Piping Stress Analysis of a Hypothetical Oil Refinery Plant Having Separate Suction & Discharge Lines

In this study, a hypothetical simulation model is analyzed under varying uncertainty conditions; the key features of overlapping and functional interaction affect the performance measures of development time and effort. Findings indicate that, first and foremost, whether or not overlapping occurs, increasing functional interaction eventually leads to a sound system. A selective overview of group & individual process behaviors of a combined suction & discharge cycles of a hypothetical oil refinery plant is suggested. The pipe material is Carbon fiber reinforced plastic which is chosen because of its excellent length to weight ratio & it serves as an integral part the system which involves tank piping. This model uses psychologically legitimate & theoretically grounded models for time & decision rules. The results of preliminary simulation experiments suggest that the model is sensitive to structural & pay- off density & precisely replicates ideal free distributions. Pipe network models allow the modeling of storage tanks in which the working fluid (here, Naphtha) surface is inconsistent with inflow & outflow. Stress analysis of CFRP material shows that the maximum stresses are within allowable material strength. From the trials, it can be accomplished that, with proper design parameters, CFRP can take the design load similar to that of steel & other alloys