IEEE 640 1985

$26.54

IEEE Guide for Power-Station Noise Control

Published By	Publication Date	Number of Pages
IEEE	1985	176

Guaranteed Safe Checkout

Category: IEEE

If you have any questions, feel free to reach out to our online customer service team by clicking on the bottom right corner. We’re here to assist you 24/7.
Email:[email protected]

Description

New IEEE Standard – Inactive – Withdrawn.

PDF Catalog

PDF Pages	PDF Title
10	Turbine-Generator and Boiler Feed Pump Measurements Locations
13	1 Introduction 1.1 Establishment of Noise-Control-Design Objectives
14	1.2 Prediction/Determination of Power-Station Noise Specifications of Equipment Sound Levels and Noise Reduction 1.4 Evaluation of the Noise-Control Measures
15	1.5 Definitions 1.6 References
19	2 Fundamentals 2.1 Introduction 2.2 Characteristics of the Noise Source
20	2.3 Sound Power Sound Intensity and Sound Pressure Table 1 Examples of Sources of Different Types of Noise
23	Typical Power Levels for Various Acoustic Sources
24	Typical A-Weighted Sound Levels Measured with a Sound-Level Meter
25	Sound-Level Meter
26	Frequency-Responses for SLM Weighting Characteristics
28	Covering the Audio-Frequency Range
29	Calculating Machine
30	Chart for Combining Noise Levels
31	Table 4 Conversion to Equivalent A-Weighted Values
32	2.4 Sound Fields
33	Pulverizers-Bowl Mills
35	Locations of a Sound Source in a Large Room
37	(a) Prescribed Points Small Machines (b) Prescribed Points Medium Machines
38	(c) Prescribed Points Large Horizontal Machines
40	Acoustical Wall Treatment
41	a Function of the Distance from the Source
42	Distance fromthe Source
43	2.5 Sound Propagation Outdoors
44	Noise for Different Temperatures and Humidities
45	Bending of Sound Waves Upward Bending of Sound Waves Downward Above the Ground
47	3 Laws and Regulations 3.2 Federal Laws
48	3.3 Representative State and Local Regulations 3.4 Local Ordinances
49	3.5 Summary
51	4 Measurement of Sound 4.1 Introduction 4.2 Power-Plant Environments
52	4.3 Types of Measurements
55	Characteristics Instrumentation for the Measurement and Analysis of Sound
59	5 Sources of Noise and Spectra Examples 5.1 Introduction 5.2 Plant Noise Sources 5.3 Rotating Turbo-Machinery
60	Table 6 Mechanical Equipment Noise Characteristics
62	Table 7 Base Load Power-Plant Sources
69	5.4 Flow or Aerodynamic Action 5.4.1 Valves
70	5.4.2 Piping 5.5 Electric Machinery
73	5.6 Combustion Processes 5.7 Cooling Towers
74	5.8 Noise-Spectra Examples Turbine Admission Valves
75	Turbine Admission Valves
76	Steam Turbine-Generator Fossil-Fired Plant Steam Turbine-Generator Nuclear Plant
77	Pulverizers Boiler Feed Pump
78	Boiler Feed Pump Boiler Feed Pump
79	Forced Draft Fan Induced Draft Fan
80	Axial Flow Fan
81	Soot-Blowing Air Compres Boiler Drum Safety Valves
82	Furnace Burners
83	5.9 Conclusions Transformer
84	ND Cooling Towers
87	6 Noise Control in Power-Plant Design 6.1 Introduction 6.2 Criteria for Noise-Control Planning 6.3 Typical Plant Configuration 6.4 Generalized Noise-Control Model
89	6.5 Considerations in Equipment Specifications
93	7 Noise-Control Techniques 7.1 Introduction 7.2 The Noise Survey
94	Table 8 Case I Cumulative Overexposure
95	Table 9 Case 11 Cumulative Underexposure
97	7.3 Data Interpretation
99	Table 10 Correction for Ambient Sound-Pressure Levels
101	Sound Contours
102	Octave-Band Analyses at Three Locations on Turbine Deck
103	Turbine Deck
104	Boiler Feed Pump Turbine Control Valve Chest
105	Location of Measuring Points on Turbine Deck
106	Narrow-Band Spectrum Plots
107	a Function of Frequency in Octave Bands
108	Pressure Level Plotted as a Function of Frequency
109	Area Some Distance from the Plant
110	7.4 General Approaches to Noise R ction
116	Selection of Noise Reduction Schemes for Different Noise Sources Noise Reduction
118	Follow-Up Sound Survey to Evaluate Noise-Control Measures 7.7 Administrative Control
119	7.8 Summary
121	Noise-Control Design Approach 8.1 Introduction Design Objectives
124	Applications of Noise-Control Design Objectives
125	9 Bibliography