##About industrial piping Design a simple and hypothetical piping system that connects equipment (consumers) and that has at least two branches with different diameters from the main branch. The system must have: A brief description of the system, with the types of energy sources (reservoir, tanks, compressor, boiler, pump...) and which consumers (heat exchangers, tanks, vessels, machines...); Indicate the proper location for the installation of the RELIEF VALVES, DRAINS, VENTS and FLOW VALVES; Indicate the TAGs of the equipment, valves, pipes and devices installed; Define basic operating conditions (temperature, minimum and maximum operating pressure, fluid); Define the basic physical conditions (pipe diameter, material specification); Set the maximum design pressure, to be considered as the MAOP (old and hot). Based on the developed piping system Estimate the corrosion allowance for the system (20 years); Calculate the minimum thickness for the pipes; Inform what the SCHEDULES will be based on the nominal thickness (commercial adopted); Define the pressure class adopted for the pipe and other components; Clacular the MAOPs (new and cold); Set the opening pressure of the installed safety valves (PSV), based on the operating pressures and MAOP. Again, based on the piping system chosen, estimate where the possible points of displacement would occur due to thermal expansion, contractions... Present possible fixes for this problem, such as where to install expansion joints, spring joints, indicating points and types of anchors and supports
##About industrial piping Design a simple and hypothetical piping system that connects equipment (consumers) and that has at least two branches with different diameters from the main branch. The system must have: A brief description of the system, with the types of energy sources (reservoir, tanks, compressor, boiler, pump...) and which consumers (heat exchangers, tanks, vessels, machines...); Indicate the proper location for the installation of the RELIEF VALVES, DRAINS, VENTS and FLOW VALVES; Indicate the TAGs of the equipment, valves, pipes and devices installed; Define basic operating conditions (temperature, minimum and maximum operating pressure, fluid); Define the basic physical conditions (pipe diameter, material specification); Set the maximum design pressure, to be considered as the MAOP (old and hot). Based on the developed piping system Estimate the corrosion allowance for the system (20 years); Calculate the minimum thickness for the pipes; Inform what the SCHEDULES will be based on the nominal thickness (commercial adopted); Define the pressure class adopted for the pipe and other components; Clacular the MAOPs (new and cold); Set the opening pressure of the installed safety valves (PSV), based on the operating pressures and MAOP. Again, based on the piping system chosen, estimate where the possible points of displacement would occur due to thermal expansion, contractions... Present possible fixes for this problem, such as where to install expansion joints, spring joints, indicating points and types of anchors and supports
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter8: Natural Convection
Section: Chapter Questions
Problem 8.29P
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##About industrial piping
Design a simple and hypothetical piping system that connects equipment (consumers) and that has at least two branches with different diameters from the main branch. The system must have:
- A brief description of the system, with the types of energy sources (reservoir, tanks, compressor, boiler, pump...) and which consumers (heat exchangers, tanks, vessels, machines...);
- Indicate the proper location for the installation of the RELIEF VALVES, DRAINS, VENTS and FLOW VALVES;
- Indicate the TAGs of the equipment, valves, pipes and devices installed;
- Define basic operating conditions (temperature, minimum and maximum operating pressure, fluid);
- Define the basic physical conditions (pipe diameter, material specification);
- Set the maximum design pressure, to be considered as the MAOP (old and hot).
Based on the developed piping system
- Estimate the corrosion allowance for the system (20 years);
- Calculate the minimum thickness for the pipes;
- Inform what the SCHEDULES will be based on the nominal thickness (commercial adopted);
- Define the pressure class adopted for the pipe and other components;
- Clacular the MAOPs (new and cold);
- Set the opening pressure of the installed safety valves (PSV), based on the operating pressures and MAOP.
Again, based on the piping system chosen, estimate where the possible points of displacement would occur due to thermal expansion, contractions... Present possible fixes for this problem, such as where to install expansion joints, spring joints, indicating points and types of anchors and supports
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