mount stromlo campus building m908 hazardous materials …roads and bike trails only robson...
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Mount Stromlo Campus
Building M908
Hazardous Materials Report
This document is uncontrolled once printed.
You must consult the individual Building
Register prior to work commencing.
Contents Page 1. Revision Table
2. ANU Hazardous Materials Register
3. ANU Hazardous Materials Maintenance Log
4. Robson Environmental Report Dated January 2019
5. Future Inspection Reports and Certificates
1. Revision Table – Building M908
Rev.
Nature of changes
Approval
Date
1 Asbestos Management Plan Report Generated
M908 Mount Stromlo General Site - Common Areas,
Roads and Bike Trails Only
Robson Environmental
04/04/2019
2 Lead Paint Management Plan Report Generated M908 Mount Stromlo General Site
Robson Environmental
09/05/2019
3 Lead Paint Management Plan Report Generated M908 Mount Stromlo General Site - Oddie Telescope
Robson Environmental
20/05/2019
4
5
6
7
2. ANU Hazardous Materials Register
Site Location: Building M908 - General SiteAssessor: Jordan Curbishley - Robson Environmental
B1478 AMO CRO CHRY
Refer to Robson Report
Moulded Sheet Exterior island opposite tennis courts adjacent main road - In ground services pit (T18) 1 3 3 2 3 54 H 1 no. Remove
Refer to B1478 AMO CRO CHRY
Refer to Robson Report
Moulded Sheet Exterior island opposite tennis courts adjacent main road - In ground services pit (T17) 1 3 3 2 3 54 H 1 no. Remove
Refer to B1478 AMO CRO CHRY
Refer to Robson Report
Moulded Sheet Exterior adjacent main road - In ground services pit (T15) 1 3 3 2 3 54 H 1 no. Remove
Refer to B1478 AMO CRO CHRY
Refer to Robson Report
Moulded Sheet Exterior adjacent main road - In ground services pit (T16) 1 3 3 2 3 54 H 1 no. Remove
C1475 AMO CHRYRefer to Robson Report
Sheet Debris Exterior adjacent west boundary fence to lower houses - sheet 1 3 3 2 3 54 H Unknown Remove
C1476 AMO CHRYRefer to Robson Report
Sheet Debris Exterior builders waste dump - north corner of lower houses - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1478 AMO CHRYRefer to Robson Report
Sheet Debris Exterior builders waste adjacent abandoned driveway off main road - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1479 CHRYRefer to Robson Report
Sheet Debris Exterior south of work depot - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1480 CHRYRefer to Robson Report
Sheet Debris Exterior adjacent track on the north side of work depot - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1481 CHRYRefer to Robson Report
Sheet Debris Exterior south side of main road - compressed sheet 1 3 3 2 3 54 H Unknown Remove
C1482 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior west side of house near bushland - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1483 AMO CHRYRefer to Robson Report
Sheet Debris Exterior west end of Stromlo Observatory complex - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1484 AMO CHRYRefer to Robson Report
Sheet Debris Exterior below gully at the west end of the Stromlo Observatory complex - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1485 AMO CHRYRefer to Robson Report
Sheet Debris Exterior south west of main Stromlo complex - sheet fragments 1 3 3 2 3 54 H Unknown Remove
Res
ults
Phot
o ID
Description Location
Reinspection Date: January 2024Inspection Date: January 2019
Ris
k Sc
ore
Act
ion
Prio
rity
Qua
ntity
(m, m
2, m
3)
Actions/Comments
Asbestos Containing Materials
Asb
esto
s Ty
pe
Con
ditio
n
Acc
essi
bilit
y
Airb
orne
Pot
entia
l
Expo
sure
Pot
entia
l
Sample No.
C1486 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior adjacent main road - sheet fragments 1 3 3 2 3 54 H Unknown Remove
Refer to C1486 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior south of C1486 in house footprint - sheet fragments 1 3 3 2 3 54 H Unknown Remove
Refer to C1486 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior south west corner of house - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1487 AMO CHRYRefer to Robson Report
Sheet Debris Exterior west of student accommodation - sheet fragments 1 3 3 2 3 54 H Unknown Remove
Refer to C1487 AMO CHRYRefer to Robson Report
Sheet Debris Exterior adjacent soil dump - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1488 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior north of the green work shed - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1489 AMO CHRYRefer to Robson Report
Sheet Debris Exterior east of telescope dome - sheet fragments 1 3 3 2 3 54 H Unknown Remove
RA C1489 AMO CHRYRefer to Robson Report
Sheet Debris Exterior east of telescope dome - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1490 AMO CHRYRefer to Robson Report
Sheet Debris Exterior down slope of telescope - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1491 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior west bank north end - sheet fragments 1 3 3 2 3 54 H Unknown Remove
Refer to C1491 AMO CRO CHRY
Refer to Robson Report
Sheet Debris Exterior west bank north end - sheet fragments 1 3 3 2 3 54 H Unknown Remove
C1493 CHRYRefer to Robson Report
Sheet Debris Exterior north of top telescopes - sheet fragments 1 3 3 2 3 54 H Unknown Remove
B1455 NADRefer to Robson Report
Moulded Sheet Exterior T7 adjacent main road - In ground services pit - - - - - - N 1 no. No further action required
B1472 NADRefer to Robson Report
Moulded Sheet Exterior T13 east of new student accommodation block - In ground services pit - - - - - - N 1 no. No further action required
C1474 NADRefer to Robson Report
Moulded Sheet Exterior T1 east side of main road opposite houses - In ground services pit - - - - - - N 1 no. No further action required
C1477 NADRefer to Robson Report
Cement Sheet Exterior builders waste dump - north corner of lower houses - jointing material to pipe - - - - - - N - No further action required
C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – Paint sample from FHB01Road adjacent Oddie Telescope - - - - - - M - Encapsulate with paint
Maintain in a good condition
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB02Road adjacent Visitors Centre - - - - - - M - Encapsulate with paint
Maintain in a good condition
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB03Road between Visitors Centre and Directors Residence - - - - - - M - Encapsulate with paint
Maintain in a good condition
Lead Paint Systems (Sampled materials found to be above the threshold criteria of 0.1% by w/w)
No Asbestos Detected
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB04Road adjacent Melbourne 50" Telescope - - - - - - M - Encapsulate with paint
Maintain in a good condition
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB05Road adjacent Commonwealth Solar Observatory Building - - - - - - M - Encapsulate with paint
Maintain in a good condition
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB06 (x2)Burnt out house near Faulkner Court - - - - - - M - Remove
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB07Road adjacent houses - - - - - - M - Encapsulate with paint
Maintain in a good condition
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB08Road adjacent shipping containers - - - - - - M - Encapsulate with paint
Maintain in a good condition
Refer to C1494 4.20%Refer to Robson Report
Red Paint Mount Stromlo Observatory – FHB09Road adjacent House 8 - - - - - - M - Encapsulate with paint
Maintain in a good condition
Pb01 >0.06%Refer to Robson Report
Orange Paint Mount Stromlo Observatory – paint to fire hydrantsThroughout site - - - - - - L - Maintain in a good condition
Pb02 >0.06%Refer to Robson Report
Orange Paint Mount Stromlo Observatory – paint to fire extinguisher boxRoad adjacent Melbourne 50" Telescope - - - - - - M - Encapsulate with paint
Maintain in a good condition
Pb03 >0.06%Refer to Robson Report
Red/White Paint Mount Stromlo Observatory – paint to No Smoking signRoad adjacent Melbourne 50" Telescope - - - - - - M - Encapsulate with paint
Maintain in a good condition
Pb04 >0.06%Refer to Robson Report
White Paint Mount Stromlo Observatory – paint to Bowser PumpRoad adjacent Melbourne 50" Telescope - - - - - - M - Encapsulate with paint
Maintain in a good condition
C1523 9.20%Refer to Robson Report
White Paint Mount Stromlo Observatory – paint sample from Oddie Telescope - - - - - - H -Remediate the paint to the telescope
Remediate the soil adjacent the telescope Maintain in a good condition
Pb05 <0.06%Refer to Robson Report
White Paint Mount Stromlo Observatory – paint to concrete blocksOld Seismic Station - - - - - - N - No further action required
Above-ground and Underground Storage TanksNo Above Or Underground Storage Tanks Identified.
No PCB Containing Materials Identified.
Lead Soils (Sampled materials found to be above the ASC NEPM (2013) HIL A site assessment criteria of 300 mg/kg)
Lead Free Soils (Sampled materials found to be below the ASC NEPM (2013) HIL A site assessment criteria of 300 mg/kg)No Lead Soil Samples Taken.
No Lead Free Soil Samples Taken.
No SMF Containing Materials Identified.SMF Containing Materials
PCB Containing Materials
ODS Containing MaterialsNo ODS Contatin Materials Identified.
Lead Free Paint Systems (Sampled materials found to be below the threshold criteria of 0.1% by w/w)
Lead Dust
Lead Free DustNo Lead Dust Samples Taken.
No Lead Free Dust Samples Taken.
3. ANU Hazardous Materials Maintenance Log
Hazardous Materials Maintenance Log
Site: Building M908 – General Site
ANU Hazardous Materials Maintenance Log The following log should be maintained by the responsible person. It should contain information relating to the on-going maintenance or control measures associated with ACM including removal, remedial works, repairs, inspection, monitoring and clearance details etc.
Site: Building M908 Date Scope/Location Carried out by Result/Comments Entered by 31/01/2019
– 02/02/2019
Original Asbestos Survey Jordan Curbishley & Ben Kendon – Robson Environmental
Undertake a survey of the common areas, roads and bike trails to identify and assess asbestos materials.
Jordan Curbishley – Robson Environmental
25/03/2019 Asbestos Management Plan Report completed
Jordan Curbishley – Robson Environmental
New Asbestos Management Plan Report & Register produced and delivered.
Jordan Curbishley – Robson Environmental
15/04/2019 Original Lead Paint Survey Jordan Curbishley – Robson Environmental
Undertake a survey of the general site to identify and assess lead paint systems
Jordan Curbishley – Robson Environmental
09/05/2019 Lead Paint Management Plan Report completed
Jordan Curbishley – Robson Environmental
New Lead Paint Management Plan Report produced and delivered Updated existing Register to include lead paint systems
Jordan Curbishley – Robson Environmental
20/05/2019 Oddie Telescope Lead Paint Management Plan Report completed
Jordan Curbishley – Robson Environmental
New Oddie Telescope Lead Paint Management Plan Report produced and delivered Updated existing Register to include lead paint systems
Jordan Curbishley – Robson Environmental
4. Robson Environmental Report
This report MUST NOT be used as a removal specification
Client: ANU The Australian National University, Canberra, ACT, 2601
No. 3181 Accredited for compliance with
ISO/IEC 17020 Robson Environmental Pty Ltd ~ ABN: 55 008 660 900 ~ www.robsonenviro.com.au
p: 02 6239 5656 ~ f: 02 6239 5669 ~ [email protected] PO Box 112 Fyshwick ACT 2609 ~ 140 Gladstone Street Fyshwick ACT 2609
H2410_T-07266_Mount Stromlo Observatory-20190131
Asbestos Survey & Management Plan
Mount Stromlo Observatory – Common Areas, Roads and Bike Trails Only
Cotter Road
Block 38
Weston Creek ACT 2611
January 2019
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 2 of 61
CERTIFICATE OF APPROVAL FOR ISSUE OF DOCUMENTS Document No: H2410 Revision Status: 1 Title: Asbestos Survey & Management Plan Date of Issue: 25/03/2019 Mount Stromlo Observatory - Common Areas, Roads and Bike Trails Only Cotter Road Block 38 Weston Creek ACT 2611
Client: ANU Copy No: One
Assessor Position Signature
Surveyed by:
Ben Kendon - Licensed Asbestos Assessor #LAA001094
Jordan Curbishley – Licensed Asbestos Assessor #AA00039
Manager Environmental Assessment & Remediation
Hazardous Materials
Consultant
Approved by: Anne Robson - Licensed Asbestos Assessor #AA00022 Director
Released by: Anne Robson - Licensed Asbestos Assessor #AA00022 Director
RELEASE STATUS:
Confidential
© Copyright Robson Environmental Pty Ltd
All intellectual property and copyright reserved.
This report remains the property of Robson Environmental Pty Ltd (“Robson”). The person commissioning the report (“the client”) is entitled to retain possession of it upon payment of Robson’s fees or upon arrangements as to payment satisfactory to Robson has been made.
Apart from any fair dealing for the purpose of private study, research, criticism or review, as permitted under the Copyright Act, 1968 the client may not photocopy or otherwise reproduce, transmit, store in a retrieval system or adapt in any form or by any means (electronic, mechanical, photocopying, recording or otherwise) all or any part of this report without the prior written consent of Robson.
In the event that the client photocopies or otherwise reproduces all or any part of this report without the prior written consent of Robson then the client:
a) must immediately upon demand of Robson return to Robson the original (or, if more than one , all originals) and all photocopies or other reproductions of the report;
b) agrees to pay Robson any loss or damage suffered as a result of the breach by the client of this provision; and c) agrees to indemnify Robson against any liability arising from the breach by the client of this provision.
Enquiries should be addressed to Robson Environmental Pty. Ltd.
DISTRIBUTION
Organisation Attention Copy No. Actioned
ANU Brett Morrison 1 25/03/2019
Robson Environmental Pty Ltd John Robson 2 25/03/2019
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 3 of 61
Table of Contents
1 EXECUTIVE SUMMARY ......................................................................................................................... 5
1.1 Purpose .................................................................................................................................................................5
1.2 Scope ....................................................................................................................................................................5
1.3 Method ...................................................................................................................................................................5
1.4 Asbestos Key Findings ..........................................................................................................................................6
2 INTRODUCTION ................................................................................................................................... 11
2.1 Requirements for the Asbestos Survey & Management Plan .............................................................................. 11
2.2 Exclusions ........................................................................................................................................................... 12
2.3 Limitations ........................................................................................................................................................... 12
3 ASBESTOS SURVEY ........................................................................................................................... 13
3.1 Survey Details...................................................................................................................................................... 13
3.2 Survey Methodology ............................................................................................................................................ 13
3.3 Sample Analysis .................................................................................................................................................. 13
4 ASBESTOS RISK ASSESSMENT ........................................................................................................ 16
4.1 Introduction .......................................................................................................................................................... 16
4.2 Asbestos Register ................................................................................................................................................ 18
4.3 Risk Assessment ......................................................................................................................................... 24
5 ASBESTOS MANAGEMENT ................................................................................................................ 25
5.1 Control Measures ........................................................................................................................................ 25
5.2 Asbestos Emergency Procedures ............................................................................................................... 26
5.3 Management of ACM ................................................................................................................................... 27
5.4 PMCW Decision Record .............................................................................................................................. 29
5.5 Timetable for Action ..................................................................................................................................... 31
6. RESPONSIBILITIES .............................................................................................................................. 33
6.1 PMCW Responsibilities ............................................................................................................................... 33
6.2 Updating the Risk Assessment .................................................................................................................... 34
6.3 Key Personnel ............................................................................................................................................. 35
7 ASBESTOS REMOVAL WORKS .......................................................................................................... 36
7.1 PMCW Responsibilities ............................................................................................................................... 36
7.2 Removalist Responsibilities ......................................................................................................................... 36
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 4 of 61
7.3 Approval to Begin Asbestos Removal Works .............................................................................................. 36
7.4 Work in Areas Containing Asbestos – Trades Personnel ............................................................................ 36
7.5 Emergency Work in Areas Containing Asbestos ......................................................................................... 36
7.6 Monitoring Arrangements ............................................................................................................................ 37
7.7 Clearance Inspections Prior To Re-Occupation .......................................................................................... 37
7.8 ACM removal/maintenance record .............................................................................................................. 37
8 UPDATING THE ASMP ......................................................................................................................... 40
9 APPENDICES........................................................................................................................................ 41
9.1 APPENDIX A – Laboratory Results ..................................................................................................................... 41
9.2 APPENDIX B – Plans .......................................................................................................................................... 45
9.3 APPENDIX C – ACM Item Locations & Representative Photographs ................................................................. 50
9.4 APPENDIX D – Glossary ............................................................................................................................. 60
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 5 of 61
1 Executive Summary
1.1 Purpose
This Asbestos Survey & Management Plan (ASMP) for Mount Stromlo Observatory, Cotter Road, Block 38, Weston Creek ACT was commissioned by ANU in order to ensure the occupants receive the highest standards of occupational health and safety in relation to asbestos. The implementation of this Management Plan will assist the client in protecting the occupational health and safety of the occupants and address the regulatory requirements of a person with Management or Control of the Workplace (PMCW) in relation to asbestos in the premises.
1.2 Scope
Hazardous materials assessed included ACM, SMF, PCBs, lead containing paint, ODS and A/UST. The survey commenced on 31 January 2019 to 12 March 2019.
The aim of the survey was to assess the extent, location and condition of Asbestos Containing Material (ACM) on the Mount Stromlo Observatory common areas, roads and bike trails only Materials in similar locations which were visually consistent with those which have been identified as being an ACM are to be considered as being identical.
1.3 Method
The survey involved a visual inspection and subsequent sampling and analysis of collected samples by Robson’s National Association of Testing Authorities (NATA) accredited laboratory using polarised light microscopy. Samples were a representative selection of materials suspected of containing asbestos. Materials were not sampled from all areas due to the uniformity of the materials used.
All site surveying, sampling, laboratory analysis and reporting is in accordance with Robson Environmental’s NATA, ISO9001, AS4801 and ISO14001 accreditations.
The information contained in this document will assist the PMCW to fulfil their obligations under the latest editions of the following codes, regulations/Acts:
How to Manage and Control Asbestos in the Workplace Code of Practice
How to Safely Remove Asbestos Code of Practice
Dangerous Substances (General) Regulation 2004
ACT Dangerous Substances Act 2004
Work Health and Safety Act 2011
Work Health and Safety Regulations 2011
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 6 of 61
1.4 Asbestos Key Findings
Table 1A: ACM locations and required actions
Mount Stromlo Observatory ACM Location Action to be Taken
Sheet debris (Non-Friable)
Exterior adjacent main road - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior adjacent soil dump - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior adjacent track on the north side of work depot - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior adjacent west boundary fence to lower houses - sheet Remove
Sheet debris (Non-Friable)
Exterior below gully at the west end of the Stromlo Observatory complex - sheet
fragments Remove
Sheet debris (Non-Friable)
Exterior builders waste adjacent abandoned driveway off main road - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior builders waste dump - north corner of lower houses - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior down slope of telescope - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior east of telescope dome - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior east of telescope dome - sheet fragments Remove
Moulded Sheet (Non-Friable)
Exterior island opposite tennis courts adjacent main road - In ground services pit Remove
Sheet debris (Non-Friable)
Exterior north of the green work shed - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior north of top telescopes - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior south of C1486 in house footprint - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior south of work depot - sheet fragments Remove
Pipe (Non-Friable)
Exterior south side of main road - compressed sheet Remove
Sheet debris (Non-Friable)
Exterior south west corner of house - sheet fragments Remove
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 7 of 61
Mount Stromlo Observatory ACM Location Action to be Taken
Sheet debris (Non-Friable)
Exterior south west of main Stromlo complex - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior west bank north end - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior west bank north end - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior west end of Stromlo Observatory complex - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior west of student accommodation - sheet fragments Remove
Sheet debris (Non-Friable)
Exterior west side of house near bushland - sheet fragments Remove
Refer to Section 1.4 - Table 1B for presumed ACMs and Section 2.2 for exclusions
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 8 of 61
Table 1B: Presumed ACM, concealed locations and required actions
Type ACM Locations Action to be taken
The materials listed below while not identified on site, should be presumed to be present until a destructive survey confirms otherwise
Presumed ACM
Asbestos cement sheet formwork and electrical cable duct / water pipe debris
Subterranean areas
Any excavation works in the areas or
adjacent areas where ACM has been
identified should be undertaken by
qualified Asbestos personnel under the
supervision of an Asbestos Assessor.
Prior to any planned demolition, refurbishment or maintenance, its effect upon any in situ asbestos must be established by reference to this document including amendments.
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 9 of 61
Recommendations
The GPS coordinates for all ACM finds were recorded. Please refer to Appendix B – Plans.
The majority of the observed ACM was located within the footprints of the building sites which had burned down in previous bush fires. The ACM consisted of small fragments which appear to be predominately on the soil surface and are likely to be remnant waste from previously demolished / degraded infrastructure or illegal dumping on site.
ACM was observed to the areas outside these footprints but at a reduced frequency. A significant dump (C1490) was discovered down slope and west of the visitor’s car park adjacent one of the dirt access tracks. Buried asbestos debris may be present beyond the perimeter of the above specified areas. Care must be taken when excavation works are carried out in the contaminated and adjacent areas because asbestos debris may be uncovered at depth.
In ground service pits identified as T15 – T18 in the plans were identified as containing asbestos. These pits are in poor condition and should be removed by a licensed asbestos removalist.
All other in ground service pits identified as T1-T14 in the plans were identified as containing non-asbestos cement sheet.
All ACM finds on site are categorized as non-friable ACM in poor condition.
The presence of the asbestos poses a low risk to site occupants (including the general public). However the areas of impact should either be cordoned off and appropriately sign posted to prevent access to unauthorized personnel or the asbestos removed by hand (‘chicken picked’) by an ACT licensed asbestos removalist.
Due to the extent of the sporadic finds across the site it has also been assessed that it is unlikely that all the ACM will be able to be removed successfully from the site. Therefore Robson recommends an asbestos management plan (AMP) with an unexpected finds protocol (UFP) be developed for the site to manage all ACM finds into the future.
ACM must not be drilled, cut, sanded, damaged or abraded and a good paint finish maintained. Asbestos work on non friable ACM may be undertaken by a licensed Class A or B Asbestos Removalist. Any works on, or in the vicinity of friable ACM must only be undertaken by a licensed Class A Asbestos Removalist.
The Asbestos Register including any risk assessments should be reviewed within the time period recommended by the Asbestos Assessor in 4.2 Asbestos Register Table 3A or earlier where:
- A risk assessment indicates the need for reassessment or - Any ACM has been disturbed or moved
ACM should be labelled with approved asbestos warning labels or signs. Due to the stigma associated with asbestos and to avoid malicious damage to ACM, labelling can be kept to discrete areas. Where labelling cannot be undertaken, the PMCW must adopt strict administrative controls to ensure ACM is not subject to accidental damage.
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 10 of 61
Asbestos Removal
Removal of ACM must be undertaken by a licensed Asbestos Removalist in accordance with current legislation. The removal/remediation of friable ACM must be undertaken by a licensed Class A Asbestos Removalist. Removal or remediation of non friable asbestos may be undertaken by either an A or B Class Asbestos Removalist.
Prior to the commencement of any removal or remediation works associated with any amount of friable or non friable asbestos a building certifier must be engaged and building approval granted. An application must be submitted to WorkSafe ACT and ComCare (where applicable) at least 5 days prior to removal works commencing. An asbestos removal contractor must supply an Asbestos Removal Control Plan (ARCP) and a Safe Work Method Statement (SWMS). An independent licensed Asbestos Assessor should be engaged to ensure that the ARCP addresses all safety issues relating to the planned asbestos works.
Air monitoring is mandatory during the removal or remediation of friable asbestos and should be considered during the removal or remediation of non friable asbestos. Air sampling is to be undertaken in accordance with the Guidance Note on the Membrane Filter Method for Estimating Airborne Asbestos Fibres, 2nd Edition and test certificates should be NATA endorsed.
An independent Asbestos Assessor must also be employed to undertake a Clearance Inspection of either friable and non friable asbestos removal or remediation works. A satisfactory clearance certificate for the remediated areas must ensure that no visible asbestos or presumed asbestos remains. Additionally no asbestos fibres should be detected by laboratory analysis if any validation samples are taken. All surfaces within the remediated area must be free of general dust and debris.
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 11 of 61
2 INTRODUCTION
This ASMP is designed to address the safe control of ACM identified by Robson Environmental Pty Ltd in the premises. It is also designed to address any future asbestos findings.
This ASMP contains sections covering the identification, evaluation and control of asbestos hazards which were identified during the survey.
2.1 Requirements for the Asbestos Survey & Management Plan
The PMCW must retain a copy of this ASMP and it must be distributed to tenants. Prior to any repair, maintenance or building works to the premises, all stakeholders must be provided with a copy of this ASMP.
Maintenance, trades and other personnel must be instructed not to remove or damage identified or suspected ACM. If ACM is identified in the area where work is to be undertaken the ACM must be removed prior to the work commencing.
Removal of ACM must be undertaken by an ACT licensed Asbestos Removalist in accordance with current legislation.
This ASMP includes the following:
A register of all known ACM Extent, form, condition and risks associated with the ACM Labelling requirements for ACM Safe work methods, removal methods and training requirements Responsibilities of all persons involved in ACM management Procedures to address incidents or spillage involving ACM A timetable for managing risks, including priorities for removal or control of ACM
according to risk and timetable for reviewing risk assessments A procedure for reviewing and updating the ASMP and register of ACM, including a
timetable
This ASMP addresses the current requirements for asbestos management and therefore must be updated as required to reflect legislative changes. The asbestos register and associated risk assessment within this ASMP is designed to be reviewed by a licensed Asbestos Assessor at the intervals shown in 4.2 Asbestos Register Table 3A.
Where ACM has been disturbed, removed, enclosed, encapsulated, sealed or its condition has deteriorated, the existing asbestos risk assessment will no longer be valid and the ASMP will need to be reviewed by the licensed Asbestos Assessor to reflect these changes. Each review should critically assess all the asbestos management procedures and their effectiveness in:
Preventing exposure to asbestos Controlling access to asbestos Highlighting the need for action to maintain or remove ACM Maintaining the accuracy of the ASMP
Details of any mitigating factors must be recorded in the Asbestos Register (refer 4.2 Table 3A).
Client: ANU H2410_T-07266_Mount Stromlo Observatory-20190131 Page 12 of 61
2.2 Exclusions
The HMSMP commissioned by the client was to be non-destructive and non-intrusive in nature. This type of commission limits or restricts access to the building structure, some surfaces and materials. No determination can be made regarding the possibility of concealed or inaccessible ACM without gaining access to areas that are not readily accessible to allow for inspections.
Unless specifically noted, the survey did not cover exterior ground surfaces, sub-surfaces (e.g. infill/soil) or items such as materials in laboratories or special purpose facilities.
When any building works are undertaken, care should be taken to determine the existence or otherwise of ACM. As a precaution, all materials that may, or are likely to contain asbestos should be assumed to contain asbestos and be treated appropriately until laboratory analysis confirms otherwise. If, during building works, ACM is located, those works should cease in the areas of concern and a licensed Asbestos Removalist contacted immediately to remove the material. A licensed Asbestos Assessor must issue a clearance certificate before works may recommence in the affected area.
Robson Environmental Pty Ltd recommends that prior to any works, our office be contacted. Our Asbestos Assessors can attend the site to observe the works process, advise as necessary, and in the event of asbestos being located, assist with assessing the extent of ACM. Further, Robson Environmental Pty Ltd provides all occupational hygiene services in relation to asbestos removal.
2.3 Limitations
Although all reasonable care and attention is taken in compiling this report, no guarantee as to its accuracy or completeness can be given. This may be a result of:
normal construction practices of 'building in' some ACM (i.e. during previous renovations or additions)
the random application of asbestos materials other physical or applied constraints on our investigation
Our report is limited by the physical constraints of the structure under investigation. Prior to any refurbishment or hazardous material removal projects, the contractor(s) carrying out the work must fully acquaint themselves with the extent of the hazardous materials, particularly in those areas which may require full or partial demolition, in order to determine the exact extent and location of these materials.
Although extensive, this ASMP must not be used as a specification or method statement for any future asbestos removal project. In these circumstances, detailed plans and quantities would be required.
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3 ASBESTOS SURVEY
3.1 Survey Details
The survey of the site included all accessible areas of the building(s) except where stated otherwise. For further asbestos management information, refer to Appendix D.
3.2 Survey Methodology
The survey involved a visual inspection and subsequent sampling and analysis of materials in Robson Environmental's NATA accredited laboratory using polarised light microscopy. Samples were a representative selection of materials suspected of containing asbestos. Materials were not sampled from all areas due to the uniformity of the materials used.
3.3 Sample Analysis
Table 2: Mineralogical analysis of samples for asbestos using polarising light microscopy
Mount Stromlo Observatory Sample
Reference Sample Location Sample Type Composition
B1455 Exterior adjacent main road - In ground services pit Moulded Sheet No Asbestos
Detected
B1472 Exterior east of new student
accommodation block - In ground services pit
Moulded Sheet No Asbestos Detected
B1478 Exterior island opposite tennis courts adjacent main road - In
ground services pit Moulded Sheet
Amosite, Chrysotile, Crocidolite Asbestos
Detected
C1474 Exterior T1 east side of main road
opposite houses - In ground services pit
Moulded Sheet No Asbestos Detected
C1475 Exterior adjacent west boundary fence to lower houses - sheet Sheet debris Amosite, Chrysotile
Asbestos Detected
C1476 Exterior builders waste dump - north corner of lower houses -
sheet fragments Sheet debris Amosite, Chrysotile
Asbestos Detected
C1477 Exterior builders waste dump - north corner of lower houses -
jointing material to pipe Cement sheet No Asbestos
Detected
C1478 Exterior builders waste adjacent
abandoned driveway off main road - sheet fragments
Sheet debris Amosite, Chrysotile Asbestos Detected
C1479 Exterior south of work depot - sheet fragments Sheet debris Chrysotile Asbestos
Detected
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Mount Stromlo Observatory Sample
Reference Sample Location Sample Type Composition
C1480 Exterior adjacent track on the north
side of work depot - sheet fragments
Sheet debris Chrysotile Asbestos Detected
C1481 Exterior south side of main road - compressed sheet Pipe Chrysotile Asbestos
Detected
C1482 Exterior west side of house near bushland - sheet fragments Sheet debris
Amosite, Chrysotile, Crocidolite Asbestos
Detected
C1483 Exterior west end of Stromlo Observatory complex - sheet
fragments Sheet debris Amosite, Chrysotile
Asbestos Detected
C1484 Exterior below gully at the west end
of the Stromlo Observatory complex - sheet fragments
Sheet debris Amosite, Chrysotile Asbestos Detected
C1485 Exterior south west of main Stromlo complex - sheet fragments Sheet debris Amosite, Chrysotile
Asbestos Detected
C1486 Exterior adjacent main road - sheet fragments Sheet debris
Amosite, Chrysotile, Crocidolite Asbestos
Detected
C1487 Exterior west of student accommodation - sheet fragments Sheet debris Amosite, Chrysotile
Asbestos Detected
C1488 Exterior north of the green work shed - sheet fragments Sheet debris
Amosite, Chrysotile, Crocidolite Asbestos
Detected
C1489 Exterior east of telescope dome - sheet fragments Sheet debris Amosite, Chrysotile
Asbestos Detected
C1490 Exterior down slope of telescope - sheet fragments Sheet debris Amosite, Chrysotile
Asbestos Detected
C1491 Exterior west bank north end - sheet fragments Sheet debris
Amosite, Chrysotile, Crocidolite Asbestos
Detected
C1493 Exterior north of top telescopes - sheet fragments Sheet debris Chrysotile Asbestos
Detected
NATA accredited laboratory:
Robson Environmental Pty Ltd Accreditation number: 3181
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Legend
Chrysotile = white asbestos Amosite = grey or brown asbestos
Crocidolite = blue asbestos
It should be noted that the above samples were a representative selection of materials suspected of containing asbestos.
Samples may not have been taken from all areas due to the uniformity of the materials used throughout the premises.
On-site inspections and an examination of the asbestos register and accompanying plans within this report should be undertaken prior to the commencement of any asbestos removal programme.
Robson Environmental Pty Ltd has taken all care to ensure that this report includes the most accurate information available. Where it uses test results prepared by third parties, it relies on the accuracy of the test results in preparing this report. In providing this report, Robson Environmental Pty Ltd does not warrant the accuracy of such third party analytical results.
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4 ASBESTOS RISK ASSESSMENT
4.1 Introduction
The purpose of the risk assessment is to enable informed decisions to be made concerning the control of ACM. The risk assessment should take into account the information in the Asbestos Register including:
the type of ACM (friable or non friable) the condition and location of ACM whether the ACM is likely to be disturbed due to its condition and location the likelihood of exposure
Types of ACM
Non friable ACM
Non friable asbestos (previously known as bonded asbestos) is any material that contains asbestos firmly bound into a matrix. It may consist of cement or various resins/binders and cannot be reduced to a dust by hand pressure. As such it does not present an exposure hazard unless cut, abraded, sanded or otherwise disturbed. Therefore, the exposure risk from non friable ACM is negligible during normal building occupation.
Note: if non friable ACM is damaged or otherwise deteriorated, the risk assessment must be reviewed to reflect a higher potential for exposure to asbestos fibres. Severely damaged, non friable ACM may be assessed as being friable. A licensed Asbestos Assessor must perform the risk assessment.
Friable ACM
Friable asbestos material can be crumbled or reduced to a dust by hand pressure when dry. It can represent a significant exposure hazard as a consequence of minor disturbance. Examples of friable asbestos are hot water pipe lagging, severely damaged asbestos cement sheet, limpet spray to structural beams and electrical duct heater millboard.
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ACM CONDITION RATING
1 Severe Friable: Readily accessible, deteriorated surface in extremely poor condition
2 Poor Friable: Unstable material that is relatively accessible Non friable: Readily accessible, deteriorated surface
3 Normal Friable: Stable asbestos that is relatively inaccessible Non friable: Accessible surfaces in fair condition
4 Good Non friable: Well sealed stable surfaces in accessible locations
ACM RISK RATING
A Very High Friable: Exposure to airborne asbestos as a consequence of extremely minor disturbance
B High
Friable: Exposure to airborne asbestos occurs as a consequence of minor disturbance Non friable: Exposure to airborne asbestos likely as a consequence of significant disturbance
C Medium
Friable: Exposure to airborne asbestos unlikely during normal building use Non friable: Exposure to airborne asbestos highly unlikely during normal building use
D Low Non friable: No exposure to airborne asbestos during normal building use
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4.2 Asbestos Register
The Asbestos Register details the type, location, risk rating and action required for all identified ACM. The register should be accessed to inform all decisions made concerning the control of ACM. Action taken to control ACM must be recorded in this register in order to comply with current legislation.
Table 3A: Asbestos Register (to be updated as required)
Mount Stromlo Observatory
Sample No. ACM Type Locations Condition
Rating Risk
Rating Approx
Quantity Recommended
Management Action Action
Undertaken Assessor/
Date assessed
B1478 Moulded Sheet
Exterior island opposite tennis courts adjacent main road - In ground services pit
(T18)
2 B Unknown Remove
RA B1478 Moulded Sheet
Exterior island opposite tennis courts adjacent main road - In ground services pit
(T17)
2 B Unknown Remove
RA B1478 Moulded Sheet
Exterior adjacent main road - In ground services pit (T15) 2 B Unknown Remove
RA B1478 Moulded Sheet
Exterior adjacent main road - In ground services pit (T16) 2 B Unknown Remove
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Mount Stromlo Observatory
Sample No. ACM Type Locations Condition
Rating Risk
Rating Approx
Quantity Recommended
Management Action Action
Undertaken Assessor/
Date assessed
C1475 Sheet debris (Non-Friable)
Exterior adjacent west boundary fence to lower
houses - sheet 2 B Unknown Remove
C1476 Sheet debris (Non-Friable)
Exterior builders waste dump - north corner of lower
houses - sheet fragments 2 B Unknown Remove
C1478 Sheet debris (Non-Friable)
Exterior builders waste adjacent abandoned
driveway off main road - sheet fragments
2 B Unknown Remove
C1479 Sheet debris (Non-Friable)
Exterior south of work depot - sheet fragments 2 B Unknown Remove
C1480 Sheet debris (Non-Friable)
Exterior adjacent track on the north side of work depot -
sheet fragments 2 B Unknown Remove
C1481 Pipe
(Non-Friable) Exterior south side of main road - compressed sheet 3 C Unknown Remove
C1482 Sheet debris (Non-Friable)
Exterior west side of house near bushland - sheet
fragments 2 B Unknown Remove
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Mount Stromlo Observatory
Sample No. ACM Type Locations Condition
Rating Risk
Rating Approx
Quantity Recommended
Management Action Action
Undertaken Assessor/
Date assessed
C1483 Sheet debris (Non-Friable)
Exterior west end of Stromlo Observatory complex - sheet
fragments 2 B Unknown Remove
C1484 Sheet debris (Non-Friable)
Exterior below gully at the west end of the Stromlo
Observatory complex - sheet fragments
2 B Unknown Remove
C1485 Sheet debris (Non-Friable)
Exterior south west of main Stromlo complex - sheet
fragments 2 B Unknown Remove
C1486 Sheet debris (Non-Friable)
Exterior adjacent main road - sheet fragments 2 B Unknown Remove
RA C1486 Sheet debris (Non-Friable)
Exterior south of C1486 in house footprint - sheet
fragments 2 B Unknown Remove
RA C1486 Sheet debris (Non-Friable)
Exterior south west corner of house - sheet fragments 2 B Unknown Remove
C1487 Sheet debris (Non-Friable)
Exterior west of student accommodation - sheet
fragments 2 B Unknown Remove
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Mount Stromlo Observatory
Sample No. ACM Type Locations Condition
Rating Risk
Rating Approx
Quantity Recommended
Management Action Action
Undertaken Assessor/
Date assessed
RA C1487 Sheet debris (Non-Friable)
Exterior adjacent soil dump - sheet fragments 2 B Unknown Remove
C1488 Sheet debris (Non-Friable)
Exterior north of the green work shed - sheet fragments 2 B Unknown Remove
C1489 Sheet debris (Non-Friable)
Exterior east of telescope dome - sheet fragments 2 B Unknown Remove
RA C1489 Sheet debris (Non-Friable)
Exterior east of telescope dome - sheet fragments 2 B Unknown Remove
C1490 Sheet debris (Non-Friable)
Exterior down slope of telescope - sheet fragments 2 B Unknown Remove
C1491 Sheet debris (Non-Friable)
Exterior west bank north end - sheet fragments 2 B Unknown Remove
RA C1491 Sheet debris (Non-Friable)
Exterior west bank north end - sheet fragments 2 B Unknown Remove
C1493 Sheet debris (Non-Friable)
Exterior north of top telescopes - sheet fragments 2 B Unknown Remove
RA = Referred to another sample as being the same material VA = Material visually assessed as being consistent with ACM
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Note: All asbestos items have been marked up on the plans – Refer to Appendix B Refer to Section 1.4 - Table 1B for presumed ACM and Section 2.2 for exclusions
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Table 3B: Register of sampled non-asbestos materials
Mount Stromlo Observatory
Sample number Type Locations
B1455 Moulded Sheet Exterior T7 adjacent main road - In ground services pit
B1472 Moulded Sheet Exterior T13 east of new student accommodation block - In ground services pit
C1474 Moulded Sheet Exterior T1 east side of main road opposite houses - In ground services pit
C1477 Cement sheet Exterior builders waste dump - north corner of lower houses - jointing material to pipe
Refer to Section 1.4 - Table 1B for presumed ACMs and Section 2.2 for exclusions
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4.3 Risk Assessment
Control Measures General Requirements
Any ACM which is not scheduled for immediate removal should be fenced off to prevent disturbance and appropriate signage displayed..
The details of any deterioration or removal must be entered into the ACM register. All site personnel must be made aware of the location of ACM. The Asbestos Register must be distributed to all stakeholders. Unless holding a valid Asbestos Removal Licence, maintenance all site personnel shall not
remove or knowingly damage identified, presumed or suspected ACM. Prior to any earth works which are likely to disturb the contaminated or adjacent areas its
effect upon any in situ asbestos must be established by reference to this document, including amendments.
Recommended Control Measures for the Premises
Identified, presumed or suspected ACM should be fenced off and approved asbestos warning labels or signs displayed. Where labelling is not practicable, strict administrative controls must be in place to ensure ACM is not subject to accidental damage or misuse.
Prior to any planned demolition, refurbishment or maintenance, its effect upon any in situ asbestos must be established by reference to this document, including amendments.
The asbestos register and associated risk assessments within the ASMP are designed to be reviewed by a licensed Asbestos Assessor at intervals stated in 4.2 Asbestos Register Table 3A.
Where an ACM has been disturbed, removed, enclosed, encapsulated, sealed or its condition has deteriorated, the existing asbestos risk assessment will no longer be valid and the ASMP will need to be revised by a licensed Asbestos Assessor to reflect these changes. – refer section 2.1.
Demolition or any other works within areas where asbestos is located is not to take place until the asbestos removal works have been completed and a Clearance Certificate issued by a licensed Asbestos Assessor.
Note: Buried asbestos debris may be present beyond the perimeter of the above specified areas. Care must be taken when excavation works are carried out in the contaminated and adjacent areas because asbestos debris may be uncovered at depth.
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5 ASBESTOS MANAGEMENT
5.1 Control Measures
General requirements
ACM identified as representing an exposure risk (see Table 3A) should be removed or otherwise controlled.
Any ACM that is not scheduled for immediate removal should be labelled with appropriate warnings and maintained in good condition.
The location of ACM must be entered into the Asbestos Register.
Maintenance and other personnel must be made aware of the location of ACM.
The Asbestos Register must be freely available.
Unless holding a valid Asbestos Removal Licence, maintenance workers, trades or occupants shall not remove or knowingly damage identified ACM.
Before any planned demolition, refurbishment or maintenance, its effect upon any in situ asbestos must be established by reference to this document, including amendments.
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5.2 Asbestos Emergency Procedures
The following course of action should be taken immediately if asbestos containing material (ACM) or suspected ACM is disturbed, or is accidentally damaged.
Evacuate all personnel from the immediate area and if present shut down the air-conditioning system
Restrict access to the area by locking or cordoning off the area until a full assessment has been completed
Report the incident to the PMCW and supply the exact location & short brief of what has occurred
PMCW immediately inform stakeholders of the incident
PMCW to engage a Licensed Asbestos Assessor to conduct a site assessment, take samples, conduct air monitoring (if required) and provide written report containing a risk
assessment
PMCW receives advice from Licensed Asbestos Assessor on outcome of site assessment
No asbestos present Asbestos present
Advise all stakeholders of the outcome Make safe using recommendations of the Licensed Asbestos Assessor
Resume normal operations Management Action & Remediation Plan and Asbestos Register updated
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5.3 Management of ACM
The options for short to medium-term management of ACM are outlined below.
1. Defer action
Appropriate when
Not appropriate when Advantages Disadvantages
Negligible risk of exposure and
Asbestos inaccessible and fully contained
or
Asbestos stable and not liable to damage
Possibility of deterioration or damage
Airborne dust exceeds recommended exposure standard
No initial cost
Cost of removal deferred
Hazard remains
Need for continuing assessment
Asbestos management program required
2. Encapsulate or seal1
Appropriate when
Not appropriate when Advantages Disadvantages
Removal difficult or not feasible Firm bond to substrate Damage unlikely Short life of structure
Asbestos deteriorating Application of sealant may cause damage to material Water damage likely Large areas of damaged asbestos
Quick and economical for repairs to damaged areas May be an adequate technique to control release of asbestos dust
Hazard remains Cost for large areas may be near removal cost Asbestos management system required Eventual removal may be more difficult and costly
1 Seal through application of paint, lacquer or PVA spray
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3. Removal
Appropriate when
Not appropriate when Advantages Disadvantages
Surface friable or asbestos poorly bonded to substrate Asbestos is severely water-damaged or liable to further damage or deterioration Located in air conditioning duct Airborne asbestos exceeds recommended exposure standard Other control techniques inappropriate
Located on complex and inaccessible surfaces Removal extremely difficult and other techniques offer satisfactory alternative
Hazard removed No further action required
Increases immediate risk of exposure especially to removal workers Creates major disturbance in building Often highest cost, most complex and time-consuming method Removal may increase fire risk in building; substitute required Possible contamination of whole building if removal is done poorly
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5.4 PMCW Decision Record
Option 1: Defer action
Item no. ACM and Location Reason Authorisation Date
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Option 2: Encapsulate or seal
Item no. ACM and Location Reason Authorisation Date
Option 3: Removal
Item no. ACM and Location Reason Authorisation Date
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5.5 Timetable for Action
The timetable for action should be administered to ensure the PMCW has a clear plan for all works which may affect ACM in the workplace. This includes maintenance work, scheduled removal work and risk assessment reviews that may impact ACM.
Table 4: Timetable for action
ACM removal/ work
Date of scheduled
works Details Authorisation Date
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ACM removal/ work
Date of scheduled
works Details Authorisation Date
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6. RESPONSIBILITIES
6.1 PMCW Responsibilities
The PMCW must:
ensure the ACM register and all relevant information pertaining to asbestos in the workplace is freely available upon request
provide occupants with up-to-date information relating to the condition and relative risk of ACM in the workplace
provide information on the control measures in place to contain ACM-related risk
provide information to staff and contractors on measures to be taken to ensure there is no exposure to asbestos in the workplace, either through accident or negligence
PMCW Action Record
Record all communication activities undertaken to inform staff/occupants of ACM in the workplace.
Action Authorisation Date
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6.2 Updating the Risk Assessment
The register of ACM, including any risk assessments, should be reviewed at the intervals stated in 4.2 Asbestos Register Table 3A or earlier where:
a risk assessment indicates the need for reassessment any ACM has been disturbed or moved
A visual inspection of identified ACM should be undertaken as part of any review.
Current legislation requires that an Asbestos Management Plan and Risk Assessments are required in addition to an Asbestos Register and Survey. Licensed Asbestos Assessors at Robson Environmental Pty Ltd are able to produce these documents to comply with your obligations.
Each review should critically assess all asbestos management procedures and their effectiveness in:
preventing exposure to asbestos fibres
controlling access to asbestos
highlighting the need for action to maintain or remove ACM
maintaining the accuracy of the ASMP
Details of any mitigating actions must be recorded in the 2.4 Asbestos Register Table 3A.
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6.3 Key Personnel
This section outlines the responsibilities of all persons involved in the safe management of ACM.
1. PMCW
Name:
Contact details:
Responsibilities: e.g. provision of information
2. Occupational Health and Safety Representative
Name:
Contact details:
Responsibilities: e.g. keeping occupants informed of any changes to the status of ACM in the workplace
3. Facilities Management (if applicable)
Name:
Contact details:
Responsibilities: e.g. arrange removal and repair works as required; maintaining the ASMP
4. Other Name:
Contact details:
Responsibilities:
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7 ASBESTOS REMOVAL WORKS
7.1 PMCW Responsibilities
Where it has been determined that ACM is to be removed, the PMCW must ensure that a risk assessment is performed prior to the removal works, and that the removalist takes this risk assessment into account. This risk assessment must include the possibility of uncovering previously concealed ACM and ensuring concealed ACM is identified by a licensed Asbestos Assessor. The PMCW should provide a detailed scope of works for the Asbestos Removalist, including potential hazards, details about areas which may contain asbestos and arrangements for clearance inspections and air monitoring.
7.2 Removalist Responsibilities
Prior to the commencement of removal works, the licensed asbestos removal contractor must:
provide a site-specific Asbestos Removal Control Plan (ARCP) ensure the removal is adequately supervised and carried out in a safe manner ensure all persons carrying out the removal are competent and trained for the type of work
being carried out demonstrate that they have a health surveillance program in accordance with current
legislation.
7.3 Approval to Begin Asbestos Removal Works
All removal methods and procedures are required to be undertaken in accordance with current legislation. The PMCW in conjunction with an Asbestos Assessor will inform the Asbestos Removalist of the Scope of Work. The Asbestos Assessor will be required to provide a clearance certificate on satisfactory completion of the works.
7.4 Work in Areas Containing Asbestos – Trades Personnel
Prior to commencement of works the following undertakings, procedures and awareness must be observed: Work must not proceed under any circumstance without first contacting the PMCW. Refer to this ASMP (including amendments) to determine if ACM are likely to be encountered in the general work area. If no ACM is located in the area of intended work, the area may be entered by all relevant personnel on an unrestricted basis. Work in areas where ACM will, or is likely to be disturbed will only be given to ACT licensed Asbestos Removalists and all access and works will be in accordance with current legislation.
7.5 Emergency Work in Areas Containing Asbestos
If emergency work is required, contact the PMCW. If the PMCW determines that asbestos is likely to be encountered a licensed Asbestos Removalists must undertake any asbestos removal or remediation works.
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Telephone WorkSafe ACT for emergency approval of asbestos work. Advise WorkSafe ACT in writing within 24 hours.
A licensed Asbestos Assessor will be required to provide a clearance certificate on satisfactory completion of the works.
7.6 Monitoring Arrangements
To ensure control measures are effective, air monitoring should be performed whenever friable ACM is being removed from buildings. A Risk Assessment may also require that air monitoring is undertaken during or at the completion of the removal of non friable ACM.
All air monitoring must be performed by a competent person accredited to perform air sampling for asbestos. Sampling should be performed in accordance with the ‘Guidance Note on the Membrane Filter Method for Estimating Airborne Asbestos Fibres [NOHSC: 3003 (2005)].
It is the Asbestos Removalist’s responsibility to ensure that the maximum fibre levels throughout asbestos removal and associated works do not equal or exceed the minimum practical detection limit of 0.01 fibres per millilitre of air (f/mL). The consequences of airborne fibre levels observed at or exceeding those specified below will result in the Asbestos Assessor instructing the contractor to take the appropriate ‘Control /Action’ as listed below.
Control Level
(airborne asbestos fibres/mL) Control / Action
< 0.01 Continue with control measures
0.01 Review control measures
0.02 Stop removal work and find the cause
7.7 Clearance Inspections Prior To Re-Occupation
Following removal work, a clearance inspection must be undertaken prior to re-occupation of an asbestos work area. This shall be conducted by a licensed Asbestos Assessor.
All barriers and warning signs should remain in place until the area has been cleared.
7.8 ACM removal/maintenance record
The Asbestos Register, Section 4.2, Table 3A, is to be completed by the PMCW after receiving appropriate clearance certification from a licensed Asbestos Assessor.
The ‘Work Performed’ and ‘Asbestos Control Measure’ Tables on the following page are required to be completed by the PMCW.
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1. Work Performed
Company name Contact details Date of work + job no. Scope of work
2. Asbestos Control Measures
Work performed Air monitoring/ decontamination
Clearance certificate issued Other
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3 Additional Information
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8 UPDATING THE ASMP Where an ACM has been disturbed, removed, enclosed, encapsulated, sealed or its condition has deteriorated, the existing asbestos risk assessment will no longer be valid and the ASMP will need to be revised by a licensed Asbestos Assessor to reflect these changes.
The reviews should critically assess all asbestos management procedures and their effectiveness in:
preventing exposure to asbestos fibres controlling access to asbestos highlighting the need for action to maintain or remove ACM maintaining the accuracy of the ASMP details of any mitigating factors must be recorded in 2.4 Asbestos Register – Table 3A
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9 APPENDICES
9.1 APPENDIX A – Laboratory Results
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9.2 APPENDIX B – Plans
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RE = Referred to another sample as being the same material T = Telecommunication/ In ground services pit
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9.3 APPENDIX C – ACM Item Locations & Representative Photographs
Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
B1478
Exterior island opposite tennis courts adjacent main road - In
ground services pit (T18)
Moulded Sheet
RA B1478
Exterior island opposite tennis courts adjacent main road - In
ground services pit (T17)
Moulded Sheet
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
RA B1478
Exterior adjacent main road - In
ground services pit (T15)
Moulded Sheet
RA B1478
Exterior adjacent main road - In
ground services pit (T16)
Moulded Sheet
C1475
Exterior adjacent west boundary fence to lower houses - sheet
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1476
Exterior builders waste dump - north corner of lower houses -
sheet fragments
Sheet debris (Non-Friable)
C1478
Exterior builders waste adjacent
abandoned driveway off main
road - sheet fragments
Sheet debris (Non-Friable)
C1479 Exterior south of
work depot - sheet fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1480
Exterior adjacent track on the north
side of work depot - sheet
fragments
Sheet debris (Non-Friable)
C1481
Exterior south side of main road
- compressed sheet
Pipe (Non-Friable)
C1482
Exterior west side of house near
bushland - sheet fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1483
Exterior west end of Stromlo
Observatory complex - sheet
fragments
Sheet debris (Non-Friable)
C1484
Exterior below gully at the west
end of the Stromlo
Observatory complex - sheet
fragments
Sheet debris (Non-Friable)
C1485
Exterior south west of main
Stromlo complex - sheet fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1486 Exterior adjacent main road - sheet
fragments
Sheet debris (Non-Friable)
RA C1486
Exterior south of C1486 in house footprint - sheet
fragments
Sheet debris (Non-Friable)
RA C1486
Exterior south west corner of house - sheet
fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1487
Exterior west of student
accommodation - sheet fragments
Sheet debris (Non-Friable)
RA C1487 Exterior adjacent soil dump - sheet
fragments
Sheet debris (Non-Friable)
C1488
Exterior north of the green work
shed - sheet fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1489 Exterior east of
telescope dome - sheet fragments
Sheet debris (Non-Friable)
RA C1489 Exterior east of
telescope dome - sheet fragments
Sheet debris (Non-Friable)
C1490
Exterior down slope of
telescope - sheet fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1491 Exterior west
bank north end - sheet fragments
Sheet debris (Non-Friable)
RA C1491 Exterior west
bank north end - sheet fragments
Sheet debris (Non-Friable)
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Mount Stromlo Observatory
SAMPLE NO LOCATIONS ACM TYPE PHOTOGRAPH
C1493 Exterior north of top telescopes - sheet fragments
Sheet debris (Non-Friable)
RA = Referred to another sample as being the same material
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9.4 APPENDIX D – Glossary
Air monitoring1 Air Monitoring means airborne asbestos fibre sampling to assist in assessing
exposures and the effectiveness of control measures. Air monitoring includes exposure monitoring, control monitoring and clearance monitoring. Note: Air monitoring should be undertaken in accordance with the Guidance Note on the Membrane Filter Method for Estimating Airborne Asbestos Fibres [NOHSC: 2003 (2005)]
Airborne asbestos fibres2 Any fibres of asbestos small enough to be made airborne. For the purposes of
monitoring airborne asbestos fibres, only respirable asbestos fibres (those less than 3µm wide, more than 5µm long and with a length to width ratio of more than 3 to 1) are counted.
Amosite Grey or brown asbestos
AMP Asbestos Survey and Management Plan
AR Asbestos Register
Asbestos Containing Material (ACM)
Any material, object, product or debris that contains asbestos.
Asbestos Register Inventory of ACM by type, form, location, risk and required action.
Asbestos Removalist2 A licensed person who performs asbestos removal work. Note: licensing
requirements vary from state to state/territory. Asbestos Survey and Management Plan (ASMP)
Document covering the identification, risk assessment, control and management of identified asbestos hazards, developed in accordance with current legislation.
Asbestos2 The fibrous form of mineral silicates belonging to the serpentine and amphibole
groups of rock-forming minerals, including actinolite, amosite, anthophyllite, chrysotile, crocidolite, tremolite or any mixture containing one or more of the mineral silicates belonging to the serpentine and amphibole groups.
Asbestos–cement (AC)2 Products consisting of sand aggregate and cement reinforced with asbestos
fibres (e.g. asbestos cement pipes and flat or corrugated asbestos cement sheets).
Chrysotile White asbestos
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Clearance inspection2 An inspection carried out by a licensed Asbestos Assessor to verify that an asbestos work area is safe to be returned to normal use after work involving the disturbance of ACM has taken place. A clearance inspection must include a visual inspection, and may also include clearance monitoring and/or settled dust sampling.
Clearance monitoring2 Air monitoring using static or positional sampling to measure the level of
airborne asbestos fibres in an area following work on ACM. An area is ‘cleared’ when the level of airborne asbestos fibres is measured as being below 0.01 fibres/mL.
Control monitoring2 Air monitoring, using static or positional sampling to measure the level of
airborne asbestos fibres in an area during work on ACM. Control monitoring is designed to assist in assessing the effectiveness of control measures. Its results are not representative of actual occupational exposures, and should not be used for that purpose.
Crocidolite Blue asbestos
Exposure monitoring Air monitoring in the breathing zone to determine a person’s likely exposure to
a hazardous substance. Exposure monitoring is designed to reliably estimate the person’s exposure, so that it may be compared with the National Exposure Standard.
Friable asbestos2 Asbestos containing material which when dry is or may become crumbled,
pulverised or reduced to powder by hand pressure. In situ2 Fixed or installed in its original position, not having been removed.
Inaccessible areas Areas which are difficult to access without causing damage to the premises,
such as wall cavities and the interiors of plant and equipment, or areas which cannot be safely accessed.
Licensed Asbestos Assessor Person who is licensed to undertake the sampling and risk assessment of
asbestos and provide recommendations on its safe management.
Membrane A flexible or semi-flexible material, which functions as the waterproofing
component in a roofing or waterproofing assembly. NATA National Association of Testing Authorities
Non friable asbestos ACM that is bound into a stable matrix and cannot be reduced to a dust by
hand pressure. Previously known as Bonded asbestos
PMCW Person with control or management of a workplace
SWMS Safe Work Method Statement
5. Future Inspection Reports and Certificates
Robson Environmental Pty Ltd ~ ABN: 55 008 660 900 ~ www.robsonenviro.com.au p: 02 6239 5656 ~ f: 02 6239 5669 ~ e: [email protected] PO Box 112 Fyshwick ACT 2609 ~ 140 Gladstone Street Fyshwick ACT 2609
H2410_Mount Stromlo Observatory_General Site_Lead Paint Assessment_20190509
Lead Paint Assessment
Client: Australian National University
Job Number: H2410
Survey Date: 15/04/2019
Certificate of Approval for Issue of Documents
Document Name HMR319 – Lead Paint Assessment – Swab and Laboratory Analysis
Report Issue Date 09/05/2019 Job Number H2410
Client Australian National University
Client Representative Brett Morrison
Sample Testing and Report Preparation
Reviewed Approved
Jordan Curbishley Hazardous Materials Consultant Robson Environmental Pty. Ltd.
Jordan Curbishley Hazardous Materials Consultant Robson Environmental Pty. Ltd.
Anne Robson Director Robson Environmental Pty Ltd
Copyright & Intellectual Property Statement
1. Robson owns (and will continue to own) all Intellectual Property Rights (including copyright) in this Report. 2. The person commissioning this Report (the Client) is entitled to retain possession of the Report upon payment of all sums owing to
Robson in full or upon Robson agreeing to release the Report (in their absolute discretion and upon terms they think fit). 3. The Client must only use the Report for the purpose for which it was commissioned. 4. The Client may photocopy or reproduce all or any part of the Report provided that reproduction is to fulfil the purpose for which
the Report was commissioned. 5. The Client must not otherwise publish the Report (or any advice given by Robson) to the public or any third parties without
Robson’s prior written consent. Robson will not unreasonably withhold consent but may take into account the reasons for which the Report (or advice) was commissioned and the consequences of the disclosure or potential reliance that will be placed on the Report by third parties.
6. The Client agrees that no party (other than the Client) can rely upon the Report or any advice given by Robson. 7. The Client indemnifies Robson against any costs, losses or damage suffered or incurred (including legal costs on a solicitor and own
client basis) arising out of or as a consequence of the Client’s breach of these provisions. 8. This report is solely for the use of the client and may not contain sufficient information for purposes of other parties, or for other
uses. Any reliance on this report by third parties shall be at such party’s own risk. 9. This report shall only be presented in full and may not be used to support any other objective than those set out in the report,
except where written approval with comments are provided by Robson Environmental Pty Ltd.
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1 Introduction
Lead (Pb) paint is defined by the Australian Standard AS 4361.2 – 2017 (Guide to hazardous paint management Part 2: Lead paint in residential, public and commercial buildings) as a paint or component coat of a paint system containing lead or lead compounds, in which the lead content (calculated as lead metal) is in excess of 0.1% by weight of the dry film as determined by laboratory testing.
Analytical values of ≤ 0.1% Pb allow the sample to be categorised as being lead free paint.
It should be noted that this Standard relates only to the removal of lead paint. In the ACT and NSW, building waste which is painted with lead paint may be disposed of as general demolition waste regardless of the quantity or percentage of lead paint.
Lead in paint (as lead carbonate) is found extensively in homes and commercial and industrial buildings built pre-1970. Although Australian industry has generally phased out lead in paint, levels of below 1 percent are still permitted and industrial application of high-lead paint to residential/commercial dwellings may still continue (Standards Australia, 2017).
Lead-based paint may be a health issue if it becomes mobile in the environment or if ingested. For this reason, sealing or safe removal of paint is strongly recommended, particularly where it is flaking or exposed to the elements.
2 Survey Methodology
Robson Environmental Pty Ltd conducted an assessment for lead-based paint for the Australian National University at Mount Stromlo Observatory on 15/04/2019. The assessment was targeted to the General Site and included information from a previous site visit on 07/02/2019.
The paint samples were qualitatively tested using 3M™ LeadCheck™ Swabs. These are USA EPA-recognised for the determination of lead-based paint with a 600ppm lower detection limit. This is equivalent to 0.06% and is therefore appropriate for the categorisation of tested surfaces as being lead free paint.
If the 3M™ LeadCheck™ Swabs detected the presence of lead, the paint sample was categorically deemed to be lead paint regardless of the number of lead and/or non-lead paint layers present within the sample tested. At the client’s request, additional samples of the paints tested with the 3M™ LeadCheck™ Swabs were not sent for further laboratory analysis to determine the exact percentage of lead present in the paint for all but one of the paint systems.
One sample was sent for quantitative analysis for lead concentration following the method stated in Appendix A of AS/NZS 4361.2. The sample was individually sealed and double bagged, and couriered under Chain of Custody (COC) documentation to Envirolab in Sydney NSW.
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During the lead paint survey, the following criteria were considered by a Licensed Asbestos Assessor
(or competent person) when assessing the risk associated with lead paint systems. This qualitative
assessment determines the Risk Rating. These are shown in Table 1.
Location of the lead paint system
Surface area of the lead paint system
Condition of the lead paint system
Accessibility of the lead paint system
Likelihood of ingesting and/or inhaling lead paint particles
Table 1: Risk Rating Levels and Action Plan
Risk Rating Level Action Plan
High
(H)
Lead is present in paint that is in very poor condition (i.e. bad cracking, flaking, chalking and peeling observed). It covers a large surface area and/or is on a surface that is easily accessible to children.
It may present a health hazard with minor disturbance.
Action should be taken immediately to reduce exposure risk.
Medium
(M)
Lead is present in paint that is in average condition (i.e. some cracking, flaking, chalking and peeling observed). It covers a small surface area and/or is on a surface that is not easily accessible to children.
It may present a health hazard with moderate disturbance.
Action should be taken as soon as practicable to reduce exposure risk.
Low
(L)
Lead is present in paint that is still in good condition (i.e. no cracking, flaking, chalking or peeling observed) and is not a friction or impact surface.
It is not likely to present a health hazard unless significantly disturbed.
Ongoing actions to maintain the lead paint system in good condition and to check it periodically to ensure a low exposure risk.
Nil
(N)
Lead was not detected in paint system being assessed.
No action required.
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3 Results and Recommendations
The quantitative laboratory results analysed from the sample collected on 07 February 2019 show that one lead paint system contained lead concentrations in excess of the 0.1% by weight threshold. These paints are required to be managed as lead paint so risk can be minimised. Please note that AS/NZS 4361.2 states that if ‘one or more tests from a building or portion of a building indicate that lead is present, the paint should be treated as lead paint’.
The qualitative swab results collected on 15 March 2019 show that four lead paint systems contain lead concentrations in excess of the 0.1% by weight threshold. These paints are required to be managed as lead paint so risk can be minimised. Please note that AS/NZS 4361.2 states that if ‘one or more tests from a building or portion of a building indicate that lead is present, the paint should be treated as lead paint’.
The results also show that one lead paint system may be considered lead-free because no lead was detected in the paint samples as tested with the 3M™ LeadCheck™ Swabs. This shows that the concentration is below the definition for lead paint and the paint system poses no risk.
Table 1 presents lead composition in paints, with results shown as a ‘yes’ or ‘no’ for the presence of lead within the paint samples tested as well as the exact percentage of lead determined through laboratory analysis. Recommendations suitable for the relevant lead paint system risk rating are also explained here. Photographs of samples are included in Appendix 1, the full laboratory report is in Appendix 2 and the plans are in Appendix 3.
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Table 1: Lead Composition in Paint by Qualitative and Quantitative Testing
Sample ID Sample Location Paint
Colour
Classified
as Lead
Paint?
Percentage
of Lead
(%w/w)
Risk
Rating Recommendations
C1494
Mount Stromlo Observatory – Paint sample
from FHB01
Road adjacent Oddie Telescope
Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
Refer to
C1494
Mount Stromlo Observatory – FHB02
Road adjacent Visitors Centre Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
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Refer to
C1494
Mount Stromlo Observatory –FHB03
Road between Visitors Centre and Directors
Residence
Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
Refer to
C1494
Mount Stromlo Observatory –FHB04
Road adjacent Melbourne 50” Telescope Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
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Refer to
C1494
Mount Stromlo Observatory –FHB05
Road adjacent Commonwealth Solar
Observatory Building
Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
Refer to
C1494
Mount Stromlo Observatory – FHB06 (x2)
Burnt out house near Faulkner Court Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
As the two fire hydrant boxes are
redundant it is recommended that they
be removed.
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Refer to
C1494
Mount Stromlo Observatory – FHB07
Road adjacent houses Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
Refer to
C1494
Mount Stromlo Observatory – FHB08
Road adjacent shipping containers Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
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Refer to
C1494
Mount Stromlo Observatory – FHB09
Road adjacent House 8 Red Yes 4.2% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the fire hydrant box during
the inspection. It is recommended that
the paint system be encapsulated with
paint and maintained in good condition.
Pb01
Mount Stromlo Observatory – paint to fire
hydrants
Throughout site
Orange Yes >0.06% L
Ongoing preventative action should be planned.
This includes:
Maintain the lead paint system in good
condition.
Check it periodically to ensure a low
exposure risk (i.e. no cracking, flaking,
chalking or peeling observed and that it
is not a friction or impact surface).
Review and update the risk rating
appropriately.
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Pb02
Mount Stromlo Observatory – paint to fire
extinguisher box
Road adjacent Melbourne 50” Telescope
Orange Yes >0.06% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the extinguisher during the
inspection. It is recommended that the
paint system be encapsulated with paint
and maintained in good condition.
Pb03
Mount Stromlo Observatory – paint to No
Smoking sign
Road adjacent Melbourne 50” Telescope
Red/White Yes >0.06% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the sign during the
inspection. It is recommended that the
paint system be encapsulated with paint
and maintained in good condition.
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Pb04
Mount Stromlo Observatory – paint to
Bowser Pump
Road adjacent Melbourne 50” Telescope
White Yes >0.06% M
Action should be taken as soon as practicable to
reduce exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking condition were
observed to the Bowser Pump during the
inspection. It is recommended that the
paint system be encapsulated with paint
and maintained in good condition.
Pb05
Mount Stromlo Observatory – paint to
concrete blocks
Old Seismic Station
White No <0.06% N No action required.
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4 Remediating Surfaces Containing Lead Paint
The main exposure risk associated with lead paint is when it becomes an airborne dust or fume.
When paint deteriorates through chipping, cracking, bubbling and flaking, it is not becoming an
airborne dust and cannot be easily inhaled.
The key to safely remediating surfaces containing lead paint is to prevent the generation of dust and
fume. As a result, sanding, buffing, grinding, burning and wet/dry abrasive blasting is not
appropriate. Abrasive blasting is defined as propelling a stream of abrasive material at high speed
against a surface using compressed air, liquid, steam, centrifugal wheels or paddles to clean, abrade,
etch or otherwise change the original appearance or condition of the surface.
In fact, Safe Work Australia prohibits abrasive blasting of lead materials and lead paint systems above a concentration of 0.1% by weight. Refer to https://www.safeworkaustralia.gov.au/chemicals.
To safely remediate surfaces containing lead paint, the following method is acceptable:
1. If indoors, shut all windows and doors to enclose the work area and place heavy duty plastic
sheets on the floor to ease clean up.
2. If outdoors, plan your work for a day that is not windy and when rain is not predicted. Cover
the ground below the painted surface with heavy duty plastic sheeting. For example, strips
that are two metres wide would be suitable for the external wall of a house.
3. Workers are to:
a. Be clean shaven.
b. Wear appropriate respiratory protection. A minimum of P1 is essential but P2
respirators (i.e. disposable masks) are preferred.
c. Wear gloves.
d. Wear a hat to prevent lead paint chips from getting stuck in hair and being
accidentally removed from the area.
e. Wear disposable coveralls to prevent lead paint chips from getting into pockets,
stuck to sweaty skin or getting inside work shirts, etc. and being accidentally
removed from the area. Note: Workers need to be aware of and prevent heat-
related illness, maintain good hydration, take rest breaks in the shade, have cool
drinking water available and avoid working during the hottest parts of the day if
wearing disposable coveralls.
f. Wash hands and face before eating, drinking and smoking to prevent hand-to-month
cross contamination.
4. Manually scrape all loose paint off the surface so the flakes fall on the plastic sheets. Note:
no grinding, buffing, sanding, abrasive blasting, burning, etc.
5. When complete, fold up the plastic sheets to collect all the paint scrapings and dispose of
them appropriately.
6. The surface can be repainted to bind the remaining lead paint to the structure. Several coats
may be required to adhere all old paint to the structure again.
7. Next, the paint flakes that are already on the ground can be addressed:
a. Regarding sealed surfaces, such as concrete, bitumen, timber or tiles:
i. Paint chips can be vacuumed up.
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ii. The vacuum bag contents should then be carefully transferred to a heavy
duty plastic bag to prevent dust from being released. Note: do not overfill
the bags as they will become a manual handling risk and could tear open
under the weight.
iii. Dispose of the waste appropriately.
b. Regarding unsealed surfaces, such as dirt, rocks or grass:
i. Wet the ground around the surface with a fine mist (not a heavy spray) or a
diluted PVA glue solution to prevent dust from being generated in the next
steps.
ii. Use a shovel to manually scrape approximately 10mm to 15mm of loose dirt
and rocks from the top surface of the ground and collect it in heavy duty
plastic bags. Note: do not overfill the bags as they will become a manual
handling risk and could tear open under the weight.
iii. Dispose of the waste appropriately.
8. Continue to inspect the condition of the paint every 5 years to assess whether further
deterioration has occurred.
9. Repeat this process whenever the paint system deteriorates to a point where remediation is
required.
10. In the event that a structure containing a lead paint system is nominated for demolition:
a. Refer to the additional recommendations shown in the next section of this report.
b. Plastic sheets are unnecessary as they will get easily ripped up and damaged.
c. Workers need to be clean shaven and wear respiratory protection, gloves and
exercise proper personal hygiene during the period they are handling lead painted
materials.
d. Personal Protective Equipment (PPE) requirements can be reassessed once all the
components containing a lead paint system are gone and only non-lead paint
systems remain.
e. After the entire structure is gone, the ground will need to be scraped back to collect
all residual paint flakes as described above.
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5 Additional Recommendations for the Demolition and Disposal of
Building Waste Containing Lead Paint
In the ACT & NSW, building waste painted with lead paint is classified as general building waste and may be disposed of without removing the lead paint. As a result, it is recommended that all materials that tested positive for the presence of lead paint be disposed of as general building waste.
The mechanical demolition of structures and objects painted with lead paint do not fall under the category of a ‘lead process’ as defined by the ACT Work Health and Safety Regulations 2011 (Section 392) so the requirements of Part 7.2 in the Regulations do not apply. Refer to https://www.legislation.act.gov.au/View/sl/2011-36/current/PDF/2011-36.PDF.
Only if you are intending to remove the paint from the structures/objects so they may be reused, recycled or refurbished, should the lead paint be removed in strict accordance with the methods specified in AS/NZS 4361.1 and AS/NZS 4361.2.
Due to similarities between environmental cleaning methods for lead paint and asbestos containing materials, it is recommended that a Class B licensed Asbestos Removalists be used to remove lead paint from materials being reused, recycled or refurbished.
Please note that it is not recommended to weld, cut or clean lead painted metal structures/objects using flame (i.e. electric arc, oxy gas, oxyacetylene, plasma arc, etc.) or abrasive cutting equipment that creates heat from friction (i.e. grinders, etc.) because it will burn the paint and generate fume containing lead. This falls under the definition of a ‘lead process’ as defined by the ACT Work Health and Safety Regulations 2011 (Section 392(i)) and the requirements of Part 7.2 of the Regulations apply.
It is recommended that only mechanical cutting methods that do not burn the paint be used (i.e. demolition shears) to avoid the requirements of Section 7.2 of the Regulations. Manually unbolting the pieces can also be done but this would be fairly time-consuming and heat should not be applied to stuck nuts/bolts as it will burn the lead paint.
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6 Limitations
While Robson Environmental has taken all care to ensure that this report includes the most accurate
information available, the report and any risk assessment presented is based on the information
obtained by Robson Environmental at the time of sampling. Any variation in environment, activities,
methods, practices, products, or equipment used may change exposures to hazards, invalidating the
presented risk assessment. Robson recommends that risks be re-assessed prior to making any
changes to the aforementioned factors.
The findings contained within this report are developed from the interpretation of the results of
specific sampling methods used in accordance with generally accepted practices and standards,
based on the current state of knowledge. To the best of Robson Environmental’s knowledge, our
assessment of the data represents a reasonable interpretation of the general conditions, and
subsequent risk at the time of sampling. Should you have any questions or require further
information please contact Robson Environmental.
7 References
Buehler, S & Rhoda, D 2012, ‘3M™ LeadCheck™ Swabs qualitative spot test kit for lead in
paint’, Battelle.
https://www.epa.gov/sites/production/files/documents/3M-leadcheck-report.pdf
Standards Australia, 2017, AS/NZS4361.1-2017: Guide to hazardous paint management, Part
1: Lead and other hazardous metallic pigments in industrial applications, Standards Australia,
Australia.
Standards Australia, 2017, AS/NZS4361.2-2017: Guide to hazardous paint management, Part
2: Lead paint in residential, public and commercial buildings, Standards Australia, Australia.
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Appendix 1 – Photographs of Lead and Lead-Free Paint Systems
Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
C1494
Mount Stromlo
Observatory – Paint
sample from FHB01
Road adjacent
Oddie Telescope
Red Yes
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB02
Road adjacent
Visitors Centre
Red Yes
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Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB03
Road between
Visitors Centre and
Directors Residence
Red Yes
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB04
Road adjacent
Melbourne 50”
Telescope
Red Yes
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Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB05
Road adjacent
Commonwealth
Solar Observatory
Building
Red Yes
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB06
(x2)
Burnt out house
near Faulkner
Court
Red Yes
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Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB07
Road adjacent
houses
Red Yes
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB08
Road adjacent
shipping containers
Red Yes
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Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
Refer to
C1494
Mount Stromlo
Observatory – Paint
sample from FHB09
Road adjacent
House 8
Red Yes
Pb01
Mount Stromlo
Observatory – paint
to fire hydrants
Throughout site
Orange Yes
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Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
Pb02
Mount Stromlo
Observatory – paint
to fire extinguisher
box
Road adjacent
Melbourne 50”
Telescope
Orange Yes
Pb03
Mount Stromlo
Observatory – paint
to No Smoking sign
Road adjacent
Melbourne 50”
Telescope
Red/
White Yes
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Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
Pb04
Mount Stromlo
Observatory – paint
to Bowser Pump
Road adjacent
Melbourne 50”
Telescope
White Yes
Pb05
Mount Stromlo
Observatory – paint
to concrete blocks
Old Seismic Station
White No
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Appendix 2 - Laboratory Results
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Appendix 3 - Plans
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Robson Environmental Pty Ltd ~ ABN: 55 008 660 900 ~ www.robsonenviro.com.au p: 02 6239 5656 ~ f: 02 6239 5669 ~ e: [email protected] PO Box 112 Fyshwick ACT 2609 ~ 140 Gladstone Street Fyshwick ACT 2609
H2410 ANU Mt Stromlo Oddie Telescope Lead Paint Assessment 20190520
Lead Paint Assessment
Client: Australian National University
Job Number: H2410
Survey Date: 15/04/2019
Certificate of Approval for Issue of Documents
Document Name HMR320 – Lead Paint Assessment –Laboratory Analysis Only
Report Issue Date 16/05/2019 Job Number H2410
Client Australian National University
Client Representative Brett Morrison
Sample Testing and Report Preparation
Reviewed Approved
Jordan Curbishley Hazardous Materials Consultant Robson Environmental Pty. Ltd.
Jordan Curbishley Hazardous Materials Consultant Robson Environmental Pty. Ltd.
Anne Robson Director Robson Environmental Pty Ltd
Copyright & Intellectual Property Statement
1. Robson owns (and will continue to own) all Intellectual Property Rights (including copyright) in this Report. 2. The person commissioning this Report (the Client) is entitled to retain possession of the Report upon payment of all sums owing to
Robson in full or upon Robson agreeing to release the Report (in their absolute discretion and upon terms they think fit). 3. The Client must only use the Report for the purpose for which it was commissioned. 4. The Client may photocopy or reproduce all or any part of the Report provided that reproduction is to fulfil the purpose for which
the Report was commissioned. 5. The Client must not otherwise publish the Report (or any advice given by Robson) to the public or any third parties without
Robson’s prior written consent. Robson will not unreasonably withhold consent but may take into account the reasons for which the Report (or advice) was commissioned and the consequences of the disclosure or potential reliance that will be placed on the Report by third parties.
6. The Client agrees that no party (other than the Client) can rely upon the Report or any advice given by Robson. 7. The Client indemnifies Robson against any costs, losses or damage suffered or incurred (including legal costs on a solicitor and own
client basis) arising out of or as a consequence of the Client’s breach of these provisions. 8. This report is solely for the use of the client and may not contain sufficient information for purposes of other parties, or for other
uses. Any reliance on this report by third parties shall be at such party’s own risk. 9. This report shall only be presented in full and may not be used to support any other objective than those set out in the report,
except where written approval with comments are provided by Robson Environmental Pty Ltd.
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1 Introduction
Lead (Pb) paint is defined by the Australian Standard AS 4361.2 – 2017 (Guide to hazardous paint management Part 2: Lead paint in residential, public and commercial buildings) as a paint or component coat of a paint system containing lead or lead compounds, in which the lead content (calculated as lead metal) is in excess of 0.1% by weight of the dry film as determined by laboratory testing.
Analytical values of ≤ 0.1% Pb allow the sample to be categorised as being lead free paint.
It should be noted that this Standard relates only to the removal of lead paint. In the ACT and NSW, building waste which is painted with lead paint may be disposed of as general demolition waste regardless of the quantity or percentage of lead paint.
Lead in paint (as lead carbonate) is found extensively in homes and commercial and industrial buildings built pre-1970. Although Australian industry has generally phased out lead in paint, levels of below 1 percent are still permitted and industrial application of high-lead paint to residential/commercial dwellings may still continue (Standards Australia, 2017).
Lead-based paint may be a health issue if it becomes mobile in the environment or if ingested. For this reason, sealing or safe removal of paint is strongly recommended, particularly where it is flaking or exposed to the elements.
2 Survey Methodology
Robson Environmental Pty Ltd conducted an assessment for lead-based paint for the Australian National University at the Mount Stromlo Observatory Oddie Telescope on 15/04/2019.
At the client’s request, paint samples were not qualitatively tested using 3M™ LeadCheck™ Swabs because identifying the exact percentage of lead present in the paint was requested. Qualitative testing can only give a ‘yes’ or ‘no’ for the presence of lead.
A paint sample of the relevant paint system was collected. The sample was sent for quantitative
analysis for lead concentration following the method stated in Appendix A of AS/NZS 4361.2.
All samples were individually sealed and double bagged, and couriered under Chain of Custody (COC) documentation to Envirolab in Sydney NSW.
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During the lead paint survey, the following criteria were considered by a Licensed Asbestos Assessor (or competent person) when assessing the risk associated with lead paint systems. This qualitative assessment determines the Risk Rating. These are shown in Table 1.
Location of the lead paint system
Surface area of the lead paint system
Condition of the lead paint system
Accessibility of the lead paint system
Likelihood of ingesting and/or inhaling lead paint particles
Table 1: Risk Rating Levels and Action Plan
Risk Rating Level Action Plan
High
(H)
Lead is present in paint that is in very poor condition (i.e. bad cracking, flaking, chalking and peeling observed). It covers a large surface area and/or is on a surface that is easily accessible to children.
It may present a health hazard with minor disturbance.
Action should be taken immediately to reduce exposure risk.
Medium
(M)
Lead is present in paint that is in average condition (i.e. some cracking, flaking, chalking and peeling observed). It covers a small surface area and/or is on a surface that is not easily accessible to children.
It may present a health hazard with moderate disturbance.
Action should be taken as soon as practicable to reduce exposure risk.
Low
(L)
Lead is present in paint that is still in good condition (i.e. no cracking, flaking, chalking or peeling observed) and is not a friction or impact surface.
It is not likely to present a health hazard unless significantly disturbed.
Ongoing actions to maintain the lead paint system in good condition and to check it periodically to ensure a low exposure risk.
Nil
(N)
Lead was not detected in paint system being assessed.
No action required.
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3 Results and Recommendations
The quantitative laboratory results analysed from the sample collected on 15 April 2019 show that one lead paint system contains lead concentrations in excess of the 0.1% by weight threshold. This paint is required to be managed as lead paint so risk can be minimised. Please note that AS/NZS 4361.2 states that if ‘one or more tests from a building or portion of a building indicate that lead is present, the paint should be treated as lead paint’.
Table 1 presents lead composition in paints, with results shown as the exact percentage of lead determined through laboratory analysis. Recommendations suitable for the relevant lead paint system risk rating are also explained here. Photographs of samples are included in Appendix 1 and the full laboratory report is in Appendix 2.
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Table 1: Lead Composition in Paint by Quantitative Testing
Sample ID Sample Location Paint
Colour
Classified
as Lead
Paint?
Percentage
of Lead
(%w/w)
Risk
Rating Recommendations
C1523 Mount Stromlo Observatory – paint sample
from Oddie Telescope White Yes 9.2% H
Action should be taken immediately to reduce
exposure risk. This includes:
Remediate using method detailed in this
report.
Areas of poor and flaking paint were
observed to the exterior of the Oddie
Telescope during the site inspection.
Paint chips were also observed to the
ground surrounding the telescope.
The paint to the exterior of the telescope
needs to be remediated.
The soil adjacent the telescope needs to
be remediated as part of remediation
works to the telescope.
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4 Remediating Surfaces Containing Lead Paint
The main exposure risk associated with lead paint is when it becomes an airborne dust or fume.
When paint deteriorates through chipping, cracking, bubbling and flaking, it is not becoming an
airborne dust and cannot be easily inhaled.
The key to safely remediating surfaces containing lead paint is to prevent the generation of dust and
fume. As a result, sanding, buffing, grinding, burning and wet/dry abrasive blasting is not
appropriate. Abrasive blasting is defined as propelling a stream of abrasive material at high speed
against a surface using compressed air, liquid, steam, centrifugal wheels or paddles to clean, abrade,
etch or otherwise change the original appearance or condition of the surface.
In fact, Safe Work Australia prohibits abrasive blasting of lead materials and lead paint systems above a concentration of 0.1% by weight. Refer to https://www.safeworkaustralia.gov.au/chemicals.
To safely remediate surfaces containing lead paint, the following method is acceptable:
1. If indoors, shut all windows and doors to enclose the work area and place heavy duty plastic
sheets on the floor to ease clean up.
2. If outdoors, plan your work for a day that is not windy and when rain is not predicted. Cover
the ground below the painted surface with heavy duty plastic sheeting. For example, strips
that are two metres wide would be suitable for the external wall of a house.
3. Workers are to:
a. Be clean shaven.
b. Wear appropriate respiratory protection. A minimum of P1 is essential but P2
respirators (i.e. disposable masks) are preferred.
c. Wear gloves.
d. Wear a hat to prevent lead paint chips from getting stuck in hair and being
accidentally removed from the area.
e. Wear disposable coveralls to prevent lead paint chips from getting into pockets,
stuck to sweaty skin or getting inside work shirts, etc. and being accidentally
removed from the area. Note: Workers need to be aware of and prevent heat-
related illness, maintain good hydration, take rest breaks in the shade, have cool
drinking water available and avoid working during the hottest parts of the day if
wearing disposable coveralls.
f. Wash hands and face before eating, drinking and smoking to prevent hand-to-month
cross contamination.
4. Manually scrape all loose paint off the surface so the flakes fall on the plastic sheets. Note:
no grinding, buffing, sanding, abrasive blasting, burning, etc.
5. When complete, fold up the plastic sheets to collect all the paint scrapings and dispose of
them appropriately.
6. The surface can be repainted to bind the remaining lead paint to the structure. Several coats
may be required to adhere all old paint to the structure again.
7. Next, the paint flakes that are already on the ground can be addressed:
a. Regarding sealed surfaces, such as concrete, bitumen, timber or tiles:
i. Paint chips can be vacuumed up.
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ii. The vacuum bag contents should then be carefully transferred to a heavy
duty plastic bag to prevent dust from being released. Note: do not overfill
the bags as they will become a manual handling risk and could tear open
under the weight.
iii. Dispose of the waste appropriately.
b. Regarding unsealed surfaces, such as dirt, rocks or grass:
i. Wet the ground around the surface with a fine mist (not a heavy spray) or a
diluted PVA glue solution to prevent dust from being generated in the next
steps.
ii. Use a shovel to manually scrape approximately 10mm to 15mm of loose dirt
and rocks from the top surface of the ground and collect it in heavy duty
plastic bags. Note: do not overfill the bags as they will become a manual
handling risk and could tear open under the weight.
iii. Dispose of the waste appropriately.
8. Continue to inspect the condition of the paint every 5 years to assess whether further
deterioration has occurred.
9. Repeat this process whenever the paint system deteriorates to a point where remediation is
required.
10. In the event that a structure containing a lead paint system is nominated for demolition:
a. Refer to the additional recommendations shown in the next section of this report.
b. Plastic sheets are unnecessary as they will get easily ripped up and damaged.
c. Workers need to be clean shaven and wear respiratory protection, gloves and
exercise proper personal hygiene during the period they are handling lead painted
materials.
d. Personal Protective Equipment (PPE) requirements can be reassessed once all the
components containing a lead paint system are gone and only non-lead paint
systems remain.
e. After the entire structure is gone, the ground will need to be scraped back to collect
all residual paint flakes as described above.
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5 Additional Recommendations for the Demolition and Disposal of
Building Waste Containing Lead Paint
In the ACT & NSW, building waste painted with lead paint is classified as general building waste and may be disposed of without removing the lead paint. As a result, it is recommended that all materials that tested positive for the presence of lead paint be disposed of as general building waste.
The mechanical demolition of structures and objects painted with lead paint do not fall under the category of a ‘lead process’ as defined by the ACT Work Health and Safety Regulations 2011 (Section 392) so the requirements of Part 7.2 in the Regulations do not apply. Refer to https://www.legislation.act.gov.au/View/sl/2011-36/current/PDF/2011-36.PDF.
Only if you are intending to remove the paint from the structures/objects so they may be reused, recycled or refurbished, should the lead paint be removed in strict accordance with the methods specified in AS/NZS 4361.1 and AS/NZS 4361.2.
Due to similarities between environmental cleaning methods for lead paint and asbestos containing materials, it is recommended that a Class B licensed Asbestos Removalists be used to remove lead paint from materials being reused, recycled or refurbished.
Please note that it is not recommended to weld, cut or clean lead painted metal structures/objects using flame (i.e. electric arc, oxy gas, oxyacetylene, plasma arc, etc.) or abrasive cutting equipment that creates heat from friction (i.e. grinders, etc.) because it will burn the paint and generate fume containing lead. This falls under the definition of a ‘lead process’ as defined by the ACT Work Health and Safety Regulations 2011 (Section 392(i)) and the requirements of Part 7.2 of the Regulations apply.
It is recommended that only mechanical cutting methods that do not burn the paint be used (i.e. demolition shears) to avoid the requirements of Section 7.2 of the Regulations. Manually unbolting the pieces can also be done but this would be fairly time-consuming and heat should not be applied to stuck nuts/bolts as it will burn the lead paint.
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6 Limitations
While Robson Environmental has taken all care to ensure that this report includes the most accurate
information available, the report and any risk assessment presented is based on the information
obtained by Robson Environmental at the time of sampling. Any variation in environment, activities,
methods, practices, products, or equipment used may change exposures to hazards, invalidating the
presented risk assessment. Robson recommends that risks be re-assessed prior to making any
changes to the aforementioned factors.
The findings contained within this report are developed from the interpretation of the results of
specific sampling methods used in accordance with generally accepted practices and standards,
based on the current state of knowledge. To the best of Robson Environmental’s knowledge, our
assessment of the data represents a reasonable interpretation of the general conditions, and
subsequent risk at the time of sampling. Should you have any questions or require further
information please contact Robson Environmental.
7 References
Buehler, S & Rhoda, D 2012, ‘3M™ LeadCheck™ Swabs qualitative spot test kit for lead in
paint’, Battelle.
https://www.epa.gov/sites/production/files/documents/3M-leadcheck-report.pdf
Standards Australia, 2017, AS/NZS4361.1-2017: Guide to hazardous paint management, Part
1: Lead and other hazardous metallic pigments in industrial applications, Standards Australia,
Australia.
Standards Australia, 2017, AS/NZS4361.2-2017: Guide to hazardous paint management, Part
2: Lead paint in residential, public and commercial buildings, Standards Australia, Australia.
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Appendix 1 – Photographs of Lead and Lead-Free Paint Systems
Sample ID
Sample Location Paint
Colour
Classified
as Lead
Paint?
Photograph(s)
C1523
Mount Stromlo
Observatory – paint
sample from Oddie
Telescope
White Yes
C1523
Mount Stromlo
Observatory – paint
sample from Oddie
Telescope
White Yes
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Appendix 2 - Laboratory Results
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