## Nonlinear Optimization Applications Using the GAMS TechnologyHere is a collection of nonlinear optimization applications from the real world, expressed in the General Algebraic Modeling System (GAMS). The concepts are presented so that the reader can quickly modify and update them to represent real-world situations. |

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### Contents

1 | |

9 | |

Some Mathematical Algorithms and Problems in GAMS Technology | 25 |

Nonlinear Systems of Equations | 48 |

Applications of Mechanical Engineering | 67 |

Applications in Electrical Engineering | 137 |

Applications in Chemical Engineering | 161 |

Heat Transfer and Fluid Dynamics | 223 |

Water Management in River Systems | 259 |

Robust Stability Analysis | 273 |

Optimal Control | 287 |

Conclusions | 323 |

References | 325 |

332 | |

336 | |

Economic Development | 246 |

### Other editions - View all

Nonlinear Optimization Applications Using the GAMS Technology Neculai Andrei No preview available - 2013 |

Nonlinear Optimization Applications Using the GAMS Technology Neculai Andrei No preview available - 2016 |

Nonlinear Optimization Applications Using the GAMS Technology Neculai Andrei No preview available - 2013 |

### Common terms and phrases

Algebraic Modeling System algebraically oriented languages algebraically oriented modeling Algorithm iter Andrei application is given application is presented Applications 81 boundary conditions computed conopt knitro minos consider constraints continued ð Þ declarative discretization domain dynamic Evolution of uðtÞ expression of application Floudas flow formulation GAMS expression GAMS model GAMS representation GAMS Technology given by CONOPT given in Fig given in Table heat exchanger initial point isobutane iter Time vfo kgmol/h KNITRO MINOS SNOPT linear programming loop mathematical model matrix maximal Media New York minimize MINOS MINOS and SNOPT n-butane nodes Nonlinear Optimization Applications nonlinear programming objective function optimal control Optimal Design optimization models optimization problems output parameters performances of CONOPT presented in Fig presents the performances propane reactor represent reservoir simple bounds SNOPT solving Springer Optimization Springer Science+Business Media temperature field values vfo CONOPT vfo variables xÃ 2 ¼