The Fluid Dynamic Basis for Actuator Disc and Rotor Theories : Revised Second Edition.

Format:

Book

Author/Creator:

van Kuik, G. A. M.

Language:

English

Physical Description:

1 online resource (162 pages)

Edition:

1st ed.

Place of Publication:

2022

Sydney : IOS Press, Incorporated, 2022.

Language Note:

English

Summary:

The first rotor performance predictions were published by Joukowsky exactly 100 years ago. Although a century of research has expanded the knowledge of rotor aerodynamics enormously, and modern computer power and measurement techniques now enable detailed analyses that were previously out of reach, the concepts proposed by Froude, Betz, Joukowsky and Glauert for modelling a rotor in performance calculations are still in use today, albeit with modifications and expansions. This book is the result of the author’s curiosity as to whether a return to these models with a combination of mathematics, dedicated computations and wind tunnel experiments could yield more physical insight and answer some of the old questions still waiting to be resolved. Although most of the work included here has been published previously, the book connects the various topics, linking them in a coherent storyline. “The Fluid Dynamic Basis for Actuator Disc and Rotor Theories” was first published in 2018. This Revised Second Edition (2022) will be of interest to those working in all branches of rotor aerodynamics – wind turbines, propellers, ship screws and helicopter rotors. It has been written for proficient students and researchers, and reading it will demand a good knowledge of inviscid (fluid) mechanics.

Contents:

Intro

Title Page

Preface

Reading guide

Acknowledgement

Nomenclature

More than a century of rotor research

Introduction

History of the actuator disc momentum theory

The British School

The German and Russian School

The contribution of Joukowsky and Betz to the vortex theory of propellers

The Betz-Joukowsky limit for wind turbines

From actuator disc to rotor aerodynamics

Why this book?

Force fields in fluid dynamics

The equation of motion and the coordinate systems

Equivalence of the kinematic and dynamic methods

Conservative and non-conservative force fields

Force fields and energy

Work done by force fields

Choice of reference system

Work done by non-conservative force fields

Pressure as a conservative force in momentum balances

Pressure interpreted as potential energy

Definition of (non-)conservative forces as used in this book

Evaluation

Force fields and vorticity

The role of Helmholtz's conservation laws

Generation of actuator disc vorticity

Convection of actuator disc vorticity

Convection of rotor vorticity

The disc as representation of a rotor

Loads and power of a Joukowsky disc and rotor

The actuator disc equation

The rotor blade

Power and thrust coefficients for Joukowsky discs / rotors

The transition from a B-bladed rotor to the Joukowsky disc

Comparison of the flow fields of a disc and rotor

Analysis of Froude's actuator disc flows

One-dimensional momentum theory

The momentum balance

Momentum theory without conservative forces

Momentum theory including conservative forces, applied to a stream annulus

Numerical assessment of Froude's actuator disc performance

The model and accuracy of computation.

Comparison of calculated performance with momentum theory results

Comparison with experimental results

Flow details

Flow and pressure patterns

Properties of the wake boundary

Pressure and velocity at the disc

Pressure at the axis

Analysis of Joukowsky's actuator disc flows

Two-dimensional momentum theory

The equations for a Joukowsky disc

The disc load

The far wake outside the vortex core

The vortex core

The momentum, mass and energy balance

Limit values of the Joukowsky momentum theory

Results for , 0.

Propeller discs with a wake of constant radius or with wake expansion

The static disc or disc in hover

The maximum efficiency of a wind turbine disc

The efficiency of propeller discs

Numerical assessment of flow details

The numerical model

Comparison of wind turbine and propeller discs at =1

Comparison of a wind turbine and propeller disc with similar wake expansion

The role of swirl and conservative pressure distributions

Comparison of the Joukowsky and Betz-Goldstein solutions

The velocity distribution at the disc

The absolute velocity

Wind turbine flows

Propeller flows

Explanation of the (non-)uniformity of vs

The axial velocity

Momentum balance per annulus

An engineering model for the axial velocity at a high wind turbine disc

The radial velocity

Special topics: cons. loads at a thick disc &amp

blade tip

The generation of a Rankine vortex

Wu's actuator disc equation

The force field required to generate a Rankine vortex

Interpretation of the radial component of the load

Numerical assessment of the impact of the radial load

Inboard motion of a tip vortex of a wind turbine blade.

Side step: conservative, spanwise load on an elliptic wing

Conservative and non-conservative blade loads

Experimental and numerical results for a model wind turbine rotor

Determination of the conservative tip load

The tip vortex trajectory

The role of conservative forces

From disc theory to BEM models: the tip correction

Development of the tip correction

In BEM methods

In actuator disc, actuator line and lifting line methods

The distribution of the axial velocity

The radial distribution

The azimuthal distribution: averaged or at blade position

The azimuthal distribution: decambering of aerofoils

The radial distribution of blade

The aspect ratio as a measure for tip effects

Conservative tip load and the tip vortex trajectory

Epilogue

Vector expressions in cylindrical coordinates

Balance of angular momentum

The blade load expressed as pressure distribution

The potential flow model

Components of the model

Convergence scheme

Verification, sensitivity and accuracy

Bibliography

Index.

Notes:

Description based on publisher supplied metadata and other sources.

Other Format:

Print version: van Kuik, G. A. M. The Fluid Dynamic Basis for Actuator Disc and Rotor Theories

ISBN:

9781643682792

1643682792

OCLC:

1337947626