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OFFICE
300m²
WORKSHOP
1485m²
CAR PARK15 BAYS
AC
CE
SS
RO
AD
A-03.00 1
A-03.002
A-03.00
3
A-03.00
4
1800
011
000
1800
011
000
1800
060
0016
000
16553 20000 6000 27500 6000 20000 10500
6000
6000
6000
5500
1150
020
00
2040
0
6000
10000
21400
7555
8000
PAVED AREA
15142 m²DEVELOPED LAND
CONCRETEHARDSTAND
ASPHALT
PROPOSED ROADCONNECTION TOASHWORTH ROAD
LANDSCAPE AREA
LAN
DS
CA
PE
AR
EA
SWALE
SW
ALE
SW
ALE
SWAL
E
ASPHALT
COMPACTEDROAD BASEHARDSTAND
COMPACTEDROAD BASEHARDSTAND
SW
ALE
3000 8000 3000
6000
6000
2000
15400
20006000
1000
060
0088
000
6000
TRUCK PARKING
12 BAYS
6000
19m
SE
MI T
RA
ILE
R
10m GARBAGE TRUCK
10m
GA
RB
AG
E T
RU
CK
19m
SE
MI T
RA
ILE
R
(10m GARBAGE TRUCK)
3627
0
TRUCK PARKING
18 BAYS(10m GARBAGE TRUCK)
10000
2500
1900
0
2500
4000
12000
PROPOSED DEPOT
PROPOSED ROAD CONNECTIONSITE AREAS
PARKING
WORKSHOP 1485m²OFFICE 300m²TOTAL (OFFICE + WORKSHOP) 1785m²CONCRETE HARDSTAND 605m²COMPACTED ROAD BASE HARDSTAND 4059m²PAVED AREA 379m²ASPHALT (INC.CAR PARKING & ACCESS RD) 2634m²
DEVELOPED LAND AREA 15142m²
TOTAL NUMBER OF PEOPLE WORKINGIN WORKSHOP & OFFICE 8 PERSONS
TOTAL CAR BAYS PROVIDED 15 BAYSINC. 1 ACCESSIBLE BAY
TRUCK PARKING (10m GARBAGE TRUCK) 30 BAYS
NOTE: PARKING BAY TO BE CONFIRMEDTO MEET COUNCIL REQUIREMENTS
TRAFFIC NOTES
INTERNAL TRAFFIC CURRENTLY INCLUDE ONLY NON-ARTICULATED TRUCKS WITH SOME DELIVERIES BYARTICULATED TRUCKS (SEMI-TRAILERS)
CROSSOVERS, ACCESS ROADS, AND TURNING AREASDESIGNED TO SUIT ARTICULATED TRUCK ANDTRAILER AS PER TRAFFIC IMPACT STATEMENT
TURNING CIRCLE OF 10M GARBAGE TRUCK AND 19MSEMI-TRAILER SHOWN ARE BASED ON MAIN ROADSWESTERN AUSTRALIA TURNING TEMPLATE DRAWINGS
6M WIDE VEHICLE ACCESSROAD CONNECTION TOASHWORTH ROAD
723m
AP
PR
OX
.
ASHWORTH ROAD
CROSSOVER TO COUNCILREQUIREMENTS
19m SEMI TRAILER19m SEMI TRAILER
6000
THIS COMPUTER FILE/DRAWING IS COPYRIGHTMATERIAL AND THE PROPERTY OF OLK + ASSOCIATES.THE CONTENTS OF THIS FILE/DRAWING MAY NOT BEDIVULGED, REPRODUCED ON ANY MEDIA, ORDISTRIBUTED BY ANY MEANS, WITHOUT THE EXPRESSWRITTEN PERMISSION OF OLK + ASSOCIATES.
DATA IS SUPPLIED FOR INFORMATION ONLY WITH THEHARD COPY TAKING PRECEDENCE EVERY TIME.
WHERE NECESSARY YOUR OWN SHOP DRAWINGSSHOULD BE GENERATED.DO NOT SCALE FROM THIS DRAWING, VERIFY ALLDIMENSIONS ON SITE, PRIOR TO COMMENCEMENT OFANY WORKS.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHALL SCHEDULES OF WORKS, SPECIFICATIONS,FINISHES AND EQUIPMENT SCHEDULES.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHSTRUCTURAL ENGINEERING PLANS.
ALL MATERIALS AND WORKMANSHIP SHALL BE INACCORDANCE WITH THE CURRENT SPECIFICATIONSAND THE STANDARDS ASSOCIATION OF AUSTRALIA.
SPECIAL ATTENTION IS TO BE PAID TO THE RELEVANTBUILDING CLASSIFICATIONS WHICH THIS PROJECTAND FINAL BUILDING USE NOW RELATES TO, WITHINTHE NCC. (FORMALLY BCA)
THE ISSUANCE OF ELECTRONIC INFORMATION IN ANYFORMAT DOES NOT RELIEVE ANY RESPONSIBILITYFOR CONTRACTUAL OBLIGATIONS WHICH INCLUDE,BUT IS NOT LIMITED TO, ENSURING THE WORK ISCOMPLETE, ACCURATE AND CORRECT.
GENERAL NOTES
CLIENT:
PROJECT:
DRAWING TITLE:
DWG NO.
SCALE:
REV
@ A1
PROJECT No.
ISSUED FOR:
DRAWN BY: CHECKED BY: ENGINEER: CLIENT REPRESENTATIVE:
RE
V
59 canning road kalamunda wa 6076po box 1427 kalamunda wa 6926
t 08 9293 0296f 08 9293 0543
olk.com.au
As indicated
KG
R
28/1
0/20
16 4
:00:
39 P
M
28/1
0/20
16 4
:00:
39 P
M
R
DA APPROVAL
A-01.00I-AHRN-AVO-01
MD AO -
SITE PLAN
AHRENS GROUP for AVON WASTE
A- 0
1.0 0
I-A
HR
N-A
VO
-01
AVON WASTE TRANSPORT DEPOTLOT 5113 GREAT SOUTHERN HWYDALIAK, WA, 6302
1 : 500
Site Plan2
NORTHNORTH
Location Plan1
1:5000
REVISIONS
REV DATE DESCRIPTION BY
M 10.05.16 PRELIMINARY MD
N 08.07.16 PRELIMINARY MD
O 23.08.16 PRELIMINARY SD
P 31.08.16 DA APPROVAL SD
Q 16.09.16 DA APPROVAL SD
R 28.10.16 DA APPROVAL MD
1 : 1000
Road Connection Plan3
WORKSHOP
1485m²
WELDBAY
SPRAYBOOTH
BIN STORE
BAY 1 BAY 2
BAY 3 BAY 4
BAY 5 BAY 6
STORE CRIB
WASH BAY
STORE OIL
TYRE BAY
OFFICE
12850 1800 7235 5415
27500
13750 13750
WC
27500
7000
1100
011
000
6000
6000
6000
1100
060
0060
0060
00
SPARE
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
3M WIDE X3MHIGH RD
3M WIDE X3MHIGH RD
3M WIDE X3MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
5M WIDE X6MHIGH RD
3M WIDE X3MHIGH RD
1800
011
000
1800
011
000
1800
0
7600
0
12850 1800 12850
MALE WC
MALE SHR /
CHANGE
FEMALE WC/
CHANGE
UNISEXACC.
LUNCH ROOM
STORE
OFFICE300m²
2040
0
1496
0
5440
15400
OUTDOOR PAVED AREA
THIS COMPUTER FILE/DRAWING IS COPYRIGHTMATERIAL AND THE PROPERTY OF OLK + ASSOCIATES.THE CONTENTS OF THIS FILE/DRAWING MAY NOT BEDIVULGED, REPRODUCED ON ANY MEDIA, ORDISTRIBUTED BY ANY MEANS, WITHOUT THE EXPRESSWRITTEN PERMISSION OF OLK + ASSOCIATES.
DATA IS SUPPLIED FOR INFORMATION ONLY WITH THEHARD COPY TAKING PRECEDENCE EVERY TIME.
WHERE NECESSARY YOUR OWN SHOP DRAWINGSSHOULD BE GENERATED.DO NOT SCALE FROM THIS DRAWING, VERIFY ALLDIMENSIONS ON SITE, PRIOR TO COMMENCEMENT OFANY WORKS.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHALL SCHEDULES OF WORKS, SPECIFICATIONS,FINISHES AND EQUIPMENT SCHEDULES.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHSTRUCTURAL ENGINEERING PLANS.
ALL MATERIALS AND WORKMANSHIP SHALL BE INACCORDANCE WITH THE CURRENT SPECIFICATIONSAND THE STANDARDS ASSOCIATION OF AUSTRALIA.
SPECIAL ATTENTION IS TO BE PAID TO THE RELEVANTBUILDING CLASSIFICATIONS WHICH THIS PROJECTAND FINAL BUILDING USE NOW RELATES TO, WITHINTHE NCC. (FORMALLY BCA)
THE ISSUANCE OF ELECTRONIC INFORMATION IN ANYFORMAT DOES NOT RELIEVE ANY RESPONSIBILITYFOR CONTRACTUAL OBLIGATIONS WHICH INCLUDE,BUT IS NOT LIMITED TO, ENSURING THE WORK ISCOMPLETE, ACCURATE AND CORRECT.
GENERAL NOTES
CLIENT:
PROJECT:
DRAWING TITLE:
DWG NO.
SCALE:
REV
@ A1
PROJECT No.
ISSUED FOR:
DRAWN BY: CHECKED BY: ENGINEER: CLIENT REPRESENTATIVE:
RE
V
59 canning road kalamunda wa 6076po box 1427 kalamunda wa 6926
t 08 9293 0296f 08 9293 0543
olk.com.au
As indicated
KG
F
28/1
0/20
16 4
:00:
44 P
M
28/1
0/20
16 4
:00:
44 P
M
F
DA APPROVAL
A-02.00I-AHRN-AVO-01
MD AO -
FLOOR PLAN
AHRENS GROUP for AVON WASTE
A- 0
2.0 0
I-A
HR
N-A
VO
-01
AVON WASTE TRANSPORT DEPOTLOT 5113 GREAT SOUTHERN HWYDALIAK, WA, 6302
1 : 200
Workshop Floor Plan1 1 : 100
Office Floor Plan2
NORTH
REVISIONS
REV DATE DESCRIPTION BY
A 28.04.16 PRELIMINARY MD
B 03.05.16 PRELIMINARY MD
C 10.05.16 PRELIMINARY MD
D 08.07.16 PRELIMINARY MD
E 23.08.16 PRELIMINARY SD
F 31.08.16 DA APPROVAL SD
COLORBOND TRIMDEK ROOFSHEETING AT 5° PITCH
6m HIGH x 5m WIDEROLLER DOOR
SPARE TYRE BAY BIN STORE WASH BAY BAY 1 BAY 3 STORE OFFICEWORKSHOP
SIGNAGE
CONCRETEPARAPET WALL- PAINT FINISH
FEATURE ENTRY WALLWITH SIGNAGE
OFFICE ENTRYCANOPY TO DETAIL
COLORBOND WALLCLADDING
OUTDOORPAVED AREA
7500
WELD BAY BAY 5
2400
COLORBOND TRIMDEK ROOFSHEETING AT 5° PITCH
6m HIGH x 5m WIDEROLLER DOOR
SPARETYRE BAYWASH BAYBAY 2BAY 4CRIBOFFICEWORKSHOP
SIGNAGE
CONCRETEPARAPET WALL- PAINT FINISH
FEATURE ENTRY WALLWITH SIGNAGE
OFFICE ENTRY CANOPYTO DETAIL
6000
4000
COLORBOND WALLCLADDING
OUTDOORPAVED AREA
7500
BIN STOREOIL BAY 6 SPRAYBOOTH
2400
COLORBOND TRIMDEK ROOFSHEETING AT 5° PITCH
WORKSHOP
COLORBOND WALLCLADDING
7500
6000
Ground Floor
0
Pitching Point
7500
Roof Level
10000
OFFICE
4000
6000
2400
OFFICE
WORKSHOP BEYOND
OFFICE ENTRY CANOPYTO DETAIL
CONCRETE PARAPET WALLBEYOND
FEATURE ENTRY WALLWITH SIGNAGE
GLAZED ENTRY DOORS
6000
3000 40
00
7500
2400
THIS COMPUTER FILE/DRAWING IS COPYRIGHTMATERIAL AND THE PROPERTY OF OLK + ASSOCIATES.THE CONTENTS OF THIS FILE/DRAWING MAY NOT BEDIVULGED, REPRODUCED ON ANY MEDIA, ORDISTRIBUTED BY ANY MEANS, WITHOUT THE EXPRESSWRITTEN PERMISSION OF OLK + ASSOCIATES.
DATA IS SUPPLIED FOR INFORMATION ONLY WITH THEHARD COPY TAKING PRECEDENCE EVERY TIME.
WHERE NECESSARY YOUR OWN SHOP DRAWINGSSHOULD BE GENERATED.DO NOT SCALE FROM THIS DRAWING, VERIFY ALLDIMENSIONS ON SITE, PRIOR TO COMMENCEMENT OFANY WORKS.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHALL SCHEDULES OF WORKS, SPECIFICATIONS,FINISHES AND EQUIPMENT SCHEDULES.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHSTRUCTURAL ENGINEERING PLANS.
ALL MATERIALS AND WORKMANSHIP SHALL BE INACCORDANCE WITH THE CURRENT SPECIFICATIONSAND THE STANDARDS ASSOCIATION OF AUSTRALIA.
SPECIAL ATTENTION IS TO BE PAID TO THE RELEVANTBUILDING CLASSIFICATIONS WHICH THIS PROJECTAND FINAL BUILDING USE NOW RELATES TO, WITHINTHE NCC. (FORMALLY BCA)
THE ISSUANCE OF ELECTRONIC INFORMATION IN ANYFORMAT DOES NOT RELIEVE ANY RESPONSIBILITYFOR CONTRACTUAL OBLIGATIONS WHICH INCLUDE,BUT IS NOT LIMITED TO, ENSURING THE WORK ISCOMPLETE, ACCURATE AND CORRECT.
GENERAL NOTES
CLIENT:
PROJECT:
DRAWING TITLE:
DWG NO.
SCALE:
REV
@ A1
PROJECT No.
ISSUED FOR:
DRAWN BY: CHECKED BY: ENGINEER: CLIENT REPRESENTATIVE:
RE
V
59 canning road kalamunda wa 6076po box 1427 kalamunda wa 6926
t 08 9293 0296f 08 9293 0543
olk.com.au
1 : 150
KG
E
28/1
0/20
16 4
:00:
56 P
M
28/1
0/20
16 4
:00:
56 P
M
E
DA APPROVAL
A-03.00I-AHRN-AVO-01
MD AO -
ELEVATIONS
AHRENS GROUP for AVON WASTE
A- 0
3.0 0
I-A
HR
N-A
VO
-01
AVON WASTE TRANSPORT DEPOTLOT 5113 GREAT SOUTHERN HWYDALIAK, WA, 6302
1 : 150
Elevation 11
1 : 150
Elevation 22
1 : 150
Elevation 33
1 : 150
Elevation 44
REVISIONS
REV DATE DESCRIPTION BY
A 28.04.16 PRELIMINARY MD
B 03.05.16 PRELIMINARY MD
C 10.05.16 PRELIMINARY MD
D 23.08.16 PRELIMINARY SD
E 31.08.16 DA APPROVAL SD
A-03.00 1
A-03.002
A-03.00
3
A-03.00
4
OFFICE
300m²
WORKSHOP
1485m²
PAVED AREA
CONCRETEHARDSTAND
LS-1
LS-1
LS-2
LS-2
LS-3 LS-3
LS-4
LS-5
2000
LS-5
LS-5
LS-5
LS-4
LS-4
LS-4
LS-4
2000
20000 6000 27500 6000 20000 9000
3000
2000
1600
060
00
90053
1473
19
6000 14000 6000 9000 1500
6000
6000
TREE SCREEN TO GREATSOUTHERN HIGHWAY
TREE SCREEN TO ASHWORTH ROAD
PROPOSED ROADCONNECTION TOASHWORTH ROAD
20000
6000 2000
ASPHALT
ASPHALT
6000
6000
2000
SWALE
SW
ALE
SW
ALE
SWAL
E
3000 8000 3000
6000
13553 3000 20000 6000
COMPACTEDROAD BASEHARDSTAND
COMPACTEDROAD BASEHARDSTAND
3627
0
6000 20000 40001000
40001500
ORGANIC MULCH, COMPOSTED AND WEED FREE SHALLBE PROVIDED TO ALL GARDEN BED AREAS TO ATHICKNESS OF 75mm. NO CRUSHED BRICK, PEA GRAVEL,BLUE METAL OR CRUSHED LIMESTONE SHALL BE USED.MULCH LAYER TO BE AMAZON SOILS-ENVIRO MIX OREQUIVALENT APPROVED BY SHIRE OF YORK.
IRRIGATION SHALL BE PROVIDED TO ALL LANDSCAPEAREA AS PER SHIRE OF YORK REQUIREMENTS.
ALL LANDSCAPED AREAS AND IRRIGATION SHALL BEMAINTAINED REGULARLY BY THE ON-SITE LANDSCAPEMAINTENANCE TEAM.
TREE AND SHRUB SPECIES TO BE AS APPROVED BYSHIRE OF YORK LANDSCAPE DESIGN GUIDELINES.
PROVIDE KERBING IN ACCORDANCE WITH MAIN ROADSSTANDARD DETAIL TO PERIMETER OF GARDEN BEDS.
UPTO 300mm OF SOIL LAYER FOR LANDSCAPE AREA TOBE AMAZON LANDSCAPE MIX 0SAM 0200 AS PERAS 4419 OR APPROVED EQUIVALENT BY SHIRE OF YORK
LANDSCAPE LEGEND
SWALE AREA 2816m²
CALLISTEMON CITRINUS(CRIMSON BOTTLE BRUSH)HEIGHT UPTO 4m
LS-1 22 PLANTS
ANIGOZANTHOS HYBRID(GOLD VELVET KANGAROOPAW) HEIGHT UPTO 50cm
LS-2 17 PLANTS
GREVILLEA "BRONZERAMBLER"HEIGHT UPTO 30cm
LS-3 46 PLANTS
ACACIA ACUMINATA(JAM TREE)HEIGHT UPTO 7m
LS-4 33 PLANTS
ALLOCASUARINA TORULOSA(FOREST SHEOAK)HEIGHT UPTO 15m
LS-5 19 PLANTS
LANDSCAPED AREA 2018m²
1. DRAINAGE SWALE LAYOUT TO BE AS PER APPROVED CIVIL DRAWINGS2. ALL LEVELS TO BE COORDINATED AND TO BE AS PER APPROVED CIVIL DRAWINGS3. SUBSOIL LAYERING DETAILS AND BASIN SLOPES FOR SWALES AS PER APPROVED CIVIL DRAWINGS4. ALL TREE & SHRUB PLANTING & SOIL PREPARATION SPECIFICATION TO BE REVIEWED AND APPROVED BY SHIRE OF YORK5. THESE DRAWINGS ARE TO BE READ IN CONJUNCTION WITH CIVIL AND SERVICES DRAWINGS6. ALL MEASUREMENTS AND LEVELS TO BE CONFIRMED ON SITE PRIOR TO COMMENCEMENT OF WORKS7. CONTRACTOR TO CHECK FOR SERVICES PRIOR TO COMMENCEMENT OF CONSTRUCTION. CALL DIAL BEFORE YOU DIG AS REQUIRED.8. ALL CONSTRUCTION TO COMPLY WITH RELEVANT AUSTRALIAN STANDARDS AND COUNCIL BYLAWS AND REQUIREMENTS9. PLANTING HOLE FOR TREES TO BE TWICE THE DIAMETER AND TWICE THE DEPTH OF THE POT SIZE10. SOIL CONDITIONER TO COMPLY WITH AUSTRALIAN STANDARD 4454 (EG. AMAZON FINE COMPOST). INCORPORATE SOIL CONDITIONER AT A
RATIO OF 1:4 PARTS SOIL (AMAZON LANDSCAPE MIX & WEED FREE TOP SOIL MIX 50% EACH) INTO THE PLANTING HOLE AS BACKFILL11. FERTILISER TO BE OSMOCOTE SLOW RELEASE OR EQUIVALENT APPROVED BY SHIRE OF YORK AND INCORPORATED TO
MANUFACTURER'S RECOMMENDED RATES, BACK FILL WITH ENRICHED SOIL12. ALL TREES TO BE STAKED WITH 3 HARDWOOD 2400X50X50mm STAKES AND TIED WITH RUBBER TREE TIES13. A 1m DIAMETER AREA AROUND THE TREES TO BE TREATED WITH RICHGRO EZI WET LIQUID SOIL WETTER OR SIMILAR APPROVED AS PER
MANUFACTURER'S RECOMMENDED RATES14. RETICULATION TO BE AS PER RETICULATION PLAN APPROVED BY SHIRE OF YORK10. LANDSCAPE MAINTENANCE TO BE AS DIRECTED AND AGREED WITH CLIENT11. ENRICHED SOIL FOR LANDSCAPE AREAS TO BE EXISTING WEED FREE TOP SOIL & AMAZON LANDSCAPE MIX COMBINED AT A RATIO OF 50% EACH THOROUGHLY MIXED AS APPROVED BY SUPPLIER
LANDSCAPE NOTES
LANDSCAPE GENERAL NOTES
THIS COMPUTER FILE/DRAWING IS COPYRIGHTMATERIAL AND THE PROPERTY OF OLK + ASSOCIATES.THE CONTENTS OF THIS FILE/DRAWING MAY NOT BEDIVULGED, REPRODUCED ON ANY MEDIA, ORDISTRIBUTED BY ANY MEANS, WITHOUT THE EXPRESSWRITTEN PERMISSION OF OLK + ASSOCIATES.
DATA IS SUPPLIED FOR INFORMATION ONLY WITH THEHARD COPY TAKING PRECEDENCE EVERY TIME.
WHERE NECESSARY YOUR OWN SHOP DRAWINGSSHOULD BE GENERATED.DO NOT SCALE FROM THIS DRAWING, VERIFY ALLDIMENSIONS ON SITE, PRIOR TO COMMENCEMENT OFANY WORKS.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHALL SCHEDULES OF WORKS, SPECIFICATIONS,FINISHES AND EQUIPMENT SCHEDULES.
THIS DRAWING IS TO BE READ IN CONJUNCTION WITHSTRUCTURAL ENGINEERING PLANS.
ALL MATERIALS AND WORKMANSHIP SHALL BE INACCORDANCE WITH THE CURRENT SPECIFICATIONSAND THE STANDARDS ASSOCIATION OF AUSTRALIA.
SPECIAL ATTENTION IS TO BE PAID TO THE RELEVANTBUILDING CLASSIFICATIONS WHICH THIS PROJECTAND FINAL BUILDING USE NOW RELATES TO, WITHINTHE NCC. (FORMALLY BCA)
THE ISSUANCE OF ELECTRONIC INFORMATION IN ANYFORMAT DOES NOT RELIEVE ANY RESPONSIBILITYFOR CONTRACTUAL OBLIGATIONS WHICH INCLUDE,BUT IS NOT LIMITED TO, ENSURING THE WORK ISCOMPLETE, ACCURATE AND CORRECT.
GENERAL NOTES
CLIENT:
PROJECT:
DRAWING TITLE:
DWG NO.
SCALE:
REV
@ A1
PROJECT No.
ISSUED FOR:
DRAWN BY: CHECKED BY: ENGINEER: CLIENT REPRESENTATIVE:
RE
V
59 canning road kalamunda wa 6076po box 1427 kalamunda wa 6926
t 08 9293 0296f 08 9293 0543
olk.com.au
As indicated
KG
C
28/1
0/20
16 4
:01:
35 P
M
28/1
0/20
16 4
:01:
35 P
M
C
DA APPROVAL
A-04.00I-AHRN-AVO-01
SD AO -
LANDSCAPE PLAN
AHRENS GROUP for AVON WASTE
A- 0
4.0 0
I-A
HR
N-A
VO
-01
AVON WASTE TRANSPORT DEPOTLOT 5113 GREAT SOUTHERN HWYDALIAK, WA, 6302
1 : 500
Landscape Plan1
REVISIONS
REV DATE DESCRIPTION BY
A 31.08.16 DA APPROVAL SD
B 16.09.16 DA APPROVAL SD
C 28.10.16 DA APPROVAL MD
CALLISTEMON CITRINUS (CRIMSON BOTTLE BRUSH) HEIGHT UPTO 4mLS-1
ANIGOZANTHOS HYBRID (GOLD VELVET KANGAROO PAW)HEIGHT UPTO 50cmLS-2
GREVILLEA "BRONZE RAMBLER" HEIGHT UPTO 30cmLS-3
ACACIA ACUMINATA (JAM TREE) HEIGHT UPTO 7mLS-4
ALLOCASUARINA TORULOSA (FOREST SHEOAK) HEIGHT UPTO 15mLS-5
NORTH
331.5
5
332.0
332 . 0
332.5
332 . 5
333.0
333 . 0
333 . 5
333.5
333 . 5
334 . 0
334.0
334 . 0
335.3
3
336.8
3
333.6
3
334.3
7
334.9
1
332.2
5
335.2
7
331.5
0
332.0
7
332.3
7
336.5
3
335.5
0
335.7
1
332.6
5
335.9
2
336.1
9
334.2
6
335.4
3
335.9
1
332.2
6
331.53 33
1.51
335.1
9
332.3
4
331.9
8
336.4
7
335.5
0
335.0
4
335.8
9 336.11
333.0
5
336.11
332.2
1
332.7
4
334.6
1
332.9
5
334.7
9
333.8
4
335.6
9
336.3
1
335.3
6
333.7
5
335.4
4
332.9
2
333.2
8
334.0
1
333.5
3334.0
4
333.3
4
336.3
4
334.6
5
334.4
9
336.2
2
334.7
8
333.6
6
332.1
5
333.8
3
333.3
7
334.1
7
333.3
5
337.0
0
333.8
5
335.2
3
334.0
1
334.3
6
332.9
3
334.8
7
334.3
7
332.8
1
334.7
5
332.8
5
333.12
335.9
0
335.9
1
336.2
1
333.2
6
335.2
0
LOT
2764
1
24168
334.4
2
335.4
5
333.8
8
336.2
3
334.9
4
333.3
5
335.8
7
934.42
OVERHE
AD POWERL
INES
LOW W
IRE
FENC
EPO
WER
POLE
STAY
WIRE
ONTIMB
ER P
OST
R.L.
338.43
(A.H.D. F
ROM
S.S.M. P
ERTH
347)
OVER
HEAD
POWER
LINE
S
FFL=334.70
336.30
336.20
FFL=334.70 FFL=334.70 FFL=334.70
336.00
334.60
334.45
335.70
334.65
334.65
334.65
334.65
334.50
333.90
DAM WALL RL 333.15
ACCESS ROAD
PA
VE
D A
RE
A
LANDSCAPE AREA
S
W
A
L
E
AS
PH
ALT
COMPACTED
ROAD BASE
HARDSTAND
COMPACTED
ROAD BASE
HARDSTAND
334.65
334.50
334.65
334.50
334.50
334.45
334.25
334.65
334.65
334.45 334.45 334.45
333.45 333.45 333.45 333.45
334.60
334.60334.40
334.30333.80
334.45334.60
334.70
334.90
334.65
334.60
334.50
335.50
335.00
335.00
DRAINAGE SWALE BASE = 332.45
334.30
334.50
334.70
333.55
335.70
334.70
334.60
334.50
334.40335.65 335.00
334.00335.40
334.45
333.75
333.10
333.70
334.10
30 North Road
BASSENDEAN WA 6054
Ph : (08) 9379 9481 or 0447 112 481
SRCivil Consulting Pty Ltd
SRCivil Consulting Pty. Ltd.
FFL=334.70
Oil and Chemical Storage Additional Information
Diesel Fuel
Our current system of fuel storage will be transferred to the new Depot facility. This is a 27,000ltr
self-bunded above ground tank that incorporates a Diesel pump on one end.
This tank will sit on a Concrete base with aprons wide enough for the trucks to drive on either side.
This will be formed and shaped into a drain that will incorporate an Oily Water separator similar to
the attached supporting document.
AdBlue
AdBlue is another product that will be located near our Diesel Tank
It is neither a fuel or a fuel additive, but a high purity urea solution that must be used in a dedicated tank on
your vehicle.
AdBlue® is harmless, non-flammable and non-explosive. It is classified as a transportable fluid with minimal
risk. If you ever spill AdBlue on your hands, simply wash them thoroughly with water.
Our current 6000ltr Self Bunded Tank will be transferred to the new site and set up next to the
Diesel Fuel Tank. Again this will sit on the Concrete Slab so any spills will be directed into the drain
and be processed by the oily water separator.
Oil Storage – Main Shed
We will have requirements to store Oils in the Main shed for use in our trucks. We envisage this oil
will be delivered and stored in 1000ltr IBC’s containers. Where certain products are not available in
IBC’s then standard 205ltr drums will be used.
The Oil Shed will be fully bunded to ensure that any spills are contained. The Shed will have 110%
capacity vs stored Oils at all times.
The Oils will then be pumped into the shed and distributed through retractable hose reels.
Typical Hose reel Layout
Other Chemicals
As a General rule, Avon Waste don’t use any other Hazardous chemicals as part of its Transport
Depot operations. Items such as Truck wash are non-hazardous materials not requiring any specific
storage or handling procedures. Any other Chemicals are used in accordance with our Materials
Safety Data Sheets and this information is made available to staff and visitors upon request.
Our Wash Down Bay will be a basic concrete slab that will direct runoff into a sump. The water will
be processed through an Oily Water separator as per the attached Document.
All trucks are equipped with spill kits and spill kits will be located throughout the depot facility.
Avon Waste have a Managing Hazards Policy which has been included in our submission.
Waste Oil Disposal
All waste oil generated from our activities will be recycled by Wren Oil. This Oil will be stored in
1000Ltr IBC’s or 205ltr Steel Drums until Wren Oil are able to come on site and recycle the Oil. This
Oil will be residual from the Oil separator systems and from general vehicle servicing.
Melbourne - Perth - Brisbane - [email protected]
cleanawater.com.au
1800 353 788
Cleanawater TS1000 SS Oil Water Separator – 1000 L/hr
Installation, Operations & Maintenance Manual
1
TABLE OF CONTENTS
COMPANY INFORMATION 2
PARTS INCLUSION LIST 3
PRODUCT INFORMATION 4
SYSTEM SPECIFICATIONS 6
TYPICAL INSTALLATION SCHEMATIC 7
INSTALLATION INSTRUCTIONS 12
FINAL INSTALLATION CHECKLIST 17
OPERATIONS & MAINTENANCE GUIDE 18
OPERATIONS GUIDE 18
MAINTENANCE GUIDE 18
WEEKLY MAINTENANCE 18
QUARTERLY MAINTENANCE 19
WARRANTY TERMS 20
TROUBLESHOOTING GUIDE 21
CLEANAWATER TERMS & CONDITIONS 26
PUMP MANUALS & CONNECTION DIAGRAMS REAR
2
COMPANY INFORMATION
Water Sustainability is a key to our economic and environmental future
As one of Australia's leading providers of water treatment and recycling solutions; Cleanawater is
committed to building a sustainable future.
Since 1996 our technologies have been helping businesses achieve cleaner water solutions that are both
cost effective and authority and regulatory compliant.
Cleanawater is a 100% Australian owned and operated water technology company that has been
providing water treatment and recycling solutions throughout Australiasia for over 17 years. Our
manufacturing and research and development centre are based out of our head office in Thomastown,
Victoria, with offices located in Brisbane, Perth and Adelaide.
Our product range includes:
Largest Range of Oil Water Separators – Coalescing, VGS, Hydrocyclone and Induced Cyclonic
Separators
Water Recycling Systems
First Flush Diversion / Stormwater Management Systems
Rainwater Harvesting Systems
AQIS Treatment Systems
Packaged Pumping Stations
pH & Chemical Control Systems
Oil Skimmers – floating oil skimmers / belt oil skimmers
3
PARTS INCLUSION LIST
Your package should include the following items. Please check these items off as received. If any items
are missing please contact Cleanawater on 1800 353 788.
Note: If your package is a non-standard package additional/other items may be included in your package.
Item Qty Included
(Y/N)
Oil Separator
TS1000 SS oil water separator unit & lid– stainless steel 1
Galvanized OR stainless steel support frame 1
DN40 ball valve 2
DN40 sludge outlet nipple 2
DN40 internal sludge outlet elbow – factory fitted 2
DN50 internal waste water outlet elbow – factory fitted 1
Coalescing Media Packs – factory fitted 3
Media Packs support grid – factory fitted 4
Inlet splash guard – factory fitted 1
Adjustable Waste Oil Collar – factory fitted (not adjusted) 1
DN40 rubber 90 degree elbow & PVC waste oil outlet pipe 1
Stainless steel worm drive clip to suit waste oil hose 1
20L waste oil collection drum OR 1000L IBC waste oil tank 1
Installation, operations and maintenance guide 1
Oil Separator
Feed Pump(s)
Mono CP11 OR ASM DS25 Electric Diaphragm Pump (note
other models may be included based on availability – refer to
your pump manual attached for model information)
1
Controls Float Switch with 10m lead – working float switch 1
Float Switch with 10m lead –high level alarm float switch
(optional)
1
Cleanawater pump control panel (refer to pump wiring diagram
for all wiring and function information)
1
Optional Extras Other items may be included in your package based on your
specific site requirements, refer to your packing slip or contact
Cleanawater on 1800 353 788 for confirmation.
4
PRODUCT INFORMATION
Cleanawater TS series oil water separators are classified as coalescing type separators (CPS), where oil
droplets in suspension in the moving water stream are removed in a coalescing process by the separating
media.
The separating media in the two stages of the Cleanawater TS separator provides a random packed
mass of polypropylene rings with a maximized ratio of surface area to volume. The mass of rings fully
occupy the compartments of the two separation stages providing high surface area with the necessary
open area to allow the waste water stream to pass through. The random placement of the packing
ensures that the waste water cannot “channel” and avoid passing through the media rings.
In the separating process the oil droplets carried in the waste water stream must pass through the
maze of polypropylene rings. The gentle flow used, in conjunction with and high surface area and
depth of the bed in both compartments, ensures that the majority of oil droplets, however small,
impinge on a ring surface. The droplet velocity reduces to zero and gravity takes control. As
additional oil droplets impinge on the ring the droplets ‘coalesce’ together and grow in size. As the
droplet volume increases the buoyancy also increases. This increasing buoyancy drives the droplets
to top surface. As the oil level grows on the top surface it overflows to a waste oil collection
container.
Similarly, but in reverse sequence, the solids particles impinge on the ring surfaces and lose their velocity.
Gravity will draw them to the base of the unit as their particle size increases. Upon passing through the
treatment system, created by the two stage packed media coalescing process, water is now treated and
via separator outlet is ready for disposal or to commence next stage of treatment.
5
Effluent standards for the Cleanawater TS series oil water separators adhere to the WSAA Product
Specification WSA PS 810, Separator Systems for Light Liquids as listed below.
a. Total Grease 50 mg/L
b. Petroleum Hydrocarbons including BTEX 10mg/L
c. Benzene 0.1mg/L
d. Suspended Solids 200mg/L
e. Flammability < 5% LEL (hexane) at 25OC
f. pH 7-10
Note:
- Quick break and bio degradable detergents and degreasers should be used in conjunction with the system.
- Holding pit capacity should match the hourly throughput of the oil separator system.
- Any solvent based liquids or emulsifiers should be avoided, these may affect the efficiency of the unit performance.
- Coalescing oil separators are designed to remove free oils and grease only.
6
SYSTEM SPECIFICATIONS
7
TYPICAL INSTALLATION SCHEMATICS
Note these may differ depending on your application. Attached are typical installations only.
TYPICAL GRAVITY DISCHARGE LAYOUT
8
TYPICAL PUMPED DISCHARGE LAYOUT
9
TYPICAL MINING GRAVITY DISCHARGE LAYOUT
10
TYPICAL MINING PUMPED DISCHARGE LAYOUT
11
TYPICAL MINING LAYOUT WITH PUMPED DISCHARGE & OIL SKIMMER & IBC WASTE OIL DISCHARGE
12
INSTALLATION INSTRUCTIONS
*-Note: At installation stage, all plumbing works must be completed by a licensed plumber. If electrical
works are required to be completed they must be completed by an electrician with relevant certifications.
Local water authorities should be contacted prior to installation to ensure local requirements have been
met.
INSTALLATION PROCEDURES
STEP 1 – PREPARE AREA FOR INSTALLATION
Locate the oil separator in its operating position with sufficient access clearance to operate the sludge
drain valves.
While doing this also position your waste oil container and ensure reasonable work clearances are
maintained.
STEP 2 – SETTING UP
Place unit or support frame on a solid and even base. A level concrete slab is preferred. If the slab is
uneven it is preferable to cement slurry the surface and set the separator/frame into the wet cement.
STEP 3 – SETTING UP
If you have been supplied with a separator support stand, dyna bolt your separator support stand into the
concrete slab at the four corners of the stand within the holes built into the stand. For corrosive
environments ensure galvanized fixing materials are used.
Ensure that your foundation has sufficient strength to support the mass of the unit.
STEP 4 – CHECK FOR A LEVEL SURFACE
Ensure that the unit is level within 5 mm on both axes. This can be measured across the top flanges of the
unit (with the cover off).
13
STEP 5 – PLUMBING CONNECTIONS
Pipe the inlet and outlet water connections.
Connections as follows should be completed:
Collection Pit – Pump Inlet
Pump Outlet – Separator Inlet
Separator Outlet – Sewer or discharge point
*- Refer to specification sheet for unit inlet/outlet sizes, check the manufacturer data sheet for pump inlet
and minimum diameter piping requirements to ensure pump warranty is not voided.
*- Note: Ensure local piping material standards have been met, any connections to sewer must be
completed by a licensed plumber.
STEP 6 – PLUMBING CONNECTIONS
Plumb the suction line to the pump using the correct diameter pipe as recommended from the pit /
suction source.
Note: It is a requirement in some areas to provide sampling taps on the inlet and outlet pipes of the
separator.
STEP 7 – PLUMBING CONNECTIONS
The suction line must be terminated close to the base of the collection pit in line with the
recommendations on the typical installation schematic. It is recommended that a barrel union in the
suction line is installed to allow for simple future maintenance. A foot valve (Mono pump only) should be
installed to the base of the suction line. A strainer should be installed to be base of the suction line if a
diaphragm pump is feeding the oil separator.
* - Note: If a floating skimmer oil is installed in the sump a foot valve/strainer cannot be installed as a
flexible vacuum hose is connected to the pressure pipe directly.
14
STEP 8 – PLUMBING CONNECTIONS
Fit the supplied gate valve (2) to the sludge outlets. Ensure they are closed before filling the separator.
STEP 9 - PLUMBING CONNECTIONS
Fit the suppled clear PVC hose to the waste oil outlet line, secure using worm drive clip supplied. A 20 litre
chemical drum is recommended to be used as a waste oil container to aid in disposal at required date.
For mining environments it is suggested a high volume waste oil collection container such as an IBC is
used to collect waste oil.
STEP 10 – PLUMBING CONNECTIONS
Plumb the pump to the separator. Barrel unions in the pipes either side of the pump to aid in servicing is
recommended. A lute should be plumed in to the line to ensure pump is always primed (for Mono Pumps
only).
STEP 11 – PLUMBING CONNECTIONS
Plumb the oil separator outlet to discharge source. Barrel unions in the pipe to aid in servicing is
recommended. All discharge pipework must be in accordance with local regulations including any
sampling points and tundishes. Check your local plumbing regulations for pipe work requirements.
QUALIFIED ELECTRICIANS MUST COMPLETE ANY WIRING
STEP 12 – ELECTRICAL CONNECTIONS
Wire the pump into the electrical controller (Controllers have Manual/Auto/Off functions and are available
from Cleanawater; they are designed to be plugged into 240 volt 10amp power points unless specified)
Follow the wiring diagram supplied at all times to ensure the pump is not damaged.
* - Note - 3 phase pump controllers with additional functions may also be supplied, contact your
Cleanawater representative to confirm the model of your pump controller(s).
15
STEP 13 – ELECTRICAL CONNECTIONS
Install the float switch to deactivate the pump ensuring it has suitable clearance from the suction line inlet
level. Refer to supplied wiring diagram at all times.
* - Failure to do this will cause problems in your pump to prime.
Fasten the float switch lead to the suction line with plastic cable ties with care taken to ensure that the
float travel is not impeded in any way. The pumping range (switch on point) should be set approximately
500mm from the (switch off point). This can be increased depending on the collection pit storage size. If
you have a high level alarm included with your package, repeat this step and set the high level alarm float
to trigger near top of your water collection vessel.
Refer to supplied wiring diagram at all times.
STEP 14 – ELECTRICAL CONNECTIONS
Strip the float lead back to expose active, neutral and earth wires. Following the wiring instructions, attach
the float lead wires to the control panel. Switch on the control panel at the power point and ensure it is
switched to the ‘Off’ setting.
Refer to supplied wiring diagram at all times.
STEP 15 – ADJUST WASTE OIL OVERFLOW OUTLET
Fill the oil separator with clean water and ensure pump is primed by using fresh water entered into the
pump chamber.
Switch the pump control panel to ‘Manual’ mode ensuring there is enough water in the collection pit to
feed the separator, this will pump water into the oil separator unit. Whilst the pump is operating adjust
the overflow socket of the Waste Oil Outlet to a level 5 mm above the water surface. This overflow socket
can be moved up or down the pipe and is sealed by means of an “O ring”. This socket adjustment should
be made while the feed pump is operating as the water level will drop when the pump stops.
16
STEP 16 – ELECTRICAL CONNECTIONS
Switch the pump controller to ‘Auto’ mode as per included instructions, this will ensure the pump
operation is triggered by the float switch activating the pump at a level when water level triggers its
operation. Make final adjustments to float level controls ensuring pump switch on and switch off points
are suitable.
STEP 17 – COMPLETION
Replace cover, check all connections. Fill unit with fresh water for first start.
Refer to installation completion checklist to ensure all items are complete.
Refer to operations and maintenance manual to ensure periodic maintenance on the system is
completed.
17
FINAL INSTALLATION CHECKLIST
Refer to the checklist below to ensure your Cleanawater TS series oil separator has been setup correctly.
Note: This layout refers to a typical installation only. You may have specific installation instructions
provided due to an alternate layout or additional equipment installed for your waste water treatment
solution.
Contact Cleanawater on 1800 353 788 for any questions related to installation and or operation of the
system.
Item Description Checked
(Y/N)
Placement Unit is installed on flat ground
Unit has been fixed to floor surface
Pump and oil separator has adequate service access
Connections -
Plumbing
Plumbing connections are completed with all barrel unions
tightened including:
Sump/Tank pump line to pump inlet
Foot valve/strainer fitted to base of pump line in pit
Pump inlet to oil separator inlet
Waste oil outlet to waste oil drum
Ball valves fitted to sludge outlets x 2
Oil separator outlet to discharge source
Connections –
Electrical
Float switches set at correct on/off heights and wired back to
control panel
Control panel is mounted and easily accessible
Control panel is plugged into mains power point
Pump and control floats are wired back to control panel
Pump control panel has power on
Oil Separator
operation
All internal elbows and fittings are fitted and tight
Internal media packs and pack holders are in place
Pumps are primed in accordance with manufacturer
recommendations
Unit is filled with fresh water for first start
Inlet splash guard is set in place
Waste oil overflow outlet is set to 5mm of surface when pump is
pumping water into the oil separator
Pump controller is set to automatic mode
Oil separator lid is placed on top of unit
Unit is operational
18
OPERATIONS AND MAINTENANCE GUIDE
OPERATIONS
Once the unit is entered into operation, it is an automated process activated by the float switch in the
collection pit which controls water throughput the oil separator; discharge from the oil separator is via
gravity into sewer or discharge tank. Pump tanks if pumping to a discharge source can be supplied on
request.
Maintenance is to be routinely completed to ensure that the system is operating to its designed efficiency.
MAINTENANCE
The Cleanawater system is a high performance unit capable of separating high levels of hydrocarbons and
solids within the waste water stream. To ensure it is operating to the maximum of its efficiency the following
maintenance should be completed:
WEEKLY MAINTENANCE TASKS
a) Inspect silt traps and collection pits, clean as required
b) Open oil separator lid, inspect water flow and build up of oils on surface
c) When pump is running check water levels in each of the two stages, an even water level in both stages
illustrates the system is working correctly. If the water level in the first stage is visibly higher than the
second stage a system clean is required immediately, refer to Monthly/Quarterly maintenance
procedures
d) Check waste oil container for any build up of oil, dispose of any oil in accordance with local regulations
e) Check the pump operation, float operation and ensure it is activating when water level reaches trigger point
f) Check condition of gate valves to sludge outlets and check any piping for damage
19
QUARTERLY MAINTENANCE TASKS
a) Refer to Weekly tasks for regular maintenance checks
b) Switch pump control panel of ‘Off’
c) Attach 40mm suction hoses to gate valves at base of unit, open valves to drain water level
down, either dispose of waste water by using an EPA authorized contractor or drain back
into collection pit (ideally)
d) Remove stainless steel grids and separation media packs from unit
e) Rinse stainless steel grids and separation media bags with a pressure washer, a light spray
will achieve the required result
f) Clean out the oil separator using a pressure washer ensuring all walls are clean
g) Re-install the separation media packs and stainless steel grids
h) Remove suction hoses from sludge valves and close
i) Check sludge build up in collection pit, ensure build of sludge is removed periodically
j) Fill the system with fresh water
k) Switch the pump control panel to ‘Auto’ and inspect system ensuring it is operational
l) Replace lid
20
WARRANTY TERMS
Pump Warranty
Manufacturer’s warranty is 12 months from the date of sale unless specified
Oil Separator Warranty
The Cleanawater oil separator is supplied with a 5 year perforation warranty period in a selection
of 304 and 316 stainless steel in non corrosive environments.
If any corrosive elements exist within the waste water stream Cleanawater should be contacted
to discuss suitability of the separator shell for the environment.
Other components
All other components that are supplied with the oil separator including the float switch are sold
with a 12 month warranty.
Compliance Plates
Each Cleanawater oil separator has an identification plate, attached to the top right hand corner
adjacent to the discharge point. Plate material is aluminium foil with overall dimensions of 120mm
x 50mm
21
TROUBLESHOOTING GUIDE
SYMPTOM/CAUSE PLAN OF ACTION
WATER IS NOT FLOWING INTO OIL SEPARATOR
Pump is not running Check that there is power to the pump by
checking local power source
Check that the pump controller is set to
manual/auto mode
Refer to the supplied wiring diagram that pump
connections to the controller are correct
Check pump overload switch is not tripped
Suction line is obstructed Check pump suction line for obstructions
causing blockage
Flush suction line with water to remove
blockage
Inspect suction lines for air ingression/cracks
and change if required
Check foot valve for obstructions
Check suction line is not submersed in sludge
build up
Pump has lost prime Prime pump chamber in accordance with
manufacturer’s instructions
Check foot valve for obstructions
Float switch working level requires adjustment
and is set too low. Reset the float level off level
to be above the base of the suction line
Pump component is damaged Pump diaphragm or rotor stator may be worn,
this will cause non suction although you will
hear the pump motor running, contact
Cleanawater or the pump manufacturer for
pump spares
Inadequate water level in the sump Water level in the sump has not triggered the
working float switch to start the pump, check
float is working correctly
Float switch working level requires adjustment
and is set too low. Reset the float level off level
to be above the base of the suction line
WATER IS INTERMITTENTLY PUMPING INTO THE OIL SEPARATOR
Pump has lost prime Prime pump chamber in accordance with
manufacturer’s instructions
22
Check foot valve for obstructions
Float switch working level requires adjustment
and is set too low. Reset the float level off level
to be above the base of the suction line
Check suction line is not submersed in sludge
build up
Suction Line is obstructed Check pump suction line for obstructions
causing blockage
Flush suction line with water to remove
blockage
Inspect suction lines for air ingression/cracks
and change as required
Check foot valve for obstructions
Check suction line is not submersed in sludge
build up
WATER IS FLOWING INTO WASTE OIL CONTAINER
Waste oil collar on the inside of the unit is set too
low
Ensure there is adequate water level in the pit,
switch the pump controller to manual mode to
start the pump operation. Adjust the waste oil
collar inside the oil separator to be 5mm above
water level when the pump is running. This will
ensure that only oils separated from the system
will be skimmed off into the waste oil drum and
no excess water. Switch pump control back to
‘Auto’ mode when complete.
There is a discharge blockage Media packs are blocked and required to be
cleaned in accordance with operations and
maintenance schedule
Note: If it is found that blockage occurs
regularly your oil separator system may be
undersized or overload of solids are blocking
the system, ensure all heavy solids are settled
out or suction line is located with adequate
clearance from the base of the pit
The pump flow rate is rated too high for the oil
separator
Excess flow rate is pumping through the
system, ensure the correct pump is being used
in accordance with the separator model,
submersible or centrifugal pumps must not be
used.
WATER IS FLOWING OUT OF THE TOP OF THE OIL SEPARATOR
There is a discharge blockage Media packs are blocked and required to be
cleaned in accordance with operations and
maintenance schedule
23
Note: If it is found that blockage occurs regularly your
oil separator system may be undersized or overload of
solids are blocking the system, ensure all heavy solids
are settled out or suction line is located with adequate
clearance from the base of the pit
The pump flow rate is rated too high for the oil
separator
Excess flow rate is pumping through the
system, ensure the correct pump is being used
in accordance with the separator model,
submersible or centrifugal pumps must not be
used.
PUMP IS RUNNING BUT NO WATER IS FLOWING INTO THE OIL SEPARATOR
Suction line is obstructed Check pump suction line for obstructions
causing blockage
Flush suction line with water to remove
blockage
Inspect suction lines for air ingression/cracks
and change as required
Check foot valve for obstructions
Check suction line is not submersed in sludge
build up
Pump component is damaged Pump diaphragm or rotor stator may be worn,
this will cause non suction although you will
hear the pump motor running, contact
Cleanawater or the pump manufacturer for
pump spares
THERE IS NO OIL IN THE WASTE OIL CONTAINER
Waste oil collar on the inside of the unit is set too
high
Ensure there is adequate water level in the pit,
switch the pump controller to manual mode to
start the pump operation. Then adjust the
waste oil collar inside the oil separator to be
5mm above water level when the pump is
running. This will ensure that oils separated
from the system will be skimmed off into the
waste oil drum and not contained within the
unit. Switch pump control back to ‘Auto’ mode
when complete.
There is little or no oils in the waste water
stream
The oils in the waste water stream are not free
oils or oil droplets in suspension have been
emulsified due to use of solvents or other
contaminants effecting oil water separation
efficiency, coalescing oil separators will
24
efficiently remove free oils and grease from
water, emulsified oils cannot be removed and
requires secondary filtration. Contact
Cleanawater on 1800 353 788 for further
information on correct use of system
Ensure that quick break, biodegradable
detergents and degreasers are used with the oil
separator, mixture with other detergents and
degreasers or other contaminants may affect
the waste water stream and discharge results
PUMP OVERLOAD SWITCH CONTINUES TO TRIP
Pump motor overheating Pump motor is located in an area with minimal
airflow and causing the motor to overheat,
relocate motor or remove heat sources to
ensure adequate ventilation is available of
pump motor
Faulty pump motor Pump motor may have defects, contact
Cleanawater on 1800 353 788 or the pump
manufacturer for further information
Power supply is faulty The pump power supply may have faults or the
breaker on the main board may be tripped
Ambient temperature conditions high Pump motor is located in an area with minimal
airflow and causing the motor to overheat,
relocate motor or remove heat sources to
ensure adequate ventilation is available of
pump motor
THE SYSTEM WILL NOT SWITCH ON/OFF
No power to pump The pump power supply may have faults or the
breaker on the main board may be tripped
Check power switch is on to the pump control
panel
Mode incorrectly set on control panel Refer to wiring diagram and instructions to
activate pump controller modes correctly.
Manual mode will start the pump manually
regardless of the water level in the sump, Auto
mode will start the pump on float level switch
on point and switch off the pump on float level
switch low point. Never leave the pump control
mode on manual or you will risk damaging the
pump.
25
Overload switch adjustment If applicable your pump controller may have an
overload switch adjustment, refer to wiring
diagram and instructions for correct
adjustment, contact Cleanawater on 1800 353
788 for further assistance.
Float switch is stuck Check float switch levels to ensure they are not
entangled or obstructed, flick the switch
manually by hand up and down to ensure the
pump switches on and off accordingly
Float switch failed Check float switch levels to ensure they are not
entangled or obstructed, flick the switch
manually by hand up and down to ensure the
pump switches on and off accordingly.
Check float switch wiring connections in pump
controller and/or junction box
THERE IS OIL PRESENT IN THE DISCHARGE
Oil spill has occurred or excessive load of oil
ingression
Oil spillage event or disproportionate loads of
oil is pumping through the system, attend to
the spillage as soon as possible
Contamination of waste water stream Ensure that quick break, biodegradable
detergents and degreasers are used with the oil
separator, mixture with other detergents and
degreasers or other contaminants may affect
the waste water stream and discharge results
Discharge blockage Media packs are blocked and required to be
cleaned in accordance with operations and
maintenance schedule
THERE IS A SMELL COMING FROM THE PIT OR THE OIL SEPARATOR SYSTEM
Pump is not running Check pump operation to ensure pump is
switching on/off correctly.
Sludge build up in pit or separator Check sump levels for build up of sludge and
have pit pumped out regularly
Oil separator requires a service in accordance
with operations and maintenance manual
Stagnant water Run fresh water into the pit to flush existing
contents and run the oil separator feed pump
to clear stagnant water.
26
CLEANAWATER TERMS & CONDITIONS
27
28
29
30
PLEASE REFER TO YOUR WIRING DIAGRAM AND
PUMP MANUAL FOR OTHER IMPORTANT
PACKAGE INFORMATION.
Avon Waste (17/11/2015) 1
MANAGING HAZARDS
Avon Waste has developed this procedure in order to effectively manage hazards in and
around the workplace.
This procedure applies to all staff and contractors engaged by all Avon Waste related entities
and is applicable to all Avon Waste sites and sites that Avon Waste staff are working on.
Introduction Effective hazard management is the key to preventing or minimising workplace illness and
injury. Avon Waste utilises the following system for identifying and managing hazards in our
workplace and those premises at which we undertake work (this is taken from our risk
management process – see Risk Management Policy for more information):
IDENTIFY the hazard
ANALYSE the risks (and decide how serious they are)
IMPLEMENT control to eliminate/reduce the risk
MONITOR the controls for effectiveness
REPORT and EVALUATE to ensure that risks are being appropriately managed and treated.
Types of Hazards There are many types of hazards in the workplace. Types of hazards that may be encountered
in the workplace are as follows (please note that this is NOT an exhaustive list and other
hazards may be present in some situations):
Manual tasks and ergonomics – manual tasks hazards are activities that could cause damage to the muscles and/or skeleton. They include lifting heavy objects, handling of people, repetitive movements, having an awkward posture or the same posture for a long period of time and using plant, tool or equipment that vibrate. Ergonomic hazards means things like workstations, workbenches, computer screens and seats that result in staff adopting unsafe working positions and/or actions.
Mobile plant, equipment and vehicles – this includes potential situations where staff and visitors could come into accidental contact with vehicles.
Electricity – electrical hazards may include activities that could cause sparks and start a fire, cords, plugs and sockets in poor condition and live electrical wires.
Working at heights – for example activities where there is a risk of a fall. Slips, trips and falls – risk factions that may lead to a trip, slip or fall.
Avon Waste (17/11/2015) 2
Mechanical Hazards – this means plant, equipment and items (and parts of them) that have the potential to cause injury.
Hazardous Chemicals – this means chemicals, dusts and vapours that could affect a person’s health. It also means substances that have physical or chemical hazards (for example explosive, flammable or corrosive substances).
Extreme Temperatures – situations where heat could cause burns, heat stroke or fatigue or cold could cause hypothermia or frost bite.
Noise – situations where exposure to loud noise could result in permanent hearing damage.
Radiation – this includes ultra violet light, welding arc flashes, microwaves and lasers that could cause burns, cancer or blindness.
Biological Hazards – contract with microorganisms that could cause disease or allergy. For example contracting a disease as a result of being injured by a syringe containing contaminated blood.
Unstable Objects – objects and materials that could fall over on top of people (for example overloaded racking).
Psychological Hazards – this means workplace bullying, violence and aggression that could lead to psychological illness including work related stress or work related fatigue.
Possible Hazards Staff must always be mindful of situations that could cause harm. The major goal of
managing hazards is staff safety and for this we need staff to identify any hazards that they
come across. It is important for all staff to know that, if their personal safety is threatened, it
is better to leave than remain in an at-risk environment.
What follows is a list of possible hazards that could be found on the Avon Waste workplace
or on other sites:
1. Lifting hazards – ensure correct lifting procedures are undertaken when lifting heavy items. Utilise the following procedure when lifting items and never lift items that are too heavy for you:
a. Get close to the object (gloves may improve grip), ensure loads are lightweight, avoid lifting from the floor
b. Bend at the waist, use both hands, have a good grip c. Keep close to body, push up with legs, use forearms and thighs to rest load d. Get help, if needed, keep it tucked in, pivot with your feet, not your back.
2. Posture whilst driving or sitting in office chairs – ensure that you take regular breaks sitting in one position. Stretch out your muscles. Hop out of the truck, or get up from the desk at regular intervals and walk around for a few minutes.
3. Work stations and work benches – ensure that work stations and work benches are at an appropriate height for the task. If doing a task that takes a long time, have a break at regular intervals and stretch out.
4. Possible injury through being struck by vehicles/machinery – ensure the following: a. Reversing buzzer and light is equipped to all trucks and vehicles b. Minimise staff movements in areas where trucks are moving around c. In accordance with WMS, when emptying bins of all sizes ensure the area is
clear of obstacles. 5. Electricity – ensure the following:
Avon Waste (17/11/2015) 3
a. When emptying bins, check for overhead powerlines before emptying any bins.
b. In the workshop, ensure that all cords are in good working order and have been tested and tagged.
6. Working at Heights – ensure that ladders are used per the manufacturers’ instructions and that no-one works at height without supervision and the correct safety harnesses and equipment.
7. Slips, Trips and Falls – ensure the following: a. Entering and Exiting of truck – three points of contact upon entering truck,
exit backwards using same three points of contact. b. Spilt material on floor – ensure any spills are cleaned up and/or covered with
sawdust to ensure that they do not present a slip hazard. 8. Mechanical Hazards – ensure guards are used wherever possible. 9. Hazardous Chemicals – ensure the following:
a. Personal Protective Equipment (PPE) is worn at all times according to the instructions.
10. Extreme Temperatures – ensure the following: a. Sunscreen is worn at all times (including when driving trucks as burns can
occur through open windows. b. Do not touch anything that has the possibility of being extremely not or cold. c. Use PPE at all times when dealing with hot machinery.
11. Noise – ensure ear protection is worn at all times when working with noisy equipment.
12. Radiation – ensure correct PPE is used when welding. Ensure others on site are aware that welding is taking place.
13. Biological Hazards – ensure the following: a. Correct PPE (gloves, eyewear etc) is worn whenever dealing with rubbish. b. Employees should take advantage of the free Hepatitis Vaccinations on offer
at Avon Waste as a preventative measure. 14. Unstable Objects – be mindful when storing items of the possibility that the items
may fall.
Reporting Hazards Hazards should be reported to your immediate Supervisor verbally. If your Supervisor is
unavailable then see the Office Manager. The Supervisor or Office Manager will take action
to ensure that the hazard is investigated and appropriate processes put in place to eliminate or
minimise the hazard. The Supervisor of Office Manager will ask you some questions and will
help you to fill in an Accident/Incident Report Form. The Supervisor or Office Manager will
follow through to ensure that any possible risks are eliminated. Should no action be received
within one week, the employee or subcontractor should approach the Operations Manager
and advise him of the issue. A review of hazards identified and what has been undertaken to
mitigate the risk is discussed at each monthly Management meeting and results are also
communicated to staff at Toolbox meetings.
Review This document will be reviewed every five years.