Abstract
This research examines the influence of cooling spout positioning on pressure container blueprints, particularly emphasizing strain features. Sprayers are crucial for ingress and egress objectives in force containers, and although maximum positioning upholds container uniformity, operation necessities occasionally necessitate circumferential positioning, resulting in uniformity disturbance. The Finite Element Method (FEM) is employed to examine the distribution of strain, while pressure container prototypes fluctuate in the number of spouts and inclinations. By means of an all-inclusive examination, it was discovered that the strain measurements for every circumstance were under the security limit of 50 megapascals. Remarkably, the arrangement with four spouts at 90-degree intervals displayed negligible distortion and sustained strain levels within satisfactory boundaries, imparting valuable perceptions for enhancing the pressure container blueprint with cooling spouts on the circumference, guaranteeing structural soundness and security.
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