CME353 Syllabus - Design Of Pressure Vessels - 2021 Regulation Anna University
CME353 Syllabus - Design Of Pressure Vessels - 2021 Regulation Anna University
CME353 |
DESIGN OF PRESSURE VESSELS |
L T P C |
|---|
3003
COURSE OBJECTIVES:
1 To introduce the Mathematical knowledge to design pressure vessels and piping
2 To learn the ability to carry of stress analysis in pressure vessels and piping
3 To study the design of vessels and theory of reinforcement.
4 To study buckling and fracture analysis in vessels.
5 To learn piping layout and flow diagram.
2 To learn the ability to carry of stress analysis in pressure vessels and piping
3 To study the design of vessels and theory of reinforcement.
4 To study buckling and fracture analysis in vessels.
5 To learn piping layout and flow diagram.
UNIT I |
INTRODUCTION |
9 |
|---|
Methods for determining stresses – Terminology and Ligament Efficiency – Applications
UNIT II |
STRESSES IN PRESSURE VESSELS |
9 |
|---|
Introduction – Stresses in a circular ring, cylinder –Dilation of pressure vessels, Membrane stress Analysis of Vessel – Cylindrical, spherical and, conical heads – Thermal Stresses – Discontinuity stresses in pressure vessels.
UNIT III |
DESIGN OF VESSELS |
9 |
|---|
Design of Tall cylindrical self-supporting process columns – Supports for short vertical vessels – Stress concentration at a variable Thickness transition section in a cylindrical vessel, about a circular hole, elliptical openings. Theory of Reinforcement – Pressure Vessel Design.
UNIT IV |
BUCKLING AND FRACTURE ANALYSIS IN VESSELS |
9 |
|---|
Buckling phenomenon – Elastic Buckling of circular ring and cylinders under external pressure – collapse of thick walled cylinders or tubes under external pressure – Effect of supports on Elastic Buckling of Cylinders – Buckling under combined External pressure and axial loading.
UNIT V |
PIPING |
9 |
|---|
Introduction – Flow diagram – piping layout and piping stress Analysis.
TOTAL: 45 PERIODS
OUTCOMES:
1. Explain Methods for determining stresses Terminology and Ligament Efficiency, Applications
2. Analyse stress in pressure vessels
3. Design and analysis of pressure vessels.
4. Analysis of buckling and fracture analysis in vessels
5. Design and analysis piping layout and piping
2. Analyse stress in pressure vessels
3. Design and analysis of pressure vessels.
4. Analysis of buckling and fracture analysis in vessels
5. Design and analysis piping layout and piping
TEXT BOOKS:
1. John F. Harvey, "Theory and Design of Pressure Vessels", CBS Publishers and Distributors,1987.
2. Theory And Design Of Pressure Vessels (Pb 2001) by HARVEY J.F. | 1 January 2001
2. Theory And Design Of Pressure Vessels (Pb 2001) by HARVEY J.F. | 1 January 2001
REFERENCES:
1. Henry H. Bedner, “Pressure Vessels, Design Hand Book", CBS publishers and Distributors,1987.
2. Stanley, M. Wales, “Chemical process equipment, selection and Design". Buterworths series in Chemical Engineering, 1988.
3. William. J., Bees, “Approximate Methods in the Design and Analysis of Pressure Vessels and Piping”, Pre ASME Pressure Vessels and Piping Conference, 1997.
4. Sam Kannapan, “Introduction to Pipe Stress Analysis”. John Wiley and Sons, 1985.
5. Theory and design of Pressure Vessels (Pb 2001)by HARVEY J.F. | 1 January 2001
2. Stanley, M. Wales, “Chemical process equipment, selection and Design". Buterworths series in Chemical Engineering, 1988.
3. William. J., Bees, “Approximate Methods in the Design and Analysis of Pressure Vessels and Piping”, Pre ASME Pressure Vessels and Piping Conference, 1997.
4. Sam Kannapan, “Introduction to Pipe Stress Analysis”. John Wiley and Sons, 1985.
5. Theory and design of Pressure Vessels (Pb 2001)by HARVEY J.F. | 1 January 2001
Comments
Post a Comment