volume of debris to be removed, length of the pipeline, number of pigging runs, number, and type of bends, pipeline elevations. pigging frequency and others.
When the pig reaches the other end of the pipeline it is captured in a Pig Catcher (or 'Receiving Station') which is isolated via a shut-off valve, allowing the pig to be safely removed.








The image above shows a station for loading or unloading pigs, the pigs are used for cleaning out or inspecting pipelines. This station is designed to receive pigs from the upstream section and launch pigs into the downstream section, with a cross-over for the fluid to flow from one section to the next. The pre-installed thrust blocks (those empty concrete rectangles in front of the blank flanges) are to support a (temporary) pig-trap which is bolted on to the pipeline in place of the blind flange. The pig-trap normally includes a section of a larger diameter pipe to allow the pig to come to a gentle stop with flow passing around the pig. After closing the valves for isolation, the pig can be removed via a quick opening closure (like a flange) on the end of the pig-trap. The fact the pig-traps are not present means that this pipeline is not pigged regularly.




Why is it necessary to Pig a Pipeline?

Pipelines are generally accepted as being the most efficient method of transporting liquids and gases across various distances. They represent a major financial, environmental, and operational commitment by all stakeholders and in order to protect these valuable investments, ongoing maintenance must be regularly undertaken to ensure the pipeline continues to deliver optimum performance.
In the case of new pipelines once construction is complete they must be hydrostatically tested to prove they will be capable of meeting the designated MAOP (Maximum Allowable Operating Pressure). Pipeline Pigs are used during the testing phase to fill pipelines with water and then after the completion of the successful hydrostatic test to de-water the pipeline.








Additionally, Pigs are used to remove construction debris that may have accumulated during the construction phase of the pipeline. In some cases such as High-Pressure Gas Transmission Mains, Pigs will also be used to further clean and dry the pipeline to remove residue moisture, rust, scale, and debris in order to meet the minimum Dew Point as required by relevant pipeline construction codes.




Common reasons why pipelines are pigged

Pipeline Cleaning, Pipeline Clearing, and Rehabilitation Proving Servicing Testing on New Pipeline Construction Projects, Tracking, Poor pumping efficiencies, High Power Costs, Pressure reduction, Discoloration and Turbidity, Product Contamination, Removing debris, Product Recovery, Training, Product Batching and Separation, Internal Bore Gauging, Pre-Inspection Survey Cleaning, Scraping Hard Deposits, Applying internal coatings and/or Chemical Inhibitors, Removal of rust scale and other internal formations, Commissioning, Wiping, Hydrostatic Testing, Filling and Dewatering, Decommissioning, Drying

What are Typical Pipeline Pigging applications?









WATER PIPELINES
Removal of Mud, Scale, Sediment, Calcium Carbonate, Manganese Iron, Bio-Films, Bacteria, and other contaminants





MINING & PROCESS SLURRY PIPELINES
Removal of Calcium Carbonate, Manganese Iron, Particles, Scale, Rust, and other debris.

CRUDE OIL PIPELINES
Removal of Wax, Sand, Bacterial Formations, Chemical Residues, Scale, Rust, and other impurities

NEW GAS TRANSMISSION PIPELINES
Removal of construction debris, water, rust, scale








EXISTING SALES GAS PIPELINES
Removal iron oxides, iron sulfides and iron carbonates (known as Black Dust)

PROCESS PIPELINES
Removal of contaminants, product residues, product recovery, and other impurities.

What Pigs should I use?

The Pig selection process is often critical to achieving the desired result. Typical Pig types in use:




OPEN CELL POLYURETHANE FOAM PIGS
  • Soft Foam Proving Cleaning
  • Medium Density Foam
  • High-Density Foam
  • Polyurethane Coated Foam
  • Criss Cross Polyurethane Coated Foam
  • Wire Brush Foam
  • Power Brush Foam
  • Steel Stud Cleaning
  • Plastic Stud Cleaning
  • Carborundum Coated Foam
  • Foam Tracking
  • Double Dish Foam
  • Bi-Directional Foam
  • Bare Foam
  • Foam Spheres
  • By-Pass & Jetting Foam
  • Tracking




MECHANICAL PIGS - HARD CAST POLYURETHANE, RUBBER ETC.
  • Cup
  • Bi-Directional Disc
  • Cup/Disc
  • Scraper/Disc
  • Guiding
  • Wire Brush
  • Magnet
  • Tracking
  • Scraping
  • Batching and Separation
  • Multi-Diameter
  • Gauging
  • By-Pass & Jetting
  • Steel Stud Cleaning







Which Pipelines are 'piggable'?

Most pipelines constructed in materials such as Steel, Stainless Steel, Duplex Stainless Steel, HDPE, DICL, Cast Iron, Plastic, PVC, AC, GRP, and others can all be pigged. Additional considerations such as; number and type of bends, number and type of valves, internal diameter(s), end connections, flow rate, flow media, pressure rating, operating temperature, pipeline length, pipeline elevations, handling of flow and debris downstream and other factors. As mentioned previously, the decision to pig any pipeline should be based on a thorough analysis of the line in conjunction with field-proven experience and advice offered by a reputable pigging specialist.




Pipeline Pigging with Smart Pigs

Smart Pigs or Pipeline Inspection Gauges are large pieces of machinery pulled together with powerful technology that helps with the maintenance of transmission pipelines. These pipeline pigging devices are major components to pipeline safety and accident prevention. These inspection tools provide data on the condition of pipelines which help gauge the health and integrity of the pipes. In a time where environmental protection is key and of global concern, smart pigs are the peacekeepers of the delicate relationship between pipelines and Mother Earth (and regulators). In addition, these smart pipeline pigs make sure that transmission of the product doesn't stop due to pipeline integrity issues, which can be disastrous to the bottom line.







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