Acoustics of Ducts and Mufflers

Fully updated second edition of the premier reference book on
muffler and lined duct acoustical performance

Engine exhaust noise pollutes the street environment and
ventilation fan noise enters dwellings along with fresh air. People
have become conscious of their working environment. Governments of
most countries have responded to popular demand with mandatory
restrictions on sound emitted by automotive engines, and a thorough
knowledge of acoustics of ducts and mufflers is needed for the
design of efficient muffler configurations. This fully updated
Second Edition of Acoustics of Ducts and Mufflers deals with
propagation, reflection and dissipation/absorption of sound along
ducts/pipes/tubes, area discontinuities, perforated elements and
absorptive linings that constitute the present-day mufflers and
silencers designed to control noise of exhaust and intake systems
of automotive engines, diesel-generator sets, compressors and HVAC
systems.

It includes equations, figures, tables, references, and solved
examples and unsolved exercises with answers, so it can be used as
a text book as well as a reference book. It also offers a
complete presentation and analysis of the major topics in sound
suppression and noise control for the analysis and design of
acoustical mufflers, air conditioning and ventilation duct work.
Both the fundamentals and the latest technology are discussed, with
an emphasis on applications. Deals with reactive mufflers,
dissipative silencers, the frequency-domain approach, and the
time-domain approach.

• Fully updated second edition of the premier reference book on
  muffler and lined duct acoustical performance, in one complete
  volume

• Presents original new research on topics including baffle
  silencers and louvers, 3D analytical techniques, and flow-acoustic
  analysis of multiply-connected perforated-element mufflers

• Includes a general design procedure to help muffler designers
  in the automotive industry, exhaust noise being a major component
  of automobile and traffic noise pollution

• Written by an expert with four decades' experience in
  teaching to graduate students, publishing extensively in reputed
  international journals, and consulting with industry for noise
  control as well as designing for quietness

Auteur

Dr. M. L. Munjal is a Mechanical Engineer specializing in
Engineering Acoustics. Over a four-decade career at the Indian
Institute of Science, he has published over 190 papers in refereed
journals, carried out over 100 industrial consultancy projects, and
has run graduate courses on 'Industrial Noise Control'
and 'Acoustics of Ducts and Mufflers'. He is
Chairman of the National Committee for Noise Pollution Control that
advises on noise control measures and legislations in India. He is
also a Distinguished International Member of the Institute of Noise
Control Engineering, USA, and Honorary Fellow of the International
Institute of Acoustics and Vibration. He has been a member of the
Editorial Board of several journals including the International
Journal of Acoustics and Vibration.

Résumé
Fully updated second edition of the premier reference book on muffler and lined duct acoustical performance Engine exhaust noise pollutes the street environment and ventilation fan noise enters dwellings along with fresh air. People have become conscious of their working environment. Governments of most countries have responded to popular demand with mandatory restrictions on sound emitted by automotive engines, and a thorough knowledge of acoustics of ducts and mufflers is needed for the design of efficient muffler configurations. This fully updated Second Edition of Acoustics of Ducts and Mufflers deals with propagation, reflection and dissipation/absorption of sound along ducts/pipes/tubes, area discontinuities, perforated elements and absorptive linings that constitute the present-day mufflers and silencers designed to control noise of exhaust and intake systems of automotive engines, diesel-generator sets, compressors and HVAC systems.

It includes equations, figures, tables, references, and solved examples and unsolved exercises with answers, so it can be used as a text book as well as a reference book. It also offers a complete presentation and analysis of the major topics in sound suppression and noise control for the analysis and design of acoustical mufflers, air conditioning and ventilation duct work. Both the fundamentals and the latest technology are discussed, with an emphasis on applications. Deals with reactive mufflers, dissipative silencers, the frequency-domain approach, and the time-domain approach.

• Fully updated second edition of the premier reference book on muffler and lined duct acoustical performance, in one complete volume
• Presents original new research on topics including baffle silencers and louvers, 3D analytical techniques, and flow-acoustic analysis of multiply-connected perforated-element mufflers
• Includes a general design procedure to help muffler designers in the automotive industry, exhaust noise being a major component of automobile and traffic noise pollution
• Written by an expert with four decades' experience in teaching to graduate students, publishing extensively in reputed international journals, and consulting with industry for noise control as well as designing for quietness

Contenu

Preface xiii

1 Propagation of Waves in Ducts 1

1.1 Plane Waves in an Inviscid Stationary Medium 2

1.2 Three-Dimensional Waves in an Inviscid Stationary Medium 5

1.3 Waves in a Viscous Stationary Medium 12

1.4 Plane Waves in an Inviscid Moving Medium 16

1.5 Three-Dimensional Waves in an Inviscid Moving Medium 18

1.6 One-Dimensional Waves in a Viscous Moving Medium 20

1.7 Waves in Ducts with Compliant Walls (Dissipative Ducts) 23

1.8 Three-Dimensional Waves along Elliptical Ducts 34

References 39

2 Theory of Acoustic Filters 41

2.1 Units for the Measurement of Sound 41

2.2 Uniform Tube 43

2.3 Radiation Impedance 46

2.4 Reflection Coefficient at an Open End 48

2.5 A Lumped Inertance 49

2.6 A Lumped Compliance 50

2.7 End Correction 51

2.8 Electroacoustic Analogies 51

2.9 Electrical Circuit Representation of an Acoustic System 52

2.10 Acoustical Filter Performance Parameters 53

2.11 Lumped-Element Representations of a Tube 58

2.12 Simple Area Discontinuities 60

2.13 Gradual Area Changes 62

2.14 Extended-Tube Resonators 67

2.15 Helmholtz Resonator 69

2.16 Concentric Hole-Cavity Resonator 70

2.17 An Illustration of the Classical Method of Filter Evaluation 71

2.18 The Transfer Matrix Method 74

2.19 TL of a Simple Expansion Chamber Muffler 85

2.20 An Algebraic Algorithm for Tubular Mufflers 88

2.21 Synthesis Criteria for Low-Pass Acoustic Filters 91

References 94

3 Flow-Acoustic Analysis of Cascaded-Element Mufflers 97

3.1 The Exhaust Process 97

3.2 Finite Amplitude Wave Effects 101

3.3 Mean Flow and Acoustic Energy Flux 102

3.4 Aeroacoustic State Variables 105

3.5 Aeroacoustic Radiation 108

3.6 Insertion Loss 111

3.7 Transfer Matrices for Tubular Elements 112

3.8 Perforated Elements with Two Interacting Ducts 119

3.9 Acoustic Impedance of Perforates 126

3.10 Matrizant Approach 129

3.11 Perforated Elements with Three Interacting Ducts 131

3.12 Other Elements Constituting Cascaded-Element Mufflers 137

References 143

4 Flow-Acoustic Analysis of Multiply-Connected Perforated Element Mufflers 147

4.1 Herschel-Quincke Tube Phenomenon 147

4.2 Perforated Element with Several Interacting Ducts 151

4.3 Three-Pass Double-Reversal Muffler 154

4.4 Flow-Reversal End Chambers 158

4.5 Meanflow Lumped Resistance Network Theory 163

4.6 …