Truncation Based Reduction of Interconnected Hybrid Power System

V. P. Sharma; Akhilesh Mathur; V. P. Singh; Krishna Murari; Mrityunjay Mishra; Ameena Saad Al-Sumaiti

doi:10.1109/PEDES61459.2024.10961947

Truncation Based Reduction of Interconnected Hybrid Power System

V. P. Sharma, Akhilesh Mathur, V. P. Singh, Krishna Murari, Mrityunjay Mishra, Ameena Saad Al-Sumaiti

Electrical Engineering

Malaviya National Institute of Technology (MNIT) Jaipur

Research output: Contribution to journal › Conference article › peer-review

Abstract

The objective of this paper is implementation of model reduction technique (MRT) to simplify hybrid power system. In this technique, both denominator and numerator polynomials of lower order system are determined by direct truncation technique. By applying direct truncation technique for MRT on hybrid power system, thirteen order transfer function is decreased to sixth, fifth, fourth, third, and second orders. These simplified models are very useful and preserve property of parameters with accuracy. The results of simplified models indicate the effectiveness of the method. The demonstrated diagrams like step, impulse, Bode, and Nyquist plots for higher-order model and its lower order reduced models are shown. The stability, steady state value and other features are similar to original higher-order system.

Original language	British English
Journal	Proceedings of the International Conference on Power Electronics, Drives, and Energy Systems for Industrial Growth, PEDES
Issue number	2024
DOIs	https://doi.org/10.1109/PEDES61459.2024.10961947
State	Published - 2024
Event	11th IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2024 - Mangalore, India Duration: 18 Dec 2024 → 21 Dec 2024

Keywords

Battery-storage system
Conventional sources
Direct truncation technique
Interconnected hybrid power system
Model order reduction
Non conventional sources

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10.1109/PEDES61459.2024.10961947

Cite this

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title = "Truncation Based Reduction of Interconnected Hybrid Power System",

abstract = "The objective of this paper is implementation of model reduction technique (MRT) to simplify hybrid power system. In this technique, both denominator and numerator polynomials of lower order system are determined by direct truncation technique. By applying direct truncation technique for MRT on hybrid power system, thirteen order transfer function is decreased to sixth, fifth, fourth, third, and second orders. These simplified models are very useful and preserve property of parameters with accuracy. The results of simplified models indicate the effectiveness of the method. The demonstrated diagrams like step, impulse, Bode, and Nyquist plots for higher-order model and its lower order reduced models are shown. The stability, steady state value and other features are similar to original higher-order system.",

keywords = "Battery-storage system, Conventional sources, Direct truncation technique, Interconnected hybrid power system, Model order reduction, Non conventional sources",

author = "Sharma, \{V. P.\} and Akhilesh Mathur and Singh, \{V. P.\} and Krishna Murari and Mrityunjay Mishra and Al-Sumaiti, \{Ameena Saad\}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 11th IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2024 ; Conference date: 18-12-2024 Through 21-12-2024",

year = "2024",

doi = "10.1109/PEDES61459.2024.10961947",

language = "British English",

number = "2024",

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TY - JOUR

T1 - Truncation Based Reduction of Interconnected Hybrid Power System

AU - Sharma, V. P.

AU - Mathur, Akhilesh

AU - Singh, V. P.

AU - Murari, Krishna

AU - Mishra, Mrityunjay

AU - Al-Sumaiti, Ameena Saad

PY - 2024

Y1 - 2024

N2 - The objective of this paper is implementation of model reduction technique (MRT) to simplify hybrid power system. In this technique, both denominator and numerator polynomials of lower order system are determined by direct truncation technique. By applying direct truncation technique for MRT on hybrid power system, thirteen order transfer function is decreased to sixth, fifth, fourth, third, and second orders. These simplified models are very useful and preserve property of parameters with accuracy. The results of simplified models indicate the effectiveness of the method. The demonstrated diagrams like step, impulse, Bode, and Nyquist plots for higher-order model and its lower order reduced models are shown. The stability, steady state value and other features are similar to original higher-order system.

AB - The objective of this paper is implementation of model reduction technique (MRT) to simplify hybrid power system. In this technique, both denominator and numerator polynomials of lower order system are determined by direct truncation technique. By applying direct truncation technique for MRT on hybrid power system, thirteen order transfer function is decreased to sixth, fifth, fourth, third, and second orders. These simplified models are very useful and preserve property of parameters with accuracy. The results of simplified models indicate the effectiveness of the method. The demonstrated diagrams like step, impulse, Bode, and Nyquist plots for higher-order model and its lower order reduced models are shown. The stability, steady state value and other features are similar to original higher-order system.

KW - Battery-storage system

KW - Conventional sources

KW - Direct truncation technique

KW - Interconnected hybrid power system

KW - Model order reduction

KW - Non conventional sources

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U2 - 10.1109/PEDES61459.2024.10961947

DO - 10.1109/PEDES61459.2024.10961947

M3 - Conference article

AN - SCOPUS:105006516554

SN - 2836-3841

JO - Proceedings of the International Conference on Power Electronics, Drives, and Energy Systems for Industrial Growth, PEDES

JF - Proceedings of the International Conference on Power Electronics, Drives, and Energy Systems for Industrial Growth, PEDES

IS - 2024

T2 - 11th IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2024

Y2 - 18 December 2024 through 21 December 2024

ER -

Truncation Based Reduction of Interconnected Hybrid Power System

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Keywords

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