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Numerical simulation algorithm of electromagnetic field for grounding problems in power system substation grounding grids

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Numerical simulation algorithm of electromagnetic field for grounding problems in power system substation grounding grids/ by Zhong-Xin Li.
作者:	Li, Zhong-Xin.
出版者:	Singapore :Springer Nature Singapore : : 2025.,
面頁冊數:	xix, 447 p. :ill., digital ; : 24 cm.;
Contained By:	Springer Nature eBook
標題:	Mathematical Modeling and Industrial Mathematics. -
電子資源:	https://doi.org/10.1007/978-981-96-0904-8
ISBN:	9789819609048

Numerical simulation algorithm of electromagnetic field for grounding problems in power system substation grounding grids
Li, Zhong-Xin.

Numerical simulation algorithm of electromagnetic field for grounding problems in power system substation grounding grids[electronic resource] /by Zhong-Xin Li. - Singapore :Springer Nature Singapore :2025. - xix, 447 p. :ill., digital ;24 cm.

Progresses of Grounding Problem -- Fundamentals of Numerical Calculation Techniques I -- Fundamentals of Numerical Calculation Techniques II -- Fundamentals of Numerical Calculation Techniques III -- Numerical Methods For Grounding Problem at Steady-State I -- Numerical Methods For Grounding Problem at Steady-State II -- Numerical Methods For Grounding Problem at Transient State I -- Numerical Methods For Grounding Problem at Transient State II -- Numerical Methods For Grounding Problem at Transient State III -- Numerical Methods For Grounding Problem at Transient State IV -- Numerical Methods For Grounding Problem at Transient State V -- Numerical Methods For Grounding Problem at Transient State VI -- Numerical Methods For Grounding Problem at Transient State VII -- Summary For Numerical Method in The Book.

This book focuses on numerical methods for grounding problems in substation grounding systems, which are rooted in horizontal multilayered earth models. The book discusses both theories and engineering applications and provides case studies to verify the accuracy of the methods introduced. Up to ten horizontal multilayered soil models were considered. This book employs numerical algorithms for Galerkin's method, including Galerkin's method of moments, Galerkin's boundary element method, and hybrid algorithms based on a variety of basis functions that have emerged as a result of simplifying Galerkin's method of moments. These numerical methods include both frequency and time domain algorithms that can be used to numerically simulate transient and steady state grounding problems in substation grounding grids. The most outstanding feature of this book is the incorporation of the frequency- and time-domain quasi-static complex imaging method (QSCIM) for point current sources in layered conducting media and its closed-form Green's function, as well as analytical algorithms for calculating the spatial two-dimensional line integrals of mutual impedances and inductances into numerical algorithmic modeling of electromagnetic fields, which greatly improves computational speed and accuracy.

ISBN: 9789819609048

Standard No.: 10.1007/978-981-96-0904-8doiSubjects--Topical Terms:

669172
Mathematical Modeling and Industrial Mathematics.

LC Class. No.: TK3227

Dewey Class. No.: 621.317

Numerical simulation algorithm of electromagnetic field for grounding problems in power system substation grounding grids
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520 $a This book focuses on numerical methods for grounding problems in substation grounding systems, which are rooted in horizontal multilayered earth models. The book discusses both theories and engineering applications and provides case studies to verify the accuracy of the methods introduced. Up to ten horizontal multilayered soil models were considered. This book employs numerical algorithms for Galerkin's method, including Galerkin's method of moments, Galerkin's boundary element method, and hybrid algorithms based on a variety of basis functions that have emerged as a result of simplifying Galerkin's method of moments. These numerical methods include both frequency and time domain algorithms that can be used to numerically simulate transient and steady state grounding problems in substation grounding grids. The most outstanding feature of this book is the incorporation of the frequency- and time-domain quasi-static complex imaging method (QSCIM) for point current sources in layered conducting media and its closed-form Green's function, as well as analytical algorithms for calculating the spatial two-dimensional line integrals of mutual impedances and inductances into numerical algorithmic modeling of electromagnetic fields, which greatly improves computational speed and accuracy.
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