Stress distribution of high pressure vessel wall is not even. How to appropriately distribute stresses on high pressure vessel wall is our goal. It can be realized in flat steel ribbon wound pressure vessel (FSRWPV). The paper shows that stress can be distributed in someway on FSRWPV wall by controlling prestress and winding angle of its flat steel ribbon. An example is given at the end. [S0094-9930(00)00902-1]
Issue Section:
Technical Papers
1.
Zhu, G., 1995, “Chinese Steel Ribbon Wound Pressure Vessel,” Machinery Industry Publishing House, Beijing, P. R. China.
2.
Urbaniec, K., 1988, Optimal Design of Process Equipment, Wiley, New York, NY.
3.
Zheng, C., 1995, “Analysis of Dispersed Structure of Pressure Vessel,” Ph.D. thesis, Zhejiang University, Zhejiang, P.R. China.
4.
Zheng
, C.
, 1997
, “Optimal Design of FSRWPV
,” Petrochem. Mach.
, 1
, pp. 14
–17
.5.
Huang
, P. S.
, 1993
, “Prestress Analysis of Flat Steel Ribbon Wound Vessel
,” ASME J. Pressure Vessel Technol.
, 115
, pp. 305
–308
.6.
ASME Boiler and Pressure Vessel Code, Section VII, Division 1 and 2, 1996, 1997, Code Case 2229, 2269, “Design of Layered Vessels Using Flat Steel Ribbon Wound Cylindrical Shells.”
7.
Yu
, Zh.
, 1999
, “Strengthened Action of Frictional Force of FSRWPV
,” Modern Mach.
, 2
, pp. 34
–37
.8.
Huang
, P. S.
, 1992
, “Stress Analysis of Pressure Vessel with Wound Flat Steel Ribbon
,” ASME J. Pressure Vessel Technol.
, 114
, pp. 256
–259
.9.
Zhu, G., and Wu, H. H., 1993, “Engineering Design Specification Proposal of FSRWPV,” ASME Proceedings, Pressure Vessel and Piping Conference, 265, pp. 41–47.
10.
Zhu, G., and Huang, Z., 1994, “Outstanding Developmental Advantages of Unique Ribbon Winding Techniques for Future Pressure Vessel Technology,” ASME Pressure Vessel Piping Conf., 266, pp. 112–117.
Copyright © 2000
by ASME
You do not currently have access to this content.