High Risk Construction Work Guide (NSW)

Summary

This document provides a guide to the effective management of 'high-risk construction work' in the NSW jurisdiction. It outlines the relevant Work Health and Safety (WHS) regulations, provides an overview of Safe Work Method Statements (SWMS), and details various high-risk activities in construction.

Full Transcript

HIGH RISK
CONSTRUCTION WORK

A guide to the effective management of ‘high risk construction
work’ under the NSW Work Health and Safety Regulation
REVISION

Page
Rev No. Section/s Revised Document Owner Revision Date
No/s

1 Initial release All HSEQ Manager

DOCUMENT USAGE KEY

Blue text Information sourced from WHS regulations

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Green text Hyperlink to another section of this document. Click on the page number.

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TABLE OF CONTENTS

REVISION.................................................................................................................................................... 2
DOCUMENT USAGE KEY........................................................................................................................... 2
PART 1: REGULATORY OVERVIEW.......................................................................................................... 5
1 INTRODUCTION................................................................................................................................... 6
2 WHS REGULATION – INTRODUCTION.............................................................................................. 7
3 WHS REGULATION – HIERARCHY OF DOCUMENTS....................................................................... 8
4 THE WORK HEALTH AND SAFETY MANAGEMENT PLAN............................................................... 9
5 HIGH RISK CONSTRUCTION WORK................................................................................................ 10
6 CODES OF PRACTICE....................................................................................................................... 11
7 OTHER GUIDANCE SOURCES......................................................................................................... 12
8 SAFE WORK METHOD STATEMENT – OVERVIEW......................................................................... 13
9 SAFE WORK METHOD STATEMENT – METHODOLOGY................................................................ 15
10 SAFE WORK METHOD STATEMENTS – BEST PRACTICE............................................................. 18
11 HIGH-RISK ACTIVITIES THAT ARE NOT HRCW.............................................................................. 20
PART 2: PREPARATION OF SWMS......................................................................................................... 21
12 WORK AT HEIGHT & FALLING OBJECTS....................................................................................... 22
13 EXCAVATION – SHAFT OR TRENCH > 1.5 METRES....................................................................... 43
14 LIVE TRAFFIC.................................................................................................................................... 55
15 MOBILE PLANT................................................................................................................................. 56
16 ASBESTOS......................................................................................................................................... 66
17 PRESSURISED GAS MAIN OR PIPING............................................................................................. 66
18 ENERGISED ELECTRICAL SERVICES............................................................................................. 66
19 CHEMICAL, FUEL OR REFRIGERANT LINES.................................................................................. 67
20 DEMOLITION...................................................................................................................................... 68
21 CONFINED SPACE............................................................................................................................ 69
22 TILT UP OR PRECAST CONCRETE.................................................................................................. 70
23 ARTIFICIAL EXTREMES OF TEMPERATURE.................................................................................. 71
24 ON OR NEAR WATER........................................................................................................................ 72
25 STRUCTURAL ALTERATIONS OR TEMPORARY SUPPORT WORKS............................................ 73
26 FLAMMABLE ATMOSPHERE............................................................................................................ 74
27 TELECOMMUNICATIONS TOWER.................................................................................................... 75
28 EXPLOSIVES...................................................................................................................................... 76

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29 DIVING WORK.................................................................................................................................... 77
PART 3: COMMON CONTROLS............................................................................................................... 78
30 EXCLUSION ZONES.......................................................................................................................... 79
31 SAFE APPROACH DISTANCES: MOBILE PLANT – POWERLINES................................................ 86
PART 4: CHECKLISTS AND FORMS....................................................................................................... 88
32 CHECKLIST – WHSMP...................................................................................................................... 89
33 CHECKLIST – SWMS PREPARATION.............................................................................................. 93
34 PRO FORMA SWMS (INC. RISK REGISTER).................................................................................... 95
35 PRO FORMA SWMS (EXC. RISK REGISTER)................................................................................ 100
36 SWMS REGISTER............................................................................................................................ 104
37 CHECKLIST – SWMS REVIEW........................................................................................................ 105
38 LADDER SAFETY INSPECTION CHECKLIST................................................................................. 106
39 FALL ARREST RESCUE PLAN CHECKLIST.................................................................................. 107
40 ELEVATED WORK PLATFORM RISK CHECKLIST........................................................................ 108
41 EXCAVATION PLANNING CHECKLIST.......................................................................................... 110
42 MOBILE POWERED PLANT CHECKLIST....................................................................................... 112
PART 5: GLOSSARY............................................................................................................................... 116
GLOSSARY............................................................................................................................................. 117

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 PART 1: REGULATORY OVERVIEW

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1 INTRODUCTION

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2 WHS REGULATION – INTRODUCTION
Work Health and Safety (WHS) laws are specific to each jurisdiction. Each state, the territories and the
Commonwealth have enacted specific laws dealing with WHS. Over the period 2011 to 2020, all
jurisdictions other than Victoria adopted the ‘Model’ WHS Act and Regulations. The Model laws were
developed by Safe Work Australia (SWA) which is responsible for developing national policy relating to
WHS and workers’ compensation.
WHS laws are in the criminal jurisdiction. Severe penalties, including jail terms, apply where companies and
individuals fail to comply with their obligations. Most jurisdictions also have industrial manslaughter laws
which have effect where a person is reckless or grossly negligent in conduct which breaches a work health
and safety duty and results in the death of another person.
Each state, territory and the Commonwealth have their own regulatory agency which administers WHS
laws including conducting investigations and prosecutions. In NSW the regulator is SafeWork NSW
https://www.safework.nsw.gov.au/. In Queensland the regulator is WorkSafe QLD
https://www.worksafe.qld.gov.au/.
Over time, various differences have arisen between the various jurisdictions as the different regulators and
parliament have responded to various local issues.

This Guide to high-risk construction work refers to the NSW jurisdiction.

In NSW, the principal legislation is the Work Health and Safety Act 2011 (NSW) (the WHS Act)
https://legislation.nsw.gov.au/view/html/inforce/current/act-2011-010. A ‘regulation’ is a statutory instrument
that is made pursuant to the Act, and which does not need to be passed by the Parliament in order to have
legal effect. Regulations will generally include more specific and detailed obligations and requirements and
can be amended very quickly. The NSW regulation is the Work Health and Safety Regulation 2017 (NSW)
(WHS Regulation) https://legislation.nsw.gov.au/view/html/inforce/current/sl-2017-0404
A Code of Practice (CoP) is an even more detailed suite of information that is issued under the authority of
the relevant Minister. CoPs deal with specific classes of risk by providing detailed information on how the
standards required under WHS laws can be met (refer Part 1, Section 7, p.12).

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3 WHS REGULATION – HIERARCHY OF DOCUMENTS
The primary sources of WHS duties are the WHS Act and the Regulations. Where a CoP has been
approved by the Minister, it operates as the next level obligation in relation to the risk category that it deals
with.
SWA issues ‘Model CoPs’; however, not all jurisdictions adopt all of them at the same time or at all. SWA
also provides other guidance material that does not form part of a CoP. For example, SWA provides a Fact
Sheet dealing with vehicle roll-aways and safe immobilisation which is more detailed in relation to these
risks than the Model CoP: Managing risks of plant in the workplace.
The Office of the Federal Safety Commissioner (OFSC) is a Commonwealth agency that prequalifies
contractors who wish to tender and execute Commonwealth funded construction work. The OFSC also
provides a wide range of guidance material of value to construction contractors; however, the material is
not legally binding.
Australian Standards are also relevant as a source of guidance for may common controls that are deployed
in construction. For example, AS/NZS 4994:2023 provides detailed guidance in relation to temporary edge
protection.
Other jurisdictions, particularly the United Kingdom, can be helpful when looking for guidance for specific
risk classes.
Many WHS controls, such as for work at height, utilise proprietary fall protection systems. When such
controls are deployed, the Original Equipment Manufacturer (OEM) specifications and manuals become
important guidance materials.
The final document is the Principal Contractor (PC) Work Health and Safety Management Plan (WHSMP)
(refer Part 1, Section 4, p.9). The WHSMP is a mandatory requirement for PCs and must address a
number of risk classes as well as outlining site-specific rules and other matters. Compliance with the
WHSMP is generally a contractual requirement of the PC.
The schematic below summarises the hierarchy of these materials:

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4 THE WORK HEALTH AND SAFETY MANAGEMENT PLAN
The WHS Regulation requires the PC to prepare a written WHSMP before any work commences. The
content of the WHSMP is specified by the Regulation. The Regulation also requires the PC to deal with a
number of other risks. Although the Regulation does not specify where and how these controls are to be
deployed, they are almost invariably included in the WHSMP. This Guide is premised on the assumption
that the WHSMP includes both classes of content. In addition, many PCs include additional company-
specific or site-specific requirements which also must be identified.

A Safe Work Method Statement (SWMS) must be prepared taking account of the
WHSMP. It is therefore essential to obtain the WHSMP before commencing
development of the SWMS; and to ensure that:

(a) the WHSMP meets all the minimum requirements of the Regulation; and

(b) any site specific or unusual requirements are identified and understood.

Many WHSMPs are provided by PCs in the tender phase and are often not complete. If the WHSMP does
not deal with all of the matters specified by the Regulation, or if it is missing appendices or annexures, then
the PC must be so advised. At Part 4, Section 32, p.89 there is a WHSMP Checklist. All WHSMPs must be
assessed against this checklist before any SWMS is developed.

Risk Register
A Risk Register is a table outlining the likelihood and consequence of site risks, an overall risk rating, a
summary of the controls applicable to those risks, and the residual risk rating. There is no requirement in
the Regulation to include a Risk Register in the WHSMP; however, it is a very common practice. If a Risk
Register is included in the WHSMP, it is not necessary to include it in the SWMS; however, many PCs
require that the SWMS include initial and residual risk ratings.
The CoP: Construction Work includes reference to the WHSMP including the provision and maintenance of
a hazardous chemicals register; safety data sheets and hazardous chemicals storage; the safe use and
storage of plant; the development of a construction project traffic management plan; workplace security and
public safety; and ensuring workers have appropriate licences and training to undertake the construction
work.

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5 HIGH RISK CONSTRUCTION WORK
The following activities are High Risk Construction Work (HRCW). Before these activities commence, a
SWMS must be developed and submitted to the PC.

Activity
Work at Height – Risk of a Fall < 2 metres
Excavation – Shaft or Trench < 1.5 metres
Mobile Plant
Asbestos
Live Traffic
Pressurised Gas Main or Piping
Energised Electrical Services
Chemical, Fuel or Refrigerant Lines
Demolition
Confined Space
Tilt Up or Precast Concrete
Artificial Extremes of Temperature
On or Near Water
Structural Alterations or Temporary Support Works
Flammable Atmosphere
Telecommunications Tower
Explosives
Diving Work

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6 CODES OF PRACTICE
A CoP is issued by the Minster under the Act. CoPs provide detailed information about what is known about
hazards and risks, and what is reasonably practicable in controlling hazards and risks. The Act provides that
Brefni is deemed to know what is contained in CoPs. CoPs are not mandatory in the same way as the Act
and Regulation, provided that any alternative approach results in at least an equivalent standard of safety.
Part 2 of this Guide is intended to provide you with an overview of the applicable CoPs as they apply to
HRCW and includes standard controls that will generally be applicable to the HRCW in question.

NSW Codes of Practice – Construction
Item Version Web location
Abrasive Blasting December 2022 SafeWork NSW
Confined Spaces December 2022 SafeWork NSW
Construction Work August 2019 SafeWork NSW
Demolition Work August 2019 SafeWork NSW
Excavation Work January 2020 SafeWork NSW
First Aid in the Workplace January 2020 SafeWork NSW
Formwork June 2020 SafeWork NSW
Hazardous Manual Tasks August 2019 SafeWork NSW
How to Manage and Control Asbestos in the Workplace December 2022 SafeWork NSW
How to Manage Work Health and Safety Risks August 2019 SafeWork NSW
How to Safely Remove Asbestos December 2022 SafeWork NSW
Managing Electrical Risks August 2019 SafeWork NSW
Managing Noise and Preventing Hearing Loss at Work December 2022 SafeWork NSW
Managing Psychosocial Hazards at Work May 2021 SafeWork NSW
Managing the Risks of Falls at Workplaces August 2019 SafeWork NSW
Managing the Risk of Plant in the Workplace December 2022 SafeWork NSW
Managing the Work Environment and Facilities August 2019 SafeWork NSW
Safe Design of Structures August 2019 SafeWork NSW
Sexual and Gender-Based Harassment June 2024 SafeWork NSW
Spray Painting and Powder Coating December 2022 SafeWork NSW
Welding Processes December 2022 SafeWork NSW
Work Health and Safety Consultation, Cooperation and December 2022 SafeWork NSW
Coordination

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7 OTHER GUIDANCE SOURCES
In addition to the Codes of Practice, the following additional guidance is available to assist in the preparation
and assessment of SWMS:

Safe Work Australia
Item Version Web location
Safe Work Method Statement for High Risk Construction December 2014 SafeWork Australia
Work Information Sheet
Office of the Federal Safety Commissioner
Fact Sheet – Safe Work Method Statements – Office of the FSC

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8 SAFE WORK METHOD STATEMENT – OVERVIEW

8.1 WHS REGULATION
The Regulation requires that HRCW cannot commence until a SWMS is prepared. The SWMS must:
(a) identify the work that is HRCW
(b) specify the hazards relating to the HRCW and risks associated with those hazards
(c) describe the measures that will control the risks
(d) describe how the control measures are to be implemented, monitored and reviewed.

The SWMS must be prepared taking into account all relevant matters, including
(a) circumstances at the workplace that may affect the way in which the HRCW is carried out
(b) the content of the WHSMP prepared by the Principal Contractor

The SWMS must be set out and expressed in a way that is readily accessible and understandable to workers
and supervisors.
Before HRCW commences, the SWMS must be given to the Principal Contractor.

Most Principal Contractors will want to review and critique the
SWMS and then formally approve it for use on site. There are
generally specific deadlines as to when SWMS should be
submitted. These requirements are generally contained in the
WHSMP. The WHSMP will also often require SWMS to contain
material in addition to that required by the Regulation and Codes.

The SWMS must be reviewed and revised where:
(a) the SWMS and its controls are not effective
(b) before there is any change on site that may give rise to new or different risks including any change
to the site or the work environment or a change to a system, process or procedure
(c) a new hazard or risk is identified
(d) a consultative process indicates that a review is required
(e) requested by a Health and Safety Representative

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Where SWMS are deployed, specific arrangements must be made to ensure that the HRCW is carried out in
accordance with the SWMS. If it is not, the work must be stopped immediately, or as soon as is safe to do
so, and can only be resumed in accordance with the SWMS.
The SWMS must be available to all workers carrying out the HRCW.
If there is a Notifiable Incident in relation to the HRCW covered by the SWMS, it must be kept on file for 2
years.

8.2 CODE OF PRACTICE – CONSTRUCTION WORK
If more than one PCBU has the duty to ensure a SWMS is or has been prepared, they must consult and
cooperate with each other to coordinate who will be responsible for actually preparing it.
Where there are different classes of HRCW occurring at the same time one SWMS may be prepared to cover
all the HRCW. Alternatively, a separate SWMS can be prepared for each type of high risk construction work.
If separate SWMS are prepared, you must assess how the different work activities may impact on each other
and whether this may lead to inconsistencies between control measures.
The content of a SWMS should provide clear direction on the control measures to be implemented. There
should be no statements that require a decision to be made by supervisors or workers. For example, the
statement ‘use appropriate personal protective equipment (PPE)’ does not detail the control measures. The
control measures should be clearly specified.
A SWMS must take into account the circumstances at the workplace that may affect the way in which the
high risk construction work is carried out – that is, the site where the high risk construction work is being
carried out, the work environment and the workers carrying out the work.
Workers and HSRs, if any, must be consulted when preparing SWMS. If there are no workers engaged at
the planning stage, consultation must occur with workers when the SWMS is first made available to workers,
for example during workplace-specific training or a toolbox talk. Workers and HSRs, if any, must also be
consulted when a SWMS is reviewed.
The SWMS must ensure it identifies the high risk construction work, specifies the hazards relating to the high
risk construction work and any related risks to health and safety, describes the measures to be implemented
so the risks can be controlled adequately, and describes how the control measures implemented may be
monitored and reviewed adequately.

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9 SAFE WORK METHOD STATEMENT – METHODOLOGY
Planning Timeline
The SWMS will go through a series of review stages before it is finalised and submitted to the PC (where
Brefni is not the PC) or receiving final approval within Brefni. The following chart is an indicative timeline for
development, review and approval:

SWMS timeline

9.1 STEP 1: PREPARATION
1. Identify the classes of HRCW that are to be undertaken.
2. Review the WHSMP and the WHSMP Checklist (completed by Pre-Contracts - refer to Section 4:
The Work Health and Safety Management Plan, p.9) and identify any project or client specific
requirements that may be required. These may include:
additional requirements for the SWMS content such as a task-specific Risk Register,
additional review and approval processes, additional risk mitigation tools (e.g. Permit to
Work, Job Safety Analysis, Take Two, Take Five)
additional controls (e.g. barricading, isolation, signage, No Touch)
additional training, induction or other competency requirements
additional PPE.
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 3. Identify the applicable CoPs.
4. Determine how consultation with workers will be undertaken. Ideally this should occur with the
workers and supervisors who will carry out the HRCW. As a minimum it must occur at the point that
the workers are inducted on to the site or prior to carrying out the work.
5. Complete the SWMS Preparation Checklist (Part 4, Section 33, p.93).

9.2 STEP 2: DEVELOPMENT
There are 2 Brefni SWMS templates:
One has a risk register included (Pro forma SWMS (inc. Risk Register) Section 34, p.95)
One does not have a risk register included (Pro forma SWMS (exc. Risk Register) Section 35,
p.100)
Using one of these templates:
1. Complete the project-specific details on the cover page.
2. List the tasks that need to be completed in the order in which they are to be undertaken.
3. If required by the WHSMP, allocate a Risk Rating to each hazard.
4. Describe the controls that are to be applied to each hazard. Use the material provided in the
HRCW Guide, applying the Hierarchy of Controls to each hazard.
5. Describe how the control measures will be implanted, supervised and reviewed. This should
include nominating responsible persons by name.
6. Submit the SWMS (final draft) to the PC for approval. Where Brefni is PC, approval is to be
obtained from the HSEQ Manager or Coordinator.

The SWMS is first and foremost a tool for the workers who are
carrying out the HRCW. It should be as succinct and clear as
possible. Overly detailed SWMS can be hard to understand and
monitor. If the SWMS is becoming overly complex or lengthy,
consider the development of separate SWMS – these may be by
work group, by activity or in order of the HRCW activity.

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9.3 STEP 3: IMPLEMENTATION
1. Complete the consultation process defined at Step 1 and record the matters raised.
2. Amend the SWMS as required (NB. This may require re-submission to the PC).
3. Take the relevant group(s) of workers through the SWMS, describing the controls and how they will
be monitored.
4. Outline Brefni’s requirement that workers must immediately cease work if:
the SWMS is not being complied with
the SWMS appears to be or likely to be ineffective
any worker has a concern about their safety or that of others
5. Have all workers sign on to the SWMS.

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10 SAFE WORK METHOD STATEMENTS – BEST PRACTICE

1. Ensure that the SWMS follows the same sequence as the flow of work that is to be carried
out.

2. Do not include earlier works that have been completed. It is better to have more SWMS than
fewer, with each SWMS dealing with a specific and relevant set of hazards that will be encountered
during that day’s work processes.

3. Do not ‘group’ hazards. This may undermine the ability to have a clear and specific link between
the hazard and the control.

4. Do not refer to other documents (for example a Safety Data Sheet) without including the
relevant detail. That is, do not include “Refer to XXXXX” or the equivalent.

5. Ensure that you are mitigating risk in accordance with the Hierarchy of Control.

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 6. Be specific as to how and who will be responsible for supervising the SWMS.

7. Ensure that the PC has received and reviewed the SWMS before works commence.

8. Ensure that all workers are aware and empowered with respect to ceasing work if they do not
understand the SWMS, it is ineffective, or a new hazard is detected.

9. Review the SWMS regularly. Even if the work processes are the same over time, there will inevitably
be new hazards presented by other activities on site, the environment (e.g. weather).

10. Even if there are no changes to work processes or environments, SWMS should be reviewed
and workers consulted and briefed after absences from work, site shutdowns, relevant
incidents, and in any other case fortnightly as a minimum.

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11 HIGH-RISK ACTIVITIES THAT ARE NOT HRCW
content

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 PART 2: PREPARATION OF SWMS

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12 WORK AT HEIGHT & FALLING OBJECTS
This section provides guidance on working at height and falling objects. Checklists and forms related to this
section include the Ladder Safety Inspection Checklist (Section 38, p.106), the Fall Arrest Rescue
Plan Checklist (Section 39, p.107), and the Elevating Working Platform Risk Checklist (Section 40,
p.108).

12.1 WHS REGULATION

(a) A PCBU must manage risks associated with falls at a workplace.
(b) A ‘fall’ is defined as a fall from one level to another, that is reasonably likely to
cause injury, including:
an elevated workplace
in the vicinity of an opening through which a person could fall
in the vicinity of an edge from which a person could fall
a surface through which a person could fall
(c) A PCBU must ensure, so far as reasonably practical, that where there is a risk of a
fall, work is carried out on the ground or on a solid construction. ‘Solid
Construction’ means the surface is structurally capable of supporting all persons
and things that may be placed on it, barriers around the perimeter and any
opening, an even and readily negotiable surface and gradient, and a safe means
of entry and exit
(d) A PCBU must minimise the risk of an object falling on a person.
(e) A PCBU must conduct a Hazard Identification, Risk Assessment and Control
(HIRAC) process and apply the hierarchy of control in respect of the risk of falls
and falling objects

The WHS Regulation applies to all fall related hazards. Fall hazards
include trips and slips, and accessing plant and equipment. Where the
fall hazard is ≥ 2 metres, the work becomes HRCW, and must be
managed through a SWMS in addition to the requirements of the
Regulation.

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12.2 NSW CODE OF PRACTICE: MANAGING THE RISK OF FALLS AT
WORKPLACES (AUGUST 2019)

12.2.1 Common fall hazards
The CoP lists the following fall hazards:
edges such as work platforms, leading edges, walkways, roofs, or incomplete stairwells
penetrations such as holes, shafts, openings, pits, trenches or excavations
surfaces, including stability, fragility or brittleness; ability to support a load; potential for slips and
trips; hazards arising from slopes and gradients and changes in surfaces
level changes
slipping potential, including when surfaces are wet
stability of both permit and temporary structures
circumstances where hand grip opportunities may be limited
use of Elevating Work Platforms (EWP)
use of ladders
falling objects

12.2.2 Risk controls
You must apply the Hierarchy of Controls when mitigating risk:

Type of Control Example
1 Engineering Controls Hard barriers, penetration covers
2 Substitution Controls Assembling items on the ground
3 Isolation Controls Hard barriers
4 Administrative Controls Signage, spotters
5 PPE Safety boots, hard hat

12.2.3 Planning the work
Planning must include consultation with all relevant parties including the PC, subcontractors, and
designers.

12.2.4 Consultation
Whenever a HIRAC process is undertaken, including in the development of SWMS, you must consult with
the workers who will be undertaking the work.

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12.3 EDGE PROTECTION
All unprotected edges must have a hard barrier installed. This includes a top rail, mid rail and toe board.

Perimeter scaffold

Timber edge protection (Guard rails)

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 Mesh protection

Dimensions

The minimum load rating for each component of the barrier is 0.55 kN or 56 kg.

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12.4 PENETRATIONS, VOIDS AND EXCAVATIONS
Holes, penetrations and other openings must be barricaded, covered or meshed.

Embedded mesh

Penetration cover

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 Core hole cover

Penetration/Trench cover

Covers must be securely fastened to the substrate to ensure that they cannot be dislodged or removed. Not
less than 4 fasteners must be installed (Minimum tensile load 2.7 kN, e.g. 12 mm Dynabolt or equivalent).
Covers must be rated to at least 2 kN or 200 kg. Covers should be painted yellow or orange and signed
“Danger – Penetration” or “Danger – Hole Beneath” or in the absence of proprietary signage, marked
“Peno”.
Do not store materials on or near a penetration cover.

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 Penetration signage

Hard Barrier – larger void

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 Hard Barrier – excavation

Hard Barrier – trench

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12.5 LADDERS

Where the use of a ladder is putting a worker at risk of falling more than 2
metres, the proposed activity becomes High Risk Construction Work.
This means that the use of a ladder will almost always require the
preparation of a SWMS.

12.5.1 Ladder Usage
A ladder should generally only be utilised where a risk assessment indicates that:
using another work-at-height solution is not justified because the risk of falls is low; and
the ladder will be used for a short duration (< 30 minutes)

12.5.2 Ladder Selection
Ladders should have a load rating of at least 120 kg and be manufactured for industrial use. Domestic or
‘homemade’ ladders should not be selected for industrial use or for use on construction sites.
Step ladders should be avoided in favour of platform ladders.

Platform ladder Step ladder

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12.5.3 Ladder set-up
The ladder should be at an angle of 1:4, with at least 3 rungs above the point of access.

Ladder set-up

12.5.4 Securing the ladder
The ladder should be secured at the top and the base.

“Footing” the ladder should be a last resort where there is no alternative securing solution.

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12.5.5 Ladder use
Always follow the “TOOT” principles of ladder usage.

TOOT
Tool Belt Do not carry equipment in your hands
Overreach Ensure belt buckle is always within the stiles
Overload Do not carry heavy equipment
Three Points Maintain three points of contact at all times

12.6 FALL ARREST SYSTEMS
A Fall Arrest System is a mechanism designed to stop a worker falling an uncontrolled distance and reduce
the impact of any fall.

Fall Arrest Systems can only be used if it is not reasonably practical to
use a fall prevention device or work positioning system such as an EWP.

12.6.1 Safety Nets
must be installed and inspected by qualified persons (High Risk Work Licence – Basic Rigging or
Scaffolding)
must be not less than 2 metres below the work area

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 must be sufficiently well tensioned to ensure that no falling person can contact any structure or
surface
must not be exposed to hot work.

Safety net

12.6.2 Catch platforms
must be installed and inspected by qualified persons (High Risk Work Licence – Intermediate or
Advanced Scaffolding)
must include a fully planked out deck
should extend at least 2 metres from the unprotected edge unless guard rails are fitted.

Catch Platform

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12.6.3 Fall restraint system
A fall restraint system is a higher order (preferred) control to fall arrest systems. It does not require a rescue
plan.
Static lines must be installed and inspected in accordance with AS/NZS 1891.2 and AS/NZS 1891.4.-
Industrial Fall-Arrest Systems and Devices.

Fall restraint system

Personal Fall Arrest System
A Personal Fall Arrest System must not be used unless a rescue plan is in place – this includes at least one
additional person on site who can carry out the rescue.
The potential fall distance must not exceed 2 metres.
Additionally, a Personal Fall Arrest System:
must be used only be persons who have received training
must have its anchorage points inspected by a competent person in accordance with AS/NZS
1891.2 and AS/NZS 1891.4.- Industrial Fall-Arrest Systems and Devices
must have all components inspected by a competent person before usage and after any fall.

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 Personal fall arrest system

When planning the use of a Fall Arrest System ensure that the following risks are assessed:

Limiting free fall distance: Ensure that
in the event of a fall, there is sufficient Pendulum effecf
clearance above any structure or
surface below the worker.
Swing back: Ensure that any
‘pendulum effect’ following a fall
is prevented.

This may require the use of intermediate
anchorage points or belay systems.

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12.6.4 Twin Lanyards
Do not use a Twin Lanyard that is not fitted with an alloy ring.

INCORRECT – DO NOT USE CORRECT

Do not pass lanyards between legs or around the body
Remember that connectors will always gravitate to the lowest point on the fixture
Do not place chest higher than the highest point(s) of attachment.

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12.7 FALL ARREST RESCUE PLAN
This section provides information on the preparation of a Fall Arrest Rescue Plan.

Workers are not permitted to use fall arrest systems unless a Rescue
Plan has been developed specifically for the site and the work being
undertaken. While Emergency Services (000) may be included in the
Rescue Plan, the risk of Suspension Trauma is such that they are
unlikely to arrive at site on time. The Rescue Plan must therefore assume
that Emergency Services are unavailable.

The Fall Arrest Rescue Plan Checklist is provided in Part 4 at Section 39: Fall Arrest Rescue Plan
Checklist, p.107.

12.7.1 Types of Rescue
The hierarchy of rescue types, in descending order, is:

Rescue type
Most preferred Remotely lowering the casualty
Remotely raising the casualty
Self-evacuation by descent
Least preferred Rescuing another by descent

12.7.2 Anchor points
If the Rescue Plan includes the use of the same equipment (particularly anchor points) as the original fall
arrest system, then the Plan needs to include assurances that the system can support the additional load of
the rescuer. Deadweight Anchors are a particular risk in these circumstances.

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12.8 SUSPENSION TRAUMA
Suspension Trauma (Syncope or Orthostatic Shock) occurs when the human body is held in an upright
position without any movement. Rear attaching harnesses used in fall arrest systems are not designed for
prolonged suspension and the leg straps will place pressure on the femoral veins and nerves. This will in
turn lead fainting and the high likelihood of death. Symptoms include faintness, tingling or numbness of the
arms or legs, breathlessness, sweating, nausea, dizziness, low blood pressure, unconsciousness.

DEATH CAN OCCUR WITHIN TEN MINUTES.

If the casualty is conscious, they should be encouraged to gently keep their legs moving with the objective
of stimulating blood flow.

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12.9 CALCULATING FALL CLEARANCES
The diagrams below provide guidance on how to calculate fall clearance.

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12.10 USE OF ELEVATING WORK PLATFORMS
An EWP is a type of powered mobile plant intended to lift and lower people and equipment using
telescopic, hinged or articulated motorised or hydraulic systems. EWPs include:

Scissor Lift Self-propelled Boom Lift

Truck-mounted Boom Lift Telehandler (with basket)

12.10.1 EWP Hazards
Common hazards associated with EWPs in construction include structural failure, rollover, collision with
other vehicles or structures, contact with energised power lines, crushing and entrapment, work at height,
falling objects, and inadequate ventilation (fuelled equipment).

12.10.2 Licensing Requirements
The operator of a Boom Lift or Telehandler EWP with a boom length of 11 metres or more requires a High
Risk Work Licence.

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12.10.3 Fall Arrest Systems
Fall Arrest systems are mandatory for workers in Boom Lift EWPs.

12.10.4 Checklist
Before an EWP is permitted to operate on a Brefni site, the Project Manager must ensure that the EWP
Risk Checklist (Section 40, p.108) is completed.

12.10.5 Pre-Start Inspection
The Operator must complete a Pre-Start Inspection.

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13 EXCAVATION – SHAFT OR TRENCH > 1.5 METRES
This section provides guidance on the risks related to excavation work. An Excavation Planning Checklist is
provided in Part 4 Section 41, p.110.

13.1 WHS REGULATION

(a) A person in control of a workplace conducting excavation work must take all
reasonable steps to obtain information about underground essential services in the
area and any adjacent area.
(b) The person in control must provide that information to any other person who is
engaged to carry out the excavation work.
(c) The person in control must have regard to the inground services information in
directing or allowing the work.
(d) The person in control must ensure that the inground service information is
available for inspection by SafeWork NSW.
(e) A person conducting excavation must conduct a Hazard Identification, Risk
Assessment and Control (HIRAC) process and apply the hierarchy of control,
including the risks of:
a person falling into the excavation
a person being trapped by the collapse of an excavation
a person working in an excavation being hit by a falling object
a person working in an excavation being exposed to an airborne
contaminant
(f) In conducting the HIRAC process the person must have regard to:
the nature of the excavation
the nature of the excavation work, including the range of methods to
carry out the work
the means of entry and exit (if applicable)
(g) A person who proposes to excavate a trench at least 1.5 metres deep must ensure
that the work area is secured from unauthorised access, including inadvertent
entry.
(h) A person who excavates a trench must minimise the risk to any person arising
from the collapse of the trench by shoring, benching, or battering; unless there is a
written advice from a geotechnical engineer that the sides of the trench are safe
from collapse. Such advice must state the period of time to which it applies and
may be subject to a condition that certain natural occurrences may create a risk of
collapse.

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13.2 NSW CODE OF PRACTICE: EXCAVATION WORK (JANUARY 2020)
This section looks at common excavation risks and methods to control them.

13.2.1 Common excavation risks
The CoP lists the following common excavation risks:
underground essential services including gas, water, sewerage, telecommunications, electricity,
chemicals and fuel or refrigerant in pipes or lines
the fall or dislodgement of earth or rock
falls from one level to another
falling objects
inappropriate placement of excavated materials, plant or other loads
the instability of adjoining structures caused by the excavation
previous disturbance of the ground including previous excavation
the instability of the excavation due to persons or plant working adjacent to the excavation
the presence of or possible in-rush of water or other liquid
hazardous manual tasks
hazardous chemicals, which may be present in the soil where excavation work is to be carried out
hazardous atmosphere in an excavation, which could result from practices like using solvent
cement for PVC pipes in poorly ventilated trenches
vibration and hazardous noise
overhead essential services, such as powerlines, and ground-mounted essential services such as
transformers, gas and water meters.

13.2.2 Risk controls
You must apply the Hierarchy of Controls when mitigating risk:

Type of Control Example
1 Engineering Controls Benching, battering or shoring to control excavation collapse
2 Substitution Controls Using a rock breaker instead of explosives
3 Isolation Controls Hard barriers
4 Administrative Controls Signage, spotters
5 PPE Safety boots, hard hat

13.2.3 Planning the work
Planning, including the development of SWMS, must include consultation with all relevant parties including
the PC, subcontractors, designers, and mobile plant operators.

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13.2.4 Consultation
Whenever a HIRAC process is undertaken, including in the development of SWMS, you must consult with
the workers who will be undertaking the work. Structural or geotechnical engineers may also need to be
consulted. Use the Excavation Planning Checklist (see Part 4 Section 41, p.110) to confirm all aspects of
the excavation have been considered.

13.3 ESSENTIAL SERVICES
Overview
Essential Services include supply infrastructure for gas, water, electricity, sewerage, telecommunications,
and process control; and pipelines for hydrocarbons, refrigerants or other chemicals.

Any proposed excavation activity that is to take place in the
vicinity of pressurised gas distribution mains or piping;
chemical, fuel or refrigerant lines; and energised electrical
installations; is HRCW in its own right and requires the SWMS to
include applicable CoP(s) dealing with that risk. Note that the
use of mobile plant such as excavators, piling and boring rigs,
dumpers and the like in the vicinity of overhead electrical
infrastructure will fall under this requirement.

Underground services
No excavation activity can be commenced unless and until an inground services check has been
completed. For public spaces, this must include making contact with Before You Dig Australia (BYDA)
https://www.byda.com.au/. Brefni staff should access BYDA through an account linked to your Brefni email
address.
For private land, the asset owner, client or principal contractor must be consulted in relation to the location
and nature of inground services.

Electromagnetic Induction and Ground Penetrating Radar
Specialist equipment and subcontractors can deploy specialist equipment to detect metallic and non-
metallic piping and other structures to a depth of 2–3 metres.

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Potholing
Potholing is the use of hand tools and/or high pressure water and vacuums to excavate and expose
inground services. Many asset owners will require vacuum excavation as a condition precedent before
commencing excavation work in the area.

Exposed inground services

All inground services maps and diagrams must by physically validated using potholing techniques before
excavation activities are commenced.

Suppliers
Brefni has relationships with two service search providers:
Suresearch Underground Services https://suresearch.com.au/ 1300 884 520
Durkin Construction https://www.durkinconstruction.com.au/ (02) 9712 0308

13.4 SECURING THE AREA
Before commencing any excavation that will be 1.5 or metres deep or more, the work area must be secured
from any unauthorised access by other workers or the public. Where the area cannot be fully secured with
a hard barrier, a sufficient number of Spotters must be deployed to ensure that access is controlled at all
times.

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13.5 ZONE OF INFLUENCE
Any excavation has a ‘zone of influence’ – this is the area where spoil, plant, vehicles or other loads will
add to the weight surrounding the excavation and reduce stability. The zone of influence is generally in that
area at a 45° angle from the base of the excavation to the surface:

Shored excavation limited to spoil loads

Shored excavation designed for vehicle and spoil load

13.5.1 Benching and battering
Different soil types have widely varying degrees of cohesion and frictional resistance. Dry sand, saturated
sand and gravel with low clay content have particularly low cohesive strength. Non or low cohesive faces

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are hazardous. Minor variations in moisture content can cause rapid crumbling. As soil stresses increase,
the excavated face may fail under adverse weather vibration or excessive loads. Be particularly aware of
deep cuts and steep slopes where the side support has been removed; excessive loads on the surface
near the top of the face – for example dumped spoil, mobile plant; vibration due to piling, blasting, drilling or
passing loads; or groundwater or rainfall affecting soil weight and volume.

Types of ground collapse

Tension crack Sliding or sloughing
Often formed at a horizontal distance of 0.5 to 0.75 times Occurs as a result of tension cracks
the depth of the excavation

Toppling Subsidence and bulging
Occurs as a result of tension cracks

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 Sliding Base heave
Caused by downward pressure from adjoining soil

These risks may be controlled by benching or battering.

What is a safe slope?
An excavated slope is safe when the ground is stable. This means that the slope does not change shape,
there is no movement of material down the slope, and the toe of the slope remains in place.

Benching
Benching is the creation of a series of steps in the vertical walls of the excavation to reduce wall heights
and enhance stability:

Benching

As a rule of thumb, benches should be created at each one metre of depth and cut back by one metre.

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Battering
Battering is the intentional creation of a slope that is less than the natural angle of repose for the soil in
question:

Battering

Battering and Benching
Both techniques can be used together:

Battering and Benching

content

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13.6 SHORING
A shoring system is a positive ground support system that can be used when the location or depth of an
excavation makes battering and benching impracticable. Shoring is commonly used to prevent the
movement of soil and potential ground collapse.
All shoring systems must be designed and certified by a Competent Person.

Light duty hydraulic shoring system

Trench sheeting system

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 Trench box

Trench sheeting system

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13.7 SHEET PILING
Sheet Piles are interlocking sections of uniform steel sheeting which can provide temporary or permanent
retaining support for trenching and other excavations. Anchoring and/or internal bracing may be required to
ensure adequate support.
All piling systems must be designed and certified by a Competent Person.

Sheet piling

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13.8 OTHER GROUND SUPPORT SYSTEMS
Secant piling is the construction of a ground support system by installing intersecting reinforced concrete
piles. Primary piles are installed first with secondary (male) piles constructed in between primary (female)
piles once the latter gain sufficient strength.

Secant Pile Wall

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14 LIVE TRAFFIC

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15 MOBILE PLANT
This section provides guidance on working with mobile plant.

15.1 WHS REGULATION

(a) The person with management or control of powered mobile plant must manage
risks associated with the plant overturning, things falling on the operator, the
operator being ejected, the plant colliding with any person or thing and mechanical
failure of pressurised elements that may release fluids.
(b) The person in control must ensure that a suitable combination of operator
protective devices for the plant is provided, maintained and used.
(c) The person in control must ensure that no person other than the operator rides on
the plant unless the person is provided with a level of protection that is equivalent
to that provided to the operator.
(d) The person must ensure that the plant does not collide with pedestrians or other
powered mobile plant. If there is a possibility of the plant colliding with pedestrians
or other powered mobile plant, the person must ensure that the plant has a
warning device that will warn persons who may be at risk from the movement of
the plant.
(e) Where plant is used to lift or suspend persons or things:
(i) The person in control must ensure that the plant used is specifically
designed to lift or suspend the load.
(ii) If it is not reasonably practicable to use plant that is specifically designed to
lift or suspend the load, the person must ensure that the plant does not
cause a greater risk to health and safety than if specifically designed plant
were used.
(iii) The person must ensure that the lifting and suspending is carried out with
lifting attachments that are suitable for the load being lifted or suspended,
and within the safe working limits of the plant.
(iv) The person must ensure that no loads are suspended or travel over a
person unless the plant is specifically designed for that purpose.
(v) The person must ensure, so far as is reasonably practicable, that loads are
lifted or suspended in a way that ensures that the load remains under
control during the activity.
(vi) The person must ensure that no load is lifted simultaneously by more than
1 item of plant unless the method of lifting ensures that the load placed on
each item of plant does not exceed the design capacity of the plant.

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15.2 NSW CODE OF PRACTICE: MANAGING THE RISKS OF PLANT IN THE
WORKPLACE
This section looks at common risks associated with mobile plant in the workplace. Plant is a major cause of
work-related death and injury in Australian workplaces.

15.2.1 Common plant risks
The CoP lists significant risks associated with using plant. Severe injuries can result from the unsafe use of
plant including:
limbs amputated by unguarded moving parts of machines
being crushed by mobile plant
sustaining fractures from falls while accessing, operating or maintaining plant
electric shock from plant that is not adequately protected or isolated, and
burns or scalds due to contact with hot surfaces, or exposure to flames or hot fluids.
Other risks include hearing loss due to noisy plant and musculoskeletal disorders caused by manually
handling or operating poorly designed plant.

15.2.2 Risk controls
You must apply the Hierarchy of Controls when mitigating risk:

Type of Control Example
1 Engineering Controls Automated collision avoidance systems
2 Substitution Controls Using smaller equipment
3 Isolation Controls Hard barriers
4 Administrative Controls Signage, spotters
5 PPE Safety boots, hard hat

15.2.3 Planning the work
Planning, including the development of SWMS, must include consultation with all relevant parties including
the PC, subcontractors, and mobile plant operators.

15.2.4 Consultation
Whenever a HIRAC process is undertaken, including in the development of SWMS, you must consult with
the workers who will be undertaking the work. The Mobile Powered Plant Checklist (Part 4, Section 42,
p.112) should be completed in order to identify hazards related to plant operations.

15.3 BLIND SPOTS
All mobile plant has blind spots where the operator is unable to see all of the operating zone. This is
compounded when reversing and when buckets and other attachments are raised.

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15.4 EXCLUSION ZONES
Wherever possible, mobile plant should operate within an exclusion zone. Solid barriers such as temporary
fencing or water-filled barricades are preferred; however, there will be occasions when star picket and
bunting is the only practical solution. The minimum exclusion zone is a perimeter of 5 metres outside the
plant’s range of operations. This assessment must include the type of plant, what work is being performed
and the potential movement of the plant – including slewing ranges of implements, arms and
counterweights, as well as any stabilising equipment.
Access to exclusion zones is limited to the plant operator and spotter dedicated to that plant. Access is only
permitted to others if visual or radio contact has been made with the operator, the plant is stopped with
implements on the ground and the operator and spotter have confirmed access.
See also Section 30: Exclusion Zones (p.79) for further information.

Water-filled barriers

Temporary fencing

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 Temporary fencing

Star picket and bunting

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15.5 SPOTTERS
A spotter is a competent person specifically assigned the duty of observing and warning both operators of
plant and ground personnel of nearby hazards. Spotters must observe a single plant/vehicle at any one
time. Spotters’ duties include:
providing clear and effective communication to operators and ground personnel
maintaining delineation and exclusion zones
preventing unauthorised access into exclusion zones
positioning themselves out of the impact zone
stopping the works if a risk is unable to be controlled
raising the alarm or initiate an emergency response when required.
Spotters will be identified by particular coloured hard hats, marked vests or sleeves. The WHSMP should
provide guidance as to identification of spotters.

Spotters are not permitted to carry out any other duty or function, including
supervision. They must be completely dedicated to the duties defined above.

Communication between spotters and plant operators should ideally be by radio. When using radios onsite
ensure that:
handsets are charged
correct channels identified
identify yourself on every transmission
keep talk brief
ALWAYS acknowledge an instruction or direction by repeating it, or by a response such as ‘copy’
or ‘understood’. If an instruction is not acknowledged, assume that it has not been received.
Spotters should be assessed as competent against RIIRTM203E - Work as a Safety Observer/Spotter
https://training.gov.au/Training/Details/RIIRTM203E

The diagram below illustrates the spotter/approach zone in relation to the exclusion zone for the mobile
plant.

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 Spotter/Approach zones

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 Spotter/Approach zones (cont.)

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15.6 SAFE APPROACH DISTANCES
This section provides guidance on Safe Approach Distances (SADs) when mobile plant is working in the
proximity of power lines.

Minimum SADs depend on the voltage of the power line. If you do not
know the voltage you cannot commence work. SADs apply from that
part of the equipment that is closest to the conductor and must include
any movement (wind effects, swinging loads etc.) and operator error. In
addition, allowance must be made for conductors sagging or swinging.

Voltage SAD SAD (Spotter)
240 6.4 m 3.0 m
415 6.4 m 3.0 m
7,600 6.4 m 3.0 m
11,000 6.4 m 3.0 m
19,000 6.4 m 3.0 m
33,000 6.4 m 3.0 m
66,000 6.4 m 3.0 m
132,000 (Pole) 6.4 m 3.0 m
132,000 (Tower) 10.0 m 8.0 m
275,000 10.0 m 8.0 m

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15.7 PLANT OPERATOR QUALIFICATIONS AND COMPETENCY
ASSESSMENT
Plant operators should hold a qualification and/or be assessed as competent to operate the specific class of
plant that they are to operate. These qualifications are listed in the table below:

Number Name
RIIMPO316E Conduct Self Propelled Compactor Operations
RIIMPO317F Conduct roller operations
RIIMPO318F Conduct civil construction skid steer loader operations
RIIMPO319E Conduct backhoe/loader operations
RIIMPO320F Conduct civil construction excavator operations
RIIMPO321F Conduct civil construction wheeled front end loader operations
RIIMPO322E Conduct civil construction tracked front end loader operations
RIIMPO323E Conduct Civil Construction Dozer Operations
RIIMPO324F Conduct Grader Operations
RIIMPO325E Conduct Scraper Operations
RIIMPO326E Conduct Water Vehicle Operations
RIIMPO337E Conduct articulated haul truck operations

15.8 PLANT ONBOARDING
All mobile plant must be onboarded in accordance with the Brefni Standard BMS O-ST-26 Plant &
Equipment Management and the BMS O-F-26-01 Plant Onboarding Checklist
The Plant Onboarding Checklist must be completed for each item of plant. The checklist is provided in Part
4, Section xx.

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16 ASBESTOS
content

17 PRESSURISED GAS MAIN OR PIPING
content

18 ENERGISED ELECTRICAL SERVICES
content

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19 CHEMICAL, FUEL OR REFRIGERANT LINES

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20 DEMOLITION
content

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21 CONFINED SPACE
content

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22 TILT UP OR PRECAST CONCRETE

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23 ARTIFICIAL EXTREMES OF TEMPERATURE

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24 ON OR NEAR WATER
content

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25 STRUCTURAL ALTERATIONS OR TEMPORARY SUPPORT
WORKS

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26 FLAMMABLE ATMOSPHERE

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27 TELECOMMUNICATIONS TOWER

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28 EXPLOSIVES

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29 DIVING WORK

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 PART 3: COMMON CONTROLS

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30 EXCLUSION ZONES
An Exclusion Zone is an area of work that is physically delineated so as to prevent workers and other
persons (including plant and vehicles) from accessing the area without authorisation. Exclusion Zones are
often used to manage risks associated with work at height, mobile plant, the loading and unloading of
vehicles and during lifting operations.

30.1 WORK AT HEIGHT
Work at Height creates a risk of objects falling or being dropped. Where this risk is present a ‘drop zone’
should be delineated and an exclusion zone established. In addition, where mobile plant is in use near work
at height activity, there is a risk that it could destabilise ground or make contact with scaffolding, falsework
or formwork; creating risk to the workers above. Where this risk is present a mobile plant Exclusion Zone
should be established.

30.2 MOBILE PLANT
All mobile plant operations must take place within an Exclusion Zone. The exclusion zone should be a
minimum of 5 metres from the area where the plant is operating. This assessment must include the type of
plant, what work is being performed and the potential movement of the plant – including slewing ranges of
implements, arms and counterweights, as well as any stabilising equipment.

Dozer operator blind spots at 1.5 metres height

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 Other mobile plant blind spots

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Authority to enter Exclusion Zone – Mobile Plant
Only the plant operator can access the Exclusion Zone unless:
visual and positive contact is maintained with the plant operator by the person entering the
Exclusion Zone; or
the mobile plant is stationary with the engine off and implements on the ground; or
the supervisor grants express permission to enter.

30.3 LOADING AND UNLOADING TRUCKS
All sites should have an area set aside for the loading and unloading of trucks. In establishing the laydown
area, ensure that it is level and that there is adequate stability for the expected loads. In loading and
unloading operations:
forklifts and other equipment should be segregated; and
the forklift operator has control of the area; and
the forklift operator must maintain line of sight with the driver at all times.
Loading and unloading activities must take place within an Exclusion Zone.

Exclusion zone

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 Exclusion zone

30.4 BARRIERS
Physical barriers that prevent pedestrian or plant access to designated areas, such as fencing, para-
webbing or water-filled barriers are preferred because they are an engineered control. Witches’ hats,
bollards and bunting are less effective as they do not physically stop someone entering an exclusion zone
or roadway.

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 Water-filled barrier

Temporary fencing

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 Temporary fencing

Star picket and plastic mesh

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30.5 SIGNAGE
Signage should clearly mark pedestrian walkways, guide traffic, provide warnings and identify exclusion
zones.

Signage

30.6 SPOTTERS
Spotters should be deployed in any of the following circumstances:
movement of trucks or mobile plant where there is proximity risk (congestion, risk of collision,
presence of other workers or the public, open trenches and excavations)
movement of trucks or mobile plant where there are blind spots
use of mobile plant near overhead power lines
poor visibility.
Spotters must observe a single plant/vehicle at any one time. Spotters should hold the relevant unit of
competency https://training.gov.au/Training/Details/RIIRTM203E

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31 SAFE APPROACH DISTANCES: MOBILE PLANT –
POWERLINES
This section provides guidance on Safe Approach Distances (SADs) when mobile plant is working in the
proximity of power lines.

Minimum SADs depend on the voltage of the power line. If you do not
know the voltage you cannot commence work. SADs apply from that
part of the equipment that is closest to the conductor and must include
any movement (wind effects, swinging loads etc.) and operator error. In
addition, allowance must be made for conductors sagging or swinging.

Voltage SAD SAD (Spotter)
240 6.4 m 3.0 m
415 6.4 m 3.0 m
7,600 6.4 m 3.0 m
11,000 6.4 m 3.0 m
19,000 6.4 m 3.0 m
33,000 6.4 m 3.0 m
66,000 6.4 m 3.0 m
132,000 (Pole) 6.4 m 3.0 m
132,000 (Tower) 10.0 m 8.0 m
275,000 10.0 m 8.0 m

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31.1 SPOTTERS
A Spotter must have completed a minimum competency qualification of RIIRTM203E - Work as a Safety
Observer/Spotter https://training.gov.au/Training/Details/RIIRTM203E
A Spotter must:
be able to fully observe both the conductor(s) and the plant/equipment
maintain constant communication with the plant operator
have the authority stop the work at any time
monitor no more than one work activity at any time
not be engaged in any other activity
ensure unauthorised persons do not enter the area.

31.2 EXCLUSION ZONES
In circumstances where there are other trades on site and/or there is the potential for public access, an
Exclusion Zone should be established.
See also Section 30: Exclusion Zones (p.79) for further information.

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 PART 4: CHECKLISTS AND FORMS

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32 CHECKLIST – WHSMP
Where Brefni is not the Principal Contractor, the Brefni Estimator must review the Client’s WHS
Management Plan and complete this checklist prior to Gate 3 Project Handover.
This checklist shall be stored in SharePoint with the other estimating documents for the project.
Refer to Section 4: The Work Health and Safety Management Plan, p.9 for further guidance on the use
of this checklist.

WHS Management
Principal Contractor:
Plan Name

Project Name: Version number

Date of Brefni
Brefni Reviewer / Title:
Review:

Item Does the WHS Management Plan (WHSMP) include the following Page/
Yes No N/A
No requirements? Ref
General Requirements
01 Details a description of the project scope of works ☐ ☐

02
Details the project name / title and site (workplace) address / location, including a ☐ ☐
map indicating site layout
03 Identifies the Principal Contractor (name / project representative / contact details) ☐ ☐ ☐

04 Identifies the Client, if applicable (name / project representative / contact details) ☐ ☐
Details the requirement to ensure that signage is installed showing the PC’s ☐ ☐
05 name, telephone, contact numbers (including after-hours telephone number), site
office location
Roles & Responsibilities
Identifies the names, and position title of workers that have specific health and ☐ ☐
safety responsibilities including, where applicable: Contractor’s Project
06
Representative (e.g. Project Manager); Supervisor(s); Engineers; Project Safety
Officer; First Aiders; Workers; and HSRs.
07 Details the roles and responsibilities across all levels for the project for WHS ☐ ☐

08 Details the arrangements for providing workers with access to the WHSMP ☐ ☐

09
Arrangements for reporting Principal Contractor performance, including, the ☐ ☐
frequency of reporting and information to be provided
Consultation / Cooperation / Coordination

10
Details the process used to consult on health and safety matters with workers ☐ ☐
examples including; pre-work briefs, toolbox talks, safe work interactions
Details the arrangement for consultation, cooperation and coordination of ☐ ☐
activities between the Principal Contractor and other duty holders including,
11
where applicable: Brefni representatives; Subcontractors; Consultants; Third
Parties; and Corridor Interface requirements.
Contractor management

12
Details the process for selection and assessment of subcontractors including ☐ ☐ ☐
review of the safety management plans and/or safe work method statements

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Item Does the WHS Management Plan (WHSMP) include the following Page/
Yes No N/A
No requirements? Ref

13
Details of the arrangements for managing contractors including review of relevant ☐ ☐ ☐
safety documentation, monitoring and management of performance

14
Details the consultation and communication arrangements between the Principal ☐ ☐ ☐
Contractor and any contractors on the Project
Safety in Design

15
Details the process used to capture WHS hazards and controls through the ☐ ☐ ☐
design stages of the project

16
References the requirement to include a qualified and experience WHS ☐ ☐ ☐
professional during the Design Risk Assessment process

17
Details the process used to communicate any changes in the Design process ☐ ☐ ☐
following review by an SME
Risk Management
Details the method used to identify, assess, control and review the health and
18 ☐ ☐
safety risks associated with the project works
Details the method for monitoring the effectiveness of risk control measures and
19 ☐ ☐
communicating changes to workers
20 References the Project Risk Register ☐ ☐
Identifies any activities identified as ‘high risk construction work’
(a) involves a risk of a person falling more than 2 metres
(b) is carried out on a telecommunications tower
(c) involves demolition of an element of a structure that is load bearing or
otherwise related to the physical integrity of the structure
(d) involves or is likely to involve disturbance of asbestos
(e) involves structural alterations or repairs that require temporary support to
prevent collapse
(f) is carried out in or near a confined space
(g) is carried out in or near; a shaft or trench with an excavated depth greater
than 1.5 metres or a tunnel
(h) involves the use of explosives
21 (i) is carried out on or near pressurised gas distribution mains or piping ☐ ☐
(j) is carried out on or near chemical fuel or refrigerant lines
(k) is carried out on or near energised electrical installations or services
(l) is carried out in an area that may have a contaminated or flammable
atmosphere
(m) involves tilt-up or precast concrete
(n) is carried out on, in or adjacent to a road, railway, shipping lane or other traffic
corridor that is in use by traffic other than pedestrians
(o) is carried out in an area at a workplace in which there is any movement of
powered mobile plant
(p) is carried out in an area in which there are artificial extremes of temperature