GIBBSim provides the capability to model the processes in pipelines, principally oil pipelines. While separate products for such modeling exist on the market, GIBBSim has the advantage of integrating pipeline simulation into a comprehensive package for industrial modeling. This allows the user to avoid separate spending for pipeline modeling software, and also enables work with pipelines as parts of more complicated industrial systems.
The principal challenge in pipeline simulation is taking into account non-Newtonian liquid properties. The non-Newtonian character of oil may lead to build-up of paraffins in the pipeline, causing it to malfunction eventually. Simulation allows the engineer to ascertain whether a pipeline will be able to function reliable under various sets of conditions. The characteristics of the pipeline’s walls and insulation, which may be different for different parts of the pipeline, need to be known; the model can also be used to check the impact of possible changes in the pipeline’s walls and insulation. The modeling system can take into account real data from various measurements on the pipeline, thus improving the precision of the results.
Pipeline modeling example: sea-based platform
In an example setting, a sea-based oil platform is connected to the shore via a long oil pipeline, which has a transitional point on a ship.
Example pipeline layout
The profile of the pipeline is listed in the following table:
| No |
Pipe section |
lengh, m |
Outside diameter, mm |
Wall thickness, mm |
Insulation thickness, mm |
| 1 |
Riser downward |
70 |
426 |
16 |
35 |
| 2 |
Horizontal |
2955 |
426 |
16 |
35 |
| 3 |
Riser upward |
70 |
426 |
16 |
35 |
| 4 |
Riser downward |
70 |
426 |
16 |
35 |
| 5 |
Horizontal |
16152 |
426 |
16 |
35 |
| 6 |
Horizontal |
3504 |
325 |
16 |
45 |
| 7 |
Horizontal |
546 |
325 |
16 |
0 |
| 8 |
Riser upward |
70 |
8’’ |
flexible hose |
0 |
The oil
The formation fluid has the following composition, in molar parts:
| CO2 |
0.00010 |
| H2S |
|
| Methane |
0.42888 |
| Ethane |
0.08478 |
| Propane |
0.05623 |
| i-Butane |
0.01772 |
| n-Butane |
0.02687 |
| i-Pentane |
0.00981 |
| n-Pentane |
0.01220 |
| n-Hexane |
0.01650 |
| С7 |
0.34691 |
The C7 fraction has the density of 835 kg/m3, and the molecular weight of 253.2 g/mole. The fluid is, immediately on the platform, subjected to separation at the pressure of 2.5 bar, at the temperature of 86 oC. Then the resulting oil is pumped into the pipeline, at the pressure of 15 bar. The oil shows non-Newtonian properties at temperatures below 34 oC; its congelation temperature is 21 oC. The oil is to be supplied to the shore at the rate of 10300 tons per day.