por t fo l io al exander m c d onald
curriculum vitae
works
interests
cv visualisation feasibility planning drafting interiors passivhaus master planning analogue
co nte nt s
0434 628 678 alex.mcd@live.com 127 Keele St Collingwood
Experience
Multi Residential
Feb 2019 - Current Tallis Architecture - Melbourne Design and documentation of residences Passive House reporting consultation Marketing & coordination for Passive House
Brisbane Casino Towers, South Brisbane QLD, Metro Properties, $200m2
Feb 2017 - Feb 2019 Jost Architects - Melbourne Documentation and planning coordination for residences Visualisations, fly-throughs, & firm marketing
Jupiters Casino Renovation, Gold Coast QLD, Echo Entertainment, $75m2
Sept 2015 - Jan 2017 ML Design - Brisbane Design intern for multi residential and commercial Master planning design and documentation Archicad QA and training
Richmond House, Richmond VIC, $1.2m1
Qualifications Master of Architecture, University of Melbourne, 2018 Bachelor of Architecture, University of Queensland, 2015
Program Skills Archicad Sketchup Rhino Photoshop Indesign Illustrator Lumion Cinema 4D Excel Word Outlook OSX + WINDOWS
Adela, Elwood VIC, Tandem Property Group, $7m1
Single Residential Elwood Townhouses, Elwood VIC, $1.6m1 St Kilda House 3, St Kilda VIC, $1.3m1 May Grove, South Yarra, Vic3 Hope Street Residence, South Yarra, Vic3
Retail Queen’s Wharf Casino Precinct, Brisbane QLD, Echo Entertainment, $2.2b2 Newmarket Village, Newmarket QLD, Reading Entertainment, $29m2 Reading Cinemas Townsville, Thuringowa Central QLD, Reading Entertainment, $2.5m2 Playboy Nightclub - Chhaya Devi Complex, Kathmandu Nepal4
Commercial Pentacon Office Renovation, Milton QLD, Pentacon, $150k4
Speciality Buildings Brisbane Auto Mall, Brisbane Airport QLD, Brisbane Airport Corporation QLD, $300m2 Halcyon Greens Community Precinct, Pimpama QLD, Halcyon, $300m2 Footnote 1. Jost Architects 2. ML Design 3. Tallis Architecture 4. Private Work
v i s u a l i s at i on
fe a s i b i l i t y
16 m2
GSEducationalVersion GSPublisherVersion 10.0.72.100
YORK ST
BOH
54 m2
STAIR CORE 11 m2
COMMUNAL ROOF
SERVICES 5 m2
CIRC 7 m2
16 m2
54 m2
LIFT CORE 7 m2
BOH
COMMUNAL ROOF
JOHNSTON ST
63 m2
2BR
SERVICES 5 m2
LIFT CORE 7 m2
63 m2
2BR
CIRC 7 m2
STAIR CORE 11 m2
GSEducationalVersion GSPublisherVersion 10.0.72.100
YORK ST
BALC 7 m2
BALC 7 m2
JOHNSTON ST
GSEducationalVersion GSPublisherVersion 10.0.72.100
YORK ST
BALC 9 m2
80 m2
BALC 9 m2
2BR
STAIR CORE 11 m2
83 m2
CIRC 10 m2
2BR
SERVICES 5 m2
86 m2
LIFT CORE 7 m2
2BR
89 m2
BALC 16 m2
2BR
BALC 16 m2
JOHNSTON ST
SERVICES 5 m2
LIFT CORE 7 m2 STAIR CORE 11 m2
BALC 9 m2
80 m2
2BR
CIRC 10 m2
86 m2
2BR
BALC 16 m2
YORK ST
BALC 9 m2
83 m2
2BR
89 m2
2BR
BALC 16 m2
JOHNSTON ST
BOH 53 m2
CIRC STAIR CORE 107 m2 11 m2
YORK ST
BOH 106 m2
SERVICES 5 m2
LIFT CORE 7 m2
150 m2
COMMERCIAL
JOHNSTON ST
Plant List - Tobruk Cres ID Trees Ccp Lit Mgg Aps
Scheduled Size Mature Height
Mature Spread cm Remarks
300mm 300mm 500mm 300mm
5m 8-10m 4m 4m
5m 4m 2.5m 4m
270mm 270mm 200mm 300mm 200mm
2.4m 1.5m 2m 0.6-1m 1-2m
1.8m 1.2m 0.6m 0.6-1m 0.6-1m
200mm 200mm 50mm tube 50mm tube 50mm tube
0.5m 0.4m 0.2-0.4m 0.6m 0.2-0.4m
0.5m 0.7m 0.2-0.4m 0.6m 1m
50mm 50mm tube 50mm tube 200mm
0.6 - 0.7m 0.6 - 0.7m 0.6 - 0.7m 1m
0.6 0.6 0.6 3m
200mm 200mm 200mm
3m 3m 3m
0.3 - 0.3 1m 1m
Foliage deciduous Foliage deciduous Screen
Qty
1 2 2 2
Scheduled Size Mature Height
Mature Spread cm Remarks
Common Name
Botancial Name
Forest Pansy Crepe Myrtle (Hot Pink) Dwarf Bull Bay Magnolia Threadleaf Japnese Maple
Cercis canadensis 'Forest Pansy' (Redbud) Lagerstroemia indica x L. fauriei 'Tuscarora' Magnolia grandiflora 'Little Gem' Acer palmatum' Seiryu'
300mm 300mm 500mm 300mm
5m 8-10m 4m 4m
5m 4m 2.5m 4m
270mm 270mm 200mm 300mm 200mm
2.4m 1.5m 2m 0.6-1m 1-2m
1.8m 1.2m 0.6m 0.6-1m 0.6-1m
Shrubs Vt Hq Bm Rip Wf
1 3 10 9 19
Viburnum tinus Oak leaf hydrangea Japanese box Indian Hawthorn Coastal Rosemary
Viburnum tinus Hydrangea quercifolia Buxus microphylla Rhaphiolepis indica'Oriental Pearl' Westringia fruiticosa
Ground covers Gas Aod Dr Hvm Cr
29 8 24 23 12
Gardenia Grandiflora Star Agapanthus Dwarf Baby Blue Kidney Weed Happy Wanderer 'Mini Meema' Pig Face
Gardenia augusta 'Grandiflora Star' Agapanthus orientalis alba dwarf Dichondra repens Hardenbergia violacea 'Mini Meema' Carpobrotus rossii
200mm 200mm 50mm tube 50mm tube 50mm tube
0.5m 0.4m 0.2-0.4m 0.6m 0.2-0.4m
0.5m 0.7m 0.2-0.4m 0.6m 1m
Grasses Lma Lmg Llt Bmg
20 20 6 21
Big Blue Lilyturf Evergreen Giant Lliyturf Fine Leaf Spikey Headed Mat Rush Bamboo Goldstripe
Liriope muscari 'Amethyst' Liriope muscari 'Evergreen Giant' Lomandra longifolia' tanika' Bambusa multiplex Goldstripe
50mm 50mm tube 50mm tube 200mm
0.6 - 0.7m 0.6 - 0.7m 0.6 - 0.7m 1m
0.6 0.6 0.6 3m
Climbers Cm Tj Bg
6 Early Large-Flowered Clematis 6 Sweet Scented Asiatic Jasmine 10 Paperflower
200mm 200mm 200mm
3m 3m 3m
0.3 - 0.3 1m 1m
Foliage deciduous Foliage deciduous Screen
planning Clematis 'Nelly Moser' Trachelospermum jasminoides Bouganvillea glabra
1
EXT
EXT
EXT
EXT
TC1
CO1
GL1
CO2
EXT
EXT
EXT
EXT
EXT
EXT
EXT
TC1
CO3
CL1
SC2
CL2
SC1
C03
37-39 DOCKER ST
33 DOCKER ST
BOUNDARY
31 DOCKER ST
(SUBJECT SITE)
35 DOCKER ST
9,000 4,634
E SID E E LIN OD K SC AC RE ETB S
E SID E E LIN OD K SC AC RE ETB S EXISTING RIDGE - AHD + 10.920 11,980
IDE E S TO OD LINE RTH SC RE BACK G NO RTY E T SE OININ PROP J AD ING C FA
EXISTING RIDGE - AHD + 10.430 EXISTING RIDGE - AHD + 9.550
1
1,477
1,500
2,290
928
NORTH WEST ELEVATION
TP-20 SCALE: 1:100
EXT
EXT
EXT
EXT
EXT
EXT
EXT
CO1
TC1
CL1
TC1
TC1
SC1
CO3
CO2
E SID E E LIN OD K SC AC RE ETB S
PARAPET - AHD + 16.290
BOUNDARY
EXT
GL1
37-39 DOCKER ST (SUBJECT SITE)
PARAPET - AHD + 16
41 DOCKER S
2,940
EXT
CL2
BOUNDARY
EXT
PARAPET - AHD + 13.550
ROOF DECK - AHD +
PINE AVE
LEVEL 1 FFL - AHD + 6.750
LEVEL 1 FFL - AHD +
LINE OF PROPOSED FENCE SHOWN DASHED
3,200
LINE OF PROPOSED FENCE SHOWN DASHED
LEVEL 2 FFL - AHD +
DOCKER ST
3,200
9,240 11,980
LEVEL 2 FFL - AHD + 9.950
9,904
ROW
12,644
3,400
ROOF DECK - AHD + 13.350
2
760
8.88 m2
GND FFL - AHD + 3.550
GND FFL - AHD + 3
NORTH EAST ELEVATION
3
SOUTH
TP-20 SCALE: 1
EXT
EXT
EXT
EXT
EXT
EXT
EXT
EXT
EXT
EXT
EXT
EXT
EXT
C01
CL2
CO2
SC1
CL2
TC1
MD1
SC1
CO3
CL1
TC1
CO2
GL1
CL2
37-39 DOCKER ST
PARAPET - AHD + 16.290
2,940
EXT
BOUNDARY
BOUNDARY
TP-20 SCALE: 1:100
(SUBJECT SITE)
PARAPET - AHD + 13.350
42.99 m2
TOTAL SPOS AREA: 40.38 m2 SPOS AREA SCREENED: 12.08 m2
12.93 m2
45 ͦ
REV 1 2
NOTE: REFER TO DETAIL 4/TP22 FOR SCREEN DETAIL
9M , OB S BY CURE BO D AN UNDA TO 17 DS 0 CR RY FE 0mm EEN NC ING E
SC OB
TOTAL SPOS AREA: 22.33 m2
SPOS
SPOS
E UR
Y DB
OB
U SC
UN BO
RE
DB
SC OB
DA
YP
RY
3,400
OB SC VIE URE W D
CE FE N
GO ER
ED UR
45 ͦ
1,700
OB BY SCU B RE AN OUN D T D S DA O 1 CR RY 700 EE FE mm NIN NC G E
PROJECT:
NEW DEVELOPMENT
45 ͦ
9M
9M BY
80X8mm HORIZONTAL LOUVRE WITH 32mm GAPS TO CONTROL VIEW DIRECTION AS SHOWN
45 ͦ
FOR SCREEN DETAIL
45 ͦ
A m 0m OL 170 ERG TO E, P C G ED UR FEN NIN SC ARY REE B C O ND DS U BO AN
O BO BSCU UN DA RED AN RY F TO 17 D S EN CR CE, 00mm EE NIN PERG OL G
NOTE A, REDUCE FRONT FENCE HEIGHT TO 1.5M, INCREASE NORTHEAST ROOF SETBACK 0.5M, AMEND SOUTH EAST BALCONY SCREENING TO PREVENT OVERLOOKING - AS PER CONDITION 1H, 1J, & 1K AS CLOUDED WINDOW POSITIONS TO SUIT LAYOUTS, SOUTHWEST SCREENS ADJUSTED TO NEW WINDOW POSITIONS, DELETION OF SOUTHWEST WINDOW TO MASTER BEDROOMS, PERMITER FRAME OF SOUTHEAST BALCONY PRIVCAY SCREENS, LEVEL 3 ROOF DECK PARAPET HEIGHT INCREASED BY NOTE: 140mm, INCLUSION OF GROUND FLOOR FOYER WINDOW TO SOUTH, EXTERNAL FINISHES CHANGES - AS CLOUDED. REFER TO DETAIL 5/TP22
45 ͦ
5 TP22
BY
9M
SUITE 1, LEVEL 1, 67 INKERMAN ST, ST KILDA, VIC 3182 AUSTRALIA P +613 9534 4411 EMAIL info@jostarchitects.com WEB www.jostarchitects.com.au ABN 80617602445
BY DATE PJ 22/11/17 PJ 27/11/17
45 ͦ 5 TP22
9M
9M
TP-20 SCALE: 1:100
45 ͦ
12,740
GND FFL - AHD + 3.550
m 0m 170 E TO ENC ED Y F G UR AR SC ND ENIN OB BOU CRE BY ND S A
VIEW ENABLE D
SOUTH WEST ELEVATION
LEVEL 1 FFL - AHD + 6.750
68.26 m2
NATRUAL GROUND LINE (NGL)
9M
4
(BOU
3,200
mm 00 E 17 C O EN DT YF G RE AR NIN CU UND REE S OB Y BO D SC B AN
A,
ST CKER WALL) 41 DNDOARY GARAGE
SPOS
9M
BY O BO BSC UN UR D E AN ARY D TO D S FE 1 CR NCE 700m EE , P m NIN ER G GO L
3,200
ROW
9,689
DOCKER ST
12,429
E SID E E LIN OD K SC AC RE ETB S LEVEL 2 FFL - AHD + 9.950
S BY
LA
EE CR
NIN
G
TOTAL SPOS AREA: 40.38 m2 SPOS AREA SCREENED: 12.11 m2
1
TP22
PLAN - PRIVACY SCREEN
2
SCALE: 1:50
TP22
363 BARKLY ST (SUBJECT SITE)
PLAN - PRIVACY SCREEN SCALE: 1:50
4
TP22
SECTION - HORIZONTAL SCREEN DETAIL SCALE: 1:10
5
TP22
P
S
2
3
2,162
4
5,570
5
3,205
6
6,298
7
7,561
8
3,460
3,495
BOUNDARY
1
ROOF RIDGE - AHD + 21.603 424
STEEL WIRE MESH AS SCHEDULED TO COMPLY WITH NCC 3.9.2.3 & TO DETAIL 150mm BOX GUTTER ON SUITABLE GUTTER TRAY WITH MIN DEPTH OF 100mm & MIN 1:100 FALL TO SUMPS REFER TO FLOOR PLAN FOR LOCATION
980
1
TYPICALLY PROVIDE ACOUSTIC & THERMAL INSULATION TO FLOORS & CEILINGS TO ACHIEVE R-VALUE AS PER ENERGY RATING REPORT AS REQUIRED
BI-FOLDING DOORS SHOWN OPEN
H
SERVICES DG.12
LIVING
DINING
KITCHEN
DG.09
CORRIDOR
465 ROOF
BEDROOM 1 DG.07
WG.07
333
DG.05
3,848
333
2,430
2,700
2,700
STUDY BINS DG.13
6,525
7,226
TOP OF PARAPET - AHD + 18.600
178
15,008
3,626 VARIES
02 A-401
GARAGE
333
391
ADJOINING PROPERTY
1,933
1,900 1,030
6,003
LEVEL 1 FFL - AHD + 18.300
100mm HIGH BLACK P/COATED CONTINUOUS A/C BAR GRILLE AS PER MECH ENG'S DETAIL / SPEC. BACK OFF & PAINT BLACK TO AREAS NOT USED. REFER RCP FOR LENGTH
14 0 PITCH
2
6,159
20 0PITC
2ND LIVING / STUDY 01 A-401
3,876
3,350
1,250
4,000
SERVER ROOM
3 A-210
DG.11
GRD FFL - AHD + 15.600 UNDERGROUND 5000L WATER TANK AS SPECIFIED. PLUMBED TO LAUNDRY & IRRIGATION
TIMBER STAIR WITH 250mm TREADS & 15 x 180mm HIGH RISERS
1
70mm UNDER SLAB FOAM INSULATION BELOW HABITABLE ROOMS AS PER ENERGY RATING REPORT
CONCRETE SLAB & STRIP FOOTINGS AS PER STRUCT ENG'S DETAILS/SPEC WITH FULLY SEALED PLASTIC WATERPROOF MEMBRANE BETWEEN COMPACTED FILL & INSULATION SHOWN DASHED
SECTION 1 SCALE: 1:50
8
7
6
BOUNDARY
3,495
5
3,460
4
7,561
3
6,298
2
3,205
1
5,570
2,162
1,536
2ND LIVING / STUDY
1,388
WG.09
WG.10
6,003
04 A-401
10 FALL TO GUTTER
BED 2
COURTYARD
LIVING
LAUNDRY WG.02
WG.07 DG.05
LEVEL 1 FFL - AHD + 18.230
GARAGE DG.13
DG.07 DG.09
4,176
ENSUITE
3,080
WIR
DG.12
DG.11
SECTION 2
15
H
PITC
23 0
PITC
1,202
H EAVES GUTTER. REFER ROOF PLAN FOR DOWNPIPE LOCATION
3,387
ABOVE WALL SB-01 WT-15
D
1,538
A
2,270
442
GAS FIREPLACE & FLUE TO COMPLY WITH GAS SAFETY REQUIREMENTS & INSTALLED AS PER AS/NZS5601.1:2013/ AS/NZS5601.2:2013
TYPICALLY PROVIDE ACOUSTIC & THERMAL INSULATION TO FLOORS & CEILINGS TO ACHIEVE R-VALUE AS PER ENERGY RATING REPORT AS REQUIRED
500
1,768
1,948
1,840 VARIES
1,937
521
BOX GUTTER ON SUITABLE GUTTER TRAY WITH MIN DEPTH OF 100mm & MIN 1:100 FALL TO SUMPS REFER TO FLOOR PLAN FOR LOCATION
C
3,387
D
1,538
449
2,270
2 FRAMPTON ST
MC-03 W1.07
E
TYPICALLY PROVIDE ACOUSTIC & THERMAL INSULATION TO FLOORS & CEILINGS TO ACHIEVE R-VALUE AS PER ENERGY RATING REPORT AS REQUIRED
ROOF RIDGE - AHD + 19.935
OPERABLE RETRACTABLE EXTERNAL BLINDS TO TIMBER PERGOLA TO STRUCT ENG'S DETAIL / SPEC
150mm EAVES GUTTER 200 RAKING ROOF
0 14 PITCH
01 A-402
TOP OF PARAPET - AHD + 18.815
B
49 11 ALMA PL
2 FRAMPTON ST
GUTTER - AHD + 20.385
06 A-401
2ND LIVING / STUDY
ROOF RIDGE - AHD + 21.604
334
05 A-401
55
433 2 FRAMPTON ST
C
BOUNDARY
2,270
1,066 ROOF
0
23
1,538
BOUNDARY
3,387
BOUNDARY
11 ALMA PL
B
178
A
BOUNDARY
D
BOUNDARY
C
1,155
B
STEEL WIRE MESH AS SCHEDULED TO COMPLY WITH NCC 3.9.2.3 & TO DETAIL
GRD FFL - AHD + 15.600
SCALE: 1:50
A
BOX GUTTER ON SUITABLE GUTTER TRAY WITH MIN DEPTH OF 100mm (TOWARDS EAST) & MIN 1:100 FALL TO SUMPS REFER TO FLOOR PLAN FOR LOCATION
TYPICALLY PROVIDE MITRED CORNER JOINT TO RECKLI PRECAST PANEL BALUSTRADE
70mm UNDER SLAB FOAM INSULATION BELOW HABITABLE ROOMS AS PER ENERGY RATING REPORT
BOUNDARY
2
CONCRETE SLAB & STRIP FOOTINGS AS PER STRUCT ENG'S DETAILS/SPEC WITH FULLY SEALED PLASTIC WATERPROOF MEMBRANE BETWEEN COMPACTED FILL & INSULATION SHOWN DASHED
2,998
ADJOINING PROPERTY
WG.11
MF-01
W1.03
0 14 PITCH
03 A-401
A-201
F
ROOF RIDGE - AHD + 21.603
H
0 20 PITC
4,176
A-201
DP DP
0 14 PITCH
TIMBER DECKING TO ALLOW WATER DRAINAGE BELOW
RW
02 A-402
TOP OF PARAPET - AHD + 18.780
DG.01
COURTYARD
4,335
ADJOINING PROPERTY
WG.03
WG.08
3,180
LIVING
ADJOINING PROPERTY
ADJOINING PROPERTY
4,020 VARIES
ADJOINING PROPERTY
GRADE SITE TO ALLOW WATER TO DRAIN TO PERIMETER OF BUILDING AS SHOWN
3,215
BINS
GUTTER - AHD + 18.080
2,700
GARAGE DG.10
EXISTING STRIP FOOTING TO BE CUT BACK TO FACE OF EXISTING WALL AS PER ENG'S DETAILS
BUILT-IN FIREPLACE TO BE INSTALLED AS PER MANUFACTURER'S SPECS/DETAILS.
LEVEL 1 FFL - AHD + 18.300
4,938
HIT AND MISS BRICK WALL
2,400
ALL DOWNPIPES IN THE GARAGE TO DISCHARGE INTO WATER TANK
LEVEL 1 FFL - AHD + 18.300
ADJOINING PROPERTY
TYPICALLY PROVIDE ACOUSTIC & THERMAL INSULATION TO FLOORS & CEILINGS TO ACHIEVE R-VALUE AS PER ENERGY RATING REPORT AS REQUIRED
300
ADJOINING PROPERTY
6,004
EXISTING DOUBLE BRICK WALL
KITCHEN DG.02
WG.06
01 A-411
NGL
GRD FFL - AHD + 15.600
GRD FFL - AHD + 15.600
GRD FFL - AHD + 15.600
16/10/2018 A-201
DATE: DWG:
JOB #: REV:
1607 -
4
5
6
7
8
ELECT MAIN & PANELS
FL-01 AC
WT-02
4 A-302
WT-02 50
50
900
50
WT-09A
200
TOP OF WALL AHD- +4.450 50
50
2,000 8 X TREADS @ 250mm 56
1,607
1,636
CF-01 CF-02 CF-03 CF-04 CF-05
190
2,385
200
50 50
900
1,100 LANDING
A
165
A
A
6
4
STAIR/CORE PLAN - GROUND
A-300
1,380
6
200
5
3 A-300
3 A-300
2
92
1,100 LANDING
3
SCALE: 1:50
5
6
STAIR/CORE PLAN - LEVEL 1
A-300
SCALE: 1:50
SF-01
PLASTERBOARD WITH PAINT FINISH MR PLASTERBOARD WITH PAINT FINISH CONCRETE SOFFIT - CLASS 02 CONCRETE SOFFIT - BASEMENT INSULATION SOFFIT TO UNDERSIDE OF CONCRETE SLAB TO BASEMENT VJ LINING SOFFIT WITH PAINT FINISH
CP-01 TM-01 TZ-01 TZ-02
CARPET ENGINEERED TIMBER BOARD TERRAZZO TILE TERRAZZO SLAB
PA-01 PC-01 PC-02 RN-01 TV-01 MT-01 MT-02 LM-01 LM-02 SS-01
PAINT FINISH 1 POWDERCOAT 1 - WHITE POWDERCOAT 2 - GREY TEXTURED PAINT FINISH TIMBER VENEER METAL FINISH 1 - AGED IRON METAL FINISH 2 - SATIN CHROME LAMINATE - WHITE LAMINATE - MATTE BLACK STAINLESS STEEL
GL-01 GL-02 GL-03
GLASS TEXTURED SHOWER SCREEN GLASS MIRROR GLASS CLEAR
8
13
TZ-01
4,330
90
1,100
B
WT-44
14
12
WT-43
WT-40
ROOF VOID
2 A-302
9
2 A-302
4,245
7
DP B
W2.01
85
38°18'
W1.05
WT-14 W1.03
2,000 8 X TREADS @250mm
BELOW
BELOW
200
90
VOID OVER LIFT
BELOW
1,235 LANDING
6
WT-40
5
16 15
BEDROOM 2 165
4
265
3
TSGI
WT-03A
17
WT-43
11 10
2
2,117
C 300 300 TGSI
WT-41
90
795 12
TZ-01 WT-12 1
SFL +13.285
BELOW
11 A-410
2,086
13
WT-01A
WT-21
14
WT-01A
ROBE TYPE 02
5,271
WT-01A
TZ-01
3,377 WT-03A
WT-41 FFL +13.305
TZ-01 WT-43A
18
16 15
LIFT
20.877m
850 265
W3.04
WT-40
90 90
B
A10 R.6.D01
C07 R.C.D01
32
300 300 TGSI
ROBE TYPE 03
WT-40
WT-22
TSGI
B
B
WHITE PEBBLE BALLAST ROOF
SFL +6.310
W2.21
285 TGSI 715
165
1,290
315
2,000 8 X TREADS @250mm
165
1,985 LIFT SHAFT
721
1,100 LANDING 165
30 135
1,100
5,023
04 STAIR/CORE PLAN - LEVEL 2 A-300
FE
A10 R.5.D01
C
WT-40
1,750 7 X TREADS @250mm
92
C
FX40
TSGI
WT-02A 17
3,151
TYPE 03 FX20
1,626
F A-304
889
BATHROOM WT-21
WM
C06 2.C.D01
FFL +9.950 SFL +9.930
BEDROOM 2
WT-22A
C07 2.C.D03
TZ-01
COMMS
FX40
WT-23A
C06 2.C.D02
2,000 LIFT SHAFT
WT-21
92
92 2,149
1,933
FX20
1 A-210
D
WT-42
85
A01 2.6.D01
D
FX24
WT-22A
WT-31
TYPE 01
6
2,652
WT-42
FE
D
1:100 FALL
759
A01 2.5.D01
77
TYPE 01
WT-24
WT-25
FX26
C
HW13
340
ENTRY
90
HW13 1:100 FALL
BATHROOM
48
90
03 A-410
HW07 FX26
415
1,076
HW13
HW07
ENTRY
01 A-410
1,092
HW07
WT-23
WT-23
D
WT-22
FX15 FX16 FX22
5
648
153
02 A-410
WT-25
2,062
WT-42
92
448 48 263
406
W3.01
90
1,076
697
77 183
77
4,245
4
105 2,008
1 A-302
6
WT-40
5
3 A-300
3 A-300
1 A-302
RW
4 153
B FX20 FX21
PACK OUT WALL TO LINE OF WT-11 AS SHOWN 04 A-411
WT-03A
92
2,000 8 X TREADS @250mm
WT-03A
472
4
1 A-302
200
315
1 A-302
A
285 TGSI
GP WT-11
INTERIOR FINISHES LEGEND
50
TOP OF WALL AHD- +4.450 1,005
C
REFER SCHEDULE 1606 __ DOCKER ST SCHEDULES FOR SPEC & DETAIL
FW
RAIN GARDEN DP
1,000
5,271 500
6.650
AC
4 A-302
WG.22
WT-12
MC-02 MC-03 MF-01 RE-01 RF-01 RF-02 SB-01 SC-01 SC-02 SC-03 SC-04 SF-01 SF-02 TL-01 TL-02 TB-01 PE-01 PR-01 PR-02 VT-01
B W1.21
WT-03A
SIGN TYPE 33
2 A-302
9
AC
05 STAIR/CORE PLAN - ROOF DECK
SCALE: 1:50
A-300
SCALE: 1:50
A REV B3 A
BY DATE NOTE CG 28/06/18 WALLS AMENDED AS CLOUDED AF 20/08/18 LIFT CONTROLLER BOX INCLUDED & LIFT SHAFT TO APARTMENT WALL AMENDED AS CLOUDED & ISSUED FOR CONSTRUCTION AF 15/10/18 REPLACE PRECAST CONCRETE PANELS WITH RITEK WALL SYSTEM & CHANGED ASSOCIATED DIMENSIONS AS CLOUDED
B
SUITE 1, LEVEL 1, 67 INKERMAN ST, ST KILDA, VIC 3182 AUSTRALIA P +613 9534 4411 EMAIL info@jostarchitects.com WEB www.jostarchitects.com.au ABN 80617602445
SFL +6.730
W1.04
3
WT-02
2
PLANTER
AC
LOBBY
C03 G.C.D07
1
W1.22
HWU FW
3,792
TSGI
WT-12
C06 W1.22
B W1.01
265
FFL +3.550 SFL +3.450
1,076
1,626
WT-21
550 50
200
300 300
165
TSGI
B WG.21
1,100
2 A-302
9
DP
WT-13
8
FFL +6.750
BBQ
200
7
WT-12
TEXTURED BLOCKWORK RENDERED BLOCKWORK CONCRETE FLOOR WITH SEALER PERMEABLE CONCRETE FLOOR HORIZONTAL CLADDING 1 HORIZONTAL CLADDING 2 PRECAST CONC FINISH 1 - RECKLI APPLIED CONC FINISH 2 - NATURAL APPLIED CONC FINISH 3 - CHARCOAL INSITU CONCRETE WITH CLASS 2 FINISH METAL PANEL CLADDING - BLACK METAL CLADDING FOR COLUMN METAL FINISH 1 RENDER TO BLOCKWORK ROOF SHEETING ROOF SCREED ALUMINIUM SCREEN - BALUSTRADE ALUMINIUM SCREEN 1 - HORIZONTAL ALUMINIUM SCREEN 2 - VERTICAL ALUMINIUM SCREEN 3 - FENCE ALUMINIUM SCREEN 4 - ANGLED VJ LINING SOFFIT WITH PAINT FINISH EXPOSED CONCRETE SOFFIT EXTERNAL TILE HONED FINISH - LIGHT EXTERNAL TILE HONED FINISH - DARK TIMBER BENCH PERGOLA SCREEN PRIVACY GLAZING - VIEW CONTROL 1 PRIVACY GLAZING - VIEW CONTROL 2 VERTICAL TRELLIS - WOVEN STAINLESS STEEL WIRE SYSTEM
2,000 LIFT
6
1,235 LANDING
1,235 LANDING
5
EXTERNAL FINISHES LEGEND BL-01 BL-02 FL-01 FL-02 CL-01 CL-02 CO-01 CO-02 CO-03 IC-01
BEDROOM 2
RT
165
4
D
1,100
WT-01A
12
10
265
3
FFL +6.750 SFL +6.650
AIR-CONDITIONER CONDENSER ADJUSTABLE SHELF ABOVE FINISHED FLOOR LEVEL ACCESS PANEL ACCESS LADDER CUPBOARD COMPRESSED FIBRE CEMENT COLUMN DRAWER DISHWASHER DOWNPIPE FRIDGE / FREEZER FINISHED CEILING LEVEL FIRE EXTINGUISHER FIRE HOSE REEL FIXED PANEL FLOOR WASTE GAS POINT GLASS WOOL INSULATION HANGING RAIL ALUMINIUM LOUVRE MOISTURE RESISTANT OVERFLOW POPPER TO DETAIL PRECAST PANEL JOINT PLANTER BOX OUTLET PHOTOVOLTAIC PANELS DOWNPIPE TO RAINWATER TANK RAIN WATER OUTLET RAINWATER HOSE BIBCOCK STRUCTURAL FLOOR LEVEL TACTILE GROUND SURFACE INDICATORS TELEVISION
875
1 A-302
1,092
WT-22
92
WT-01A
5,464
1,750 7 X TREADS @ 250mm
2,149
1,933 92
430 300 300 TSGI 1000 4 X TR. @ 250mm
13
11
TV 2,000 LIFT SHAFT
1,076
92
WT-21
92
1:200 FALL TO WASTE 200
14
C04 G.C.D09
WT-22
92 1,366
SCALE: 1:50
2
TZ-01
THRESHOLD TRENCH GRATE
2,978
A-303 03
STAIR/CORE PLAN - BASEMENT
REFER A-310 FOR ENTRY PATH LAYOUT
1
4 A-302
LIFT
WT-01A
H A-304
165 1 300 300
DP
C05 G.C.D10
WT-07
FIP
TL-01
A-300
WT-21
TSGI
D11 A-304
WG.01
170
8:1
TZ-01
15
190
B
30
30
ROBE TYPE 03
2,088
50
50
8:1
C
200
900 1,100
ROBE TYPE 01
TYPE 03 FX20
FX40
TSGI
TZ-01 1,185
2 A-302
B
200 50
1,626
1,933 3,066
50 50 900
2 A-302
12
50
BEDROOM 2
FX25
BATHROOM F A-304
16
FFL +6.750 SFL +6.730
BEDROOM 2
FX16 FX11 FX41
FX24
WT-22A
TZ-01
17
265
11
D
WT-02A
WT-02
10
3,439
1,300 LANDING
FL-01 9
2,315
10
HW07 FX26
C07 1.C.D03 E A-304
C06 1.C.D01
G A-304
180
8
92
200
WT-02
WT-01
7
50
6
2,250 9 X TREADS @ 250mm
14
AC ADJ AFFL AP AL C CFC COL D DW DP F FCL FE FHR FP FW GP GW HR LV MR OF PJ PO PV RW RWO RT SFL TGSI
135
A01 1.4.D01
WT-22
2,978
65
FL-01
15
2,778
50
TSGI
17 16
WT-01A
FX40
WT-23A
C06 1.C.D02
WT-31
FX20
200
50
1,320
900 1,100
50
5
265
4
WT-02 50
C
BATHROOM TYPE 01
TZ-01
28°
50 200
LIFT
A C A-304 A-304
ROBE TYPE 01
WT-02
3
3,170
1,000 4 X TR. @ 250mm
WT-01
165 1,165
133 1,165
200
587
200
668
FL-01
WT -02
FFL +3.550 SFL +3.530
BEDROOM 2
30
TYPE 03
FE
WT-22A
WT-25
FX26
C
ROBE TYPE 03
WT-22
FX23 FX23
TYPE 02 FX08 FX20 FX37
FX40
C08 G.C.D14
WT-02A
TZ-01
__SOLI D FILL
WT-24
B
BATHROOM
TZ-01
A01 1.3.D01
200
920
760 1,735
WT-02
200
165
2,000 LIFT SHAFT
250
2,162
13
WT-22A C07 G.C.D13
B A-304 D A-304
C06 G.C.D11
2,000 LIFT SHAF
405
165
405 1,660
1,082
LIFT
WT-01
WT-23A
C06 G.C.D12
1,100 ENTRY
WT-23
HW07
FX24
FX18 FX17 FX19
FX24
WT-22A
WT-31
TYPE 01 FX20
HW07 FX26
TSGI
TYPE 02
165
2 A-210
LEGEND - GENERAL ABBREVIATIONS 6 135
1,985 LIFT SHAFT
1 A-200
WT-02
C12 B.C.D04
1
870
WT-24
WT-25
BATHROOM
2
B
HW13
FX26
C FX08
FX40
FL-01
BUILDER TO CONFIRM DOOR HANDLE DOES NOT CLASH WITH HANDRAIL
HW07
FX39 FX11 FX20 FX16
FX37 FX37 FX06
165
D
HW07
COMMS
FX24
B TYPE 01
C
1,290 ENTRY
165
1,092
807
LAUNDRY
170
FX20 FX21 FX15 FX16 FX22
FX16 FX11 FX41
FX25
WT-02
30
LIFT CAR SIZE MIN 1.4x1.6m TO COMPLY WITH AS1735.12 AS PER LIFT SPECIFICATION
WT-02 FFL +0.330
WT-01A
1,100
A01 G.2.D01
WT-01A
165
FE
WT-22
1,985 LIFT SHAFT
WM
165
C11 B.C.D03
COMMS
1,100
WT-01
WT-21
200
D
ENTRY
A01 G.1.D01
92
870
C
715
HW07 FX26
ENTRY
5 5,450
165
02 A-410
WT-23 01 A-410
HW13
WT-22
HW07
1,300
WT-21
2,135
1,100
WM
165
TYPE 01 1,480
4 165
165
1,985 LIFT
3,174
D
FX18 FX17 FX19
165
3,066
D 5,785 870
B
6
4,731 1,290
WT-21
FX20 FX21 FX15 FX16 FX22
FX25
D
5
92 165
1,076
597 715
1 A-302
4 165
1,092
6
3 A-300
5
3 A-300
3 A-300
1 A-302
RW
4
BALCONY
WT-11
SECTIONS
W1.06
SCALE @ A1: AS SHOWN DRAWN: AF TITLE:
ADDRESS: 13 ALMA PL. ST KILDA 3182
WT-10
PROJECT: 1607 ALM BP
CLIENT: J & K SMITH
3,975
NOTE
SUITE 1, LEVEL 1, 67 INKERMAN ST, ST KILDA, VIC 3182 AUSTRALIA P +613 9534 4411 EMAIL info@jostarchitects.com WEB www.jostarchitects.com.au ABN 57875795668
8,207
SCALE: 1:50
5,782
STUMP TO STRUCTURAL ENG'S DETAIL / SPEC AGI DRAIN TO CIVIL ENG'S DETAIL / SPEC
SECTION 5
A-201
2,050
5
SCALE: 1:50
178
BY DATE
SECTION 4
4,937
REV
4 A-201
4,490
SCALE: 1:50
DOCKER ST
CONCRETE SLAB & STRIP FOOTINGS AS PER STRUCT ENG'S DETAILS/SPEC WITH FULLY SEALED PLASTIC WATERPROOF MEMBRANE BETWEEN COMPACTED FILL & SLAB SHOWN DASHED
SECTION 3
5,357
TL-01 3 A-201
PROJECT: NEW DEVELOPMENT
FOR CONSTRUCTION
SCALE @ A1: AS SHOWN DRAWN: TITLE:
CLIENT: ELWOOD DOCKER ST PTY LTD
STAIR/CORE - PLANS
N
ADDRESS: 37-39 DOCKER ST, ELWOOD VIC 3184
15/10/2018 JOB #:
DATE:
A-300
DWG:
REV:
WT-03A
CG
1606
B
4,420 260
260
260
260
260
260
260
260
260
260
260
260
260
260
260
DG.02
6/A-400
260
6/A-400
260
DG.10
50
D1.09
535
110 250
250
16
250
250
250
1,750
4
14
1
D2.05
250
250
250
STAIR 1 PLAN - GROUND
640
2
13 6 250
250
250
1
1,000
5,494
15
5
A-400 SCALE: 1:20
4,997
3
1,750
7
1,800
250
6
250
5
178
250
250
110 250
4
3 A-210
1,000
2
800
3
250
17
50
2
50
18
1
250
50
1
DG.03
50
900
250
SCALE: 1:100
1,860
50 1,050
50
D1.08
3/A-400
A-101
350
900
1,000
50
1,250
1,000
01 PLAN - LEVEL 1 PROPOSED 3/A-400
12
260
260
260
260
260
260
260
260
260
260
260
260
260
200
1
250
250
1,955
260
50
260
200
260
250
7 2,387 260
11
2
6,159
50
8 OPENING IN STAIR WALL TO PROVIDE ACCESS TO UNDER STAIR STORAGE
7 A-400
6,525
3/A-400
1,000
1,000
900
1,000
50
50
1,000
110
D1.01
333
3/A-400
9
1,250
1,050
10
1,000
250
900
1,000
50
7
8
9
10
11
12
13
14
15
16
17
18
250
50
900
250
1,000
6/A-400
6
6/A-400
5
50
4
333
50
3
333
50
50
1,000
2
D1.02
4
STAIR 2 PLAN - LEVEL 1
5
A-400 SCALE: 1:20
2
7,226 3,848
178
15,008
3,876
3,350
1,250
4,000
STAIR 2 PLAN - LEVEL 2
3 A-210
A-400 SCALE: 1:20
STAIR 1 PLAN - LEVEL 1
A-400 SCALE: 1:20
STAIR 2 110 370
1,955
10mm PLASTERBOARD EACH SIDE OF 90mm TIMBER STUD FRAMED WALL
CIRCULAR TIMBER HANDRAIL WITH PAINTED BLACK STEEL BRACKETS MIN 865mm ABOVE NOSING AS SHOWN
TOP OF WALL - RL + 25.060
STUDY
DRESSED 19mm KDHW TIMBER SKIRTING 90mm HIGH
STAIR TREADS, RISERS & LANDINGS TO BE CLAD IN SELECTED TIMBER FLOORING AS SCHEDULED
865 NOSING TO TOP OF RAIL
1,140
1,140
BLACK POWDER COATED ALUMINIUM STAIR SKIRT 90mm ABOVE NOSING LINE SHOWN DASHED BEYOND)
STAIR 1 RECESSED STEP LIGHTS CENTRED OVER STAIR TREADS 300mm TO UNDERSIDE OF FITTING AS SHOWN
LEVEL 2 FFL - RL + 27.340
18
17
STAIR TREADS, RISERS & LANDINGS TO BE CLAD IN SELECTED TIMBER FLOORING AS SCHEDULED
F BLACK POWDER COATED ALUMINIUM STAIR SKIRT 90mm HIGH AT WALL JUNCTION. REFER SECTION
17
7
PLAN DETAIL - STAIR SKIRT JUNCTION
A-400 SCALE: 1:5 16
16 2,160
300
15
14
LEVEL 2 FCL - RL + 26.520 GRD FCL - RL - 23.100
13
2,998
15
14
1,528
TIMBER STAIR WITH 280mm TREADS (INCLUDES 20mm OVERHANG) & MAX 190mm RISERS (TREADS TO HAVE A NON SLIP SURFACE TO COMPLY WITH BCA PART 3.9.1.3)
GRD FCL - RL - 23.420
LEVEL 1 FFL - RL + 23.920
18
CIRCULAR TIMBER HANDRAIL WITH PAINTED BLACK STEEL BRACKETS MIN 865mm ABOVE NOSING AS SHOWN
90
LEVEL 1 FFL - RL + 23.920
TIMBER STAIR WITH 270mm TREADS & MAX 190mm RISERS (TREADS TO HAVE A NON SLIP SURFACE TO COMPLY WITH BCA PART 3.9.1.3)
13
12
12
BLACK POWDER COATED ALUMINIUM STAIR SKIRT 90mm ABOVE NOSING LINE. REFER SECTION
10 SELECTED TIMBER FLOORING LAID ON MDF BASE
9
9
UNDER STAIR STORE
TF 865 NOSING TO TOP OF RAIL
8
KITCH
HALLWAY
MC-03
OP 1
1
GRD FFL - RL - 20.500
EN
8
A-400 SCALE: 1:5
LEVEL 1 FFL - RL + 23.920
RECESSED STEP LIGHTS CENTRED OVER STAIR TREADS 300mm TO UNDERSIDE OF FITTING AS SHOWN
STAIR 1 - SECTION 1
6
E
OPENING IN STAIR WALL TO PROVIDE ACCESS TO UNDER STAIR STORAGE
DP
STAIR 2 - SECTION 1
A-400 SCALE: 1:20
NOTE
DP LEGEND
NOTES:
1
2
A2
5,300
9,350
4
3,450
TOWER
DATE: DWG:
24/11/16
A-400
JOB #: REV:
CG
1501
-
TILED FLOOR FINISH
LEVEL
UNIT - LOT NUMBER
2 13 01
3
A3
3,700
DETAILS
CARPET FLOOR FINISH
UNIT
5,300
COPYRIGHT
RW
ML Design Property Group Pty. Ltd. (ABN:93 602 370 810) All rights reserved. This work is covered by copyright and cannot be reproduced or copied in any form or by any means (graphic, electronic or mechanical photocopying) without the written permission of the copyright holder. Any licence, expressed or implied, to tuse this document for any purpose whatsoever is restricted to the terms of the written agreement between ML Design Property Group Pty. Ltd. and the instructing party.
A4
GENERAL NOTES 1. Confirm all dimensions and levels on site before commencing work. 2. Figured dimensions shall take precedence over scaled dimensions. 3. DWGs, IFCs and other editable documents are provided for convenience only. The printed, controlled documents take precedence in all instances.
14,600
TL-01
AMENDMENTS
3 4 7 8
6 9 10 11 12
EXTENT OF FEATURE WALL PAINT DASHED
5 13 14
1
15 16
10,350
22704 TYPE C1 UNIT 4 A: 104.5 m2
2 50-33
SIMILAR TO
W02 C1
W02 B3.1
W02
DP
TILE SETOUT POINT
A1.2 DP TILE SETOUT POINT
BO BALCONY A: 9.7 m2
GARDEN BED
W03 A1.2
W03 A1.1B
W04 A1.2
D04 L27
D02 C2
D01 A1.1A
D07 C2
W06 C2
TILE SETOUT POINT
TILE SETOUT POINT
BO
BALCONY A: 5.4 m2
BALCONY A: 9.3 m2
BALCONY A: 10.2 m2
W04 A1.1B
W03 A1.1A
BO
W02 A1.1A
BALCONY A: 5.3 m2 BO
W01 A1.1A
W02 A1.1A
BALCONY A: 5.3 m2 BO
AB
TILE SETOUT POINT
W03 A1.1A
W02 C2
W04 A1.1A
1
2
1
50-24
50-24
50-25
W01 C2
BO
2
2
1
2
50-34
50-34
50-23
50-25
GA PLANS LEVEL 27 - FLOOR PLAN (TYPICAL L27-29)
SIMILAR TO
1
A1
2
A2
A3
30-02
3
4
DRAWN
CHECKED
SW
MR/SC
SCALE
REVISION DATE
1:100 @ A1
3
30-02
1
5,357
DRAWING TITLE
2
10/01/2017 #Last saved by, ##/##/#### BIM Server: BN1MLDBIM01 - BIM Server 18/HUTC0007/HUTC0007_Layout_WD
IVY & EVE APARTMENTS 22-28 MERIVALE STREET , SOUTH BRISBANE, QLD, AUSTRALIA FOR HUTCHINSON BUILDERS TMDL PROPERTY GROUP
B
BALCONY A: 7.6 m2
GARDEN BED
2 50-34
30-02
Published: Last Save: File Path:
WT-11
38°18' 20.877m
850
Telephone +61 732 216 188 Facsimile +61 732 296 863 bris@mldesign.com.au www.mldesign.com.au PROJECT
W03 C2
TILE SETOUT POINT DP
SIMILAR TO
GSPublisherEngine 944.2.2.100
5,782
ML Design112 Bowen Street, Spring Hill Qld. 4000, Australia G.P.O. Box 714, Spring Hill Qld. 4001, Australia W04 C2
12706 TYPE C2 UNIT 6 A: 119.5 m2
D04 A1.1A
W04 A1.1A
GARDEN BED 1 50-35
PACK OUT WALL TO LINE OF WT-11 AS SHOWN
W05 C2
12707 TYPE A1.1A UNIT 7 A: 50.2 m2
A1.1A W01
GP
LEVEL MARKER TILE SETOUT POINT LOCATION MARKER
SIMILAR TO
D06 C2
SFL +9.930
DP
WT-11
D03 A1.1A
12708 TYPE A1.1A UNIT 8 A: 50.2 m2
W01 B2.1
W05 B2.1
TILE SETOUT POINT
DP
12709 TYPE B2.1 UNIT 9 A: 74.9 m2
DP
LOUVRE MARKER
50-26
D02 A1.1A
D04 A1.1A
DP TILE SETOUT POINT
WINDOW MARKER
00F L01
1 D05 C2
D01 A1.1A
D02 A1.1A D03 A1.1A
1
00F W01
FSL 0.000
W07 C2
D04 C2
D01 B1
DP
W01 B3.1
W02 A1.1B
DP TILE SETOUT POINT BO
BO BALCONY A: 5.4 m2
COMMS
D03 L27
B2.1 D06
50-26
1 30-01
B2.1 D05
SIMILAR TO
22701 TYPE B3.1 UNIT 1 A: 70.3 m2
D04 A1.1B
SIMILAR TO
W08 BO C2
DP
W01 A1.1B D05 A1.2
ELECTRICAL
W02 B2.1
W03 B3.1
22702 TYPE A1.1B UNIT 2 A: 50.0 m2
W01 A1.2
W01 C1
DP
AB
D07 B3.1
1
DOOR MARKER
TILE SETOUT POINT
D08 L27
B2.1 D02
W03 B2.1
SIMILAR TO
D03 A1.1B
HYD. METERS (800 x 600)
D01 B2.1
D02 A1.1B
DP
DP
CW (600 x 600)
DETAIL MARKER
00F D01
FFL +9.950
BBQ
50-21
W09 C2
D03 C2
C FE
B2.1 D03
D05 B3.1
50-26 D02 A1.2
LIFT 6
C
SECTION MARKER
1 43-01
B BALCONY A: 7.7 m2
D02 L27
REFUSE
B2.1 D04
D04 B3.1
D06 B3.1
D01 A1.1B
DP
D02 B3.1
W04 B3.1 D03 A1.2 D04 A1.2
22703 TYPE A1.2 UNIT 3 A: 50.2 m2
1
16
CW (600 x 600)
1 20-01
W02 BO A2.2
BALCONY A: 7.7 m2
RT
WT-13
2
DP HYD. METERS (800 x 600)
D01 B3.1
TILE SETOUT POINT
W01 A2.2
EXTENT OF FEATURE WALL PAINT DASHED
1
9
D09 L27
FE
CPT/CA04
5 4 3 2
L27
D10 L27
D01 A1.2
DP
8
ELECTRICAL
D11 L27
D1 C1
D04 A2.2
6 52-01
LEVEL 27 - 29 LIFT LOBBY
LIFT 5
FIRE STAIR 04 FH D01 W05 B3.1
DXX L27
D02 C1
D07 C1
7
COMMS
W04 C1
6
1
W04 B2.1
W06 B3.1 D03 B3.1
FH
D08 L27
12705 TYPE A2.2 UNIT 5 A: 50.8 m2
DP
9 8 7 6
FIRE STAIR 02
A
D02 A2.2
14 13
5
1
50-26
W03 C1
4
5 4 3 2
LIFT 3
D06 C1
W03 A2.2
D
200
D03 A2.2
12 11 10
DP
D01 A2.1
FE
LIFT 4
16 15
3
C1
W04 B2.2
2
D04 C1 D03
W05 C1
DP
SIMILAR TO
9 8 7 6
D02 B1
D01 B1
FIRE/HYDRANT WATER METER
D07 L27
FH
FIRE STAIR 03
50-26 W06 B3.2
14 13 12 11 10
15
BALCONY A: 3.6 m2 BO BO
DP
1
B3.2 D03
16 15
14
LIFT 2
13
LEVEL 27 - 29 LIFT LOBBY CPT/CA04
3,700
D01 A1.1A
D05 L27
DP
2.2 m2
12
D05 C1 W06 C1
DP
2 50-20
SIMILAR TO
D06 L27
GAS
SUBSUBDUCT DUCT
LOBBY LOBBY RELIEF RELIEF
11
BO BALCONY A: 6.8 m2
TILE SETOUT POINT
C
D01 A1.1A D01 B2.2
D03 B2.2 D04 B2.2
FH
FIRE STAIR 01
LIFT 1
DP
BO
1 50-34
1
D02 B2.2
W03 B2.2
D02 B3.2
1
D14 L27 D03 B5
TILE SETOUT POINT SIMILAR TO
B
30-01
LOBBY RELIEF
W06 B1
2,000 LIFT
SUB SUBDUCT DUCT
W05 B1
A4
FOR CONSTRUCTION
0
2
PROJECT NORTH
10/01/2017 4
6
DRAWING NO
HUTC0007
A-WD-10-33
1 A-210
WT-14 W2.03
TRUE NORTH
FILE - PROJECT
1,100 165
GAS
W05 B3.2 D05 B5
3,700
DP
1 SIMILAR TO
D04 B1
D02 A1.1A D03 B1
D05 B3.2
D01 B3.2
D13 L27
FIRE/HYDRANT WATER METER
W04 B1
DP D03 A1.1A D02 A1.1A
10
A
12704 TYPE B1 UNIT 4 A: 67.7 m2
12703 TYPE A1.1A UNIT 3 A: 50.2 m2
50-26
W04 B3.2
D04 B3.2 FE
W01 A1.1A
D03 A1.1A D06 B2.2
BASEMENT COLUMN NUMBER BALCONY OUTLET BOLLARD CARPARK CONTROL JOINT CLEANERS SINK DOWNPIPE DOWNPIPE WITH SPITTER FIRE CONTROL ROOM FIRE HYDRANT FIRE HOSE REEL FINISHED FLOOR LEVEL FINISHED SLAB LEVEL FIRE SPRINKLER TANK FLOOR WASTE FASCIA GUTTER GENERAL OUTLET HANDRAIL MOTORBIKE CARPARK OVERFLOW OUTLET PODIUM COLUMN NUMBER PLANTER DRAIN OUTLET POOL OUTLET ACCESS COMPLIANT CARPARK SMALL CARPARK SPOON DRAIN OUTLET STAIR PRESSURISATION STORMWATER MANAGEMENT WASTE PIPE WHEEL STOP VISITOR CARPARK VISITOR MOTORBIKE CARPARK VENT PIPE VISITOR SMALL CARPARK
265
D12 L27
D02 B5
W01 A1.1A
12702 TYPE A1.1A UNIT 2 A: 50.2 m2 DP
W02 B2.2
FFL +9.950 SFL +9.850
LEGEND: BC## BO BOL CP C.J. CSK DP DP+S FCR FH FHR FFL FSL FSPR FW G GO HR MCP OF PC## PDO PO PWD-CP SCP SDO SP SW WP WS VCP VMCP VP VSCP
D04 A1.1A
1
D06 B3.2
D01 A1.1B
D01 B5 D04 B5
AA
W03 B1
1 A-200
D06 B5
DP
W04 B5
BO
TILE SETOUT POINT DP D05 B1
D05 B2.2
D01 A1.1B
1 50-26
BALCONY A: 7.6 m2 W02 B1
W03 A1.1A
DP TILE SETOUT POINT
D04 A1.1A
50-26
SIMILAR TO W03 B3.2
W03 B5
SIMILAR TO
W02 A1.1A
1,000
W02 B3.2
D02 A1.1B
BO
W02 A1.1A
D06 B1
12701 TYPE B2.2 UNIT 1 A: 75.0 m2
D07 B3.2
D03 A1.1B
BALCONY A: 5.3 m2
BO
625
22708 TYPE B3.2 UNIT 8 A: 70.5 m2
DP
3 52-01
4,225
W01 A1.1B
22707 TYPE A1.1B UNIT 7 A: 50.0 m2 DP DP D03 A1.1B
D02 A1.1B
W03 A1.1A
TILE SETOUT POINT
W01 B2.2
265
10,350
1 52-01
BALCONY A: 5.3 m2
1 52-01
TILE SETOUT POINT
W01 B3.2
85
22706 TYPE A1.1B UNIT 6 A: 50.2 m2
43.23 m2 2 A-210
1
8
10
REV
(G)
4,245
W01 A1.1B
50-33
SIMILAR TO
DP TILE SETOUT POINT
BO
BALCONY A: 10.2 m2 W05 B2.2
TILE SETOUT POINT W02 A1.1B
D04 A1.1B
D04 A1.1B
BALCONY A: 10.0 m2
BO
DP 3 52-01
BALCONY
50-24 W01 B1
2,050
22705 TYPE B5 UNIT 5 A: 81.6 m2
BALCONY A: 5.2 m2 BO
W03 A1.1B
TILE SETOUT POINT
1 50-25 W04 A1.1A
178
W03 A1.1B
DP
2 50-24 W04 A1.1A
4,937
W02 A1.1B
DP
1 50-24
4,490
TILE SETOUT POINT
3 50-35
85
BALCONY A: 5.3BO m2
BO
W01 B5
2 50-35 W04 A1.1B
4,330
BALCONY A: 12.4 m2
AA
MR
SIMILAR TO
SIMILAR TO
1 50-35 W04 A1.1B
BY MR MR MR MR MR MR MR
4,245
1 50-34
DESCRIPTION WIP WIP ISSUE, NOT FOR CONSTRUCTION ISSUED FOR FINAL REVIEW ISSUED FOR FINAL REVIEW ISSUED FOR CONSTRUCTION ISSUED FOR CONSTRUCTION AS10 - ISSUED FOR CONSTRUCTION AS11 - ISSUED FOR CONSTRUCTION ISSUED FOR CONSTRUCTION
8,207
3 30-02
DATE 8/02/2016 24/02/2016 13/04/2016 17/05/2016 2/07/2016 8/09/2016 12/10/2016 26/10/2016 10/01/2017
DOCKER ST
3 50-35
2
2 30-02
SIMILAR TO
SIMILAR TO
W02 B5
1 30-02
REV 01 02 A B C D E F G
W2.05
12,120
21301 TYPE B3.1 UNIT 1 A: 70.4 m2
WT-10
A1
SCALE @ A1: AS SHOWN DRAWN:
NOTE: REFER TO '15' SERIES FLOOR PLANS CLIENT: R & K RAO TITLE: - 'PURCHASER VARIATIONS' ADDRESS: 28 WILLOW GVE, KEW EASTFLOOR 3102 UNIT - LOT NUMBER FOR THE FINISHES FOR ENTRY, UNIT TYPE KITCHEN, LIVING, DINING AND HALL TO UNIT NUMBER ON STOREY EACH PARTICULAR UNIT. AREA
TENDER
1) REFER TO A-WD-11 SERIES DRAWINGS FOR VARIATIONS TO CONCRETE SLAB & WALL SETOUTS 2) REFER TO A-WD-11 SERIES DRAWINGS FOR LOCATIONS OF BALCONY GARDEN BEDS, BALUSTRADE TYPES & SETOUTS 3) REFER TO A-WD-12 SERIES DRAWINGS FOR BLOCKWORK WALL SETOUTS 4) REFER TO A-WD-12 SERIES DRAWINGS FOR S.O.U. BOUNDING PARTITION SETOUTS 5) REFER TO A-WD-73 SERIES DRAWINGS FOR S.O.U. INTERNAL PARTITION SETOUTS 6) REFER TO A-WD-73 SERIES DRAWINGS FOR S.O.U. FLOOR FINISHES & SETOUTS 7) REFER TO A-WD-73 SERIES DRAWINGS FOR S.O.U. KITCHEN DETAILS & SETOUTS 8) REFER TO A-WD-73 SERIES DRAWINGS FOR S.O.U. BATHROOM DETAILS & SETOUTS 9) REFER TO INTERNAL & EXTERNAL FINISHES SCHEDULE FOR MATERIAL/FINISHES CODES DETAILS 10) REFER TO A-WD-74 SERIES DRAWINGS FOR REC. DECK COMMON AREA DETAILS
SUITE 1, LEVEL 1, 67 INKERMAN ST, ST KILDA, VIC 3182 AUSTRALIA P +613 9534 4411 EMAIL info@jostarchitects.com WEB www.jostarchitects.com.au ABN 57875795668
PROJECT: NEW HOUSE
W2.04
BY DATE
WT-02
REV
W2.06
A-400 SCALE: 1:20
W2.07
SECTION - STAIR SKIRT
ROOF OVER
865
NOSING TO HRL
WT-15 TIMBER STAIR CUT STRINGER
3
2
2
3
ABOVE WALL SB-01
7
6
5
4
178
UNDER STAIR STORE
8
300
7
6
5
4
3
TYPICALLY PROVIDE MITRED CORNER JOINT TO RECKLI PRECAST PANEL BALUSTRADE
4,176
11
LANDING FFL - RL + 25.820
10
4,176
10mm PLASTERBOARD
11 BLACK POWDER COATED ALUMINIUM STAIR SKIRT 90mm ABOVE NOSING LINE
3
4
6,710
5
2,840
6
2,775
7
4,739
8
4,625
9
4,170
28,189 901 1,000
750
1,000
1,250
1,200
300
3,159
1,550
895
12,379 - BALC
4,834
1,540
2 A-200
EQ
75
EQ
1,011
1,954
1,841
1,000
4,000
1,250
334 178
2,795
334
1,513
334
1,691
4 A-210
7,134 EQ
300
10
1,691
4,486
EQ
EQ
2,161
100
7,134
2,186
127°23'
EQ
EQ
EQ
EQ
EQ
2,998 178
W1.13
DP
W1.14 DP
WT-11
RW
DP
MC-03
TL-01
09 A-411
WT-26
B
SFL +6.680
SFL +6.680
BALCONY FFL +6.750
RW
UNIT 4
WT-26
WT-26
194.78 m
2 A-210
SFL +6.650
2
144.54 m
RW
218°18'
2
WT-11
UNIT 3
6,149 BALC
FFL +6.750
5,357
DP
FFL +6.750
W1.16
WT-30A
03 A-411
RT
625 342
3 A-200
165
4,225
W1.18
WT-21
WT-21
4,490
PACK OUT WALL TO LINE OF WT-11 AS SHOWN WT-01A
C
WT-11
WT-02A
LIFT
20.877m
GP
D
200
SFL +6.730
WT-02
DP
WT-01
2,000 LIFT
COMMS
W1.17
BBQ
WT-22A
FFL +6.750
WT-13
WT-23A FE
SFL +6.730
WT-10
WM
WT-22A
WT-01A
1 A-210
1,100
WT-01
WT-01A
WT-21
FFL +6.750
1,000
WT-24
RW
E
2,342
W1.12
WT-10A
WT-11
W1.15
850
WT-11
W1.11
DP
DP
PR-02
W1.10
12,322
W1.09
4,176
SB-01 ABOVE WALL WT-15
ROW
W1.08
4,176
PR-01
855
PR-01
F
MF-01 2,993
2,138
47
40.235m
85
85
W1.20
350
W1.21
AHD - +7.580
4,245
WT-14
W1.01
4,245
LANDSCAPE
265
W1.22
HWU W1.02
4,245
WT-12
B
W1.19
WT-02
WT-07
SFL +6.650 AC COND UNITS 1-4
WT-02
VT-01
MF-01
MF-01 3 A-300
WT-02
SC-01 ABOVE WALL 715
165
1,290 165
40.234m
1,985 LIFT
165
1,100
A
4 A-200
1,755 13,464
1,690
1,317
1,690
885
780
165
307°23' 4 A-210
800
2,775
2,095
1,690
1,421
1,690
1,755 14,999
4,355
1,000
5,043
1,691 1,386
3
4
5
6
7
8
9
3
4
5
6
7
8
9
6,710
2,840
2,775
4,739
4,625
4,170
28,189 901 1,000
750
1,000
1,250
1,200
300
895
12,379 - BALC
4,834
1,550
2 A-200
300
1,000
1,954
1,000
1,841 4,000
1,250
10
1,691
4,486
3,159
1,550
10
334 178
2,795
1,513 1,691
334 334
4 A-210
127°23'
F
SB-01 ABOVE WALL WT-15
178 W2.13
W2.15
W2.14
DP
draf t i n g
RW
DP
BALCONY 37.51 m2 FFL +9.950
RW
2 A-210
SFL +9.850
2
163.80 m
RW
218°18'
174.61 m
UNIT 6
WT-11
2
B
DP
SFL +9.880
UNIT 5
MC-03
TL-01
FFL +9.950
SFL +9.880
RT
1,000 625 342 4,225
4,490
200
350
85
85 4,245
1,100
4,245
165
W2.20
4,245
1,985 LIFT
2,000 LIFT 165
WT-14 W2.21
1,290 165
C
1,100
1 A-210
WT-12
165
3 A-200
04 A-300
W2.01
715
WT-13
W2.18
WT-21
WT-01A
PACK OUT WALL TO LINE OF WT-11 AS SHOWN LIFT
D
WT-11
WT-02A
WT-01A
W2.02
GP
265
SFL +9.930
20.877m
WT-01
WT-02
BBQ
WT-22A
FFL +9.950
WT-01A
WT-21
WT-23A FE
SFL +9.930
WT-10
WT-22A
COMMS
WT-01
WM
WT-21
FFL +9.950
W2.17
WT-24
RW
E
2,341
DP
WT-11
5,357
WT-10A
6,149 BALC
W2.12
850
FFL +9.950
W2.11
WT-10A
WT-11
ROW
DP
DP
PR-01
W2.10
12,322
W2.09
W2.16
W2.08
4,176
4,176
2,998
47
40.235m
W2.19
165
B
i nte r i o rs
CONTINUOUS CIRCULAR TIMBER HANDRAIL 865mm FROM TOP OF RAIL TO NOSING AS SHOWN WITH PAINTED BLACK STEEL BRACKETS MECHANICALLY FIXED INTO WALL AS SPECIFIED
3,895
TIMBER STAIR WITH 250mm TREADS & 15x180mm RISERS (TREADS TO HAVE A NON SLIP SURFACE TO COMPLY WITH BCA PART 3.9.1.3)
175
3,670
8
250
250
250
250
250
250
6
9
250
7
10
250
11
250
12
250
13
250
250
250
250
250
250
250
962
50
700
700 50
50
50 250
14
250
A-400 3
250
15
1
250
50
2
250
50
3
250
4 A-400
SERVER ROOM
SERVICES
4
5
6
7
8
9
10
11
12
13
14
15
62
50
50
1,055
1,399 3,500 1,399
3,500
HIT & MISS BRICK WALL AS PER A-402 BRICK SETOUT DETAIL
1
STAIR PLAN - GROUND
A-400
2
SCALE: 1:20
A-400
STAIR PLAN - LEVEL 1 SCALE: 1:20
CL
50mm DIAMETER TIMBER DOWEL HANDRAIL WITH 25X90mm FLAT BAR FRAME AND STEEL WIRE BALUSTRADING. RETURN HANDRAIL 90 DEGREES TO WALL FACE AS SHOWN
EQ
EQ
2nd LIVING/ STUDY
COLOUR OF STAINLESS STEEL BEND TO MATCH COLOUR OF THE WINDOW FRAME
50mmØ TIMBER DOWEL HANDRAIL WITH 25mm FLAT BAR FRAME AND STEEL WIRE BALUSTRADING AS SPECIFIED
STEEL WIRE MESH AS SCHEDULED TO COMPLY WITH NCC 3.9.2.3
CONTINUOUS CIRCULAR TIMBER HANDRAIL 865mm FROM TOP OF RAIL TO NOSING AS SHOWN WITH PAINTED BLACK STEEL BRACKETS MECHANICALLY FIXED INTO WALL AS SPECIFIED
1,000
25x90mm FLAT BAR STEEL BALUSTRADE FRAME
RECESSED STEP LIGHTS CENTRED OVER STAIR TREADS 300mm TO UNDERSIDE OF FITTING AS SHOWN
300
L1 FFL - AHD + 18.300
90
15
TIMBER STAIR WITH 270mm TREADS (INCLUDES 20mm OVERHANG) & MAX 190mm RISERS (TREADS TO HAVE A NON SLIP SURFACE TO COMPLY WITH BCA PART 3.9.1.3)
CL
STAIR TREADS & RISERS TO BE SCHEDULED
14 125
TIMBER STAIR W OVERHANG) & M A NON SLIP SUR 3.9.1.3)
13
300 STAIR TREADS & RISERS TO BE CARPETED AS SCHEDULED
GND FCL - AHD + 18.000
125
12 11
__ POWDER COATED ALUMINIUM STAIR SKIRT 90mm ABOVE NOSING LINE
10 CL
2,700 15 RISERS @ 180mm
9
2,220
8 7 6 5 AC
CL
4 3 2
BINS SERVER ROOM
SERVICES
BINS
1 90
GND FFL - AHD + 15.600
3 A-400
STAIR - SECTION 1 4
SCALE: 1:20
A-400 40x40mm ALUMINIUM ANGLE POWDER-COATED WHITE TO ACT AS WINDOW TRIM
STAIR - SECTION 2 SCALE: 1:20
SERVICES
SERVER ROOM
UNIT FCL 3 UNIT 5
UNIT 6
GL-01 GL-02 GL-03
LIGHT ON
UNIT 2 FOR UNIT 2 & 6 MIRROR LAYOUT 20
LT02 - RECESSED DOWNLIGHT
STEEL FRAME PANEL W/TEXTURED GLASS
GLASS TEXTURED SHO GLASS MIRROR GLASS CLEAR
LT03 - ADJUSTABLE TRACK LIGHTFCL GL02
GL01
PC02
70
UNIT 1
TZ01
LT04 - WALL LIGHT LT05 - PENDANT LIGHT PA01
TZ01
LT07 - LED STRIP LIGHT
PA01
LT08 - INTERNAL/ EXTERNAL WALL LIGHT
FX08
LT10 - EXT SURFACE MOUNTED DOWNLIGHT
EQ
630 AP06
CENTRELINE
125
LIGHT SWITCH TZ02
JOIN LINE
2,550
TZ02
RN01
RN01
TZ01
TZ02
TZ02
WALL MOUNTED A/C UNIT
HTR
EXHAUST RN01 TO OUTSIDE
RN01
NI CH E
AP06 FX05 FX32
1,150
TZ01
AC CONDENSER UNIT
TZ01
PLASTERBOARD CEILING ACCESS PANEL TZ02 (RONDO OR SIMILAR TO APPROVAL)
TZ02
AP04
60
65
PROPRIETRY SHELFPULL DOWN ROOF ACCESS LADDER & HATCH TO COMPLY WITH ALL RELEVANT ROOF ACCESS & OHS CODES & LT07 REQUIREMENTS
GPO RH
SHELF FX17 TZ01 TILE SETOUT
FFL
TZ02
RN01
TYPE 01
B 500
TZ02
JOIN LINE
CL
1,000
RECESSED LED CEILING FAN AS SCHEDULED STRIP LIGHTING
195
A
KITCHEN
RN01
GPO
RANGE HOOD AND SHELF SHOWN DASHED
800
600 TILE SETOUT
TILE SETOUT
JOIN LINE
500
SHOWER SCREEN FFL
800
1,200 DADO
ABOVE FINISHED FLOOR LEVEL FCL LINEAR BAR GRILLE A/C DIFFUSER SUPPLY RN01 / RETURN AIR RN01
FX24
FX27 FX18 FX19
MAINS SWITCHBOARD CORNERS 2MITRED WAY INTERCOM TO STONE SHELF FINISHED CEILING LEVEL
MITRED CORNERS TO RANGE HOOD ENCLOSURE
FCL RN01
FX03 1,600 FX26
FX01
1,600 FX26
TZ02
CL 50
JOIN LINE
JOIN LINE
2,550
535
850
30
40
290
70
CL
RN01
NUMBERS)
RECESSED CEILING EXHAUST FAN
740
EQ
LT13 - EXTERNAL LIGHT (ENTRY BACKLIT
800
EQ
S01 A-590
FX24 FX26
700 FX24
630
S02 A-590
FX26
900 FX24 980
125
LT12 - EXTERNAL WALL LIGHT S03 A-590
FX26
3,400
1,570
C
S03 A-590
NIC HE
S02 A-590
1,280
1,290 CABINET
LT11 - EXT RECESSED WALL / STEP LIGHT S01 A-590
GPO AP01
ELEVATION - ENSUITE TYPE 02 SCALE: 1:20
B
ELEVATION - CUTLERY ENSUITE TYPE 02 FX30
A-531
AP01
SCALE: 1:20
DRAWER
DRAWER
FX30
DRAWER
CT GPO DRAWER
FX31
DRAWER
VENEER GRAIN
TV01
350
FX31 FX34
FX33
FX33
FX33
FX33
FX34
AP04 FX33
FX33
DRAWER
FX33
DRAWER
PA01
30
DRAWER
FX33
DRAWER
FX33
DRAWER
FX33
FX33
FX33
210
TZ02 TZ02
PA01
FFL
755
EQ
EQ
EQ
755
FFL
TILED KICKER TO ALIGN WITH FLOOR SETOUT
20
TYPICAL 20MM RECESSED SHADOWLINE TO WALLS
TZ01
3,400
B 1
PLAN - KITCHEN TYPE 01
A-500
90
718
748
UTENSILS DRAWER
DRAWER
RN01
RN01
950
A A-531
250 50
BENCHTOP
ELEVATION - KITCHEN TYPE 01
A-500
SCALE: 1:20
SCALE: 1:20
20
970
1,965 EQ
35
EQ
EQ
EQ
EQ
CL FCL
20
FCL
20
EQ
CL
ADJ.
RN01
ADJ.
S03 A-590
S02 A-590
S02 A-590
S01 A-590
GL02
PA01 S01 A-590
GL02
GL02
GL02
TZ01
S03 A-590
1,290
FX08 ADJ.
ADJ.
CL
CL
2,550 RN01
FX10
TZ02
TZ02
TZ02
FX41
FX16
TV01
VENEER GRAIN
400
1,200 DADO
TV01
LT04
BASE OF LIGHT
600 FX25 VENEER GRAIN
INNER DRW
210
TZ02 SCALE: 1:20
TZ02
GPO DW DRAWER
DRAWER
DRAWER
VENEER GRAIN
VENEER GRAIN
PA01
PA01
PA01
PA01
TZ02
TZ02
TZ02
PA01
PA01
90
PA01
A-531
900
FX32
ELEVATION - ENSUITE TYPE 02
950
DRW
D
JOIN LINE
1:20INNER
TV01
PA01
FX01
JOIN LINE
250 50 350
A-531
FFL
TZ02
FX03
AP06
ELEVATION - ENSUITEDRAWER TYPE 02 FX05
VENEER GRAIN SCALE:
TZ02
HW03
FX27
C
MITRED CORNERS TO ALL STONE
FX03
TZ02
HW03
TILE SETOUT TZ02
GPO
TZ02
UNIT 4
195
MITRED CORNERS TO ALL STONE
1,650
FX01 *FX01a FOR UNIT 2
FX17
50
TZ02
ENSUITE - TYPE 02 1,650
TV01
FINGER PULL ACCESS
300 JOIN LINE
600 GPO
JOIN LINE
TILE SETOUT
FFL
950
FX18 FX19
TZ02
LT04 FX42
FFL
RN01
RN01
FX11
FX25
900 FX24
TZ01
BASE OF LIGHT
FLANGELESS LINEAR BAR GRILLE. REFER MECH ENG'S PULL DETAIL / SPEC FINGER ACCESS
RN01
150
FX24
RN01
TZ01
GPO
2,000 FX08
RN01
40 RN01
975 FX11
RN01
ADJ.
GPO
350
A
700 FX24
2,550
ADJ.
FCL
900 FX18
FX24
30
714
20
FX33
C
20
A-500
ELEVATION - KITCHEN TYPE 01
DATE: DWG:
18/01/201
A-531
STEEL FRAME PANEL W/TEXTURED GLASS
SCALE: 1:20 FCL
210
190
195
20
ENSUITE TYPE 02
ADDRESS: 37-39 DOCKER ST, ELWOOD VIC 3184
FX01a FX33
A-500 FX06 SCALE:FX07 1:20
SCALE @ A1: AS SHOW TITLE:
CLIENT: ELWOOD DOCKER ST PTY LTD
FX05
FX45
FX37
1,300 ELEVATION20 - KITCHENSHOWER TYPE 01 SCREEN
30
20
FX37
600
PROJECT: NEW DEVELOPMENT
FOR CONSTRUCTION
FX35 FX37
FX37 2,054
A
1,890
GL02
GL01
PC02
70
TZ01
FX20 FX37
600
PROVIDE ELECTRICAL AND WATER CONNECTION
TZ01
TZ02 TZ01
20
FX08
FX20
35
FX43
FOR CONSTRUCT
FX26
225 20
EQ
ROBE TYPE 06
SUITE 1, LEVEL 1, 67 INKERMAN ST, ST KILDA, VIC 3182 AUSTRALIA P +613 9534 4411 EMAIL info@jostarchitects.com WEB www.jostarchitects.com.au ABN 80617602445
HE
TZ01
S18 A-591
1,280
BY DATE NOTE CG 28/06/18 ISSUED FOR BUILDING PERMIT
1,290 CABINET
REV B1
600 NICHE
1,000
FX08
560
TZ02
NIC
EQ
TILE SETOUT
50
B
D
CH NI
FX17 1,080
EQ
RAMP UP CARPET TO THRESHOLD TO ACHIEVE FALL
FX11
1:100 FALL
FX41
SHOWER SCREEN FFL
600 TILE SETOUT
195 TILE SETOUT
EQ
ENSUITE A
TYPE 02
C
A
970
FX42
FX24
ELEVATION - ENSUITE TYPE 02 SCALE: 1:20
B
ELEVA
A-531
SCALE: 1
575
FX24
FX10
A-531 1,030
CL
435
FLOOR WASTE BELOW VANITY ON WALL
20
TZ02
20
CL 20
850
765
400 FX10
20
2,054
1 A-531
PLAN - ENSUITE TYPE 02 SCALE: 1:20 20
FCL
970
20
3,990
FX18 FX19
TZ01
FX16
990
1,150
A
FX25 1,965
1,200 DADO
E
FX43
EQ
EQ
FX26
1,600 FX26
TZ02
AP19
1,600 FX26
CL
TZ01
40
300 FX26 1,069
EQ
FX26 FX18 FX17 FX19
2,550
EQ
2,550
TZ02
S14
RN01
PA01
passivhaus
Passive House Verification
Passive House Verification Building: 13M
Photo or Drawing
Building: TOWNHOUSE
Photo or Drawing
Street: 13 MAY GROVE
Street: 32 TOBRUK CRESCENT Postcode/City: 3016
South Yarra
Postcode/City:
AUSTRALIA
Province/Country: VIC Building type: RESIDENTIAL
Climate data set: AU0001a-Melbourne
Climate zone: 5: Warm
Altitude of location:
Climate zone: 5: Warm
10.3 m
Home owner / Client:
Home owner / Client:
Street:
Street:
Postcode/City:
Street:
Postcode/City:
Postcode/City:
Province/Country:
Province/Country:
Energy consultancy:
Street: Postcode/City:
Province/Country:
Province/Country: 2019
Year of construction: No. of occupants:
Postcode/City: 3141
Heating demand kWh/(m²a) Heating load W/m²
Space cooling
Cooling & dehum. demand kWh/(m²a) Cooling load W/m² Frequency of overheating (> 25 °C) %
Frequency of excessively high humidity (> 12 g/kg) % Airtightness
Primary Energy Renewable (PER)
Interior temp. summer [°C]:
25.0
Year of construction:
2.4
IHG cooling case [W/m²]:
2.9
No. of dwelling units:
Specific capacity [Wh/K per m² TFA]:
20.0 60
Mechanical cooling:
Province/Country:
2019
Interior temp. summer [°C]:
25.0
Internal heat gains (IHG) heating case [W/m ]:
2.7
IHG cooling case [W/m²]:
6.8
Specific capacity [Wh/K per m² TFA]:
Criteria
Alternative criteria
≤
15
-
≤
-
10
60
Mechanical cooling:
2
2 0
≤
-
-
≤
-
-
≤
10
≤
20
yes yes yes
-
-
PER demand kWh/(m²a)
31
≤
30
122
I confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of the building. The PHPP calculations are attached to this verification. Task: First name: Surname:
Cooling & dehum. demand kWh/(m²a) Cooling load W/m² Frequency of overheating (> 25 °C) %
Frequency of excessively high humidity (> 12 g/kg) % Airtightness
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE)
Generation of renewable energy (in relation to pro-jected kWh/(m²a) building footprint area)
81.9
yes
Passive House Premium?
≤
15
-
≤
-
10
8 0
≤
Signature:
-
-
-
-
10
≤
20
yes yes yes
0.6
≤
0.6
152
≤
-
71
≤
60
86
≥
EnerPHit Verification
Building: 118H Street: 118 Hope st
Altitude of location:
Year of construction: No. of dwelling units: No. of occupants:
Postcode/City: 3141
Treated floor area m² Heating demand kWh/(m²a) Heating load W/m² Space cooling
Cooling & dehum. demand kWh/(m²a) Cooling load W/m² Frequency of overheating (> 25 °C) %
Frequency of excessively high humidity (> 12 g/kg) % Airtightness
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE) PHPP, Verification Primary Energy Renewable (PER)
PE demand kWh/(m²a) PER demand kWh/(m²a)
Generation of renewable energy (in relation to pro-jected kWh/(m²a) building footprint area)
Postcode/City: AUSTRALIA
Province/Country:
AUSTRALIA
Province/Country:
Certification:
Street: 1/79 TOORAK RD
Street:
Postcode/City: 3141 Interior temp. summer [°C]:
25.0
Year of construction:
Internal heat gains (IHG) heating case [W/m2]:
2.5
IHG cooling case [W/m²]:
4.3
No. of dwelling units:
Specific capacity [Wh/K per m² TFA]:
20.0 60
Mechanical cooling:
No. of occupants:
Street:
SOUTH YARRA
Province/Country: VIC
Specific building characteristics with reference to the treated floor area
Space heating
SOUTH YARRA
Province/Country: VIC
Province/Country: Interior temperature winter [°C]:
Street:
Energy consultancy: TALLIS ARCHITECTURE
Postcode/City:
1
Postcode/City:
2019
Interior temp. summer [°C]:
25.0
Internal heat gains (IHG) heating case [W/m2]:
2.6
IHG cooling case [W/m²]:
4.9
Specific capacity [Wh/K per m² TFA]:
60
Mechanical cooling:
Interior temperature winter [°C]:
1 2.4
Criteria
Alternative criteria
10 9
≤
15
-
≤
-
10
9 0
≤
-
-
≤
-
-
≤
10
≤
20
0.6
≤
0.6
96
≤
-
44 12
≤ ≥
yes yes yes yes -
60
13M_PHPP_REV 3.xlsx
60
-
yes
2
I confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of the building. The PHPP calculations are attached to this verification. Task: First name: Surname: Issued on:
City:
Treated floor area m²
2
Fullfilled?
Empty field: Data missing; '-': No requirement
Passive House Classic?
yes Signature:
Space heating
Heating demand kWh/(m²a) Heating load W/m²
Space cooling
Cooling & dehum. demand kWh/(m²a) Cooling load W/m² Frequency of overheating (> 25 °C) %
Frequency of excessively high humidity (> 12 g/kg) % Airtightness
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE) PHPP, Verification Primary Energy Renewable (PER)
PE demand kWh/(m²a) PER demand kWh/(m²a)
Generation of renewable energy (in relation to pro-jected kWh/(m²a) building footprint area)
20.0
X
The PHPP has not been filled completely; it is not valid as verification
Specific building characteristics with reference to the treated floor area
141.2
AUSTRALIA
Mechanical engineer:
Street: 1/79 TOORAK RD
Certification:
2.9
SOUTH YARRA
Province/Country: VIC Architecture: TALLIS ARCHITECTURE
Postcode/City:
2019
16.5 m
Street: 13 MAY GROVE Postcode/City: 3141
Province/Country:
AUSTRALIA
Altitude of location:
Home owner / Client: BETTINA TERRY
Street:
SOUTH YARRA
AUSTRALIA
Climate zone: 5: Warm
4.3 m
Mechanical engineer:
Street: 1/79 TOORAK RD
SOUTH YARRA
Climate data set: AU0001a-Melbourne
Province/Country:
Postcode/City: 3141
no Signature:
Province/Country: VIC
Street:
Province/Country: VIC
Empty field: Data missing; '-': No requirement
Passive House Classic?
Building type: RESIDENTIAL
Climate zone: 5: Warm
AUSTRALIA
12
Postcode/City: 3141 AUSTRALIA
Postcode/City:
SOUTH YARRA
yes
City:
Photo or Drawing WILLIAMSTOWN
Home owner / Client:
Postcode/City: 3141
71
-
Issued on:
Climate data set: AU0001a-Melbourne
Energy consultancy: TALLIS ARCHITECTURE
-
2
Building type: RESIDENTIAL
Street: 1/79 TOORAK RD
no
≤
Street: 32a TOBRUK CRESCENT Province/Country: VIC
Architecture: TALLIS ARCHITECTURE
2
Fullfilled?
≤
I confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of the building. The PHPP calculations are attached to this verification. Task: First name: Surname:
Building: TOWNHOUSE Postcode/City: 3016
Alternative criteria
Criteria
23 16
Empty field: Data missing; '-': No requirement
City:
Photo or Drawing
PE demand kWh/(m²a) PER demand kWh/(m²a)
Primary Energy Renewable (PER)
yes 2
Issued on:
Space cooling
31
120
Heating demand kWh/(m²a) Heating load W/m²
-
0.6
≥
Space heating
yes
≤
157
Treated floor area m²
2
Fullfilled?
≤
Province/Country: VIC
20.0
Interior temperature winter [°C]:
1 2.1
Specific building characteristics with reference to the treated floor area
3 6
178.3
68
Passive House Verification
Street: Postcode/City: AUSTRALIA
No. of occupants:
0.6
Generation of renewable energy (in relation to pro-jected kWh/(m²a) building footprint area)
Certification:
SOUTH YARRA
Province/Country: VIC
PE demand kWh/(m²a)
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE)
Province/Country:
Street: 1/79 TOORAK RD Postcode/City: 3141
2
Treated floor area m²
Postcode/City: AUSTRALIA
Energy consultancy: TALLIS ARCHITECTURE
Specific building characteristics with reference to the treated floor area
Space heating
Street:
SOUTH YARRA
Province/Country: VIC
Internal heat gains (IHG) heating case [W/m ]:
3.0
Mechanical engineer:
Street: 1/79 TOORAK RD
Interior temperature winter [°C]:
1
No. of dwelling units:
4.3 m
Province/Country: Architecture: TALLIS ARCHITECTURE
Certification:
Street: Postcode/City:
Altitude of location:
Postcode/City:
Province/Country: Mechanical engineer:
Street:
AUSTRALIA
Building type: RESIDENTIAL
Climate data set: AU0001a-Melbourne
Architecture:
WILLIAMSTOWN
Province/Country: VIC
22 16
Criteria
Alternative criteria
≤
-
-
≤
-
-
14 22 0
≤
-
-
≤
-
-
≤
-
≤
10
3.0
≤
1.0
179
≤
142
100.4
yes no no
80
≤
-
-
-
≥
-
-
I confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of the building. The PHPP calculations are attached to this verification. Task: First name: Surname: Issued on:
2
Fullfilled?
City:
32T_PHPP_REV 1.xlsx
-
EnerPHit Classic?
no Signature:
Compressor - cooling units
Heating degree hours - External Heating degree hours - Ground
JUL 5.8 5.6
AUG 4.4 4.2
SEP 2.7 2.4
OCT 1.5 1.2
NOV 0.4 0.1
DEC -0.8 -1.1
JAN -1.7 -1.9
FEB -1.7 -1.9
MAR -0.7 -0.9
APR 1.2 1.0
MAY 3.4 3.2
JUN 5.1 4.9
Year 20 17
kKh kKh
Losses - Exterior
1477
1119
690
373
97
-214
-431
-420
-183
299
863
1300
4970
kWh
0
kWh
Losses - Ground
0
0
0
0
0
Sum spec. losses
3.7
2.8
1.8
0.9
0.2
-0.5
-1.1
-1.1
-0.5
0.8
2.2
3.3
12.6
kWh/m²
Solar gains - North
254
0
342
0
413
0
506
0
585
639
625
490
440
362
0
271
0
222
0
5147
kWh
Solar gains - East
855
957
917
873
783
764
796
744
875
916
880
780
10140
kWh
Solar gains - South
448
490
478
446
375
399
419
389
473
471
463
404
5255
kWh
Solar gains - West
168
226
304
378
423
511
501
383
349
250
184
138
3814
kWh
0
0
0
0
0
0
0
0
0
0
kWh
Solar gains - Opaque
74
94
115
135
141
158
159
127
122
99
79
65
1367
kWh
Internal heat gains
653
589
653
632
653
632
653
653
632
653
632
653
7684
kWh
Sum spec. gains solar + internal Utilisation factor
6.2 59%
6.8 41%
7.3 24%
7.5 13%
7.5 3%
7.9 100%
8.0 100%
7.1 100%
7.3 100%
7.0 11%
6.4 34%
5.7 57%
84.8 15%
kWh/m²
Solar gains - Horiz.
0
ENERGY FOR HEATING
0
0
Annual heating demand
19
2
0
0
0
0
0
0
0
0
0
13
33
kWh
Spec. heating demand
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.1
kWh/m²
Spec. heating demand
Sum spec. gains solar + internal
PHPP KELLYVILLE / Climate: Sydney / TFA: 394 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 18.4 kWh/(m²a)
Humidity loads and humidity removal Internal humidity sources Infiltration/Window/Extract air system Supply air ventilation system Summer ventilation window
JUL 0.7 -0.4 -3.5 0.0
AUG 0.6 -0.4 -3.1 0.0
SEP 0.7 -0.4 -2.9 -0.1
OCT 0.6 -0.3 -2.2 -1.8
NOV 0.7 -0.2 -1.4 -2.2
DEC 0.6 -0.1 -0.6 -2.6
JAN 0.7 0.0 -0.1 -1.0
FEB 0.7 0.0 0.2 1.3
MAR 0.6 0.0 -0.3 -1.1
APR 0.7 -0.2 -1.3 -0.9
MAY 0.6 -0.3 -2.3 0.0
JUN 0.7 -0.4 -3.1 0.0
Year 8 -3 -21 -8
kWh/m² kWh/m² kWh/m² kWh/m²
Summer ventilation mechanically
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0
kWh/m²
0.0 0.0 0.0 0.0 0.0 0.0 0.3
2.3 0.0 0.0 0.0 0.0 0.0 2.3
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
2 0 0 0 0 0 3
kWh/m² kWh/m² kWh/m² kWh/m²
COOLING & DEHUMIDIFICATION
Total humidity load Dehumidification by supply air cooling Dehumidification by circulation cooling Additional dehumidification Total dehumidification Unnecessary dehumidification Missing dehumidification
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sum spec. losses
Specific losses and gains heating balance [kWh/(m²month)]
10 8
Dehumidification by supply air cooling
Supply air ventilation system
Dehumidification by circulation cooling
Infiltration/Window/Extract air system
Additional dehumidification
Summer ventilation window
Unnecessary dehumidification
Summer ventilation mechanically
Missing dehumidification
5 4.5
Humidity loads (left) Dehumidification energy (right) [kWh/(m² month)]
6 4 2 0
JUL
AUG
SEP
OCT
NOV
DEC
JAN
FEB
MAR
APR
MAY
JUN
-2
Due to the climate, heating is not required (grey). Solar and internal heat gains peak in the summer months (yellow) from users as well as solar penetration through the envelope openings. Specific losses (blue) areComparison higher in the winter months and reduce in summer due to solar eave protection of the Annual heating demand: Monthly method kWh/a kWh/(m²a) reference to treated floor area according to PHPP 33 0.1 envelope openings.
4 3.5 3 2.5 2 1.5 1 0.5 0
('Heating')
Annual method
386 #REF!
('Annual heating')
1.0 #REF!
kWh/a kWh/a
kWh/(m²a) reference to treated floor area according to PHPP
JUL
AUG
SEP
OCT
NOV
DEC
JAN
Photo or Drawing
Passive House Verification
Postcode/City: 2155
Climate zone: 5: Warm
Building type: RESIDENTIAL
Street: Postcode/City: Province/Country:
Street:
Architecture:
Postcode/City: Province/Country:
Postcode/City:
No. of occupants: Interior temp. summer [°C]:
25.0
Internal heat gains (IHG) heating case [W/m ]:
2.2
IHG cooling case [W/m²]:
2.2
Specific capacity [Wh/K per m² TFA]:
60
Space heating
Heating load W/m² Cooling & dehum. demand kWh/(m²a) Cooling load W/m² Frequency of overheating (> 25 °C) % Frequency of excessively high humidity (> 12 g/kg) %
pAirtightness 6
Criteria
0 -
Heating demand kWh/(m²a)
Pressurization test result n 50 1/h
Summer ventilation
POTENTIAL SCENARIOS
≤
15
-
≤
-
10
7 11
≤
0.6
-
-
≤
-
-
≤
10
≤
20
≤
0.6
Non-renewable Primary Energy (PE) PE demand kWh/(m²a) ≤ 39 PHPP KELLYVILLE / Climate: Sydney / TFA: 394 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 18.4 kWh/(m²a)
18
PER demand kWh/(m²a) Primary Energy Generation of renewable Building volume: 1064 m³ Renewable (PER) energy (in relation to pro-jected kWh/(m²a) Max. indoor absolute building humidity:footprint area) 12 g/kg Internal humidity sources: 100 g/(P*h)
≤
0
BASELINE
≥
parison of the following scenarios. 0.33
Air change rate via vent. system with supply air:
1/h
-
-
0% 0% 2
Reduction of W106 width from 5,530mm to 2,000mm Summer ventilation Reduction of W107 width from 4,280mm to 1,500mm Reduction of D104 width from 5,420mm to 2,400mm Ventilation conductance D104 from stacked sliding to hinged double door V n Building volume: 1061 m³ m³ 1/h Deletion of W108 12 g/kg * exterior H Max. indoor absolute humidity: 1064 0.330 Internal humidity sources: 100 g/(P*h) without 1064 * 0.330 Deletion ofHRW109 V
1064 1064 7.0% 1064
ground HV,g Results cooling withoutpassive HR Frequency overheating: Infiltration, window, extractofair system max. humidity:
15.5
Additional summer for cooling Frequencyventilation of exceeded humidity: 11.0%
* *
0.000 0.000
at*the overheating limit Jmax 0.042
* * * * = 25* °C
g/kg
)= = )= =
Building type: RESIDENTIAL cAir Heat recovery efficiency: 0% Wh/(m³K) Humidity 0% 0.33 recovery efficiency: = 115.8 0% 115.8 0.33 = 0.0 Results 0.33 = active cooling0.0 Useful cooling demand: 2.1 0.33 = 14.7
Subsoil0.33 heat exchanger efficiency: =
Dehumidification demand: Frequency of exceeded humidity:
2.5 15.4%
W/K W/K W/K W/K W/K kWh/(m²a) kWh/(m²a)
Reduction of window area toadequate the22.0western air quality °C elevations reduces solar gain however humidity increases due Passive House with PHPP Version 9.6a Summer ventilation to a reduction in cross ventilation. Window night ventilation, manual Building volume: Mechanical, automatically Max. indoor absolute humidity:
Controlled Deletion ofventilation W102 Internal humidity sources: Air change rate via extract air system: Results passive cooling PHPP, Verification Frequency of overheating: Window ventilation air change rate: max. humidity:
1061
m³
12 100
g/kg g/(P*h) 1/h
7.5% 0.00 15.6 10.9%
Frequency of exceeded humidity:
Deletion W102 increases Summer basicofventilation to ensure
HRV/ERV in summer (check only one field) None Night ventilation valuecontrolled6.60 1/h difference Automatic bypass, by temperature Building type: RESIDENTIAL Automatic bypass, controlled by enthalpy difference x Heat recovery 0% Controlled by (please check) Corresponding air change rate 1/h efficiency: Always during operation, in addition to basic air changerecovery efficiency: Temperature diff. Humidity 0% Specific power consumption Wh/m³ Humidity diff. x Subsoil heat exchanger efficiency: 0%
Specific power consumption (for extract air system) 0.20 Results active cooling at the overheating limit Jmax = 25 °C Useful cooling demand: 2.4 1/h Dehumidification demand: 2.6 g/kg Frequency of exceeded humidity: 15.1%
overheating due to a reduction in cross ventilation. air quality 1/h
n V,system adequate
L,g
Summer ventilation Ventilation conductance Shade W106 to Sydney 5% / TFA: 393 m² / PHPP KELLYVILLE / Climate: exterior Hvia extract to Shade W105a 5% Air change rate air system: without HR Building volume: Shade W105b to 5% ground H withoutMax. HR indoor absolute humidity: Shade W105c to 5% WindowInfiltration, ventilationwindow, air change rate: Internal humidity sources: extract air system
0.330 0.330 0.33 0.330 0.330
h*SHX
*(1*(11/h * *
0% 0% 0% 0%
hHR
)*(1) *(1-
0.00 0.00
Wh/m³
1901_PHPP_REV 3.xlsx kWh/(m²a)
-
-
≤
-
-
≤
10
≤
20
kWh/(m²a)
1/h
)= 0.330 = 0.330 HRV/ERV in summer (check only one field) )= 0.000 = None 0.000
Automatic bypass, controlled by temperature difference Automatic bypass, controlled by enthalpy difference Always
m³
1061 1061 1061 1061 12 1061 0.00 100 1061 7.0% n V,system 15.5 1/h 22.0 0.330 10.9%
1/h *
*
m³ * g/kg * 1/h g/(P*h) *
1/h
Passive House with PHPP Version 9.6a x
Wh/(m³K)
0.330 * 0.33 = 115.5 Building type: RESIDENTIAL 0.330 Specific power * 0.33(for extract air system) = 115.5 consumption 0.20 Heat recovery efficiency: 0% 0.000 * 0.33 = 0.0 Humidity 0% 0.000 * 0.33 recovery efficiency: = 0.0 Subsoil0.33 heat exchanger efficiency: 0% 0.042 * = 14.7
at the overheating limit Jmax = 25 °C h*SHX
g/kg
°C *(10% 0.330 *(10% 0.330 * 0% 0.330western * elevations 0% on the adequate air quality
)*(1) *(1-
Results active cooling 2.1 hHRUseful cooling demand: n V,equi,fraction Dehumidification demand: 2.4 1/h 0.00of exceeded humidity: )= 0.330 Frequency 15.5%
0.00
W/K W/K Wh/m³ W/K W/K W/K
kWh/(m²a) kWh/(m²a)
= 0.330 )= 0.000 = 0.000 decreases internal
Shading selected windows to 5% permeability temperaWindow night ventilation, solar manual gain however restricts air Night value 5.84 months 1/h tures by reducing flowventilation in the summer causing an increase in Ventilation conductance - Air change rate via vent. system with supply air: V n c 0.33 1/h HRV/ERV in summer (check only one field) Corresponding air change reduction rate 1/h Controlled (please check) average exceeded humidity despite maintaining an in cooling and dehumidification. m³ 1/h overall Wh/(m³K) Passive House withby PHPP Version 9.6a None Mechanical, automatically during operation, in addition to basic air change Temperature diff. Summer ventilation exterior H 1061 * 0.330 * controlled0.33 = 115.5 W/K Automatic bypass, by temperature difference Controlled ventilation Specific power consumption Wh/m³ Humidity diff. x V
V,equi,fraction
Air
V,e
controlled x without HR 1061 * 0.330 Automatic bypass, * 0.33by enthalpy difference = 115.5 W/K PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a) ground HV,g 1061 * 0.000 * 0.33 =Always 0.0 W/K without HR 1061 * 0.000 * 0.33 = 0.0 W/K Building type: RESIDENTIAL Infiltration, window, extract air system 1061 * 0.042 * 0.33 = 14.7 W/K Air change rate via extract air system: 1/h Building volume: 1061 m³ Heat recovery efficiency: 0% Specific power consumption (for extract air system) 0.20 Wh/m³ Max. indoor absolute humidity: 12 g/kg Humidity recovery efficiency: 0% Additional summer ventilation for cooling Internal humidity sources: 100 g/(P*h) Subsoil heat exchanger efficiency: 0% Additional ventilation regulation Window ventilation air change rate: 0.00 1/h Minimum acceptable indoor temp. 22.0 °C Results passive cooling Results active cooling at the overheating limit Jmax = 25 °C Frequency of overheating: 7.5% Useful cooling demand: 2.3 kWh/(m²a) Type of additional ventilation Effective air change rate max. humidity: 15.5 Dehumidification demand: 2.5 g/kg kWh/(m²a) n V,system h*SHX hHR n V,equi,fraction Frequency of exceeded humidity: 10.9% Frequency of exceeded humidity: 15.2% 1/h 1/h PHPP, SummVent 1901_PHPP_REV 3.xlsx Window Night ventilation value 6.61 1/h ) = Exterior nnight 0.330 *(10% )*(10.00 0.330 V,e ventilation, manual without HR 0.330 *(10% ) = 0.330 SummerGround basic ventilation to ensure adequate air quality Corresponding air change rate 1/h Controlled by (please check) n L,g 0.330 * 0% *(10.00 )= 0.000 Mechanical, during operation, in addition to basic air change Temperature without HRautomatically 0.330 * 0% = 0.000 diff. Controlled ventilation Specific power consumption Wh/m³ Humidity diff. x Air change rate via vent. system with supply air: 0.33 1/h HRV/ERV in summer (check only one field) Ventilation conductance None VV n V,equi,fraction cAir by temperature difference m³ 1/hAutomatic bypass, controlledWh/(m³K) controlled x exterior HV,e 1061 * 0.330 Automatic bypass, * 0.33by enthalpy difference = 115.5 W/K Always without HR 1061 * 0.330 * 0.33 = 115.5 W/K ground HV,g 1061 * 0.000 * 0.33 = 0.0 W/K without HRextract air system: 1061 0.000 * 0.33 = 0.0 W/K Air change rate via 1/h * Infiltration, window, extract air system 1061 * 0.042 Specific power * 0.33 (for extract air = 14.7 W/K consumption system) 0.20 Wh/m³
4
Shade W103 to 5% Shade W104 to 5%
Shading selected windows on the western elevations slightly increase overheating and average exceeded humidity by reducing air flow however slightly reduces overall cooling and dehumidification demand.
p8
Additional summer ventilation for cooling
0.00
1/h
yes 1901_PHPP_REV 3.xlsx yes yes
JUN
MAY
APR
MAR
FEB
≤
0.6
yes
39
≤
120
PER demand kWh/(m²a)
18
≤
-
-
pyes 7
0
≥
-
-
Generation of renewable energy (in relation to pro-jected kWh/(m²a) building footprint area)
Passive House with PHPP Version 9.6a 2
Empty field: Data missing; '-': No requirement
7.3% 15.7 10.9%
Humidity recovery efficiency: City: Subsoil heat exchanger efficiency:
at the overheating limit Jmax = 25 °C g/kg
yes Signature:
0% 0%
Results active cooling Useful cooling demand: 2.5 Dehumidification demand: 2.6 Frequency of exceeded humidity: 15.1%
kWh/(m²a) kWh/(m²a)
Summer basic ventilation ensure adequate quality Increasing the livingtowindows on theairground
floor reduce overheating by increasing cross ventilation however it also slightly increases peak humidity and cooling requirements due to additional interaction Air change rate via vent. system with supply air: 0.33 1/h HRV/ERV in summer (check only one Passive House with field) PHPP Version 9.6a None with external humidity. Summer ventilation
-
Automatic bypass, controlled by temperature difference PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 8 % / PER: 2.3controlled kWh/(m²a)by enthalpy difference Automatic bypass, x Always Building type: RESIDENTIAL
6
Building volume: Air change rate via extract air system: Max. indoor absolute humidity:
1061 12
m³ 1/h g/kg
WindowResults ventilation air change rate: passive cooling Frequency of overheating: max. humidity: Effective air change rate Frequency of exceeded humidity:
0.00
1/h
Heat recovery efficiency:
0%
Humidity recovery efficiency:
0% 0.20 0%
The addition of levels however
7.6% 15.7 n10.9% V,system
at the overheating limit Jmax = 25 °C g/kg h*SHX
1/h
Results active cooling Useful cooling demand: 2.5 Dehumidification demand: 2.6 Frequency 14.9% hHR of exceeded humidity: n V,equi,fraction
Wh/m³
kWh/(m²a) kWh/(m²a)
1/h
0.330 *(10% )*(10.00 )= 0.330 air quality a window toadequate the0.330 western elevation0%of bed 5) slightly increases =overheating *(10.330 and 0.330 * 0% *(10.00 )= 0.000 greatly improves the immediate comfort of the room in the summer months. 0.330 * 0% = 0.000
Exterior n V,e Summer basic ventilation to ensure without HR Ground n L,g without HR Air change rate via vent. system with supply air: Ventilation conductance
0.33
humidity
HRV/ERV in summer (check only one field) None VV n V,equi,fraction Automatic bypass, controlled cby Air temperature difference m³ 1/h Wh/(m³K) Automatic bypass, controlled by enthalpy difference x exterior HV,e 1061 * 0.330 * 0.33 =Always Passive 115.5 W/K House with PHPP Version 9.6a without HR 1061 * 0.330 * 0.33 = 115.5 W/K ground HV,g 1061 * 0.000 * 0.33 = 0.0 W/K Air change rate via extract air system: 1/h PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a) without HR 1061 * 0.000 Specific power * 0.33 (for extract air = 0.0 W/K consumption system) 0.20 Wh/m³ Infiltration, window, extract air system 1061 * 0.042 * 0.33 = 14.7 W/K Building type: RESIDENTIAL
1/h
7
Summer Deletion ventilation of W005a Deletion of W005c Deletion of W006a Building volume: 1061 Additional summer ventilation for cooling Window ventilation change rate: 0.00 Deletion of airW006b Max. indoor absolute humidity: 12 Additional ventilation regulation Deletion of W006c Internal humidity sources: 100 Effective air change rate Minimum acceptable indoor temp.
Results passive cooling Type of additional ventilation Exterior n V,e Frequency of overheating: without HR max. humidity: PHPP, Verification Ground Frequency nnight Window ventilation, manualhumidity: L,g of exceeded without HR
22.0
n V,system
m³ 1/h g/kg g/(P*h) °C
1/h
7.0% 0.330 0.330 15.9 0.330 10.9% 0.330
Heat recovery efficiency: Humidity recovery efficiency: Subsoil heat exchanger efficiency: h*SHX
hHR
at the overheating °C *(10%limit Jmax = 25 )*(1-
*(1g/kg * *
Corresponding air change rate during operation, in addition to basic air change n V,equi,fraction cAir Specific power consumption
0% 0% 0%
n V,equi,fraction Results active cooling1/h 2.4 0.330 0.330 2.6 0.000 15.2%
Useful cooling demand: 0.00 )= 0% ) = Dehumidification demand: 0% 0.00 )= Night ventilation*(1value Frequency 6.61 of exceeded 1/h humidity: 0% =
Ventilation conductance Mechanical, automatically to ensure adequate air quality Summer basic Deletion ofventilation selected ground floor windows provides
1/h
kWh/(m²a) kWh/(m²a) 1901_PHPP_REV 3.xlsx
0.000
Controlled by (please check) Temperature diff. Humidity diff. x
good reduction in overheating however increases V Controlled ventilation Wh/m³ m³ 1/h Wh/(m³K) peakexterior andH frequency of humidity1061 due to reduction in cross flow ventilation. * 0.330 * 0.33 = 115.5 W/K V
n V,equi,fraction
VV n V,equi,fraction cAir Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a)
Results passive cooling Additional summer ventilation for cooling Effective air change rate
Window ventilation air change rate:
≤
2
Fullfilled?
0.6
Results passive cooling Frequency of overheating: max. humidity: Frequency of exceeded humidity:
1/h
Type of additional ventilation Air KELLYVILLE change rate via vent. system with/ supply air: m² / Heating: 0.33 0.1 kWh/(m²a) 1/h PHPP / Climate: Sydney TFA: 393 / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a)
Frequency of overheating: Additional ventilation regulationmax. humidity: Minimumnacceptable indoor temp. Exterior Frequency of exceeded humidity: V,e without HR Type ofGround additional ventilation n L,g without HR Summer basic ventilation to ensure
7 11
Increase of W009 width from 900mm to 1,400mm Max. indoor absolute humidity: 12 g/kg Issued on: Increase of W010 width from 900mm tog/(P*h) 1,400mm Internal humidity sources: 100
0.330 Passive House with PHPP Version 9.6a 0.330 0.000 0.000
Additional ventilation regulation -Summer basic ventilation to ensure Minimum acceptable indoor temp.
V,g
10
PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a) I confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of Passive House Classic? the building. The PHPP calculations are attached to this verification. Building type: RESIDENTIAL Task: First name: Surname: Building volume: 1061 m³ Heat recovery efficiency: 0%
n V,equi,fraction
hHR
V,equi,fraction
V,e
V,e
-
-
5
0% Empty field: Data missing; '-': No requirement
City:
h*SHX
1/h
without HR
15
≤
Summer ventilation
of the proposed building composition - this data is for com-
Exterior n V,e 0.330 *(10% )*(10.00 without HR 0.330 *(10% ) Ground n L,g 0.330 * 0% *(10.00 PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a) without HR 0.330 0.1 kWh/(m²a) * 0%
3
Primary Energy Renewable (PER)
≤
PE demand kWh/(m²a)
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE)
yes
Building type: RESIDENTIAL
HRV/ERV in summer (check only one field) None Automatic bypass, controlled by temperature difference Automatic bypass, controlled by enthalpy difference x Always
n V,system
-
-
Airtightness
Alternative criteria
Criteria
0 -
Specific power consumption (for extract air system) Provide additional window BED 5 (900mm to 1,400mm) Internal humidity sources: to NE 100wall of g/(P*h) Subsoil heat exchanger efficiency:
1Effective air change rate
Exterior n V,e without HR Air change rate via vent. system with supply air: Ground n
Frequency of excessively high humidity (> 12 g/kg) %
yes yes
For visual a is placed1/hadjacent to the figure where it is a positive influence and a Air change rate viainterpretation extract air system: Specific power consumption (for extract air system) for a negative influence. The ultimate selection of scenarios or their combinations will 0.20 further Wh/m³ alter the final result in a compounding effect. Window ventilation air change rate: 0.00 1/h
Effective air change rate
Cooling load W/m²
-
A series of potential scenarios have been identified. Using the results of both passive and active cooling criteria, the outcomes are displayed as they effect overheating, humidity, and dehumidification.
2
Cooling & dehum. demand kWh/(m²a)
Frequency of overheating (> 25 °C) %
Heat recovery efficiency: Humidity recovery efficiency:
Issued on:
Space cooling
yes
Results passive cooling Results active cooling I confirm that the values given herein have been determined PHPP methodology on the characteristic ofdemand: at the overheating limit Jand Frequency of overheating: 7.4% following the = 25 °C Usefulvalues cooling 2.4Classic?kWh/(m²a) max based Passive House yes the building. The PHPP calculations attached to this15.6 verification. max.are humidity: Dehumidification demand: 2.6 g/kg kWh/(m²a) Task: First name: Surname: Signature: Frequency of exceeded humidity: 10.9% Frequency of exceeded humidity: 15.1%
The baseline data istoprovided from the PHPP Summer basic ventilation ensure adequate air quality
Heating load W/m²
yes 9.6a Passive House with PHPP Version
Subsoil heat exchanger efficiency:
393.9
Heating demand kWh/(m²a)
Fullfilled?2
120 -
2.2
Mechanical cooling:
Treated floor area m² PHPP, Cooling units
Alternative criteria
IHG cooling case [W/m²]:
60
Specific building characteristics with reference to the treated floor area
Space heating
393.9
25.0
2.2
Specific capacity [Wh/K per m² TFA]:
5.0
Mechanical cooling:
Specific building characteristics with reference to the treated floor area
Treated floor area m²
Interior temp. summer [°C]:
Internal heat gains (IHG) heating case [W/m ]:
2
1
No. of dwelling units:
20.0
5.0
Street: Postcode/City:
Province/Country:
of construction: 2019 temperature winter [°C]: TheYear PHPP results conclude an average frequency Interior of overheating at 7%.20.0
Postcode/City:
2
JAN
Province/Country:
Province/Country: Interior temperature winter [°C]:
DEC
Street: Postcode/City:
NOV
Street:
OCT
Certification:
Province/Country:
-
Certification:
SEP
Postcode/City: Province/Country:
Street:
Space cooling
Postcode/City: Province/Country:
AUG
Postcode/City: Province/Country:
Street:
Postcode/City: Province/Country: Energy consultancy:
JUL
1901_PHPP_REV 3.xlsx
Street:
Energy consultancy:
Mechanical engineer:
Street:
Mechanical engineer:
Street:
73.84 m
Altitude of location:
Home owner / Client:
Climate data set: AU0011a-Sydney
Architecture:
AU-Australia
Building type: RESIDENTIAL AU-Australia
Basic ventilation (grey) supplied by heat recovery ventilation.Climate Manual operation (green) is73.84 m zone: 5:window Warm Altitude of location: required for the months displayed for cross ventilation. Home owner / Client:
No. of occupants:
JUN
Climate data set: AU0011a-Sydney
Province/Country: KELLYVILLE RIDGE
1
MAY
Province/Country: KELLYVILLE RIDGE
Street: 123 CONRAD RD Postcode/City: 2155
No. of dwelling units:
APR
Catastrophic Poor Acceptable Good Building: PHPP KELLYVILLE Excellent Street: 123 CONRAD RD
Building: PHPP KELLYVILLE
Photo or Drawing
2019
MAR
ASSESSMENT
>15% 10-15% 5-10% 2-5% 0-2%
Passive House Verification
Year of construction:
FEB
For each month, humidity loads (purple) are contrasted with dehumidification contributions. Humidity infiltrated from windows (dark green) as well as manual cross ventilation (light green) primarily provides a reduction in humidity levels except in February where it increases. This is the point (red) where excessively high humidity is founded (11%). To obtain Passive House Classic there are tolerances of up to 20% of excessively high humidity.
h>25 ° C
PHPP, Heating
kWh/m² kWh/m²
Internal humidity sources
-
V,e vent. system with supply air: Air change rate via without HR ground HV,g without HR Infiltration, window, extract air system
8
0.33
1061 1061 1061 1061
1/h
Summer ventilation See next pageventilation for cooling Additional summer Air change rate via extract air system:
* * * *
HRV/ERV in summer (check only one field) 115.5 W/K 0.0 W/K x 0.0 W/K 14.7 W/K Passive House with PHPP Version 9.6a
0.330 * 0.33 = None Automatic bypass, by temperature difference 0.000 * controlled0.33 = controlled 0.000 Automatic bypass, * 0.33by enthalpy difference = 0.042 * 0.33 =Always
1/h PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / power PER: 2.3 kWh/(m²a)(for extract air system) Specific consumption 0.20 Additional ventilation regulation Minimum acceptable indoor temp. 22.0 °C Building type: RESIDENTIAL Window ventilation air change rate: 0.00 1/h 1061 m³ Heat recovery efficiency: 0% Type of additional ventilation Building volume: 12 100
Max. indoor absolute humidity: Internal humidity sources: Effective air change rate Window night ventilation, manual
n V,system
Results passive cooling Exterior n V,e Frequency of overheating: Mechanical, without HRautomatically Controlled max. humidity: Ground n L,gventilation Frequency of exceeded humidity: without HR
0.330 7.0% 0.330 15.9 0.330 10.9% 0.330
g/kg g/(P*h)
1/h
Humidity recovery efficiency: Subsoil heat exchanger efficiency: ventilation value 6.61 1/h h*Night hHR SHX
Wh/m³
0% 0%
n V,equi,fraction
Results active cooling1/h Controlled by (please check) Corresponding rate 1/h *(10%limit Jair change )*(10.00 )= 0.330 at the overheating = 25 °C to basic air change Useful cooling demand: 2.4 max in addition Temperature *(1- during operation, 0% ) = 0.330 diff. kWh/(m²a) Specific Wh/m³ Humidity diff. kWh/(m²a)x Dehumidification demand: 2.6 0%power consumption *(10.00 )= 0.000 Frequency of exceeded humidity: 15.2% * 0% = 0.000
g/kg*
Ventilation conductance
Summer basicofventilation ensure adequate air quality n V,equi,fraction Deletion selectedtoground floorVVwindows provides good
c in overheating however increases reductionWh/(m³K) m³ 1/h * 0.330 * 0.33 = 115.5 W/K peakexterior andH frequency of humidity1061 due to reduction in cross flow ventilation. V,e
Air change rate via without HRvent. system with supply air: ground HV,g without HR Infiltration, window, extract air system
0.33 1061 1061 1061 1061
Additional summer ventilation for cooling
1/h *
* * *
Air change rate via extract air system: Additional ventilation regulation Minimum acceptable indoor temp.
22.0
°C
Window ventilation air change rate: Type of additional ventilation
0.00
1/h
Effective air change rate Window night ventilation, manual Exterior n V,e automatically Mechanical, without HR Controlled ventilation Ground n L,g without HR Ventilation conductance PHPP, SummVent exterior HV,e without HR ground HV,g without HR Infiltration, window, extract air system
1/h
1/h
*(1*(1* *
VV m³
1061 1061 1061 1061 1061
22.0
Night ventilation value 6.09 h*SHX hHR Corresponding air change rate 0% )*(1- to basic air0.00 during operation, in addition change 0%power consumption ) Specific
0% 0%
*(1-
n V,equi,fraction
* * * * *
Additional summer ventilation for cooling Additional ventilation regulation Minimum acceptable indoor temp.
Specific power consumption (for extract air system)
n V,system
0.330 0.330 0.330 0.330
Air
HRV/ERV field) 0.330 * 0.33 = in summer (check 115.5 only one W/K 0.000 * 0.33 = None 0.0 W/K Automatic bypass, controlled by temperature difference 0.000 Automatic bypass, * 0.33by enthalpy difference = 0.0 W/K controlled x 0.042 * 0.33 =Always 14.7 W/K
°C
1/h
0.330 0.330 0.000 0.000 0.042
0.00
1/h 1/h
)=
Wh/m³=
)= =
0.20
Wh/m³
n V,equi,fraction 1/h Controlled by (please check) 0.330 diff. Temperature 0.330 Humidity diff. x
0.000 0.000
cAir
* * * * *
Wh/(m³K)
0.33 0.33 0.33 0.33 0.33
= = = = =
115.5 115.5 0.0 0.0 14.7
1901_PHPP_REV 3_5.xlsx W/K W/K W/K W/K W/K
p9
m as te r p l a n n i n g
a na l og ue
p roje cts