Source: https://up.codes/viewer/osha-1910-general-industry/chapter/T/commercial-diving-operations
Timestamp: 2020-01-23 07:51:24
Document Index: 27796720

Matched Legal Cases: ['art 46', '§ 1910', '§ 1910', 'art 1910', '§ 1910', '§ 1910', '§ 1910', '§ 1910', '§ 1910', '§ 1910', '§ 1910', '§ 1910']

Subpart T: Commercial Diving Operations, OSHA 1910 General Industry | UpCodes
1910.401 Scope and application
1910.401(a) Scope
1910.401(a)(1)
1910.401(a)(2)
1910.401(a)(2)(i)
1910.401(a)(2)(iii)
1910.401(a)(2)(iv)
1910.401(a)(2)(iv)(A)
1910.401(a)(2)(iv)(B)
1910.401(a)(2)(ii)
1910.401(a)(3) Alternative requirements for recreational diving instructors and diving guides
1910.401(a)(3)(i)
1910.401(a)(3)(iii)
1910.401(a)(3)(iv)
1910.401(a)(3)(v)
1910.401(a)(3)(ii)
1910.401(b) Application in emergencies
1910.401(b)(1)
1910.401(b)(2)
1910.401(c) Employer obligation
1910.401(c)(1)
1910.401(c)(2)
1910.402 Definitions
1910.410(a) General
1910.410(a)(1)
1910.410(a)(2) Each dive team member shall have experience or training in the following:
1910.410(a)(2)(i)
1910.410(a)(2)(iii)
1910.410(a)(2)(ii)
1910.410(a)(3)
1910.410(a)(4)
1910.410(b) Assignments
1910.410(b)(1)
1910.410(b)(2)
1910.410(b)(3)
1910.410(c) Designated person-in-charge
1910.410(c)(1)
1910.410(c)(2)
1910.420 Safe practices manual
1910.420(a) General
1910.420(b) Contents
1910.420(b)(1)
1910.420(b)(2) For each diving mode engaged in, the safe practices manual shall include:
1910.420(b)(2)(i)
1910.420(b)(2)(iii)
1910.420(b)(2)(iv)
1910.420(b)(2)(ii)
1910.421 Pre-dive procedures
1910.421(a) General
1910.421(b) Emergency aid
1910.421(b)(1)
1910.421(b)(2) Accessible hospitals
1910.421(b)(3) Available physicians
1910.421(b)(4) Available means of transportation; and
1910.421(b)(5)
1910.421(c) First aid supplies
1910.421(c)(1)
1910.421(c)(2)
1910.421(c)(3)
1910.421(d) Planning and assessment
1910.421(d)(1) Diving mode
1910.421(d)(2) Surface and underwater conditions and hazards
1910.421(d)(3) Breathing gas supply (including reserves)
1910.421(d)(4) Thermal protection
1910.421(d)(5)
1910.421(d)(6)
1910.421(d)(7)
1910.421(d)(8)
1910.421(d)(9) Emergency procedures
1910.421(e) Hazardous activities
1910.421(f) Employee briefing
1910.421(f)(1) Dive team members shall be briefed on:
1910.421(f)(1)(i) The tasks to be undertaken
1910.421(f)(1)(iii)
1910.421(f)(1)(iv)
1910.421(f)(1)(ii) Safety procedures for the diving mode
1910.421(f)(2)
1910.421(g) Equipment inspection
1910.421(h) Warning signal
1910.422 Procedures during dive
1910.422(a) General
1910.422(b) Water entry and exit
1910.422(b)(1)
1910.422(b)(2)
1910.422(b)(3)
1910.422(c) Communications
1910.422(c)(1)
1910.422(c)(1)(i)
1910.422(c)(1)(ii) The bell and the dive location
1910.422(c)(2)
1910.422(d) Decompression tables
1910.422(e) Dive profiles
1910.422(f) Hand-held power tools and equipment
1910.422(f)(1)
1910.422(f)(2)
1910.422(g) Welding and burning
1910.422(g)(1)
1910.422(g)(1)(i)
1910.422(g)(1)(ii)
1910.422(g)(2) The welding machine frame shall be grounded
1910.422(g)(3)
1910.422(g)(4)
1910.422(g)(5)
1910.422(h) Explosives
1910.422(h)(1)
1910.422(h)(2)
1910.422(h)(3)
1910.422(i) Termination of dive
1910.422(i)(1) A diver requests termination
1910.422(i)(2)
1910.422(i)(3)
1910.422(i)(4)
1910.423 Post-dive procedures
1910.423(a) General
1910.423(b) Precautions
1910.423(b)(1) After the completion of any dive, the employer shall:
1910.423(b)(1)(i)
1910.423(b)(1)(iii)
1910.423(b)(1)(iv)
1910.423(b)(1)(ii)
1910.423(b)(2)
1910.423(c) Recompression capability
1910.423(c)(1)
1910.423(c)(1)(i)
1910.423(c)(1)(iii)
1910.423(c)(1)(ii)
1910.423(c)(2)
1910.423(c)(3) The decompression chamber shall be:
1910.423(c)(3)(i) Dual-lock
1910.423(c)(3)(iii) Located within 5 minutes of the dive location
1910.423(c)(3)(ii) Multiplace; and
1910.423(c)(4) The decompression chamber shall be equipped with:
1910.423(c)(4)(i)
1910.423(c)(4)(iii)
1910.423(c)(4)(iv) A viewport; and
1910.423(c)(4)(v) Illumination capability to light the interior
1910.423(c)(4)(ii)
1910.423(c)(5)
1910.423(c)(6)
1910.423(d) Record of dive
1910.423(d)(1)
1910.423(d)(1)(i)
1910.423(d)(1)(iii) Diving modes used
1910.423(d)(1)(iv) General nature of work performed
1910.423(d)(1)(v)
1910.423(d)(1)(vi)
1910.423(d)(1)(ii) Date, time, and location
1910.423(d)(2)
1910.423(d)(2)(i) Depth-time and breathing gas profiles
1910.423(d)(2)(iii)
1910.423(d)(2)(ii)
1910.423(d)(3)
1910.423(d)(3)(i)
1910.423(d)(3)(ii) Description and results of treatment
1910.423(e) Decompression procedure assessment
1910.423(e)(1)
1910.423(e)(2)
1910.423(e)(3)
1910.424(a) General
1910.424(b) Limits
1910.424(b)(1) At depths deeper than 130 fsw
1910.424(b)(2)
1910.424(b)(3)
1910.424(b)(4)
1910.424(c) Procedures
1910.424(c)(1)
1910.424(c)(2)
1910.424(c)(3)
1910.424(c)(4)
1910.424(c)(4)(i) A manual reserve (J valve); or
1910.424(c)(4)(ii)
1910.424(c)(5)
1910.425 Surface-supplied air diving
1910.425(a) General
1910.425(b) Limits
1910.425(b)(1)
1910.425(b)(2)
1910.425(b)(3)
1910.425(c) Procedures
1910.425(c)(1)
1910.425(c)(2)
1910.425(c)(3)
1910.425(c)(4) For dives deeper than 100 fsw or outside the no-decompression limits:
1910.425(c)(4)(i)
1910.425(c)(4)(iii)
1910.425(c)(4)(iv)
1910.425(c)(4)(ii)
1910.425(c)(5)
1910.425(c)(5)(i)
1910.425(c)(5)(ii)
1910.425(c)(6)
1910.426 Mixed-gas diving
1910.426(a) General
1910.426(b) Limits
1910.426(b)(1)
1910.426(b)(1)(i)
1910.426(b)(1)(ii)
1910.426(c) Procedures
1910.426(c)(1)
1910.426(c)(2)
1910.426(c)(3)
1910.426(c)(4)
1910.426(c)(5)
1910.426(c)(6) When heavy gear is worn:
1910.426(c)(6)(i)
1910.426(c)(6)(ii)
1910.426(c)(7)
1910.426(c)(8)
1910.426(c)(9)
1910.426(c)(9)(i)
1910.426(c)(9)(ii)
1910.427 Liveboating
1910.427(a) General
1910.427(b) Limits
1910.427(b)(1)
1910.427(b)(2)
1910.427(b)(3)
1910.427(b)(4)
1910.427(b)(5) In other than daylight hours
1910.427(c) Procedures
1910.427(c)(1)
1910.427(c)(2)
1910.427(c)(3)
1910.427(c)(4)
1910.427(c)(5)
1910.430 Equipment
1910.430(a) General
1910.430(a)(1)
1910.430(a)(2)
1910.430(b) Air compressor system
1910.430(b)(1)
1910.430(b)(2)
1910.430(b)(3) Respirable air supplied to a diver shall not contain:
1910.430(b)(3)(i) A level of carbon monoxide (CO) greater than 20 p/m
1910.430(b)(3)(iii) A level of oil mist greater than 5 milligrams per cubic meter; or
1910.430(b)(3)(iv) A noxious or pronounced odor
1910.430(b)(3)(ii) A level of carbon dioxide (CO(2)) greater than 1,000 p/m
1910.430(c) Breathing gas supply hoses
1910.430(c)(1) Breathing gas supply hoses shall:
1910.430(c)(1)(i)
1910.430(c)(1)(iii)
1910.430(c)(1)(iv)
1910.430(c)(1)(ii)
1910.430(c)(2) Breathing gas supply hose connectors shall:
1910.430(c)(2)(i) Be made of corrosion-resistant materials
1910.430(c)(2)(iii) Be resistant to accidental disengagement
1910.430(c)(2)(ii)
1910.430(c)(3) Umbilicals shall:
1910.430(c)(3)(i)
1910.430(c)(3)(iii)
1910.430(c)(3)(ii)
1910.430(d) Buoyancy control
1910.430(d)(1)
1910.430(d)(2)
1910.430(d)(3)
1910.430(d)(4)
1910.430(e) Compressed gas cylinders
1910.430(e)(1)
1910.430(e)(2)
1910.430(e)(3) Be secured from falling; and
1910.430(e)(4)
1910.430(f) Decompression chambers
1910.430(f)(1)
1910.430(f)(2)
1910.430(f)(3) Each decompression chamber shall be equipped with:
1910.430(f)(3)(i)
1910.430(f)(3)(iii)
1910.430(f)(3)(iv)
1910.430(f)(3)(ii)
1910.430(g) Gauges and timekeeping devices
1910.430(g)(1)
1910.430(g)(2)
1910.430(g)(3)
1910.430(g)(4)
1910.430(h) Masks and helmets
1910.430(h)(1)
1910.430(h)(1)(i)
1910.430(h)(1)(ii) An exhaust valve
1910.430(h)(2)
1910.430(i) Oxygen safety
1910.430(i)(1)
1910.430(i)(2)
1910.430(i)(3)
1910.430(j) Weights and harnesses
1910.430(j)(1)
1910.430(j)(2)
1910.430(j)(2)(i) A positive buckling device
1910.430(j)(2)(iii)
1910.430(j)(2)(ii)
1910.440(a)(1) [Reserved]
1910.440(a)(2)
1910.440(b) Availability of records
1910.440(b)(1)
1910.440(b)(2)
1910.440(b)(2)(i)
1910.440(b)(3)
1910.440(b)(3)(i) [Reserved]
1910.440(b)(3)(iii)
1910.440(b)(3)(iv)
1910.440(b)(3)(v)
1910.440(b)(3)(vi)
1910.440(b)(3)(vii)
1910.440(b)(3)(ii)
1910.440(b)(4)
1910.440(b)(5) [Reserved]
T App A - Examples of conditions which may restrict or limit exposure to hyperbaric conditions
T App B - Guidelines for scientific diving
T App C - Alternative Conditions Under 1910.401(a)(3) for Recreational Diving Instructors and Diving Guides (Mandatory)
This subpart (standard) applies to every place of employment within the waters of the United States, or within any State, the District of Columbia, the Commonwealth of Puerto Rico, the Virgin Islands, American Samoa, Guam, the Trust Territory of the Pacific Islands, Wake Island, Johnston Island, the Canal Zone, or within the Outer Continental Shelf lands as defined in the Outer Continental Shelf Lands Act (67 Stat. 462, 43 U.S.C. 1331), where diving and related support operations are performed.
This standard applies to diving and related support operations conducted in connection with all types of work and employments, including general industry, construction, ship repairing, shipbuilding, shipbreaking and longshoring. However, this standard does not apply to any diving operation:
Performed solely for instructional purposes, using open-circuit, compressed-air SCUBA and conducted within the no-decompression limits;
Governed by 45 CFR Part 46 (Protection of Human Subjects, U.S. Department of Health and Human Services) or equivalent rules or regulations established by another federal agency, which regulate research, development, or related purposes involving human subjects.
Defined as scientific diving and which is under the direction and control of a diving program containing at least the following elements:
Performed solely for search, rescue, or related public safety purposes by or under the control of a governmental agency; or
Employers of recreational diving instructors and diving guides are not required to comply with the decompression-chamber requirements specified by paragraphs (b)(2) and (c)(3)(iii) of § 1910.423 and paragraph (b)(1) of § 1910.426 when they meet all of the following conditions:
The instructor or guide is engaging solely in recreational diving instruction or dive-guiding operations;
The instructor or guide is using a nitrox breathing-gas mixture consisting of a high percentage of oxygen (more than 22% by volume) mixed with nitrogen;
The instructor or guide is using an open-circuit, semi-closed-circuit, or closed-circuit self-contained underwater breathing apparatus (SCUBA); and
The employer of the instructor or guide is complying with all requirements of Appendix C of this subpart.
The instructor or guide is diving within the no-decompression limits in these operations;
An employer may deviate from the requirements of this standard to the extent necessary to prevent or minimize a situation which is likely to cause death, serious physical harm, or major environmental damage, provided that the employer:
Notifies the Area Director, Occupational Safety and Health Administration within 48 hours of the onset of the emergency situation indicating the nature of the emergency and extent of the deviation from the prescribed regulations; and
Upon request from the Area Director, submits such information in writing.
The employer shall be responsible for compliance with:
All provisions of this standard of general applicability; and
All requirements pertaining to specific diving modes to the extent diving operations in such modes are conducted.
[42 FR 37668, July 22, 1977, as amended at 47 FR 53365, Nov. 26, 1982; 58 FR 35310, June 30, 1993; 69 FR 7363, Feb. 17, 2004]
Bottom time: The total elapsed time measured in minutes from the time when the diver leaves the surface in descent to the time that the diver begins ascent.
Dive-guiding operations means leading groups of sports divers, who use an open-circuit, semi-closed-circuit, or closed-circuit self-contained underwater breathing apparatus, to local undersea diving locations for recreational purposes.
Dive location: A surface or vessel from which a diving operation is conducted.
No-decompression limits: The depth-time limits of the "no-decompression limits and repetitive dive group designation table for no-decompression air dives", U.S. Navy Diving Manual or equivalent limits which the employer can demonstrate to be equally effective.
Recreational diving instruction means training diving students in the use of recreational diving procedures and the safe operation of diving equipment, including an open-circuit, semi-closed-circuit, or closed-circuit self-contained underwater breathing apparatus, during dives.
Scientific diving means diving performed solely as a necessary part of a scientific, research, or educational activity by employees whose sole purpose for diving is to perform scientific research tasks. Scientific diving does not include performing any tasks usually associated with commercial diving such as: Placing or removing heavy objects underwater; inspection of pipelines and similar objects; construction; demolition; cutting or welding; or the use of explosives.
Surface-supplied air diving: A diving mode in which the diver in the water is supplied from the dive location with compressed air for breathing. Treatment table: A depth-time and breathing gas profile designed to treat decompression sickness.
The safe practices manual shall contain a copy of this standard and the employer's policies for implementing the requirements of this standard.
Safety procedures and checklists for diving operations;
Equipment procedures and checklists; and
Emergency procedures for fire, equipment failure, adverse environmental conditions, and medical illness and injury.
[42 FR 37668, July 22, 1977, as amended at 49 FR 18295, Apr. 30, 1984; 61 FR 5507, Feb. 13, 1996]
Assignments and responsibilities of the dive team members;
The employer shall comply with the following requirements prior to each diving operation, unless otherwise specified.
A list shall be kept at the dive location of the telephone or call numbers of the following:
An operational decompression chamber (if not at the dive location);
The nearest U.S. Coast Guard Rescue Coordination Center.
A first aid kit appropriate for the diving operation and approved by a physician shall be available at the dive location.
When used in a decompression chamber or bell, the first aid kit shall be suitable for use under hyperbaric conditions.
In addition to any other first aid supplies, an American Red Cross standard first aid handbook or equivalent, and a bag-type manual resuscitator with transparent mask and tubing shall be available at the dive location.
Planning of a diving operation shall include an assessment of the safety and health aspects of the following:
Diving equipment and systems;
Dive team assignments and physical fitness of dive team members (including any impairment known to the employer);
Repetitive dive designation or residual inert gas status of dive team members;
Decompression and treatment procedures (including altitude corrections); and
To minimize hazards to the dive team, diving operations shall be coordinated with other activities in the vicinity which are likely to interfere with the diving operation.
Any unusual hazards or environmental conditions likely to affect the safety of the diving operation; and
Any modifications to operating procedures necessitated by the specific diving operation.
Prior to making individual dive team member assignments, the employer shall inquire into the dive team member's current state of physical fitness, and indicate to the dive team member the procedure for reporting physical problems or adverse physiological effects during and after the dive.
The breathing gas supply system including reserve breathing gas supplies, masks, helmets, thermal protection, and bell handling mechanism (when appropriate) shall be inspected prior to each dive.
When diving from surfaces other than vessels in areas capable of supporting marine traffic, a rigid replica of the international code flag "A" at least one meter in height shall be displayed at the dive location in a manner which allows all-round visibility, and shall be illuminated during night diving operations.
[42 FR 37668, July 22, 1977, as amended at 47 FR 14706, Apr. 6, 1982; 54 FR 24334, June 7. 1989; 61 FR 5507, Feb. 13, 1996]
The employer shall comply with the following requirements which are applicable to each diving operation unless otherwise specified.
A means capable of supporting the diver shall be provided for entering and exiting the water.
The means provided for exiting the water shall extend below the water surface.
A means shall be provided to assist an injured diver from the water or into a bell.
An operational two-way voice communication system shall be used between:
Each surface-supplied air or mixed-gas diver and a dive team member at the dive location or bell (when provided or required); and
An operational, two-way communication system shall be available at the dive location to obtain emergency assistance.
Decompression, repetitive, and no-decompression tables (as appropriate) shall be at the dive location.
A depth-time profile, including when appropriate any breathing gas changes, shall be maintained for each diver during the dive including decompression.
Hand-held electrical tools and equipment shall be de-energized before being placed into or retrieved from the water.
Hand-held power tools shall not be supplied with power from the dive location until requested by the diver.
A current supply switch to interrupt the current flow to the welding or burning electrode shall be:
Tended by a dive team member in voice communication with the diver performing the welding or burning; and
Kept in the open position except when the diver is welding or burning.
Welding and burning cables, electrode holders, and connections shall be capable of carrying the maximum current required by the work, and shall be properly insulated.
Insulated gloves shall be provided to divers performing welding and burning operations.
Prior to welding or burning on closed compartments, structures or pipes, which contain a flammable vapor or in which a flammable vapor may be generated by the work, they shall be vented, flooded, or purged with a mixture of gases which will not support combustion.
Employers shall transport, store, and use explosives in accordance with this section and the applicable provisions of 1910.109 and 1926.912 of Title 29 of the Code of Federal Regulations.
Electrical continuity of explosive circuits shall not be tested until the diver is out of the water.
Explosives shall not be detonated while the diver is in the water.
The working interval of a dive shall be terminated when:
A diver fails to respond correctly to communications or signals from a dive team member;
Communications are lost and can not be quickly re-established between the diver and a dive team member at the dive location, and between the designated person-in-charge and the person controlling the vessel in liveboating operations; or
A diver begins to use diver-carried reserve breathing gas or the dive-location reserve breathing gas.
The employer shall comply with the following requirements which are applicable after each diving operation, unless otherwise specified.
For any dive outside the no-decompression limits, deeper than 100 fsw or using mixed gas as a breathing mixture, the employer shall instruct the diver to remain awake and in the vicinity of the decompression chamber which is at the dive location for at least one hour after the dive (including decompression or treatment as appropriate).
A decompression chamber capable of recompressing the diver at the surface to a minimum of 165 fsw (6 ATA) shall be available at the dive location for:
Surface-supplied air diving to depths deeper than 100 fsw and shallower than 220 fsw;
Diving outside the no-decompression limits shallower than 300 fsw.
Mixed gas diving shallower than 300 fsw; or
A decompression chamber capable of recompressing the diver at the surface to the maximum depth of the dive shall be available at the dive location for dives deeper than 300 fsw.
A pressure gauge for each pressurized compartment designed for human occupancy;
A two-way voice communication system between occupants and a dive team member at the dive location;
A built-in-breathing-system with a minimum of one mask per occupant;
Treatment tables, treatment gas appropriate to the diving mode, and sufficient gas to conduct treatment shall be available at the dive location.
A dive team member shall be available at the dive location during and for at least one hour after the dive to operate the decompression chamber (when required or provided).
Employers engaged in SCUBA diving shall comply with the following requirements, unless otherwise specified.
SCUBA diving shall not be conducted:
At depths deeper than 100 fsw or outside the no-decompression limits unless a decompression chamber is ready for use;
Against currents exceeding one (1) knot unless line-tended; or
In enclosed or physically confining spaces unless line-tended.
A diver shall be line-tended from the surface, or accompanied by another diver in the water in continuous visual contact during the diving operations.
A diver shall be stationed at the underwater point of entry when diving is conducted in enclosed or physically confining spaces.
A diver-carried reserve breathing gas supply shall be provided for each diver consisting of:
An independent reserve cylinder with a separate regulator or connected to the underwater breathing apparatus.
The valve of the reserve breathing gas supply shall be in the closed position prior to the dive.
Employers engaged in surface-supplied air diving shall comply with the following requirements, unless otherwise specified.
Surface-supplied air diving shall not be conducted at depths deeper than 190 fsw, except that dives with bottom times of 30 minutes or less may be conducted to depths of 220 fsw.
A decompression chamber shall be ready for use at the dive location for any dive outside the no-decompression limits or deeper than 100 fsw.
A bell shall be used for dives with an inwater decompression time greater than 120 minutes, except when heavy gear is worn or diving is conducted in physically confining spaces.
Each diver shall be continuously tended while in the water.
Each diving operation shall have a primary breathing gas supply sufficient to support divers for the duration of the planned dive including decompression.
A separate dive team member shall tend each diver in the water;
A diver-carried reserve breathing gas supply shall be provided for each diver except when heavy gear is worn; and
A dive-location reserve breathing gas supply shall be provided.
A standby diver shall be available while a diver is in the water;
For heavy-gear diving deeper than 100 fsw or outside the no-decompression limits:
An extra breathing gas hose capable of supplying breathing gas to the diver in the water shall be available to the standby diver.
An inwater stage shall be provided to divers in the water.
Except when heavy gear is worn or where physical space does not permit, a diver-carried reserve breathing gas supply shall be provided whenever the diver is prevented by the configuration of the dive area from ascending directly to the surface.
Employers engaged in mixed-gas diving shall comply with the following requirements, unless otherwise specified.
Mixed-gas diving shall be conducted only when:
A decompression chamber is ready for use at the dive location; and
A bell is used at depths greater than 220 fsw or when the dive involves inwater decompression time of greater than 120 minutes, except when heavy gear is worn or when diving in physically confining spaces; or
A closed bell is used at depths greater than 300 fsw, except when diving is conducted in physically confining spaces.
A separate dive team member shall tend each diver in the water.
Each diving operation shall have a dive-location reserve breathing gas supply.
An extra breathing gas hose capable of supplying breathing gas to the diver in the water shall be available to the standby diver; and
An inwater stage shall be provided for divers without access to a bell for dives deeper than 100 fsw or outside the no-decompression limits.
When a closed bell is used, one dive team member in the bell shall be available and tend the diver in the water.
Except when heavy gear is worn or where physical space does not permit, a diver-carried reserve breathing gas supply shall be provided for each diver:
Diving deeper than 100 fsw or outside the no-decompression limits; or
Prevented by the configuration of the dive area from directly ascending to the surface.
In rough seas which significantly impede diver mobility or work function; or
All employers shall comply with the following requirements, unless otherwise specified.
Each equipment modification, repair, test, calibration or maintenance service shall be recorded by means of a tagging or logging system, and include the date and nature of work performed, and the name or initials of the person performing the work.
Compressors used to supply air to the diver shall be equipped with a volume tank with a check valve on the inlet side, a pressure gauge, a relief valve, and a drain valve.
Air compressor intakes shall be located away from areas containing exhaust or other contaminants.
The output of air compressor systems shall be tested for air purity every 6 months by means of samples taken at the connection to the distribution system, except that non-oil lubricated compressors need not be tested for oil mist.
Have a working pressure at least equal to the working pressure of the total breathing gas system;
Be tested at least annually to 1.5 times their working pressure; and
Have their open ends taped, capped or plugged when not in use.
Have a rated bursting pressure at least equal to 4 times the working pressure;
Have a working pressure at least equal to the working pressure of the hose to which they are attached; and
Be marked in 10-ft. increments to 100 feet beginning at the diver's end, and in 50 ft. increments thereafter;
Have a working pressure greater than the pressure equivalent to the maximum depth of the dive (relative to the supply source) plus 100 psi.
Be made of kink-resistant materials; and
Helmets or masks connected directly to the dry suit or other buoyancy-changing equipment shall be equipped with an exhaust valve.
A dry suit or other buoyancy-changing equipment not directly connected to the helmet or mask shall be equipped with an exhaust valve.
When used for SCUBA diving, a buoyancy compensator shall have an inflation source separate from the breathing gas supply.
An inflatable flotation device capable of maintaining the diver at the surface in a face-up position, having a manually activated inflation source independent of the breathing supply, an oral inflation device, and an exhaust valve shall be used for SCUBA diving.
Compressed gas cylinders shall:
Be designed, constructed and maintained in accordance with the applicable provisions of 29 CFR 1910.101 and 1910.169 through 1910.171.
Be stored in a ventilated area and protected from excessive heat;
Have shut-off valves recessed into the cylinder or protected by a cap, except when in use or manifolded, or when used for SCUBA diving.
Each decompression chamber manufactured after the effective date of this standard, shall be built and maintained in accordance with the ASME Code or equivalent.
Each decompression chamber manufactured prior to the effective date of this standard shall be maintained in conformity with the code requirements to which it was built, or equivalent.
Means to maintain the atmosphere below a level of 25 percent oxygen by volume;
Suction guards on exhaust line openings; and
A means for extinguishing fire, and shall be maintained to minimize sources of ignition and combustible material.
Mufflers on intake and exhaust lines, which shall be regularly inspected and maintained;
Gauges indicating diver depth which can be read at the dive location shall be used for all dives except SCUBA.
Each depth gauge shall be deadweight tested or calibrated against a master reference gauge every 6 months, and when there is a discrepancy greater than two percent (2 percent) of full scale between any two equivalent gauges.
A cylinder pressure gauge capable of being monitored by the diver during the dive shall be worn by each SCUBA diver.
A timekeeping device shall be available at each dive location.
Surface-supplied air and mixed-gas masks and helmets shall have:
A non-return valve at the attachment point between helmet or mask and hose which shall close readily and positively; and
Surface-supplied air masks and helmets shall have a minimum ventilation rate capability of 4.5 acfm at any depth at which they are operated or the capability of maintaining the diver's inspired carbon dioxide partial pressure below 0.02 ATA when the diver is producing carbon dioxide at the rate of 1.6 standard liters per minute.
Equipment used with oxygen or mixtures containing over forty percent (40%) by volume oxygen shall be designed for oxygen service.
Components (except umbilicals) exposed to oxygen or mixtures containing over forty percent (40%) by volume oxygen shall be cleaned of flammable materials before use.
Oxygen systems over 125 psig and compressed air systems over 500 psig shall have slow-opening shut-off valves.
Except when heavy gear is worn, divers shall be equipped with a weight belt or assembly capable of quick release.
Except when heavy gear is worn or in SCUBA diving, each diver shall wear a safety harness with:
A lifting point to distribute the pull force of the line over the diver's body.
[39 FR 23502, June 27, 1974, as amended at 49 FR 18295, Apr. 30, 1984; 51 FR 33033, Sept. 18, 1986; 61 FR 5507, Feb. 13, 1996]
An attachment point for the umbilical to prevent strain on the mask or helmet; and
The employer shall record the occurrence of any diving-related injury or illness which requires any dive team member to be hospitalized for 24 hours or more, specifying the circumstances of the incident and the extent of any injuries or illnesses.
Upon the request of the Assistant Secretary of Labor for Occupational Safety and Health, or the Director, National Institute for Occupational Safety and Health, Department of Health and Human Services of their designees, the employer shall make available for inspection and copying any record or document required by this standard.
Records and documents required by this standard shall be provided upon request to employees, designated representatives, and the Assistant Secretary in accordance with 29 CFR 1910.1020 (a)-(e) and (g)-
Safe practices manuals (1910.420), depth-time profiles (1910.422), recordings of dives (1910.423), decompression procedure assessment evaluations (1910.423), and records of hospitalizations (1910.440) shall be provided in the same manner as employee exposure records or analyses using exposure or medical records. Equipment inspections and testing records which pertain to employees (1910.430) shall also be provided upon request to employees and their designated representatives.
Records and documents required by this standard shall be retained by the employer for the following period:
Depth-time profile (1910.422) - until completion of the recording of dive, or until completion of decompression procedure assessment where there has been an incident of decompression sickness;
Recording of dive (1910.423) - 1 year, except 5 years where there has been an incident of decompression sickness;
Decompression procedure assessment evaluations (1910.423) - 5 years;
Equipment inspections and testing records (1910.430) - current entry or tag, or until equipment is withdrawn from service;
Records of hospitalizations (1910.440) - 5 years.
Safe practices manual (1910.420) - current document only;
The employer shall comply with any additional requirements set forth at 29 CFR 1910.1020,
[42 FR 37668, July 22, 1977, as amended at 45 FR 35281, May 23, 1980; 47 FR 14706, Apr. 6, 1982; 51 FR 34562, Sept. 29, 1986; 61 FR 5507, Feb. 13, 1996; 61 FR 9227, March 7, 1996; 71 FR 16672, April 3, 2006; 76 FR 33607, June 8, 2011; 76 FR 80740, Dec. 27, 2011]
Subpart T App A - Examples of conditions which may restrict or limit exposure to hyperbaric conditions
Subpart T App B - Guidelines for scientific diving
This appendix contains guidelines that will be used in conjunction with 1910.401(a)(2)(iv) to determine those scientific diving programs which are exempt from the requirements for commercial diving. The guidelines are as follows:
Scientific divers, based on the nature of their activities, must use scientific expertise in studying the underwater environment and, therefore, are scientists or scientists in training.
[ 50 FR 1050, Jan. 9, 1985]
Subpart T App C - Alternative Conditions Under 1910.401(a)(3) for Recreational Diving Instructors and Diving Guides (Mandatory)
Appendix C to Subpart T of Part 1910 -- Alternative Conditions Under § 1910.401(a)(3) for Recreational Diving Instructors and Diving Guides (Mandatory)
Paragraph (a)(3) of § 1910.401 specifies that an employer of recreational diving instructors and diving guides (hereafter, “divers” or “employees”) who complies with all of the conditions of this appendix need not provide a decompression chamber for these divers as required under §§ 1910.423(b)(2) or (c)(3) or 1910.426(b)(1).
Equipment Requirements for Rebreathers
The employer must ensure that each employee operates the rebreather (i.e., semi-closed-circuit and closed-circuit self-contained underwater breathing apparatuses (hereafter, “SCUBAs”)) according to the rebreather manufacturer's instructions.
The employer must ensure that each rebreather has a counterlung that supplies a sufficient volume of breathing gas to their divers to sustain the divers' respiration rates, and contains a baffle system and/or other moisture separating system that keeps moisture from entering the scrubber.
The employer must place a moisture trap in the breathing loop of the rebreather, and ensure that:
The rebreather manufacturer approves both the moisture trap and its location in the breathing loop; and
Each employee uses the moisture trap according to the rebreather manufacturer's instructions.
The employer must ensure that each rebreather has a continuously functioning moisture sensor, and that:
The moisture sensor connects to a visual (e.g., digital, graphic, analog) or auditory (e.g., voice, pure tone) alarm that is readily detectable by the diver under the diving conditions in which the diver operates, and warns the diver of moisture in the breathing loop in sufficient time to terminate the dive and return safely to the surface; and
Each diver uses the moisture sensor according to the rebreather manufacturer's instructions.
The employer must ensure that each rebreather contains a continuously functioning CO2 sensor in the breathing loop, and that:
The rebreather manufacturer approves the location of the CO2 sensor in the breathing loop;
The CO2 sensor is integrated with an alarm that operates in a visual (e.g., digital, graphic, analog) or auditory (e.g., voice, pure tone) mode that is readily detectable by each diver under the diving conditions in which the diver operates; and
The CO2 alarm remains continuously activated when the inhaled CO2 level reaches and exceeds 0.005 atmospheres absolute (ATA).
Before each day's diving operations, and more often when necessary, the employer must calibrate the CO2 sensor according to the sensor manufacturer's instructions, and ensure that:
The equipment and procedures used to perform this calibration are accurate to within 10% of a CO2 concentration of 0.005 ATA or less;
The equipment and procedures maintain this accuracy as required by the sensor manufacturer's instructions; and
The calibration of the CO2 sensor is accurate to within 10% of a CO2 concentration of 0.005 ATA or less.
The employer must replace the CO2 sensor when it fails to meet the accuracy requirements specified in paragraph 1(f)(iii) of this appendix, and ensure that the replacement CO2 sensor meets the accuracy requirements specified in paragraph 1(f)(iii) of this appendix before placing the rebreather in operation.
As an alternative to using a continuously functioning CO2 sensor, the employer may use a schedule for replacing CO2-sorbent material provided by the rebreather manufacturer. The employer may use such a schedule only when the rebreather manufacturer has developed it according to the canister-testing protocol specified below in Condition 11, and must use the canister within the temperature range for which the manufacturer conducted its scrubber canister tests following that protocol. Variations above or below the range are acceptable only after the manufacturer adds that lower or higher temperature to the protocol.
When using CO2-sorbent replacement schedules, the employer must ensure that each rebreather uses a manufactured (i.e., commercially pre-packed), disposable scrubber cartridge containing a CO2-sorbent material that:
Is approved by the rebreather manufacturer;
Removes CO2 from the diver's exhaled gas; and
Maintains the CO2 level in the breathable gas (i.e., the gas that a diver inhales directly from the regulator) below a partial pressure of 0.01 ATA.
As an alternative to manufactured, disposable scrubber cartridges, the employer may fill CO2 scrubber cartridges manually with CO2-sorbent material when:
The rebreather manufacturer permits manual filling of scrubber cartridges;
The employer fills the scrubber cartridges according to the rebreather manufacturer's instructions;
The employer replaces the CO2-sorbent material using a replacement schedule developed under paragraph 1(h) of this appendix; and
The employer demonstrates that manual filling meets the requirements specified in paragraph 1(i) of this appendix.
The employer must ensure that each rebreather has an information module that provides:
A visual (e.g., digital, graphic, analog) or auditory (e.g., voice, pure tone) display that effectively warns the diver of solenoid failure (when the rebreather uses solenoids) and other electrical weaknesses or failures (e.g., low battery voltage);
For a semi-closed circuit rebreather, a visual display for the partial pressure of CO2, or deviations above and below a preset CO2 partial pressure of 0.005 ATA; and
For a closed-circuit rebreather, a visual display for: partial pressures of O2 and CO2, or deviations above and below a preset CO2 partial pressure of 0.005 ATA and a preset O2 partial pressure of 1.40 ATA or lower; gas temperature in the breathing loop; and water temperature.
Before each day's diving operations, and more often when necessary, the employer must ensure that the electrical power supply and electrical and electronic circuits in each rebreather are operating as required by the rebreather manufacturer's instructions.
Special Requirements for Closed-Circuit Rebreathers
The employer must ensure that each closed-circuit rebreather uses supply-pressure sensors for the O2 and diluent (i.e., air or nitrogen) gases and continuously functioning sensors for detecting temperature in the inhalation side of the gas-loop and the ambient water.
At least two O2 sensors are located in the inhalation side of the breathing loop; and
The O2 sensors are: functioning continuously; temperature compensated; and approved by the rebreather manufacturer.
Before each day's diving operations, and more often when necessary, the employer must calibrate O2 sensors as required by the sensor manufacturer's instructions. In doing so, the employer must:
Ensure that the equipment and procedures used to perform the calibration are accurate to within 1% of the O2 fraction by volume;
Maintain this accuracy as required by the manufacturer of the calibration equipment;
Ensure that the sensors are accurate to within 1% of the O2 fraction by volume;
Replace O2 sensors when they fail to meet the accuracy requirements specified in paragraph 2(c)(iii) of this appendix; and
Ensure that the replacement O2 sensors meet the accuracy requirements specified in paragraph 2(c)(iii) of this appendix before placing a rebreather in operation.
The employer must ensure that each closed-circuit rebreather has:
A gas-controller package with electrically operated solenoid O2-supply valves;
A pressure-activated regulator with a second-stage diluent-gas addition valve;
A manually operated gas-supply bypass valve to add O2 or diluent gas to the breathing loop; and
Separate O2 and diluent-gas cylinders to supply the breathing-gas mixture.
O2 Concentration in the Breathing Gas
Is greater than the fraction of O2 in compressed air (i.e., exceeds 22% by volume);
For open-circuit SCUBA, never exceeds a maximum fraction of breathable O2 of 40% by volume or a maximum O2 partial pressure of 1.40 ATA, whichever exposes divers to less O2; and
For a rebreather, never exceeds a maximum O2 partial pressure of 1.40 ATA.
Regulating O2 Exposures and Diving Depth
Regarding O2 exposure, the employer must:
Ensure that the exposure of each diver to partial pressures of O2 between 0.60 and 1.40 ATA does not exceed the 24-hour single-exposure time limits specified either by the 2001 National Oceanic and Atmospheric Administration Diving Manual (the “2001 NOAA Diving Manual”), or by the report entitled “Enriched Air Operations and Resource Guide” published in 1995 by the Professional Association of Diving Instructors (known commonly as the “1995 DSAT Oxygen Exposure Table”); and
Determine a diver's O2-exposure duration using the diver's maximum O2 exposure (partial pressure of O2) during the dive and the total dive time (i.e., from the time the diver leaves the surface until the diver returns to the surface).
Regardless of the diving equipment used, the employer must ensure that no diver exceeds a depth of 130 feet of sea water (“fsw”) or a maximum O2 partial pressure of 1.40 ATA, whichever exposes the diver to less O2.
Use of No-Decompression Limits
For diving conducted while using nitrox breathing-gas mixtures, the employer must ensure that each diver remains within the no-decompression limits specified for single and repetitive air diving and published in the 2001 NOAA Diving Manual or the report entitled “Development and Validation of No-Stop Decompression Procedures for Recreational Diving: The DSAT Recreational Dive Planner,” published in 1994 by Hamilton Research Ltd. (known commonly as the “1994 DSAT No-Decompression Tables”).
An employer may permit a diver to use a dive-decompression computer designed to regulate decompression when the dive-decompression computer uses the no-decompression limits specified in paragraph 5(a) of this appendix, and provides output that reliably represents those limits.
Mixing and Analyzing the Breathing Gas
Properly trained personnel mix nitrox-breathing gases, and that nitrogen is the only inert gas used in the breathing-gas mixture; and
When mixing nitrox-breathing gases, they mix the appropriate breathing gas before delivering the mixture to the breathing-gas cylinders, using the continuous-flow or partial-pressure mixing techniques specified in the 2001 NOAA Diving Manual, or using a filter-membrane system.
Before the start of each day's diving operations, the employer must determine the O2 fraction of the breathing-gas mixture using an O2 analyzer. In doing so, the employer must:
Ensure that the O2 analyzer is accurate to within 1% of the O2 fraction by volume.
Maintain this accuracy as required by the manufacturer of the analyzer.
When the breathing gas is a commercially supplied nitrox breathing-gas mixture, the employer must ensure that the O2 meets the medical USP specifications (Type I, Quality Verification Level A) or aviator's breathing-oxygen specifications (Type I, Quality Verification Level E) of CGA G-4.3-2000 (“Commodity Specification for Oxygen”). In addition, the commercial supplier must:
Determine the O2 fraction in the breathing-gas mixture using an analytic method that is accurate to within 1% of the O2 fraction by volume;
Make this determination when the mixture is in the charged tank and after disconnecting the charged tank from the charging apparatus;
Include documentation of the O2-analysis procedures and the O2 fraction when delivering the charged tanks to the employer.
Before producing nitrox breathing-gas mixtures using a compressor in which the gas pressure in any system component exceeds 125 pounds per square inch (psi), the:
Compressor manufacturer must provide the employer with documentation that the compressor is suitable for mixing high-pressure air with the highest O2 fraction used in the nitrox breathing-gas mixture when operated according to the manufacturer's operating and maintenance specifications;
Employer must comply with paragraph 6(e) of this appendix, unless the compressor is rated for O2 service and is oil-less or oil-free; and
Employer must ensure that the compressor meets the requirements specified in paragraphs (i)(1) and (i)(2) of § 1910.430 whenever the highest O2 fraction used in the mixing process exceeds 40%.
Before producing nitrox breathing-gas mixtures using an oil-lubricated compressor to mix high-pressure air with O2, and regardless of the gas pressure in any system component, the:
Employer must use only uncontaminated air (i.e., air containing no hydrocarbon particulates) for the nitrox breathing-gas mixture;
Compressor manufacturer must provide the employer with documentation that the compressor is suitable for mixing the high-pressure air with the highest O2 fraction used in the nitrox breathing-gas mixture when operated according to the manufacturer's operating and maintenance specifications;
Employer must filter the high-pressure air to produce O2-compatible air;
The filter-system manufacturer must provide the employer with documentation that the filter system used for this purpose is suitable for producing O2-compatible air when operated according to the manufacturer's operating and maintenance specifications; and
Employer must continuously monitor the air downstream from the filter for hydrocarbon contamination.
The employer must ensure that diving equipment using nitrox breathing-gas mixtures or pure O2 under high pressure (i.e., exceeding 125 psi) conforms to the O2-service requirements specified in paragraphs (i)(1) and (i)(2) of § 1910.430.
Regardless of the type of diving equipment used by a diver (i.e., open-circuit SCUBA or rebreathers), the employer must ensure that the equipment contains (or incorporates) an open-circuit emergency-egress system (a “bail-out” system) in which the second stage of the regulator connects to a separate supply of emergency breathing gas, and the emergency breathing gas consists of air or the same nitrox breathing-gas mixture used during the dive.
As an alternative to the “bail-out” system specified in paragraph 7(a) of this appendix, the employer may use:
For open-circuit SCUBA, an emergency-egress system as specified in § 1910.424(c)(4); or
For a semi-closed-circuit and closed-circuit rebreather, a system configured so that the second stage of the regulator connects to a reserve supply of emergency breathing gas.
The employer must obtain from the rebreather manufacturer sufficient information to ensure that the bail-out system performs reliably and has sufficient capacity to enable the diver to terminate the dive and return safely to the surface.
Treating Diving-Related Medical Emergencies
Before each day's diving operations, the employer must:
Verify that a hospital, qualified health-care professionals, and the nearest Coast Guard Coordination Center (or an equivalent rescue service operated by a state, county, or municipal agency) are available to treat diving-related medical emergencies;
Ensure that each dive site has a means to alert these treatment resources in a timely manner when a diving-related medical emergency occurs; and
Ensure that transportation to a suitable decompression chamber is readily available when no decompression chamber is at the dive site, and that this transportation can deliver the injured diver to the decompression chamber within four (4) hours travel time from the dive site.
The employer must ensure that portable O2 equipment is available at the dive site to treat injured divers. In doing so, the employer must ensure that:
The equipment delivers medical-grade O2 that meets the requirements for medical USP oxygen (Type I, Quality Verification Level A) of CGA G-4.3-2000 (“Commodity Specification for Oxygen”);
The equipment delivers this O2 to a transparent mask that covers the injured diver's nose and mouth; and
Sufficient O2 is available for administration to the injured diver from the time the employer recognizes the symptoms of a diving-related medical emergency until the injured diver reaches a decompression chamber for treatment.
Ensure that at least two attendants, either employees or non-employees, qualified in first-aid and administering O2 treatment, are available at the dive site to treat diving-related medical emergencies; and
Verify their qualifications for this task.
Diving Logs and No-Decompression Tables
Before starting each day's diving operations, the employer must:
Designate an employee or a non-employee to make entries in a diving log; and
Verify that this designee understands the diving and medical terminology, and proper procedures, for making correct entries in the diving log.
Ensure that the diving log conforms to the requirements specified by paragraph (d) (“Record of dive”) of § 1910.423; and
Maintain a record of the dive according to § 1910.440 (“Recordkeeping requirements”).
The employer must ensure that a hard-copy of the no-decompression tables used for the dives (as specified in paragraph 6(a) of this appendix) is readily available at the dive site, whether or not the divers use dive-decompression computers.
Testing Protocol for Determining the CO2 Limits of Rebreather Canisters
The employer must ensure that the rebreather manufacturer has used the following procedures for determining that the CO2-sorbent material meets the specifications of the sorbent material's manufacturer:
The North Atlantic Treating Organization CO2 absorbent-activity test;
The RoTap shaker and nested-sieves test;
The Navy Experimental Diving Unit (“NEDU”)-derived Schlegel test; and
The NEDU MeshFit software.
The employer must ensure that the rebreather manufacturer has applied the following canister-testing materials, methods, procedures, and statistical analyses:
Use of a nitrox breathing-gas mixture that has an O2 fraction maintained at 0.28 (equivalent to 1.4 ATA of O2 at 130 fsw, the maximum O2 concentration permitted at this depth);
While operating the rebreather at a maximum depth of 130 fsw, use of a breathing machine to continuously ventilate the rebreather with breathing gas that is at 100% humidity and warmed to a temperature of 98.6 degrees F (37 degrees C) in the heating-humidification chamber;
Measurement of the O2 concentration of the inhalation breathing gas delivered to the mouthpiece;
Testing of the canisters using the three ventilation rates listed in Table I below (with the required breathing-machine tidal volumes and frequencies, and CO2-injection rates, provided for each ventilation rate):
Table I - Canister Testing Parameters
Ventilation rates (Lpm, ATPS,1)
tidal volumes (L)
CO2 injection rates
(Lpm, STPD,2)
22.5 1.5 15 0.90
40.0 2.0 20 1.35
62.5 2.5 25 2.25
1 ATPS means ambient temperature and pressure, saturated with water.
2 STPD means standard temperature and pressure, dry; the standard temperature is 32 degrees F (0 degrees C).
When using a work rate (i.e., breathing-machine tidal volume and frequency) other than the work rates listed in the table above, addition of the appropriate combinations of ventilation rates and CO2-injection rates;
Performance of the CO2 injection at a constant (steady) and continuous rate during each testing trial;
Determination of canister duration using a minimum of four (4) water temperatures, including 40, 50, 70, and 90 degrees F (4.4, 10.0, 21.1, and 32.2 degrees C, respectively);
Monitoring of the breathing-gas temperature at the rebreather mouthpiece (at the “chrome T” connector), and ensuring that this temperature conforms to the temperature of a diver's exhaled breath at the water temperature and ventilation rate used during the testing trial; 1
Footnote (1) NEDU can provide the manufacturer with information on the temperature of a diver's exhaled breath at various water temperatures and ventilation rates, as well as techniques and procedures used to maintain these temperatures during the testing trials.
Implementation of at least eight (8) testing trials for each combination of temperature and ventilation-CO2-injection rates (for example, eight testing trials at 40 degrees F using a ventilation rate of 22.5 Lpm at a CO2-injection rate of 0.90 Lpm);
Allowing the water temperature to vary no more than ±2.0 degrees F (±1.0 degree C) between each of the eight testing trials, and no more than ±1.0 degree F (±0.5 degree C) within each testing trial;
Use of the average temperature for each set of eight testing trials in the statistical analysis of the testing-trial results, with the testing-trial results being the time taken for the inhaled breathing gas to reach 0.005 ATA of CO2 (i.e., the canister-duration results);
Analysis of the canister-duration results using the repeated-measures statistics described in NEDU Report 2-99;
Specification of the replacement schedule for the CO2-sorbent materials in terms of the lower prediction line (or limit) of the 95% confidence interval; and
Derivation of replacement schedules only by interpolating among, but not by extrapolating beyond, the depth, water temperatures, and exercise levels used during canister testing.
[ 69 FR 7363, Feb. 17, 2004]