Pipeline pigs
are devices that are placed inside the pipe and traverse the pipeline. While
buildup in a pipeline can cause transmittal slows or even plugging of the
pipeline, cracks or flaws in the line can be disastrous. A form of flow
assurance for oil and gas pipelines and flowlines, pipeline pigging ensures the
line is running smoothly.
The maintenance
tool, pipeline pigs are introduced into the line via a pig trap, which includes
a launcher and receiver. Without interrupting flow, the pig is then forced
through it by product flow, or it can be towed by another device or cable.
Usually cylindrical or spherical, pigs sweep the line by scraping the sides of
the pipeline and pushing debris ahead. As the travel along the pipeline, there
are a number functions the pig can perform, from clearing the line to
inspecting the interior.
Figure 1.
Foam pig [www.pollypig.com].
Types of
Pipeline Pigs
Although first
used simply to clear the line, the purpose of pipeline pigging has evolved with
the development of technologies. Utility pigs are inserted into the pipeline to
remove unwanted materials, such as wax, from the line. Inline inspection pigs can
also be used to examine the pipeline from the inside, and specialty pigs are
used to plug the line or isolate certain areas of the line. Lastly, gel pigs
are a liquid chemical pigging system.
Similar to
cleaning your plumbing line, utility pigs are used to clean
the pipeline of debris or seal the line. Debris can accumulate during
construction, and the pipeline is pigged before production commences. Also,
debris can build up on the pipeline, and the utility pig is used to scrape it
away. Additionally, sealing pigs are used to remove liquids from the pipeline,
as well as serve as an interface between two different products within a
pipeline. Types of utility pigs include mandrel pigs, foam pigs, solid cast
pigs and spherical pigs.
Figure 2.
Pipeline pig [www.pipeline-pigging.com].
Inspection
pigs, also referred to as in-line inspection pigs or smart pigs, gather
information about the pipeline from within. . The type of information gathered
by smart pigs includes the pipeline diameter, curvature, bends, temperature and
pressure, as well as corrosion or metal loss. Inspection pigs utilize two
methods to gather information about the interior condition of the pipeline:
magnetic flux leakage (MFL) and ultrasonics (UT). MFL inspects the pipeline by
sending magnetic flux into the walls of the pipe, detecting leakage, corrosion,
or flaws in the pipeline. Ultrasonic inspection directly measures the thickness
of the pipe wall by using ultrasonic sounds to measure the amount of time it
takes an echo to return to the sensor
Specialty
pigs, such as plugs, are used to isolate a section of the pipeline for
maintenance work to be performed. The pig plug keeps the pipeline pressure in
the line by stopping up the pipeline on either side of where the remedial work
is being done.
A combination of
gelled liquids, gel pigs can be used in conjunction with
conventional pigs or by themselves. Pumped through the pipeline, there are a
number of uses for gel pigs, including product separation, debris removal,
hydrotesting, dewatering and condensate removal, as well as removing a stuck
pig.
Because there
now exist multi-diameter pipelines, dual and multi-diameter pigs have been
developed, as well.
Intelligent
Pigs
The accuracy of
location and measurement of anomalies by the intelligent pigs has continued to
improve. Initially, the electronics and power systems were so large that
intelligent pigs could be used only in lines 30 in. and greater in size. The
continued sophistication and miniaturization of the electronic systems used in
the intelligent pigs has allowed the development of smaller pigs that can be
used in small-diameter pipelines. Newly enacted DOT pipeline-integrity
regulations and rules acknowledge the effectiveness of the intelligent pigs and
incorporate their use in the pipeline-integrity testing process.
Pig Launchers
and Receivers
Pigging
facilities and considerations should be incorporated into the pipeline system
design. Basic pigging facilities require a device to launch the pig into the
pipeline and a receiver system to retrieve the pig as shown in Fig. 3. The
launcher barrel is typically made from a short segment of pipe that is one to
two sizes larger than the main pipeline and is fitted with a transition fitting
(eccentric reducer) and a special closure fitting on the end. The barrel is
isolated from the pipeline with full-port gate or ball valves. A “kicker” line,
a minimum of 25% capacity of the main line, is tied from the main pipeline to
the barrel, approximately 1 1/2 to 2 pig lengths upstream of the transition
reducer, to provide the fluid flow to “launch” the pig into the pipeline. The
barrel is fitted with blowdown valves, vent valves, and pressure gauges on the
top and drain valves on the bottom. The length of the barrel is determined by
the length and number of pigs to be launched at any one time. Receivers have
many of the same features.
Figure 3.
Typical sphere launcher and receiver traps.
Pig Selection
Pig runs of
between 50 to 100 miles are normal, but pig runs exceeding 200 miles should be
avoided as the pig may wear and get stuck in the line. Cleaning pigs may be
constructed of steel body with polyurethane cups or discs and foam pigs with
polyurethane wrapping, solid urethane disc, and steel body with metallic
brushes. Drying pigs are usually low-density foam or multicup urethane. The
intelligent pigs may be:
- · Magnetic flux leakage
- · Ultrasonic
- · Elastic/shear wave
- · Transponder/transducer
- · Or combinations thereof
Internal-coating
pigs are generally multicup urethane type. Batching pigs are typically
bidirectional, multidisk rubber, which maintain efficiency up to 50 miles. Pigs
used for obstruction inspection are typically urethane, multicup type fitted
with an aluminum gauge plate or a gel type.
Spheres are
generally sized to be approximately 2% greater diameter than the pipe internal
diameter. Cups and discs are typically sized to be 1/16 to 1/8 in. larger in
diameter than the pipe ID. Foam pigs have to be significantly oversized. Foam
pigs 1 to 6 in. in diameter should be oversized by 1/4 in.; foam pigs 8 to 16
in. in diameter should be oversized 3/8 to 1/2 in.; foam pigs 18 to 24 in. in
diameter should be oversized 1/2 to 1 in.; and foam pigs 28 to 48 in. in
diameter should be oversized 1 to 2 in.
References:
“How Does
Pipeline Pigging Work?”. http://www.rigzone.com/training/insight.asp?insight_id=310&c_id=19.
January 2015.
“Pipeline
Pigging”. http://petrowiki.org/Pipeline_pigging.
January 2015.
George Gilbert Mattew
Student ID. 155 12 061
Course: KL4220 Subsea Pipeline
Prof. Ir. Ricky Lukman Tawekal, MSE, Ph. D./ Eko Charnius Ilman, ST, MT
Ocean Engineering Program, Institut Teknologi Bandung
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