Using special software packages and talented engineers, riser analysis can model the forces at work on a potential riser design. Today, riser analysis takes out some of the guesswork. This could be a tedious and expensive process, and it could still yield sub-standard designs, in some cases. In the past, the main way to evaluate a riser design was through building prototypes, testing them extensively in real-world conditions and redesigning the riser until it met all the requirements and specifications necessary. They also must efficiently transfer fluids to and from the sea floor. The impact of wave action, tidal action, high pressures, low temperatures, and corrosion must not affect the platform’s movement. In order to do the job properly, with minimal maintenance and downtime, an extremely efficient and reliable riser design is required. Risers enable the platform to move up and down, or side to side during production and drilling operations. Risers are critical to the operation of the platform, and any failure could mean a loss of production capabilities and a serious loss of profit. They transport oil and gas from the well to the platform or inject fluids into the well to facilitate drilling or production. In the offshore oil and gas industry, risers connect drilling and production platforms to the sea floor. View our Drilling Riser Analysis section. ![]() ![]() OrcaFlex Tutorial with FLUPSY Mooring Analysis Example
0 Comments
Leave a Reply. |