Optimization of transformer noise level by reverse calculation using linear programming

Hideaki Tanaka; Daiki Yamashita; Ryuichi Yokoyama

doi:10.1002/tee.20305

Optimization of transformer noise level by reverse calculation using linear programming

Hideaki Tanaka^*, Daiki Yamashita, Ryuichi Yokoyama

^*Corresponding author for this work

Waseda Research Institute for Science and Engineering

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

2 Citations (Scopus)

Abstract

This paper proposes a simple and practical method of determination of optimal acoustic noise levels of transformers to be replaced in an aged substation. The proposed algorithm is based on linear programming using an empirical formula for estimating noise levels at the boundary points around the substation premises. Necessary input parameters are the three dimensions of each transformer and the distance between transformers and each boundary point. Constraints are derived from the empirical noise-level estimation formula and the regulated noise levels at the boundary. An equivalent sum of transformer noise levels is selected as an objective function to be maximized. The proposed method was successfully tested on a model substation.

Original language	English
Pages (from-to)	503-508
Number of pages	6
Journal	IEEJ Transactions on Electrical and Electronic Engineering
Volume	3
Issue number	5
DOIs	https://doi.org/10.1002/tee.20305
Publication status	Published - 2008 Sept

Keywords

Acoustic noise
Aged substation
Empirical noise level estimation formula
Linear programming
Optimal noise level
Regulated noise level
Transformer replacement

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1002/tee.20305

Cite this

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title = "Optimization of transformer noise level by reverse calculation using linear programming",

abstract = "This paper proposes a simple and practical method of determination of optimal acoustic noise levels of transformers to be replaced in an aged substation. The proposed algorithm is based on linear programming using an empirical formula for estimating noise levels at the boundary points around the substation premises. Necessary input parameters are the three dimensions of each transformer and the distance between transformers and each boundary point. Constraints are derived from the empirical noise-level estimation formula and the regulated noise levels at the boundary. An equivalent sum of transformer noise levels is selected as an objective function to be maximized. The proposed method was successfully tested on a model substation.",

keywords = "Acoustic noise, Aged substation, Empirical noise level estimation formula, Linear programming, Optimal noise level, Regulated noise level, Transformer replacement",

author = "Hideaki Tanaka and Daiki Yamashita and Ryuichi Yokoyama",

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T1 - Optimization of transformer noise level by reverse calculation using linear programming

AU - Tanaka, Hideaki

AU - Yamashita, Daiki

AU - Yokoyama, Ryuichi

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N2 - This paper proposes a simple and practical method of determination of optimal acoustic noise levels of transformers to be replaced in an aged substation. The proposed algorithm is based on linear programming using an empirical formula for estimating noise levels at the boundary points around the substation premises. Necessary input parameters are the three dimensions of each transformer and the distance between transformers and each boundary point. Constraints are derived from the empirical noise-level estimation formula and the regulated noise levels at the boundary. An equivalent sum of transformer noise levels is selected as an objective function to be maximized. The proposed method was successfully tested on a model substation.

AB - This paper proposes a simple and practical method of determination of optimal acoustic noise levels of transformers to be replaced in an aged substation. The proposed algorithm is based on linear programming using an empirical formula for estimating noise levels at the boundary points around the substation premises. Necessary input parameters are the three dimensions of each transformer and the distance between transformers and each boundary point. Constraints are derived from the empirical noise-level estimation formula and the regulated noise levels at the boundary. An equivalent sum of transformer noise levels is selected as an objective function to be maximized. The proposed method was successfully tested on a model substation.

KW - Acoustic noise

KW - Aged substation

KW - Empirical noise level estimation formula

KW - Linear programming

KW - Optimal noise level

KW - Regulated noise level

KW - Transformer replacement

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Optimization of transformer noise level by reverse calculation using linear programming

Abstract

Keywords

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