Showing total 2 results

1. Optimization of the size of a solar thermal electricity plant by means of genetic algorithms

Author

Cabello, J.M., Cejudo, J.M., Luque, M., Ruiz, F., Deb, K., and Tewari, R.

Subjects

*SOLAR power plants, *GENETIC algorithms, *ELECTRICITY, *MATHEMATICAL optimization, *RENEWABLE energy sources, *SOLAR collectors, *HEAT storage, *ELECTRIC power production, *MATHEMATICAL models

Abstract

Abstract: Solar thermal electricity technologies are attractive alternatives to produce electricity by means of a renewable source. One of these technologies is parabolic trough collectors. In Spain, the sale of solar electricity to the national grid is primed. There are three main parameters that affect the behaviour of these plants: area of solar collector field, capacity of thermal storage tanks and power of the auxiliary system. In this paper, a simplified model of the plant is used to optimize the size of its components that produces the maximum yearly profit. The use of traditional methods of optimization is not possible and genetic algorithms have been used. An important feature of the model is that the minimum level of the electricity production of the block of power can be fixed. Once the optimization has been performed, the traditional parameters that characterize the dimension of the plant are analysed (the solar multiple and the capacity factor). For a gross power of 50 MW, the optimum collector area varies between 583,000 m2 and 749,860 m2 with a thermal storage between 6.55 h and 13.46 h respectively. The economic benefit is always higher than 19.30 M€ per year and the cost of the electricity produced is about 18.5 c€/kWh. [Copyright &y& Elsevier]

Published

2011

2. Cost optimization of the design of CHCP (combined heat, cooling and power) systems under legal constraints

Author

Lozano, Miguel A., Ramos, Jose C., and Serra, Luis M.

Subjects

*COGENERATION of electric power & heat, *HEAT storage, *COOLING, *ELECTRIC power systems, *HEAT radiation & absorption, *LINEAR programming, *MATHEMATICAL optimization

Abstract

Abstract: Combined heat, cooling and power (CHCP) systems are interesting for the supply of different energy services in urban districts and in large buildings. CHCP systems utilize a fuel''s energy to a greater extent, because the cogenerated heat can be used for heating in winter as well as for cooling in summer with an absorption refrigerator. The use of thermal energy storage (TES) provides the additional advantage of covering variable thermal demands while the production system operates continuously at nominal conditions. Thus, energy supply systems integrating the technologies of cogeneration, absorption refrigeration and thermal storage can provide substantial benefits from economic, energetic and environmental viewpoints. In this paper an optimization model is developed, using mixed integer linear programming (MILP), to determine the preliminary design of CHCP systems with thermal storage. The objective function to be minimized is the total annual cost. Taking into account the legal constraints imposed on cogeneration systems in Spain, the optimization model is applied to design a system providing energy services for a set of buildings constituted of 5000 apartments located in the city of Zaragoza (Spain). The effect of legal constraints in the design and operation of CHCP systems is highlighted in this study. [Copyright &y& Elsevier]

Published

2010