Optimal Design of a Stable Trapezoidal Channel Section Using Hybrid Optimization Techniques |
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Authors: | Rajib Kumar Bhattacharjya Mysore G. Satish |
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Affiliation: | 1Assistant Professor, Dept. of Civil and Resource Engineering, National Institute of Technology Silchar, Silchar 788 010 (Assam), India. E-mail: rajibkbc@gmail.com 2Professor, Dept. of Civil Engineering, Dalhousie Univ., Halifax NS, Canada B3J 2X4. E-mail: mysore.satish@dal.ca
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Abstract: | A cost effective channel section for a specified flow rate, roughness coefficients, longitudinal slope, and various cost parameters can be determined using an optimization technique. However, the derived optimal channel section may not be feasible for construction because of in situ conditions. The local soil conditions may not support the optimal side slope of the channel and if constructed, the slope may fail. It is therefore necessary to also incorporate the criteria for side slope stability in designing an optimal open channel section. In this paper, a new methodology has been developed to design a stable and optimal channel section using hybrid optimization techniques. A genetic algorithm based optimization model is developed initially to determine the factor of safety of a channel slope for given soil parameters. This optimization model is then externally linked with a separate sequential quadratic programming based optimization model to evaluate the parameters of the stable and optimal channel section. Solution for various example problems incorporating different soil parameters are illustrated to demonstrate the applicability of the developed methodology. |
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Keywords: | Open channel Cost effective Optimization Genetic algorithms Hybrid optimization Stable Section |
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