Mobile Crane Operation Risk Assessment

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Product Overview

Identify and control organisational risks associated with Mobile Crane Operation at a management and systems level, ensuring your crane activities are planned, resourced and governed correctly before work begins. This Risk Assessment supports WHS Act due diligence, strengthens WHS Risk Management processes, and helps protect your business from regulatory and operational liability.

Risk Categories & Hazards Covered

This document assesses risks and outlines management controls for:

Governance & WHS Duties: Assessment of PCBU obligations, officer due diligence, safety leadership, consultation arrangements and verification of compliance for crane operations.
Crane Procurement & Design Suitability: Management of crane selection, design limitations, configuration control, safety features and alignment with intended operational environments.
Lift Planning & Task Risk Management: Development of engineering lift studies, critical lift criteria, pre‑lift risk reviews and approval processes for complex or non‑standard lifts.
Site Layout, Ground Conditions & Set‑Up Control: Assessment of ground bearing capacity, outrigger and matting requirements, exclusion zones, overhead services and site traffic interface during crane set‑up.
Crane Movement, Transport & Navigation: Management of road transport, mobilisation/demobilisation, on‑site travel paths, spotter use and controls for operating near people, plant and structures.
Operator Competency, Licensing & Training Systems: Verification of high‑risk work licences, VOC programs, refresher training, supervision levels and competency management for operators and doggers/riggers.
Safe Systems of Work & SWMS Integration: Coordination of procedures, lift plans, SWMS and JSA processes to ensure consistent, documented and authorised methods of work for crane operations.
Lifting Gear & Load Attachment Management: Control of slings, shackles, spreader bars and lifting devices, including inspection regimes, tagging systems, storage, retirement criteria and engineering verification.
Safety‑Critical Systems, Indicators & Limiters: Management of load moment indicators, anti‑two‑block devices, limit switches, alarms and interlocks, including testing, defect reporting and bypass controls.
Environmental, Wind & Weather Controls: Assessment of wind limits, lightning, temperature extremes, visibility, ground softening and weather‑related stop work criteria for crane operations.
Access, Egress & Working at Height: Control of access to the crane, ladders and platforms, fall‑prevention systems, rescue planning and housekeeping on decks, walkways and cabs.
Communication & Lift Coordination: Protocols for radio communication, hand signals, lift supervision, pre‑start briefings, line‑of‑sight issues and coordination between operators, doggers and site management.
Maintenance, Inspection & Change Management: Systems for scheduled servicing, pre‑use checks, defect rectification, records management, modifications and engineering review of changes to crane configuration.
Contractor & Service Provider Management: Control of crane hire companies, subcontractors, third‑party operators and maintenance providers, including pre‑qualification, competency verification and performance monitoring.
Fatigue, Work Scheduling & Human Factors: Management of shift length, travel time, night work, cognitive load, communication errors and other human factors that impact safe crane operation.

Who is this for?

This Risk Assessment is designed for Business Owners, Project Managers, Construction Managers and Safety Officers responsible for planning, approving and overseeing Mobile Crane operations within their organisation or on their worksites.

Hazards & Risks Covered

Hazard	Risk Description
1. Governance, WHS Duties and PCBU Responsibilities	• Lack of clearly defined WHS responsibilities for crane operations across PCBU, principal contractor, crane supplier and crane crew • Failure to implement and monitor compliance with the WHS Act 2011, WHS Regulation and relevant Codes of Practice (e.g. Managing the risks of plant in the workplace, Construction work Code) • Inadequate consultation, cooperation and coordination between PCBUs involved in crane operations (builder, crane contractor, riggers, doggers, transport companies) • Absence of an integrated WHS management system specific to cranes and lifting operations • Inadequate resourcing for safe crane operations (e.g. supervision, planning time, engineering support, inspection budgets) • Failure to monitor legal changes, Australian Standards (e.g. AS 2550, AS 1418) and manufacturer guidance for mobile cranes
2. Crane Procurement, Design Suitability and Configuration Control	• Selection of cranes not fit for intended purpose, terrain, load type or lifting configuration (e.g. inappropriate boom truck, Franna or mini crane for complex lifts) • Failure to consider load charts, outrigger footprint, boom length, jib configuration and counterweight system requirements during procurement • Inadequate evaluation of compatibility of accessories such as concrete kibbles, man boxes, lifting frames and spreader bars with crane capacity and design • Use of cranes or attachments that do not comply with relevant Australian Standards or manufacturer specifications • Unauthorised modifications to cranes, counterweight systems, height limiter systems, overload indicators, Load Moment Indicators (LMIs) and fire suppression systems • Failure to ensure cranes used near water, for lifting from water, or for rough terrain applications are suitably rated and protected
3. Planning, Lift Engineering and Task Risk Management	• Inadequate lift planning for complex lifts (e.g. heavy lifts, tandem lifts, lifting from water, dynamic weight testing, derrick assembly and dismantling) • Failure to consider environmental conditions such as wind speed, rain, lightning and ground conditions in planning • Underestimation of dynamic loads, load swing, boom deflection and the risk of dropped objects during crane operations • Inadequate assessment of obstructions and structures leading to striking overhead structures or plant • Poor integration of crane risk assessment with project WHS risk assessments and Safe Work Method Statements for lifting operations • Insufficient planning for emergency descent, crane evacuation and failure of lifting equipment
4. Site Layout, Ground Conditions and Crane Set‑Up Management	• Inadequate assessment and verification of ground bearing capacity for outriggers, crawler tracks and stabilisers • Poor outrigger placement and deployment leading to crane instability and overturning • Insufficient boundary marking for crane operations, including swing radius and exclusion zones for suspended loads • Uncontrolled on‑site crane navigation leading to collisions with people, vehicles, structures or underground/overhead services • Inadequate control of arrival and departure of cranes to and from site, including transport routes, escorts and traffic interfaces • Failure to identify and control risks from nearby excavations, underground services or soft ground under outriggers and tracks
5. Mobile Crane Movement, Transport and On‑Site Navigation	• Uncontrolled movement of mobile, truck‑mounted, Franna, boom truck and rough terrain cranes on and off public roads and within sites • Operation of cranes in confined or congested areas without adequate spotters or traffic separation • Failure to manage crane stability during travel with boom raised or partially extended • Lack of procedures for setting up cranes for transporting, including securing booms, jib sections and counterweights • Unmanaged risks during on‑site crane navigation near overhead structures, services and other plant • Inadequate procedures for operation of stabilisers and transition between travel and lifting modes
6. Operator Competency, High‑Risk Licensing and Training Systems	• Unqualified or inadequately trained operators, doggers and riggers operating or assisting with cranes and derricks use • High‑risk work licences (HRWL) not current, not verified, or not appropriate for crane type (e.g. mobile vs vehicle loading vs tower vs Franna) • Insufficient training in crane‑specific systems such as LMIs, height limiter systems, overload indicators, fire suppression systems and emergency descent equipment • Lack of competency in specialised operations including lifting from water, rough terrain crane operation, dynamic weight testing and hoisting services • No formal verification of competence for site‑specific hazards (e.g. blind lifts, operation without clear sightlines, remote controls, mini cranes) • Inadequate induction for new personnel regarding organisational crane policies, procedures and reporting expectations
7. Safe Systems of Work, Procedures and SWMS Integration	• Lack of overarching procedures governing planning, set‑up, lifting, post‑lifting and dismantling activities involving cranes • SWMS for crane operations focusing only on operator actions and not integrated with broader site systems or management controls • Inconsistent or outdated procedures across different crane types and contractors on the same site • Failure to address controlling risks from suspended loads handling, removing obstructed loads and securing loads prior to hoisting • Inadequate procedural controls for crane dismantling, derrick assembly and dismantling, and crane servicing interfaces with operations • Poor communication of procedure changes or new controls to affected workers and subcontractors
8. Lifting Gear, Load Attachment Systems and Inspection Regimes	• Failure of lifting equipment including slings, shackles, spreader bars, lifting beams, hooks and concrete kibbles due to poor inspection and maintenance • Use of lifting gear without documented LOLER‑style inspections (or equivalent in Australian context) or without traceable certification and identification • Incompatible or incorrectly rated lifting gear selected for the load, lift configuration or environmental conditions • Inadequate systems to control the use, storage and retirement of damaged or out‑of‑test lifting gear • Lack of procedures for test lifting operations, dynamic weight testing and load testing without a load (system function tests) • Poor control of tag lines, restraints and attachment points, contributing to dropped object hazards during crane operations
9. Safety‑Critical Systems, Indicators and Limiters	• Improper adjustment or bypassing of Load Moment Indicators leading to overloading • Failure or incorrect calibration of height limiter systems, overload indicators and anti‑two‑block devices • Inadequate testing of safety‑critical controls including overload indicator testing and load testing of interlocks without a load • Lack of clear responsibility for periodic inspection, testing and calibration of electronic and mechanical safety systems • Defeating or overriding alarms and limiters to complete lifts under production pressure • Poor records and traceability of safety system maintenance and performance issues
10. Environmental, Wind and Weather Management for Lifts	• Failure to assess and monitor wind speed before lifting loads, especially large surface‑area loads and concrete kibbles • Inadequate management of weather conditions such as rain, lightning, fog, heat and reduced visibility during crane operations • No clear criteria or authority for suspending and resuming lifting operations under adverse weather • Insufficient planning for environmental impacts on crane stability, load behaviour and communication (e.g. radio interference in storms) • Lack of appropriate anemometers or wind measuring devices on or near cranes • Inadequate communication to downstream contractors when lifts are cancelled or rescheduled due to weather
11. Access, Egress and Working at Height on Cranes	• Unsafe climbing into cranes, accessing cabs, booms and superstructures without proper access systems • Inadequate fall protection and restraint use while hoisting equipment or conducting inspections on the crane structure • Lack of planned emergency descent from crane cabs, booms or elevated work positions • Poor housekeeping on crane decks and access ways leading to slips, trips and falls • Absence of procedures for safe use of ladders, walkways and platforms on cranes during servicing and maintenance • Insufficient training and equipment for controlled evacuation from cranes in case of fire or mechanical failure
12. Communication, Visibility and Coordination of Lifts	• Operation of a crane or hoist without clear sightlines, leading to collisions, load strikes or entrapment • Inadequate communication protocols between operators, doggers, riggers and spotters, especially during blind lifts and operation of pedestrian operated cranes • Radio communication failures or interference during critical lift operations • Lack of standardised hand signals, role clarity and escalation pathways during lifting operations • Multiple cranes or lifting operations occurring concurrently without adequate coordination and spatial separation • Insufficient communication about boundary marking, exclusion zones and changes to lift sequencing
13. Maintenance, Inspection, Servicing and Change Management	• Inadequate crane servicing and maintenance systems leading to mechanical or structural failure during operation • Deferred or undocumented inspections, including statutory inspections, thorough examinations and manufacturer‑recommended checks • Poor management of defects identified during pre‑start checks, LOLER‑style inspections or dynamic testing of cranes • Lack of integration between maintenance activities and operational planning, resulting in cranes being used while unsafe or out of certification • Insufficient control of changes after major repairs, crane dismantling, reassembly or component replacement • Failure to maintain and test fire suppression on cranes and other emergency systems
14. Contractor Management and Interface with Crane Service Providers	• Use of crane contractors and crane hire providers without adequate verification of their safety systems and compliance with WHS legislation • Inconsistent standards between principal contractor and crane contractor for risk assessment, SWMS quality and supervision • Poor coordination between crane operators, rigging crews and other subcontractors performing hoisting services or working nearby • Lack of clarity in contracts regarding responsibilities for crane inspection, dynamic weight testing and certification • Insufficient monitoring of contractor performance and non‑conformance management relating to crane operations • Inadequate integration of contractor emergency procedures with site emergency arrangements
15. Fatigue, Work Scheduling and Human Factors	• Fatigue mismanagement for crane operators, doggers and riggers due to extended shifts, night work or high workload • Production pressure leading to shortcuts in crane set‑up, boundary marking, post‑lifting safety checks and lock‑out procedures • Cognitive overload during complex lifting operations, increasing the risk of error in reading indicators or radios • Inadequate job rotation and breaks for personnel performing repetitive hoisting and signalling tasks • Insufficient consideration of human factors in the placement of controls, displays and alarms within crane cabs • Under‑reporting of near misses and human error events due to blame culture
16. Emergency Preparedness, Incident Response and Post‑Incident Review	• Lack of coordinated emergency response procedures for crane‑related incidents such as load drops, plant strikes, overturning or structural failure • Inadequate planning for rescue and emergency descent from crane cabs, booms or suspended work platforms • Poor integration of crane‑specific fire risks with site fire and evacuation plans • Failure to control the area and prevent secondary incidents following a crane event or dropped object incident • Insufficient investigation of crane‑related near misses, failures of lifting equipment and abnormal operations • Lack of mechanisms to ensure lessons learned from incidents are translated into system improvements

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Legislation & References

This document was researched and developed to align with:

Work Health and Safety Act 2011
Work Health and Safety Regulations 2017
Managing the Risks of Plant in the Workplace Code of Practice: Guidance on controlling risks associated with plant, including cranes, throughout their lifecycle.
Managing Risks of Falls at Workplaces Code of Practice: Requirements for preventing falls when accessing, operating and maintaining cranes.
Managing Noise and Preventing Hearing Loss at Work Code of Practice: Controls for noise exposure from crane operation and associated plant.
Construction Work Code of Practice: Risk management expectations for crane use in construction environments, including high‑risk construction work.
AS 2550 series (Cranes, hoists and winches – Safe use): Requirements for the safe use, inspection, maintenance and operation of cranes.
AS 1418 series (Cranes, hoists and winches – Design and construction): Technical standards for crane design, safety systems and load handling equipment.
AS/NZS 4801 / ISO 45001: Occupational health and safety management systems – requirements for systematic WHS governance.
AS/NZS ISO 31000:2018: Risk management — Guidelines

Standard Risk Assessment Features (Click to Expand)

Comprehensive hazard identification for all activities
Risk rating matrix with likelihood and consequence analysis
Existing control measures evaluation
Residual risk assessment after controls
Hierarchy of controls recommendations
Action priority rankings
Review and monitoring requirements
Consultation and communication records
Legal compliance references
Sign-off and approval sections

Suitable for Industries

Building and ConstructionTransport and LogisticsWarehousing and DistributionCivil Construction and EarthworksDemolitionMining and Resources

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Mobile Crane Operation Risk Assessment

• 100% Compliant with Australian WHS Acts & Regulations
• Fully Editable MS Word & PDF Formats Included
• Pre-filled Content – Ready to Deploy Immediately
• Customisable – Easily Add Your Logo & Site Details
• Includes 2 Years of Free Compliance Updates