Optimal Heating of an Indoor Swimming Pool
Wolfmayr, M. (2020). Optimal Heating of an Indoor Swimming Pool. In E. Lindner, A. Micheletti, & C. Nunes (Eds.), Mathematical Modelling in Real Life Problems : Case Studies from ECMI-Modelling Weeks (pp. 87-101). Springer. Mathematics in Industry, 33. https://doi.org/10.1007/978-3-030-50388-8_7
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Mathematics in IndustryAuthors
Date
2020Copyright
© 2020 Springer
This work presents the derivation of a model for the heating process of the air of a glass dome, where an indoor swimming pool is located in the bottom of the dome. The problem can be reduced from a three dimensional to a two dimensional one. The main goal is the formulation of a proper optimization problem for computing the optimal heating of the air after a given time. For that, the model of the heating process as a partial differential equation is formulated as well as the optimization problem subject to the time-dependent partial differential equation. This yields the optimal heating of the air under the glass dome such that the desired temperature distribution is attained after a given time. The discrete formulation of the optimization problem and a proper numerical method for it, the projected gradient method, are discussed. Finally, numerical experiments are presented which show the practical performance of the optimal control problem and its numerical solution method discussed.
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SpringerParent publication ISBN
978-3-030-50387-1Is part of publication
Mathematical Modelling in Real Life Problems : Case Studies from ECMI-Modelling WeeksISSN Search the Publication Forum
1612-3956Keywords
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https://converis.jyu.fi/converis/portal/detail/Publication/47420055
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Research Council of FinlandFunding program(s)
Academy Project, AoFAdditional information about funding
I gratefully acknowledge the financial support by the Academy of Finland under the grant 295897.License
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