THE EFFECT OF MINING SUBSIDENCE ON THE RELIABILITY OF API 5L X52 GAS PIPELINE AND CIRCUMFERENTIAL SEMI ELLIPTICAL CRACK IN GIRTH WELD USING FINITE ELEMENT METHOD
Coal is still the largest contributor to the energy mix in the world. The longwall mining is one of the most popular underground coal mining methods in Indonesia. Besides high productivity, this can induce subsidence in large areas. This is supported by the characteristics of overburden rocks in...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77360 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Coal is still the largest contributor to the energy mix in the world. The longwall
mining is one of the most popular underground coal mining methods in Indonesia.
Besides high productivity, this can induce subsidence in large areas. This is
supported by the characteristics of overburden rocks in underground mines in
Indonesia which are very weak and tend to be prone to deterioration due to ground
water. As is well known, most natural resources such as natural gas, oil and water
are transmitted through buried pipelines. Steel pipe is currently the main choice in
its application because it has a high value of strength to weight ratio so it can reduce
material costs. Subsidence can cause bending and deformation of the buried pipeline
that lies through the underground coal mining area. As a result, the potential for
failure, economic loss, and disaster can be the greatest possible risks. In
Kalimantan, Indonesia, in an underground coal mining plan a simulation has been
carried out on the possibility of land subsidence in accordance with the underground
mining plan. The subsidence occurred right in the area where there is a mining
panel. This research will be the first to analyze the effect of data-based coal mining
subsidence on the integrity of the API 5L X52 gas pipeline buried along the mining
area using analytical methods that are available in the literature and the finite
element method using ANSYS software. The stress calculation results obtained are
compared with the standard to obtain safety predictions for mining operations and
pipe life.
From the predictions made using the UK NCB method, there are 10 curved
segments with varying subsidence values. An analysis was carried out regarding the
effect of mining subsidence on the additional axial stress distribution. The
interaction between the pipe and the soil is ignored considering that the subsidence
value is too small when compared to the pipe length. In addition, the factor of safety
of the allowable stress is analyzed using the von Mises equivalent stress parameter.
The presence of girth welds is also considered considering that the area is
considered as the weakest link due to the longitudinal direction of tensile stress
caused by the movement of the ground due to seismic activity. Simulations were
also carried out with the possibility of the presence of semi-elliptical crack with
variation in the location and dimension. Variations in the location of cracks are
carried out in the weld middle and weld toe areas as well as the types of internal
and external cracks. Dimensional variations were carried out with an aspect ratio
(a/c) of 0.2; 0.5; 1 and relative crack depth (a/t) of 0.2; 0.5; 0.8.
Both the simulation and calculation results show the highest von Mises stress at
point x=1834 m in segment 9. Even so, this value is still lower when compared to
the safety factor at Class 3 locations according to pipe specifications. Assuming a
constant corrosion rate and no further subsidence, the pipe can be used safely for
the next 30 years. The existence of a girth weld has the potential to increase the von
Mises equivalent stress in the presence of stress concentrations due to geometric
discontinuity and inhomogeneous mechanical properties. The presence of crack
increases the risk of pipe failure. The stress intensity factor (SIF) value for crack
located in the weld toe section is higher than in the weld middle. Crack located on
the internal parts also tend to be more dangerous due to the influence of the Hoop
tension. In general, semi elliptical crack with a lower aspect ratio have higher SIF
values. In addition, the deeper the crack as indicated by the increase in the relative
crack depth also increases the SIF value. With the given assumptions , the results
of the FEM simulation show good agreements with the results of analytical
calculations based on the literature for both stress evaluation and stress intensity
factor. Therefore, the method used in this study is feasible to be used practically to
evaluate the mechanical behavior of buried pipeline when the mining subsidence
phenomenon occurs. |
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