This paper presents an environmental dispatch algorithm in a hydrothermal system and addresses the problem of minimization of emissions of SO2 and NO x caused by the operation of thermal plants. Several models have been used to represent the emissions function. In this paper, we first construct a quadratic model for both emissions: E(P)=α+β P+γ P 2, where P is the power generated and the parameters were computed via the least-square criteria from several tests at thermal plants. We shall see that the problem consists in the minimization of a functional F(z) within the set of piecewise C 1 functions that satisfy boundary conditions and non-holonomic inequality constraints. An optimal control technique is applied and Pontryagin's theorem is employed. The algorithm proposed is easily implemented using the Mathematica Package and is applied to a sample system to illustrate the results obtained. © 2006 Springer Science+Business Media, Inc.
CITATION STYLE
Bayón, L., Grau, J. M., Ruiz, M. M., & Suárez, P. M. (2006). Optimization of SO2 and NOx emissions in thermal plants. Journal of Mathematical Chemistry, 40(1), 29–41. https://doi.org/10.1007/s10910-006-9127-4
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