OPTIMUM CROSS SECTION DESIGN OF BLOCKWORK GRAVITY QUAYWALLS USING SQP METHOD

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AMINI MAZRAENOU M.; SHAFIEIFAR M.; NIKOUDEL M.R.

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Journal: JOURNAL OF TRANSPORTATION RESEARCH Year:2009 | Volume:6 | Issue:3 (20) Page(s): 205-218

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Title

OPTIMUM CROSS SECTION DESIGN OF BLOCKWORK GRAVITY QUAYWALLS USING SQP METHOD

Author(s)

AMINI MAZRAENOU M. | SHAFIEIFAR M. | NIKOUDEL M.R. | Issue Writer Certificate

Keywords

OPTIMIZATIONQ3

BLOCKWORKQ3

SEQUENTIAL QUADRATIC PROGRAMMING (SQP)Q3

QUAYWALLSQ3

Abstract

Gravity structures are used for waterfront QUAYWALLS where the seabed soil condition is appropriate. Some gravity walls are built behind a cofferdam in the dry but most walls are constructed in water by a method used only in maritime works, in which large pre-cast units are lifted or floated into position and installed on a prepared bed under water. It is usual to use rubble or a free-draining granular fill immediately behind a quay wall so that the effects of tidal lag are minimized and earth pressure is reduced.Gravity quay walls can be classified into different types such as caissons, L-shaped blocks, rectangular concrete blocks, cellular concrete blocks and cast in-place concrete. Optimum design of BLOCKWORK gravity type QUAYWALLS with precast concrete blocks are the object of the present investigation. The advantages of these QUAYWALLS are: simple construction technology, preferred costs and satisfactory durability.The external and environmental loads acting on these type structures are Surcharge, Deadweight of the wall, Earth pressure, Residual water pressure, Buoyancy, Seismic forces, Dynamic water pressure during an earthquake and Tractive forces of vessels. The principal modes for failure of this gravity structure are: sliding, overturning, deep slip and foundation failure. Therefore in the stability calculations the following items should be examined in general: Settlement, circular slip, bearing capacity of the foundation, sliding and overturning at all horizontal surfaces between blocks.To study the behavior of a quay wall and to check the stability against probable different failure modes, a computer program has been developed. This program can easily consider the effects of different parameters such as section geometry of quaywall, material property and loading condition in design.In common designs, designers often select an accepted sketch with their experiences, and cannot review different sketches and present the best one. Sometimes the final drawing may be uneconomical and also the transport and placing of blocks may be very difficult and sometimes impossible. Therefore, adopting an OPTIMIZATION procedure for design of these structures is required.In this paper, a procedure for OPTIMIZATION of cross section of a BLOCKWORK gravity type quaywall has been introduced and a numerical program for this procedure has been developed. After reviewing design and construction considerations for such QUAYWALLS, available methods for optimum design of these structures are discussed and objective function, constrains, design variables are considered. The main constrains of the OPTIMIZATION problem in the present study is the safety factor in various mode of failures. As the relation between safety factor and design variables is unknown, therefore, a proper method should first be used for approximating the objective function and constraints, according to design variables. Then, an efficient method should be selected for formulation of mathematical OPTIMIZATION of the objective function under existing constraints. For this purpose, the OPTIMIZATION of the cross section is accomplished using Sequential Quadratic Programming (SQP) method in the present work.Results indicate that the cross section of a BLOCKWORK quay wall has an important role on stability of the structure and one can reduce costs of such structures by optimizing the cross section. Finally, some recommendations for optimum design of this type of quay wall are presented.

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APA: Copy

AMINI MAZRAENOU, M., SHAFIEIFAR, M., & NIKOUDEL, M.R.. (2009). OPTIMUM CROSS SECTION DESIGN OF BLOCKWORK GRAVITY QUAYWALLS USING SQP METHOD. JOURNAL OF TRANSPORTATION RESEARCH, 6(3 (20)), 205-218. SID. https://sid.ir/paper/83758/en

Vancouver: Copy

AMINI MAZRAENOU M., SHAFIEIFAR M., NIKOUDEL M.R.. OPTIMUM CROSS SECTION DESIGN OF BLOCKWORK GRAVITY QUAYWALLS USING SQP METHOD. JOURNAL OF TRANSPORTATION RESEARCH[Internet]. 2009;6(3 (20)):205-218. Available from: https://sid.ir/paper/83758/en

IEEE: Copy

M. AMINI MAZRAENOU, M. SHAFIEIFAR, and M.R. NIKOUDEL, “OPTIMUM CROSS SECTION DESIGN OF BLOCKWORK GRAVITY QUAYWALLS USING SQP METHOD,” JOURNAL OF TRANSPORTATION RESEARCH, vol. 6, no. 3 (20), pp. 205–218, 2009, [Online]. Available: https://sid.ir/paper/83758/en

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