pervect said:What is the formula for the stresses in a spherical pressure vessel? Specifically, one that has a higher inside pressure than an outside pressure. I'd expect the material to be in tension, but I don't know how to calculate the magnitude.
A pressure vessel is a container designed to hold pressurized fluids or gases. They are used in a variety of industries, such as oil and gas, chemical processing, and power generation. Examples of pressure vessels include boilers, tanks, and pipes.
The purpose of calculating stresses for spherical pressure vessels is to ensure that the vessel can withstand the internal pressure without experiencing structural failure. This is important for the safety and integrity of the vessel and the materials it contains.
Stresses are typically calculated using the formula: σ = PD / 4t, where σ is the stress, P is the internal pressure, D is the diameter of the vessel, and t is the thickness of the vessel wall. This formula takes into account the hoop stress, which is the stress that occurs in the circumferential direction, and the longitudinal stress, which occurs in the axial direction.
Some of the factors that can affect stress levels in spherical pressure vessels include the internal pressure, vessel diameter, wall thickness, material properties, and operating temperature. Changes in any of these factors can impact the overall stress levels and must be carefully considered during the design and calculation process.
Yes, there are several safety standards and regulations that govern the design and calculation of stresses in pressure vessels, including the ASME Boiler and Pressure Vessel Code, the European Pressure Equipment Directive, and various national standards. These standards outline specific requirements and guidelines for ensuring the safety and integrity of pressure vessels.