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Demystifying numerical models = step...

Mo, John P. T.,

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Demystifying numerical models = step-by-step modeling of engineering systems /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Demystifying numerical models/ John P.T. Mo, Sherman C.P. Cheung, Raj Das.
其他題名:	step-by-step modeling of engineering systems /
作者:	Mo, John P. T.,
其他作者:	Cheung, Chi Pok,
出版者:	Saint Louis :Elsevier Science & Technology, : 2019.,
面頁冊數:	1 online resource (276 p.).
內容註:	Front Cover; Demystifying Numerical Models; Copyright Page; Contents; Preface; 1 Introduction to Engineering Systems; 1.1 Systems Engineering Principles; 1.1.1 Integrity; 1.1.2 Stability; 1.1.3 Compatibility; 1.1.4 Safety; 1.1.5 Sustainability; 1.2 Nature of Engineering Systems; 2 Basic Numerical Techniques; 2.1 Introduction; 2.2 Roots of Equations; 2.2.1 Direct Search Method; 2.2.2 Bisection Method; 2.2.3 Newton-Raphson Method; 2.3 Differential Equations; 2.3.1 Euler's Method; 2.3.2 Modified Euler's Method; 2.3.3 Runge-Kutta Method Second Order; 2.3.4 Runge-Kutta Method Fourth Order
內容註:	3 Wind Power and Aerodynamics Systems3.1 Liquid Flow Systems; 3.2 Basic Knowledge and Terminology of Wind Turbine; 3.3 Blade Element Theory; 3.3.1 Axial Force and Momentum Change; 3.3.2 Rotating Angular Momentum; 3.3.3 Blade Element and Relative Velocity; 3.3.4 Aerodynamic Lift and Drag Forces; 3.3.5 Losses at the Tip and Overall Power Output; 3.4 Blade Design and Solving Procedures; 3.4.1 Overall Blade Design Procedure; 3.4.2 Iterative Procedure for Solving the BEM; 3.4.3 Power Output of a Twisted and Tapered Blad (NACA S809); References; 4 Steady-State Heat Conduction Systems
內容註:	4.1 Application of Heat Transfer Process4.2 The Three Modes of Heat Transfer; 4.2.1 Conduction; 4.2.2 Convection; 4.2.3 Radiation; 4.3 Steady-State Conduction Problems; 4.3.1 Governing Equations; 4.4 Boundary Conditions for Heat Conduction Problems; 4.4.1 Constant Temperature at Specific Surfaces; 4.4.2 Adiabatic Condition at Well-Insulated Surfaces; 4.4.3 Surfaces Subjected to Convection or Radiation Heat Transfer; 4.5 Finite Difference Approach; 4.5.1 First-Order Finite Difference Approximation; 4.5.2 Second-Order Finite Difference Approximation; 4.6 One-Dimensional Steady-State Conduction
內容註:	4.6.1 One-Dimensional Conduction With Internal Heat Source4.6.2 Formulation for the Boundary Conditions; 4.6.3 Heat Dissipation of a Hot Plate; Reference; 5 Two-Dimensional and Transient Heat Conduction; 5.1 Importance of Two-Dimensional and Transient Heat Conduction Problems; 5.2 Direct Versus Iterative Methods; 5.3 Two-Dimensional Steady State Heat Conduction; 5.3.1 Two-Dimensional Discretization; 5.3.2 Two-Dimensional Heat Conduction in a Square Steel Column; 5.4 Time-Dependent Heat Conduction Problem; 5.4.1 Implicit and Explicit Time Discretization
內容註:	5.4.2 Stability and Choice of Time Step for Explicit Method5.4.3 Transient Heat Conduction in a One-Dimensional Steel Bar; 6 Electrical Power Systems; 6.1 Electrical Systems; 6.2 Analysis of DC Motor Circuits; 6.3 Analysis of RLC Circuit; 6.4 Motor Driven Position Control System; 7 Industrial Systems; 7.1 Industrial Systems; 7.2 Transport Systems Modeling; 7.2.1 Transport on a Plane (Two-Dimensional Space); 7.2.2 Transport in Rectilinear Layout; 7.2.3 Transport in a Building; 7.3 Inventory Control; 7.3.1 Replenish Directly From a Stock Pile; 7.3.2 Varying Demand
標題:	Engineering mathematics. -
電子資源:	https://www.sciencedirect.com/science/book/9780081009758
ISBN:	9780081017562 (electronic bk.)

Demystifying numerical models = step-by-step modeling of engineering systems /
Mo, John P. T.,

Demystifying numerical modelsstep-by-step modeling of engineering systems /[electronic resource] :John P.T. Mo, Sherman C.P. Cheung, Raj Das. - Saint Louis :Elsevier Science & Technology,2019. - 1 online resource (276 p.).

Includes bibliographical references and index.

Front Cover; Demystifying Numerical Models; Copyright Page; Contents; Preface; 1 Introduction to Engineering Systems; 1.1 Systems Engineering Principles; 1.1.1 Integrity; 1.1.2 Stability; 1.1.3 Compatibility; 1.1.4 Safety; 1.1.5 Sustainability; 1.2 Nature of Engineering Systems; 2 Basic Numerical Techniques; 2.1 Introduction; 2.2 Roots of Equations; 2.2.1 Direct Search Method; 2.2.2 Bisection Method; 2.2.3 Newton-Raphson Method; 2.3 Differential Equations; 2.3.1 Euler's Method; 2.3.2 Modified Euler's Method; 2.3.3 Runge-Kutta Method Second Order; 2.3.4 Runge-Kutta Method Fourth Order

Demystifying Numerical Models: Step-by Step Modeling of Engineering Systems is the perfect guide on the analytic concepts of engineering components and systems. In simplified terms, the book focuses on engineering characteristics and behaviors using numerical methods. Readers will learn how the computational aspects of engineering analysis can be applied to develop various engineering systems to a level that is fit for implementation.

ISBN: 9780081017562 (electronic bk.)Subjects--Topical Terms:

516847
Engineering mathematics.
Index Terms--Genre/Form:

542853
Electronic books.

LC Class. No.: TA168 / .M62 2019

Dewey Class. No.: 620.00420285

Demystifying numerical models = step-by-step modeling of engineering systems /
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300 $a 1 online resource (276 p.).
504 $a Includes bibliographical references and index.
505 0 $a Front Cover; Demystifying Numerical Models; Copyright Page; Contents; Preface; 1 Introduction to Engineering Systems; 1.1 Systems Engineering Principles; 1.1.1 Integrity; 1.1.2 Stability; 1.1.3 Compatibility; 1.1.4 Safety; 1.1.5 Sustainability; 1.2 Nature of Engineering Systems; 2 Basic Numerical Techniques; 2.1 Introduction; 2.2 Roots of Equations; 2.2.1 Direct Search Method; 2.2.2 Bisection Method; 2.2.3 Newton-Raphson Method; 2.3 Differential Equations; 2.3.1 Euler's Method; 2.3.2 Modified Euler's Method; 2.3.3 Runge-Kutta Method Second Order; 2.3.4 Runge-Kutta Method Fourth Order
505 8 $a 3 Wind Power and Aerodynamics Systems3.1 Liquid Flow Systems; 3.2 Basic Knowledge and Terminology of Wind Turbine; 3.3 Blade Element Theory; 3.3.1 Axial Force and Momentum Change; 3.3.2 Rotating Angular Momentum; 3.3.3 Blade Element and Relative Velocity; 3.3.4 Aerodynamic Lift and Drag Forces; 3.3.5 Losses at the Tip and Overall Power Output; 3.4 Blade Design and Solving Procedures; 3.4.1 Overall Blade Design Procedure; 3.4.2 Iterative Procedure for Solving the BEM; 3.4.3 Power Output of a Twisted and Tapered Blad (NACA S809); References; 4 Steady-State Heat Conduction Systems
505 8 $a 4.1 Application of Heat Transfer Process4.2 The Three Modes of Heat Transfer; 4.2.1 Conduction; 4.2.2 Convection; 4.2.3 Radiation; 4.3 Steady-State Conduction Problems; 4.3.1 Governing Equations; 4.4 Boundary Conditions for Heat Conduction Problems; 4.4.1 Constant Temperature at Specific Surfaces; 4.4.2 Adiabatic Condition at Well-Insulated Surfaces; 4.4.3 Surfaces Subjected to Convection or Radiation Heat Transfer; 4.5 Finite Difference Approach; 4.5.1 First-Order Finite Difference Approximation; 4.5.2 Second-Order Finite Difference Approximation; 4.6 One-Dimensional Steady-State Conduction
505 8 $a 4.6.1 One-Dimensional Conduction With Internal Heat Source4.6.2 Formulation for the Boundary Conditions; 4.6.3 Heat Dissipation of a Hot Plate; Reference; 5 Two-Dimensional and Transient Heat Conduction; 5.1 Importance of Two-Dimensional and Transient Heat Conduction Problems; 5.2 Direct Versus Iterative Methods; 5.3 Two-Dimensional Steady State Heat Conduction; 5.3.1 Two-Dimensional Discretization; 5.3.2 Two-Dimensional Heat Conduction in a Square Steel Column; 5.4 Time-Dependent Heat Conduction Problem; 5.4.1 Implicit and Explicit Time Discretization
505 8 $a 5.4.2 Stability and Choice of Time Step for Explicit Method5.4.3 Transient Heat Conduction in a One-Dimensional Steel Bar; 6 Electrical Power Systems; 6.1 Electrical Systems; 6.2 Analysis of DC Motor Circuits; 6.3 Analysis of RLC Circuit; 6.4 Motor Driven Position Control System; 7 Industrial Systems; 7.1 Industrial Systems; 7.2 Transport Systems Modeling; 7.2.1 Transport on a Plane (Two-Dimensional Space); 7.2.2 Transport in Rectilinear Layout; 7.2.3 Transport in a Building; 7.3 Inventory Control; 7.3.1 Replenish Directly From a Stock Pile; 7.3.2 Varying Demand
520 $a Demystifying Numerical Models: Step-by Step Modeling of Engineering Systems is the perfect guide on the analytic concepts of engineering components and systems. In simplified terms, the book focuses on engineering characteristics and behaviors using numerical methods. Readers will learn how the computational aspects of engineering analysis can be applied to develop various engineering systems to a level that is fit for implementation.
650 0 $a Engineering mathematics. $3 516847
650 0 $a Systems engineering. $3 572511
655 4 $a Electronic books. $2 lcsh $3 542853
700 1 $a Cheung, Chi Pok, $e author. $3 3462874
700 1 $a Das, Raj, $e author. $3 3462875
856 4 0 $u https://www.sciencedirect.com/science/book/9780081009758