Technique for Precise Measurement of Large-Scale Silos and Tanks
Publication: Journal of Surveying Engineering
Volume 122, Issue 1
Abstract
Geometric imperfections in thin-shell structures such as silos and tanks need to be measured to assess the buckling strength of the structures, and to develop new structure design criteria. A number of difficulties are associated with the task of imperfection measurements in such structures. This paper describes a new technique that uses conventional survey instrumentation as well as a specifically designed surface profile measurement apparatus. The profile data and survey observations are combined in a common least-squares adjustment model. The measured silo-wall imperfections are analyzed using a double Fourier series to determine dominant imperfection modes. The new silo and tank measurement technique offers many advantages over existing methods and has been successfully employed for the measurement of three large grain silos. Results from the measurement test are given as an example.
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References
1.
Arbocz, J., and Williams, J. G.(1977). “Imperfection surveys on a 10-ft diameter shell structure.”AIAA J., 15(7), 949–956.
2.
Bornscheuer, F. W., and Hafner, L. (1983). “The influence of an imperfect circumferential weld on the buckling strength of axially loaded circular cylindrical shells, prelim. report.”Proc., 3rd Int. Colloquium on the Stability of Metal Struct., 407–414.
3.
Buckling of steel shells: European recommendations, 4th Ed. (1988). Eur. Convention for Constructional Steel (ECCS), Brussels, Belgium.
4.
Coleman, R., and Ding, X. (1993). “Combined adjustment of geodetic and non-geodetic data: applications in high-precision engineering surveying.”Australian J. Geodetic Photogram. Surv. No. 59, (Dec.), 19–37.
5.
Ding, X. (1992). “Precise engineering surveying: application to the measurement of large scale steel silos,” PhD thesis, School of Civ. and Min. Engrg., Univ. of Sydney, Sydney, Australia.
6.
Ding, X., Coleman, R., and Rotter, J. M.(1995). “Surface profiling system for measurement of engineering structures.”J. Surv. Engrg., 122(1), 3–13.
7.
Ethrog, U. (1986). “Measuring the deformations of storage tanks.”Photogrammetria, Vol. 40, 299–310.
8.
Fischer, E. (1989). “Zur bestimmung von kreisdeformationen.”Vermessungstechnik, Vol. 37, Heft 3, 89–91 (in German).
9.
Moss, M. (1990). “Light measurement—for more accurate tank calibration.”Pet. Rev., (Apr.), 174–178.
10.
Papo, H., and Shmutter, B. (1978). “Tank calibration by stereophotogrammetry.”Photogrammetria, Vol. 34, 101–109.
11.
Sebeck, R. W. L. (1981). “Imperfection surveys and data reduction of ARIANE interstages I/II and II/III,” Ir. thesis, Dept. of Aerosp. Engrg., Delft Univ. of Technol., Delft, The Netherlands.
12.
Shmutter, B., and Ethrog, U. (1971). “Calibration of storage tanks.”Photogrammetric Engrg., Vol. 37, 261–266.
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Copyright © 1996 American Society of Civil Engineers.
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Published online: Feb 1, 1996
Published in print: Feb 1996
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