Solving differential-algebraic equation systems by means of index reduction methodology

Kim Sørensen; Niels Houbak; Thomas Joseph Condra

Solving differential-algebraic equation systems by means of index reduction methodology

Kim Sørensen, Niels Houbak, Thomas Joseph Condra

Research output: Contribution to journal › Journal article › Communication

Abstract

With the overall goal of optimizing the design and operation of steam boilers, a model for optimizing the dynamic performance has been developed. The model has been developed as three sub-models that are integrated into an overall model for the complete boiler. Each of the sub-models consist of a number of differential equations and algebraic equations - a so called DAE system. Two of the DAE systems are of index 1 and they can be solved by means of standard DAE-solvers. For the actual application, the equation systems are integrated by means of MATLAB’s solver: ode23t, that solves moderately stiff ODE’s and index 1 DAE’s by means of the trapezoidal rule. The last sub-model that models the boilers steam drum consist of two differential and three algebraic equations. The index of this model is greater than 1, which means that ode23t cannot integrate this equation system. In this paper, it is shown how the equation system, by means of an index reduction methodology, can be reduced to a system of Ordinary- Differential-Equations - ODE’s.

Original language	English
Journal	Simulation (San Diego, Calif.)
Volume	14
Issue number	3
Pages (from-to)	224-236
ISSN	1569-190X
Publication status	Published - 2006

Keywords

Integration of Energy system
DAE
Index of DAEs
Index reduction of DAE’s and MATLAB

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title = "Solving differential-algebraic equation systems by means of index reduction methodology",

abstract = "With the overall goal of optimizing the design and operation of steam boilers, a model for optimizing the dynamic performance has been developed. The model has been developed as three sub-models that are integrated into an overall model for the complete boiler. Each of the sub-models consist of a number of differential equations and algebraic equations - a so called DAE system. Two of the DAE systems are of index 1 and they can be solved by means of standard DAE-solvers. For the actual application, the equation systems are integrated by means of MATLAB{\textquoteright}s solver: ode23t, that solves moderately stiff ODE{\textquoteright}s and index 1 DAE{\textquoteright}s by means of the trapezoidal rule. The last sub-model that models the boilers steam drum consist of two differential and three algebraic equations. The index of this model is greater than 1, which means that ode23t cannot integrate this equation system. In this paper, it is shown how the equation system, by means of an index reduction methodology, can be reduced to a system of Ordinary- Differential-Equations - ODE{\textquoteright}s.",

keywords = "Integration of Energy system, DAE, Index of DAEs, Index reduction of DAE{\textquoteright}s and MATLAB",

author = "Kim S{\o}rensen and Niels Houbak and Condra, {Thomas Joseph}",

year = "2006",

language = "English",

volume = "14",

pages = "224--236",

journal = "Simulation (San Diego, Calif.)",

issn = "1569-190X",

publisher = "Elsevier",

number = "3",

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TY - JOUR

T1 - Solving differential-algebraic equation systems by means of index reduction methodology

AU - Sørensen, Kim

AU - Houbak, Niels

AU - Condra, Thomas Joseph

PY - 2006

Y1 - 2006

N2 - With the overall goal of optimizing the design and operation of steam boilers, a model for optimizing the dynamic performance has been developed. The model has been developed as three sub-models that are integrated into an overall model for the complete boiler. Each of the sub-models consist of a number of differential equations and algebraic equations - a so called DAE system. Two of the DAE systems are of index 1 and they can be solved by means of standard DAE-solvers. For the actual application, the equation systems are integrated by means of MATLAB’s solver: ode23t, that solves moderately stiff ODE’s and index 1 DAE’s by means of the trapezoidal rule. The last sub-model that models the boilers steam drum consist of two differential and three algebraic equations. The index of this model is greater than 1, which means that ode23t cannot integrate this equation system. In this paper, it is shown how the equation system, by means of an index reduction methodology, can be reduced to a system of Ordinary- Differential-Equations - ODE’s.

AB - With the overall goal of optimizing the design and operation of steam boilers, a model for optimizing the dynamic performance has been developed. The model has been developed as three sub-models that are integrated into an overall model for the complete boiler. Each of the sub-models consist of a number of differential equations and algebraic equations - a so called DAE system. Two of the DAE systems are of index 1 and they can be solved by means of standard DAE-solvers. For the actual application, the equation systems are integrated by means of MATLAB’s solver: ode23t, that solves moderately stiff ODE’s and index 1 DAE’s by means of the trapezoidal rule. The last sub-model that models the boilers steam drum consist of two differential and three algebraic equations. The index of this model is greater than 1, which means that ode23t cannot integrate this equation system. In this paper, it is shown how the equation system, by means of an index reduction methodology, can be reduced to a system of Ordinary- Differential-Equations - ODE’s.

KW - Integration of Energy system

KW - DAE

KW - Index of DAEs

KW - Index reduction of DAE’s and MATLAB

M3 - Journal article

SN - 1569-190X

VL - 14

SP - 224

EP - 236

JO - Simulation (San Diego, Calif.)

JF - Simulation (San Diego, Calif.)

IS - 3

ER -

Solving differential-algebraic equation systems by means of index reduction methodology

Abstract

Keywords

AUB Link

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