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Commercial Diving & Marine Construction Work SWMS

CIH-reviewed Commercial Diving & Marine Construction SWMS — inshore SSBA diving, underwater welding, dredging, marine pile-driving. AS/NZS 2299 series and AMSA-aligned. State variants for all coastal jurisdictions.

⚖️WHS Regulation 2025 & Codes of Practice — legally binding from 1 July 2026 (s26A)

👷Reviewed by certified occupational health and safety professionals

🗺️State-specific variants for all 8 Australian jurisdictions

$199 AUD✓ Instant Download AvailableYour state

SWMS variants reference your state’s WHS legislation. Instant download after payment.

Commercial diving and marine construction encompasses surface-supplied breathing apparatus (SSBA) diving operations, underwater wet welding and cutting, dredging, marine pile-driving, and subsea inspection works conducted in inshore, harbour, and coastal environments. These activities sit within the highest-risk category of construction work under WHS Regulation 2025, triggering multiple High Risk Construction Work (HRCW) classifications including diving work, work in or near water with drowning risk, and operation of powered mobile plant on floating platforms. A Safe Work Method Statement is mandatory before any worker enters the water, mobilises a dive spread, or commences pile-driving from a barge — and must be prepared in consultation with the dive supervisor, dive team, vessel master, and principal contractor. This SWMS aligns with AS/NZS 2299.1:2015 (Occupational diving operations), AMSA Maritime Orders, and the Marine Safety (Domestic Commercial Vessel) National Law Act 2012, addressing the convergence of diving, maritime, and construction WHS duties unique to this sector.

Hazards identified

7 hazards covered, sorted by priority.

Decompression sickness (DCS) from rapid ascent or repetitive dive profile breachHIGH

Type II DCS with neurological deficit, paralysis, recompression chamber treatment, potential permanent disability or fatality

Drowning from umbilical entanglement, fouling on submerged structures or loss of breathing gasHIGH

Asphyxiation, hypoxic brain injury within four minutes, fatality, coronial inquest and PCBU prosecution under s32 WHS Act

Electric shock during underwater wet welding from stray DC current or faulty stinger insulationHIGH

Cardiac arrest underwater, secondary drowning, severe burns to hands and torso, mandatory notifiable incident

Differential pressure (delta-P) entrapment near dredge intakes, culverts or open sea-chest valvesHIGH

Diver pinned against intake with crushing force exceeding 10 tonnes, immediate fatality, body recovery hazard

Pile-driver strike or load swing from crane barge during simultaneous diving operationsHIGH

Blunt force trauma, crush injury to diver in water column, vessel/crane crush against jetty structure

Hyperbaric oxygen toxicity and nitrogen narcosis at depths beyond 30 metres on air mixturesMEDIUM

Loss of consciousness underwater, convulsions, regulator loss, drowning, requirement for nitrox or mixed gas planning

Marine vessel collision and propeller strike from third-party traffic in unsecured exclusion zoneMEDIUM

Severance injuries, fatality, vessel sinking, AMSA marine incident notification and joint WHS/maritime investigation

Control measures

Hierarchy-of-controls order: elimination → substitution → isolation → engineering → administrative → PPE.

1Elimination — Eliminate diver intervention by deploying ROV or remote tooling for inspection, cleaning and light intervention tasks wherever survey or intervention objectives permit.
2Elimination — Schedule pile-driving and dredging in separate shifts to diving operations, prohibiting any simultaneous operations (SIMOPS) within a 50-metre exclusion radius.
3Substitution — Substitute air diving with surface-supplied nitrox for dives between 20–40 metres to reduce nitrogen loading and extend no-decompression limits per AS/NZS 2299.1 Section 5.
4Substitution — Replace wet welding with dry hyperbaric habitat welding or topside fabrication and underwater bolted connections where structural class and program permit.
5Engineering — Install positive lockout-tagout on all dredge pumps, intakes and sea-chests with verified zero-flow confirmation before diver entry, per delta-P risk assessment.
6Engineering — Deploy two-diver SSBA spread with through-water voice comms, hot-water suits, bailout cylinder rated for full ascent, and standby diver dressed-in and ready within 30 seconds.
7Administrative — Conduct dive supervisor pre-dive brief using this SWMS, JSEA and dive plan; verify dive log, gas inventory, chamber availability within 2 hours and DCIEM/USN tables for profile.
8Administrative — Establish marine exclusion zone with Notice to Mariners, Securité broadcast on VHF Ch 16, dive flag Alpha displayed and surface guard vessel maintaining 360° watch.
9PPE — Issue AS/NZS 2299.1-compliant SSBA helmet (Kirby Morgan or equivalent), hot-water suit, weight harness with quick-release, dive knife, and bailout bottle for every working diver.
10PPE — Topside crew wear AS/NZS 4758 Level 100 PFDs, AS/NZS 1801 hard hats, cut-resistant gloves for umbilical tending and AS/NZS 1337 eye protection during welding cable handling.

Applicable Codes of Practice

AS/NZS 2299.1:2015 Occupational diving operations — Part 1: Standard operational practice⚖ Legally binding · 1 Jul 2026

Mandates dive team composition, supervisor competency, gas supply redundancy, decompression tables and emergency procedures for all commercial SSBA diving works.

WHS Regulation 2025 Part 4.8 — Diving Work (Divisions 1–4)⚖ Legally binding · 1 Jul 2026

Imposes PCBU duties for dive safety log, medical certificates, competency verification under AS/NZS 2815 and incident notification for all general diving work.

AMSA Marine Order 505 (Certificates of competency — national law) 2013

Requires vessel master and crew of dive support vessels under 35m to hold appropriate Certificates of Competency and comply with safety management system requirements.

Safe Work Australia Code of Practice — Construction Work (2024)⚖ Legally binding · 1 Jul 2026

Defines marine pile-driving and underwater construction as high-risk construction work, triggering SWMS preparation, consultation and review duties under WHS Reg s299.

High-Risk Construction Work triggered

Diving work

All SSBA inshore diving, underwater welding and subsea inspection meets the Schedule 1 definition of diving work irrespective of depth or duration.

Work carried out in or near water or other liquid where there is a risk of drowning

Topside crew, riggers and pile-driver operators work on barges, jetties and vessels with continuous fall-into-water and drowning exposure during marine construction.

Work involving the use of powered mobile plant

Crane barges, hydraulic pile hammers, cutter-suction dredges and dive support vessels constitute powered mobile plant operating within the active worksite.

Legal consequence

PCBU must prepare SWMS before work starts, consult dive team and crew, retain records for two years (seven if notifiable incident occurs); maximum penalties under WHS Act Category 1 are substantial and indexed, with current maximum following the prevailing WHS schedule.

Who this is for

→Commercial dive contractors on port and harbour works
→Marine construction PCBUs delivering wharf and jetty projects
→Dredging contractors on coastal navigation and reclamation works
→Subsea inspection and IRM contractors servicing offshore assets

What you receive

✓Editable DOCX template — Microsoft Word compatible
✓State-specific WHS legislation schedule (NSW/VIC/QLD/SA/WA/TAS/NT/ACT)
✓Hazard register with risk ratings + hierarchy-of-control mapping
✓Worker sign-on register, pre-start checklist, and incident escalation flow

Worked example

On a wharf refurbishment project at a regional commercial port, the dive supervisor convenes a pre-start brief at 0630 alongside the support vessel before a planned 14-metre SSBA inspection and anode replacement dive on a concrete pile cluster. The crew of two working divers, one standby diver, tender, and barge crane operator gathers around the dive control container. The supervisor opens this SWMS on the tablet and walks the team through each hazard line by line. When the underwater welding hazard line is reached, the team confirms wet welding is not scheduled — the control is therefore not engaged. However, the delta-P hazard prompts discussion: a nearby cooling water intake serves the adjacent fuel terminal. The supervisor pauses sign-on, calls the terminal operator on VHF to confirm pump lockout and zero-flow verification, then documents the confirmation in the SWMS amendment field. Each diver signs the document, acknowledging the dive plan, bailout procedure, and recompression chamber location (45 minutes away by road, within AS/NZS 2299.1 limits). Mid-dive, the tender reports the umbilical fouling on a tyre fender. The supervisor refers to the entanglement control, deploys the standby diver, and the working diver clears the umbilical without incident. The event is logged in the SWMS daily review section for the next shift handover.

Related legislation

WHS Act 2011 (model)
WHS Regulation 2025
AS 2550 — Cranes, hoists and winches; AS 1418 series

What's in this SWMS

Document details

Regulation

WHS Regulation 2025 (NSW) + state equivalents; AS/NZS 2299 series; AMSA Maritime Orders; Marine Safety (Domestic Commercial Vessel) National Law Act 2012

HRCW Category

HRCW Cat. 17 (work in/near water with drowning risk), Cat. 18 (diving work), Cat. 15 (powered mobile plant)

Hazards Identified

12 hazards with controls

Format

Editable DOCX (Microsoft Word)

Author

Certified Industrial Hygienist (CIH)

Delivery

Instant download after payment