Geometric Modeling for Control of Thermodynamic Systems

Arjan van der Schaft

doi:10.3390/e25040577

Geometric Modeling for Control of Thermodynamic Systems

Arjan van der Schaft^*

^*Corresponding author for this work

Bernoulli Institute

Research output: Contribution to journal › Article › Academic › peer-review

5 Citations (Scopus)

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Abstract

This paper discusses the way that energy and entropy can be regarded as storage functions with respect to supply rates corresponding to the power and thermal ports of the thermodynamic system. Then, this research demonstrates how the factorization of the irreversible entropy production leads to quasi-Hamiltonian formulations, and how this can be used for stability analysis. The Liouville geometry approach to contact geometry is summarized, and how this leads to the definition of port-thermodynamic systems is discussed. This notion is utilized for control by interconnection of thermodynamic systems.

Original language	English
Article number	577
Number of pages	22
Journal	Entropy
Volume	25
Issue number	4
DOIs	https://doi.org/10.3390/e25040577
Publication status	Published - Apr-2023

Keywords

control
dissipativity theory
homogeneous Hamiltonian dynamics
interconnection
Liouville geometry
macroscopic thermodynamics

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10.3390/e25040577Licence: CC BY

Geometric Modeling for Control of Thermodynamic SystemsFinal publisher's version, 376 KBLicence: CC BY

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abstract = "This paper discusses the way that energy and entropy can be regarded as storage functions with respect to supply rates corresponding to the power and thermal ports of the thermodynamic system. Then, this research demonstrates how the factorization of the irreversible entropy production leads to quasi-Hamiltonian formulations, and how this can be used for stability analysis. The Liouville geometry approach to contact geometry is summarized, and how this leads to the definition of port-thermodynamic systems is discussed. This notion is utilized for control by interconnection of thermodynamic systems.",

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AB - This paper discusses the way that energy and entropy can be regarded as storage functions with respect to supply rates corresponding to the power and thermal ports of the thermodynamic system. Then, this research demonstrates how the factorization of the irreversible entropy production leads to quasi-Hamiltonian formulations, and how this can be used for stability analysis. The Liouville geometry approach to contact geometry is summarized, and how this leads to the definition of port-thermodynamic systems is discussed. This notion is utilized for control by interconnection of thermodynamic systems.

KW - control

KW - dissipativity theory

KW - homogeneous Hamiltonian dynamics

KW - interconnection

KW - Liouville geometry

KW - macroscopic thermodynamics

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DO - 10.3390/e25040577

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SN - 1099-4300

VL - 25

JO - Entropy

JF - Entropy

IS - 4

M1 - 577

ER -

Geometric Modeling for Control of Thermodynamic Systems

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