TOC
CHAPTER 1. HYPERBARIC FACILITIES
1. SCOPE
2. CANCELLATION
3. BASIS OF MANUAL
4. CRITERIA
5. FUNCTION
6. MISSION
7. HAZARDS
8. PERSONNEL SAFETY
9. CERTIFICATION
CHAPTER 2. HYPERBARIC PRESSURE VESSELS
Section 1. TYPES OF HYPERBARIC PRESSURE VESSELS AND DESIGN PROCEDURES
1. SCOPE
2. HYPERBARIC PRESSURE VESSELS
3. TYPES OF HYPERBARIC PRESSURE VESSELS
4. CLASSES OF HYPERBARIC PRESSURE VESSELS
5. DESIGN CONSIDERATIONS
6. MANUFACTURER’S DESIGN REPORT
7. USER’S DESIGN SPECIFICATION
Section 2. MATERIALS FOR HYPERBARIC VESSELS
Section 3. DESIGN
1. DESIGN
2. METHODS OF DETERMINING STRESSES
3. DESIGN REQUIREMENTS
a. Article D-1, “General”
b. D-2, “Shells of Revolution Under Internal Pressure”
c. D-3, “Shells of Revolution Under External Pressure”
d. D-4, “Welded Joints”
e. D-5, “Openings and Their Reinforcement”
f. D-6, “Nozzles and Other Connections”
g. D-7, “Flat Heads, Bolted and Studded Connections”
h. D-8, “Quick-Actuating Closures”
i. D-9, “Attachments and Supports”
j. D-10, “Access and Inspection Openings”
4. “RULES FOR BOLTED FLANGE CONNECTIONS”
5. “EXPERIMENTAL STRESS ANALYSIS”
6. EXAMPLE OF DESIGN BY ANALYSIS AS APPLIED TO A SPHERICAL CHAMBER
a. Specification Data
b. Materials and Initial Calculations
c. Stress Analysis
d. Design Finalization
e. Stress Documentation
7. EXAMPLE OF DESIGN BY ANALYSIS AS APPLIED TO A CYLINDRICAL CHAMBER
a. Specification Data
b. Materials and Initial Calculations
c. Stress Analysis
CHAPTER 3. APPURTENANCES
1. SCOPE
Section 1. VIEWPORTS
1. VIEWPORTS
2. BASIC VIEWPORT TYPES
3. MATERIAL SELECTION
4. SEALING METHODS
5. FIELD OF VIEW CONSIDERATIONS
a. Refractive Index
b. Effective Limiting Aperture
c. Monocular and Binocular Fields
6. DESIGN OF ACRYLIC WINDOWS
Section 2. DOORS AND CLOSURES
Section 3. INTERIOR APPURTENANCES
CHAPTER 4. FOUNDATIONS
1. SCOPE
2. RELATED CRITERIA
Section 1. SITE SELECTION
1. REGIONAL STUDY
a. Geological Factors
b. Seismic Activity
2. LOCAL STUDY
Section 2. SUBSURFACE EVALUATION
1. SUBSURFACE EVALUATION
2. PRELIMINARY DESIGN INFORMATION
3. SOIL BORING REQUIREMENTS
4. LABORATORY TESTS
Section 3. FOUNDATION ANALYSIS AND DESIGN
1. SETTLEMENT
a. Initial Settlement
b. Primary Settlement
c. Secondary Settlement
d. Cyclic Loadings Settlement
e. Vibration Settlement
f. Water-affected Settlement
2. SETTLEMENT ANALYSIS
3. FOUNDATION TYPES
a. Individual Spread Footings
b. Mat or Raft Foundation
c. Pile Foundation
d. Caisson Foundations
4. FOUNDATION TYPE SELECTION
Section 4. STRUCTURAL SUPPORTS
1. STEEL AND CONCRETE STRUCTURAL SUPPORTS
2. DESIGN PARAMETERS COMMON TO BOTH CONSTRUCTION MATERIALS
a. Vertical Deflection
b. Lateral Displacement
c. Induced Vibration
d. Fatigue Strength
3. DESIGN PARAMETERS PECULIAR TO EACH MATERIAL
Section 5. INSTALLATION IN EXISTING BUILDINGS
CHAPTER 5. PIPING
Section 1. PIPING SYSTEMS
1. SCOPE
2. PIPING SYSTEM CLASSIFICATION
Section 2. DESIGN CONSIDERATIONS
Section 3. PIPING SYSTEM MATERIALS
1. MATERIALS
2. CLASSIFICATION
3. APPLICATIONS
4. MATERIALS SPECIFICALLY NOT PERMITTED
5. MATERIAL COMPATIBILITY
a. Welded and Brazed Joints
b. Galvanic Corrosion
6. FLUID COMPATIBILITY
7. ENVIRONMENTAL COMPATIBILITY
8. ENGINEERING PROPERTIES
a. Thermal Conductivity and Expansion
b. Strength
c. Nil-Ductility Transition Temperature
9. ECONOMIC FACTORS
Section 4. CONSTRUCTION CONSIDERATIONS
1. MECHANICAL STRENGTH
2. PIPE SUPPORTS
3. BENDING
4. PIPE JOINTS
Section 5. DESIGN GUIDANCE
1. DESIGN GUIDANCE
2. PRELIMINARY FLUID-FLOW ANALYSIS
3. DESIGN FOR PRESSURE
a. Minimum Wall Thickness, Straight Pipe Under Pressure
b. Minimum Wall Thickness, Straight Pipe Under External Pressure
c. Allowances
4. SYSTEM DETAILING AND FINAL FLOW ANALYSIS
a. Final Routing of Pipe and Selection of Supports and Anchors
b. Final Fitting and Valve Selection
c. Operations and Maintenance
d. Draining and Cleaning
e. Thermal Insulation .
f. Possible Reclassification
g. Detailed Fluid Flow Calculations
5. STRUCTURAL ANALYSIS
6. NOISE CONSIDERATIONS
a. Noise Sources
b. Acceptable Noise Levels
c. Noise Control
7. COLOR CODING FOR PIPING SYSTEMS
CHAPTER 6. LIFE SUPPORT SYSTEMS
1. SCOPE
Section 1. ATMOSPHERE REQUIREMENTS
1. ATMOSPHERE
2. BREATHING GAS COMPOSITION REQUIREMENTS
a. Oxygen Concentration
b. Anoxia and Oxygen Toxicity
c. Oxygen versus Depth Ranges
d. Diluent Gasses
e. Contaminants
4. TEMPERATURE-HUMIDITY REQUIREMENTS
5. PRESSURIZATION/DEPRESSURIZATION
a. Pressurization
b. Depressurization
Section 2. AIR SYSTEMS
1. COMPRESSED AIR SYSTEMS
2. INTAKE AIR FILTER .
3. COMPRESSOR
4. OIL FILTER AND SEPARATOR
5. STORAGE FLASKS
6. PREVENTION OF LINE FREEZE
7. ADDITIONAL INFORMATION ON COMPRESSORS AND COMPRESSED AIR DISTRIBUTION SYSTEMS
Section 3. GAS SYSTEMS
1. MIXED GAS BREATHING SYSTEMS
2. TRUCK TRANSFER
3. GAS STORAGE
4. GAS MIXING
5. CARBON DIOXIDE CONTROL
6. TEMPERATURE-HUMIDITY CONTROL
7. GAS DISTRIBUTION
8. COMPRESSORS/TRANSFER PUMPS
9. GAS MONITORING
Section 4. AUXILIARY BREATHING SYSTEMS
1. BUILT-IN-BREATHING APPARATUS
Section 5. ATMOSPHERE MONITORING
1. ENVIRONMENT BREATHING GAS ANALYSIS
Section 6. FOOD SUPPLY
1. FOOD SUPPLY
Section 7. POTABLE WATER AND SANITARY SYSTEM
1. POTABLE WATER AND SANITARY SYSTEM
CHAPTER 7. WET CHAMBER WATER SYSTEMS
1. SCOPE
Section 1. WATER SUPPLY
Section 2. WATER TREATMENT
1. WATER TREATMENT
2. TURBIDITY
3. CHEMICAL CONTENT
Section 3. WATER TEMPERATURE CONTROL
CHAPTER 8. FIRE PROTECTION AND EXTINGUISHING SYSTEMS
1. GENERAL
2. FIRE PROTECTION
3. FIRE EXTINGUISHERS
a. Minimum Requirements
b. Portable Extinguishers
c. Prohibited Types
4. HAZARDS
a. Basic Hazards
b. Fire and Explosion
c. Oxygen
d. Atmosphere
e. Fire Zone
f. Protective Clothing .
g. Sources of Ignition
5. STRUCTURAL
CHAPTER 9. ELECTRICAL SYSTEMS
Section 1. PRELIMINARY DATA
1. SCOPE
2. RELATED CRITERIA
3. POLICIES
Section 2. POWER SUPPLY
1. ELECTRIC POWER SUPPLY
2. ACCEPTABLE POWER SUPPLY
Section 3. WIRING
1. WIRING OUTSIDE CHAMBERS
2. WIRING INSIDE CHAMBERS
a. Intrinsically Safe Circuits
b. Explosion-Proof Circuits
c. Termination
d. Raceway
e. Separation of Power
f. Cable Insulation
g. Conductors
h. Wiring Devices
i. Overcurrent Protection
3. GROUNDING
a. Chamber
b. Electrical Service
c. Electrical Equipment
Section 4. LIGHTING
1. LIGHTING OUTSIDE CHAMBERS
2. LIGHTING INSIDE CHAMBERS
3. PERSONNEL LIGHTING REQUIREMENTS
CHAPTER 10. COMMUNICATION SYSTEMS
1. SCOPE
Section 1. AUDIO COMMUNICATIONS
1. AUDIO COMMUNICATIONS
2. CHAMBER ACOUSTICS
3. INTERCOM POWER REQUIREMENTS
4. PROTECTION OF AUDIO EQUIPMENT FROM PRESSURE EFFECTS
5. EXAMPLE INSTALLATION
Section 2. VIDEO COMMUNICATIONS
1. VIDEO COMMUNICATIONS
2. VIDEO COMMUNICATION AS A SUPPLEMENT TO DIRECT OBSERVATION
3. CAMERA STYLES AND SELECTION
4. CAMERA LOCATIONS
5. LENS SELECTION AND FIELD OF VIEW
6. LIGHTING REQUIREMENTS
7. VIDEO RECORDERS
CHAPTER 11. CHAMBER OPERATING CONTROL SYSTEMS
1. SCOPE
Section 1. OPERATING CONTROL SYSTEM TYPES
1. CHAMBER CONTROL SYSTEM TYPES
2. MANUAL CONTROL SYSTEM
3. AUTOMATIC COMPUTER-OPERATED CONTROL SYSTEM
4. COMBINATION AUTOMATIC-MANUAL CONTROL SYSTEM
Section 2. CONTROL PANEL DESIGN
1. CONTROL PANEL DESIGN
2. CONSOLES .
CHAPTER 12. LUBRICANTS, SEALANTS, AND CLEANING PROCEDURES FOR HYPERBARIC SYSTEMS
1. SCOPE
Section 1. LUBRICANTS AND SEALANTS
1. LUBRICANTS AND SEALANTS
Section 2. CLEANING PROCEDURES
1. CLEANING PROCEDURES
2. BREATHING GAS
3. PIPING AND GAS STORAGE SYSTEMS
4. OXYGEN HIGH PRESSURE AND HIGH CONCENTRATION SYSTEMS
5. CLEANING STANDARDS AND SPECIFICATIONS
6. ACCEPTABLE CLEANING AGENTS
a. Trisodium Phosphate
b. Trichlorotrifluoroethane
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