Abstract
The macro complex of the construction industry is energy intensive. Solutions that enable the supply of this demand while meeting the principles of sustainability are needed. The construction of wind farms has been a strategy employed by many countries to produce clean energy. An increase in the construction of wind farms has also been witnessed in Brazil. This calls for different activities, such as the design and construction of infrastructure. This article focuses on the design of internal medium voltage distribution grids for wind farms. The purpose is to find a radial configuration that connects a set of wind generators to the substation, in an optimum way, minimizing operational and construction costs, reducing loss and therefore contributing to sustainability. In large farms, the project design consists of a large combinatorial optimization problem, given the large number of possible configurations to be deployed. Finding the best solution for the internal grid depends on the criterion adopted for the objectives pursued. This article analyzes the different criteria that can be adopted in the design of the wind farm’s internal grid using a methodology based on genetic algorithm (GA). Its aim is to identify their influence on the solution of the problem and help decision-making by finding the most adequate criterion for the objectives pursued. The results show that the design of the internal grid is sensitive to the criteria adopted for the objective function. In addition, the degree of sensitivity is analyzed, showing that, in some cases, the solutions are not economically attractive and do not contribute to the reduction of losses.
Highlights
The world is facing huge challenges, such as the need to increase the supply of energy, reduce the emission of greenhouse gases, and guarantee production and consumption efficiency
This article analyzes the different criteria that can be adopted in the design of the wind farm’s internal grid using a methodology based on genetic algorithm (GA)
Results obtained in Cases 3 and 7 of this paper show that when objective function is driven just by electric losses throughout plant life cycle the initial investment required is very high, about 4.5 times greater than the objective functions driven by Capex, Opex and optimal cable
Summary
The world is facing huge challenges, such as the need to increase the supply of energy, reduce the emission of greenhouse gases, and guarantee production and consumption efficiency. The evolution of wind energy during the last years in Brazil is highly significant. It has moved from 237 GWh in 2006 to 12,210 GWh in 2014 [1]. The continuous reduction of investment costs for its construction may reduce input costs for building, which has a highly energy-dependent production process. It may reduce costs for cement and aluminum industries, whose main input is energy. This would benefit the productive chain of the construction industry macro complex, leading to higher competitiveness and sustainability
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