Design Optimization of Tapered Steel Wind Turbine Towers by QPSO Algorithm
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International Journal of Steel Structures https://doi.org/10.1007/s13296-020-00389-3
Design Optimization of Tapered Steel Wind Turbine Towers by QPSO Algorithm Augusto Furlanetto1 · Herbert Martins Gomes1 · Felipe Schaedler de Almeida2 Received: 21 June 2019 / Accepted: 29 July 2020 © Korean Society of Steel Construction 2020
Abstract Wind energy has become one of the most widely used alternative energy sources in recent years due to its clean and renewable character. In the context of increasing demand for new facilities, the cost of a wind turbine is a key factor for the success of new wind farms. The reduction of the amount of material used to build the wind turbine tower is one way to reduce the project cost. This work presents a methodology for the minimization of the weight of the tubular steel towers of wind turbines using a metaheuristic optimization algorithm. The diameters of the cross-section at the base and the top of the conical tower are considered as continuous design variables. Due to constructional aspects, the tower is manufactured in many segments, which wall thicknesses are taken as discrete design variables. Besides the dead load, the design considers the action of wind load, which is taken as an equivalent static force determined using the Brazilian standard NBR6123. The design constraints considered in this work are the maximum admissible displacements at the top of the tower under service condition, the tower’s lowest natural frequency and the safety criteria for steel structures defined by the Brazilian standard NBR8800. The mixed-integer nonlinear optimization problem formulated for the structural design in this work is solved using the quantum particle swarm optimization algorithm (QPSO). On average, the QPSO solution was 12% lighter than designs based on other well-established algorithms in a comparative study. Nonetheless, no significant improvement was observed concerning the standard particle swarm optimization. Keywords Quantum particle swarm algorithm · Wind turbine tower · Wind loading · Structural optimization
1 Introduction The generation of electricity based on wind power has increased over the last decades and continues to grow as the energy sources are becoming scarce and due to undesired harm imposed by fossil fuels. The initial cost is a key aspect of the economic success of new farms in the current * Felipe Schaedler de Almeida [email protected] Augusto Furlanetto [email protected] Herbert Martins Gomes [email protected] 1
Department of Mechanical Engineering, Federal University of Rio Grande Do Sul, Av. Sarmento Leite 425, Porto Alegre, RS 90050‑170, Brazil
Department of Civil Engineering, Federal University of Rio Grande Do Sul, Av Osvaldo Aranha 99, Porto Alegre, RS 90035‑190, Brazil
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competitive market of windfarms. The tubular tower is one of the parts of the wind turbine that may be optimized to obtain cost reduction. Design and optimization of wind turbine towers (WTT) have been widely studied since the tower can cost about 20–30% o
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