AL MCDONALD PORTFOLIO
PORTFOLIO
NIGHTINGALE LORNE
NIGHTINGALE LORNE LORNE | VIC | AUSTRALIA | 2018 University of Melbourne | Nightingale Housing
June 19, 2019 11:45 AM
NO. 2 OF 46
PORTFOLIO
NIGHTINGALE LORNE
NO. 3 OF 46
PORTFOLIO
June 19, 2019 11:45 AM
NIGHTINGALE LORNE
L
F
SD01
DW
PLAN - APARTMENTS 1:20
PROJECT:
SD01
ADDRESS:
CLIENT:
N
NIGHTINGALE LORNE LORNE COMMUNITY HOSPITAL 1 ALBERT ST LORNE VIC 3232
GSEducationalVersion
TITLE:
DATE:
SCALE @ A3: JOB #:
DWG #:
APARTMENT 2
22/10/2018
AS SHOWN S3
SD09
PLAN - APARTMENTS 1:20
PROJECT:
CLIENT:
ADDRESS:
N
TITLE:
DATE:
SCALE @ A3: JOB #:
DWG #:
NO. 4 OF 46
PORTFOLIO
NIGHTINGALE LORNE
NO. 5 OF 46
loading bay
letterboxes BBQ
AMENITY SHARE
PORTFOLIO
PLAYBOY
PLAYBOY KATHMANDU
KATHMANDU | NEPAL | 2019
June 19, 2019 11:45 AM
NO. 6 OF 46
PORTFOLIO
KATHMANDU
NO. 7 OF 46
PORTFOLIO
PLAYBOY
June 19, 2019 11:45 AM
NO. 8 OF 46
PORTFOLIO
KATHMANDU
NO. 9 OF 46
POLYCARBONATE SHEETING SYSTEM. BACKLIGHTS TO BE INSTALLED ALONG ALL INTERIOR FRAMING EDGES
FRAMING. LED STRIP LIGHTING TO BE INSTALLED ALONG THE TWO EXPOSED EDGES CUSTOM ANGLE TO FINISH FLUSH
WITH TRANSLUCENT CLADDING PORTFOLIO
June 19, 2019 11:45 AM 4 TYPICAL ROOF DECK DRAIN SYSTEM 1:5 -
PLAYBOY
CORNER
WASTE TO FALL TO CORE
TOP OF CURTAIN WALL SYSTEM TO BE INSTALLED BEFORE POLYCARBONATE TO ALLOW FOR ACCESS DURING CONSTRUCTION CUSTOM ANGLE TO FINISH FLUSH WITH CURTAIN WALL CORNER ANODISED MATTE BLACK FINISH TO MATCH CURTAIN AND CROWN FRAMING. LED STRIP LIGHTING TO BE INSTALLED ALONG THE TWO EXPOSED EDGES
5 -
TYPICAL CROWN PLAN CONNECTIONS 1:20
EXTEND COLUMN 100MM BEYOND PARAPET EDGE AND FLASH WITH FULLY FOLDED CAP
FULLY FOLDED FLASHING AT TOP OF TRANSLUCENT FRAMING SYSTEM WITH FALL TO EXTERIOR ANODISED MATTE BLACK FINISH TO BE APPLIED TO ALL EXPOSED STRUCTURAL STEEL MEMBERS FLASHINGS AND FIXINGS
BOLT RHS TO ALL VERTICAL CONCRETE AND STEEL MEMBERS AT CENTRE INTERSECTIONS - REFER TO STRUCTURAL ENGINEERING SPEC/ DETAIL
TYPICAL POLYCARBONATE FRAME CONNECTION TO STRUCTURAL RHS LED BACKLIGHT SUPPORTED BY 50MM EA MEMBER. STRIPS TO BE PLACED ALONG EXTERIOR FACING EDGE
3 -
TOP OF CROWN PARAPET 1:10
LED BACKLIGHT STRIPS TO EXTEND ALONG STRUCTURAL EDGE
POLYCARBONATE SHEETING TO ALIGN WITH CENTRE OF RHS STRUCTURE AT PARAPET CONNECTION
TYPICAL BOTTOM POLYCARBONATE FRAME CONNECTION TO STRUCTURAL RHS - REFER TO MANUFACTURER'S DETAILS
RHS FRAMING TO BE FLUSH WITH STRUCTURAL ANGLE ALONG NORTHERN FACADE
FLASH AT GLAZING PARAPET AND CONNECT TO CURTAIN FRAME. FALL TO EXTERIOR
TRANSITION TO SINGLE SKIN GLAZING FOR ROOF DECK LEVEL. USE EXTERIOR CURTAIN PANEL FOR ALIGNMENT CATWALK BOLTED BETWEEN TRANSOM EXTENSIONS
2 -
CROWN CLADDING DETAIL 1:10
100MM DRAINAGE LINE OFFSET FROM STRUCTURAL EDGE. REFER TO OBSERVATIONS DECK PLAN FOR LOCATION 1:100 FALL TO WASTE
20MM BLUE STONE TILE FLOOR FINISH AT OBSERVATION DECK - 1:100 FALL TO WASTE POINTS
1:100 FALL TO WASTE
TRANSOM EXTENSION TO SUPPORT SECONDARY GLAZING SKIN AT CONNECTION POINTS
STORM WATER AND WASTE FLOW TO CORE FOR AND STORAGE FOR TREATMENT
DATE:
STORM WATER AND WASTE FLOW TO CORE FOR AND STORAGE FOR TREATMENT
APPLIED ARCHITECTURAL TECHNOLOGY SEMESTER 1, 2017
APPLIED ARCHITECTURAL TECHNOLOGY SEMESTER 1, 2017 MELBOURNE SCHOOL OF DESIGN MELBOURNE SCHOOL OF DESIGN UNIVERSITY OF MELBOURNE
AMENDMENTS AMENDMENTS ISSUE DATE
ISSUE DATE
N
ISSUE:
SERVICE OPENINGS TO BE CUT FROM BEAMS WHERE NECESSARY. REFER TO MECHANICAL AND STRUCTURAL ENGINEERING SPEC/DETAIL
SCALE:
DWG: DRAWN BY:
CHECKED BY:
TITLE:
TYPICAL ROOF DECK DETAIL 1:10
ASSIGNMENT:
N
1 -
ASSIGNMENT:
REFER TO DETAIL ELEVATIONS ON A5.2 FOR ALIGNMENT OF CURTAIN WALL SYSTEM
ASSIGNMENT:
TITLE:
CROWN DETAIL
TITLE:
DESIGN DEVELOPMENT
NO. 10 OF 46
PORTFOLIO
TOWER
NO. 11 OF 46
OUTRIGGER TOWER MELBOURNE | VIC | AUSTRALIA | 2017 University of Melbourne
PORTFOLIO
June 19, 2019 11:45 AM
OUTRIGGER
DIAGONAL SAG RODS FIRE INSULATED SPANDREL PANEL BLACK REFLECTIVE FINISH
PRIMARY STEEL COLUMN - REFER TO STRUCTURE TABLE
UNITISED SPANDREL ZONE PHOTOVOLTAIC CELLS WITH BLACK TINTED FINISH
EDGE BEAM - REFER TO STRUCTURE TABLE MECHANICAL FLOOR EXHAUST POINT
INTERNAL ENVELOPE VOID
FLASHING TO ROOF SEMI-TRANSPARENT PLASTIC CLADDING - DANPALON SYSTEM CONCRETE EDGE BEAM PRIMARY OUTRIGGER - REFER TO STRUCTUAL TABLE 1200X2000MM ROOF GLAZING PANELS MULLIONS ALIGNED TO FACADE PRIMARY BELT TRUSS CHS - REFER TO STRUCTURAL TABLE
UNITISED SPANDREL ZONE PHOTOVOLTAIC CELLS WITH BLACK TINTED FINISH
PODIUM AND LOW RISE MECHANICAL FLOOR
DOUBLE GLAZED UNITISED CURTAIN SYSTEM - CLEAR FINISH
PODIUM BELT TRUSS
UNITISED OUTER ENVELOPE - BLACK TINTED FINISH TYPICAL BEAM SYSTEM - REFER TO STRUCTURE
ENVELOPE ACCESS CAT WALK SERVICE ZONE SUSPENDED CEILING
200X100MM RHS TRUSS SYSTEM - FINISHED IN MATTE BLACK
1 -
TYPICAL FLOOR TO FLOOR DETAIL
1:100
SUSPENDED CEILING SYSTEM
1200X1200MM CABLE STAYED GLAZING SYSTEM - CLEAR FINISH LIGHTING ELEMENTS ON STRUCTURE EDGE
INTERNAL CFC FASCIA
HORIZONTAL CROWN STRUCTURE
1200X1200MM CABLE STAYED GLAZING SYSTEM
EDGE BEAM
PRIMARY CROWN BRACING - REFER TO STRUCTURE TABLE EXTERNAL FACADE GLAZING SEMI-TRANSPARENT PLASTIC CLADDING - DANPALON SYSTEM
INTERMEDIATE THERMAL VENTING ZONE
1200X2500MM DANPALON SYSTEM
STEEL AND CONCRETE CLAD MEGA COLUMN REFER TO STRUCTURE TABLE INTERNAL FACADE GLAZING
CAPPING EDGE BEAM ON UNITISED ENVELOPE SYSTEM UNITISED SPANDREL ZONE PHOTOVOLTAIC CELLS WITH BLACK TINTED FINISH
UPPER MOST ACCESSIBLE FLOOR
SUSPENDED CEILING
SERVICE ZONE
LOBBY FLOOR - GLAZING HEIGHT 40M
NO. 12 OF 46
PORTFOLIO
TOWER
NO. 13 OF 46
PORTFOLIO
OUTRIGGER
June 19, 2019 11:45 AM
NO. 14 OF 46
PORTFOLIO
FALLS
NO. 15 OF 46
SLAUGHTER FALLS MT COOT-THA | QLD | AUSTRALIA | 2013 University of Queensland
PORTFOLIO
SLAUGHTER
June 19, 2019 11:45 AM
NO. 16 OF 46
PORTFOLIO
FALLS
NO. 17 OF 46
PORTFOLIO
ADELA
ADELA ELWOOD
ELWOOD | VIC | AUSTRALIA | 2018 Jost Architects
June 19, 2019 11:45 AM
NO. 18 OF 46
PORTFOLIO
ELWOOD
1
NO. 19 OF 46
2
6,159
333
3
6,525
4
6,710
5
2,840
7,226
333
3,848
333
6
2,775
7
4,739
8
4,625
28,189
178
15,008
3,876
3,350
1,250
901
4,000
1,000
750
1,000
1,250
1,200
3 A-210
300
1,550
895
12,379 - BALC
4,834
1,540
75
EQ
1,011
1,954
1,000
4,000
1,250
334 178
2,795
1,513 1,691
334 334
4 A-210
7,134 EQ
300
1,841
10
1,691
4,486
3,159
2 A-200
EQ
EQ
EQ
2,161
100
40.235m
7,134
2,186
127째23'
EQ
EQ
EQ
EQ
EQ 47
F
2,998
PR-01
ABOVE WALL SB-01
WT-15
W1.10 DP
WT-11
W1.11
W1.12
W1.13
DP
W1.15
W1.14
WT-10A
DP
WT-11
RW
SFL +6.680 FFL +6.750
UNIT 4
WT-26
WT-26
RT
RW
218째18'
144.54 m2
WT-11
194.78 m2
2 A-210
SFL +6.650
WT-11
UNIT 3
38째18'
850
BALCONY
5,357
FFL +6.750
SFL +6.680
W1.16
W1.06
5,357
5,782
8,207
D
B DP
RW
SFL +6.650
MC-03
TL-01
09 A-411
FFL +6.750
FFL +6.750
2 A-210
WT-26
WT-30A
01 A-411 TL-01
BALCONY
RW
DP
03 A-411
RT
4,225
4,490
200 165
WT-01A
1 A-210
1,100
1,100
1,000
3 A-200
625 342
WT-02
W1.18
WT-21
LIFT
2,000 LIFT
PACK OUT WALL TO LINE OF WT-11 AS SHOWN
1 A-210
WT-03A
W1.21
W1.20
85
WT-14
AHD - +7.580
4,245
LANDSCAPE
W1.01
85
W1.02
350
W1.03
4,245
W1.22
HWU
WT-14
265
2,117 WT-03A
3,377 WT-03A
4,245
WT-12
265
265 85
85
B
C
WT-02A
WT-21
W1.04
GP
D
WT-11
SFL +6.730
WT-01A
WT-13
2,000 LIFT
DP
WT-01
165
3,975
4,937
4,490
200
PACK OUT WALL TO LINE OF WT-11 AS SHOWN 04 A-411
WT-22A
FE
WT-13
WM
WT-11
WT-23A
FFL +6.750
COMMS
RW
WT-22A
WT-01
WT-10
BBQ
WT-21
WT-10
WT-02
DP
GP
SFL +6.730
20.877m
FFL +6.750
W1.17
SFL +6.730
WT-01A
FFL +6.750
W1.05
20.877m
875
2,050 178
C
1 A-200
1,000
WT-24
BBQ
E
6,149 BALC
WT-11
850
DP
ROW
DP
2,342
DP
12,322
W1.09
PR-02 178
178
W1.08 W1.07
E
4,176
SB-01 ABOVE WALL
WT-15
MC-03
4,176
2,138 PR-01 855
4,176
4,176
TYPICALLY PROVIDE MITRED CORNER JOINT TO RECKLI PRECAST PANEL BALUSTRADE
F
MF-01 2,993
2,998
MF-01
B
W1.19
WT-02
MF-01
165
3 A-210
178 5,494
1,290 165
40.234m
WT-03A
535
1,800
4,997
1,000
3 A-300
WT-02
SC-01 ABOVE WALL 715
A
SFL +6.650 AC COND UNITS 1-4
MF-01
WT-03A
WT-03A
3,792
4,245
4,330
WHITE PEBBLE BALLAST ROOF
SFL +6.310
WT-02
WT-07
VT-01 4,245
DOCKER ST
9
4,170
1,985 LIFT
4 A-200
1,755 13,464
1,690
1,317
1,690
885
780
165
1,100
165
A
307째23' 4 A-210
800
2,775 4,355
2,095
1,690
1,421
1,690
1,755 14,999
1,000
5,043
1,691 1,386
30
PORTFOLIO
FFL
755
June 19, 2019 11:45 AM
ADELA
EQ
EQ
EQ
755
20
NO. 20 OF 46
3,400
GENERAL LIGHTING & ELECTRICAL
1
KITCHEN - TYPE 01 UNIT 1
PLAN - KITCHEN TYPE 01
A-500
INTERIOR FINISHES LEGEND CF-01 CF-02 CF-03 CF-04 CF-05
ABOVE BENCH DOUBLE DGPO
SCALE: 1:20
BELOW BENCH DOUBLE DGPO GPO INSIDE JOINERY
UNIT 2 FOR UNIT 2 & 6 MIRROR LAYOUT
RANGEHOOD GPO OVEN GPO
UNIT 3
FRIDGE GPO ROLLER BLIND POWER AT HIGH LEVEL IN WALL
UNIT 5
ROLLER DOOR GPO
UNIT 6
WEATHERPROOF IP RATED DGPO 3 PHASE POWER PAY TV & TELEVISION POINTS PHONE/DATA POINT S01 A-590
S02 A-590
C
S03 A-590
WIRING/LIGHT SWITCH GROUPING S03 A-590
S02 A-590
S01 A-590
S01 A-590
S02 A-590
LT01 - SURFACE MOUNTED DOWNLIGHT LT01A - SURFACE MOUNTED DOWNLIGHT. 24h
3,400 125
630
EQ
EQ
EQ
630 AP06
LIGHT ON
125
LT02 - RECESSED DOWNLIGHT
FX27
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 S03 LM-01 A-590 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
LT03 - ADJUSTABLE TRACK LIGHT
LT05 - PENDANT LIGHT RN01
RN01
FX03
RN01
TZ01
TZ02
TZ02
RN01
RN01
AP06
FX05 FX32
FCL
FCL
LT07 - LED STRIP LIGHT
BBQ - TYPE 01
RN01
RN01
TZ02
RN01
LT11 - EXT RECESSED WALL / STEP LIGHT
RN01
RN01
RN01
LT12 - EXTERNAL WALL LIGHT LT13 - EXTERNAL LIGHT (ENTRY BACKLIT
TZ02
NUMBERS)
UNIT 3 GPO RH
SHELF
65
LT08 - INTERNAL/ EXTERNAL WALL LIGHT LT10 - EXT SURFACE MOUNTED DOWNLIGHT
UNIT 1
AP04
RECESSED CEILING EXHAUST FAN
SHELF LT07 RECESSED LED STRIP LIGHTING
500
LIGHT SWITCH
LT04
MAINS SWITCHBOARD
FX33
FX33
FX33
FX33
FX34
JOIN LINE
AP06 ABOVE BENCHPULL DOUBLE DGPO PROPRIETRY DOWN ROOF ACCESS LADDERBENCH & HATCH TO COMPLY ALL BELOW DOUBLE DGPO WITHVENEER INNER DRW ROOF ACCESS & OHS CODES RELEVANT & GRAIN GPO INSIDE JOINERY REQUIREMENTS GPO DW RANGEHOOD GPO
FX33
PA01
30
DRAWER
DRAWER
DRAWER
DRAWER
CEILING FAN AS SCHEDULED OVEN GPO DRAWER FRIDGE GPO
TV01
FX33
DRAWER
FX33
FX33
FX33
PA01
FFL
755
EQ
EQ
EQ
755
FFL TILED KICKER TO ALIGN WITH FLOOR SETOUT
20
B
TZ01
ROLLER DOOR GPO
TZ01 EQ
A A-500
3 PHASE POWER
EQ
EQ
SCALE: 1:20
1,046 AP11 1,200
EQ
A-500
PAY TV & TELEVISION POINTS PHONE/DATA POINT WIRING/LIGHT SWITCH GROUPING
LT01 - SURFACE MOUNTED DOWNLIGHT
2 PLAN ELEVATION - KITCHEN TYPE 01 - BBQ TYPE 01 SCALE: 1:20
INTERIOR FINISHES LEGEND CF-01 CF-02 CF-03 CF-04 CF-05 SF-01
VENEER GRAIN ROLLER BLIND POWER AT HIGH LEVEL IN WALL
WEATHERPROOF IP RATED DGPO
ELEVATION - KITCHEN TYPE 01
A-500
PA01
VENEER GRAIN
TYPICAL 20MM RECESSED SHADOWLINE TO WALLS
3,400
PLAN - KITCHEN TYPE 01
FFL
PA01
20
DRAWER
210
DRAWER
FX33
90
FX33
210
FX33
A-500
INNER DRW
DRAWERAP11 FX05 AP12 FX32
TYPE 01
AP04
TZ02 TZ02
1
AC CONDENSER UNIT FX03 GENERAL LIGHTING & ELECTRICAL PLASTERBOARD CEILING ACCESS PANEL HW03 (RONDO OR SIMILAR TO APPROVAL)
BBQ
VENEER GRAIN
350
350
VENEER GRAIN
TV01
GPO
FX01 WALL MOUNTED A/C UNIT *FX01a FOR UNIT 2 EXHAUST TO OUTSIDE
TZ02
HW03 TZ02
DRAWER 950
CT GPO DRAWER
950
DRAWER
90
718
FX30
DRAWER
S08 A-591
A TZ02
FX27 DRAWER
FX31 FX34
FX31
250 50
RN01
RN01
UTENSILS DRAWER
FX30
250 50
CUTLERY DRAWER
AP01
1,650
BENCHTOP
20
GPO
GPO
AP01
ABOVE FINISHED FLOOR LEVEL MITRED CORNERS LINEAR BAR GRILLE A/C DIFFUSERTO ALL STONE SUPPLY / RETURN AIR
585
TZ02
GPO
FINISHED CEILING LEVEL
JOIN LINE
B RANGE HOOD AND SHELF SHOWN DASHED
RN01
800
TYPE 01
800
JOIN LINE
CL
RN01
500
UNIT 5
2 WAY INTERCOM
KITCHEN
JOIN LINE
TILE SETOUT
BASE OF LIGHT
TZ02
625
A 1,000
60
CENTRELINE TZ01
748
SF-01
LT04 - WALL LIGHT
FCL
740
FX01
CL
MITRED CORNERS TO STONE SHELF
MITRED CORNERS TO RANGE HOOD ENCLOSURE
800
JOIN LINE
TZ02
CL
JOIN LINE
JOIN LINE RN01
535
850
30
290
70
CL
B
PLASTERBOARD WITH PAINT FINISH A-50 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
LT01A - SURFACE MOUNTED DOWNLIGHT. 24h
SCALE: 1:20
LIGHT ON
SCALE: 1:20
LT02 - RECESSED DOWNLIGHT
CP-01 PA01 TM-01 TZ-01 TZ-02
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 CARPET PA01 ENGINEERED TIMBER BOARD
TERRAZZO TILE TERRAZZO SLAB
PA-01 PAINT FINISH 1 PROVIDE ELECTRICAL AND 1 - WHITE PC-01 POWDERCOAT WATER CONNECTION PC-02 POWDERCOAT 2 - GREY RN-01 TEXTURED PAINT FINISH TV-01 TIMBER VENEER MT-01 METAL FINISH 1 - AGED IRON MT-02 METAL FINISH 2 - SATIN CHROME LM-01 LAMINATE - WHITE LM-02 LAMINATE - MATTE BLACK SS-01 STAINLESS STEEL GL-01 GL-02 GL-03
C
GLASS TEXTURED SHOWER SCREEN A-500 GLASS MIRROR GLASS CLEAR
LT03 - ADJUSTABLE TRACK LIGHT LT04 - WALL LIGHT LT05 - PENDANT LIGHT
766 786 20
410
20
786
450 336
25
395
286
30
30 475
286 100 TOE
25
LT07 - LED STRIP LIGHT
450 666
REV B1
D
EA
KH
L BU
BY DATE NOTE CG 28/06/18 ISSUED FOR BUILDING PERMIT
LT08 - INTERNAL/ EXTERNAL WALL LIGHT LT10 - EXT SURFACE MOUNTED DOWNLIGHT
D05
CL02 S01 A-590
S02 A-590
S03 A-590
S02 A-590
S01 A-590
ADJ.
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
20
S03 A-590
D05
ADJ.
20
950
20
FCL
20
LT11 - EXT RECESSED WALL / STEP LIGHT LT12 - EXTERNAL WALL LIGHT FCL LT13 - EXTERNAL LIGHT (ENTRY BACKLIT
D05 D05
PA01
NUMBERS)
ADJ.
ADJ.
RECESSED CEILING EXHAUST FAN
TV01
TV01
LM01
LM01
CL
ADJ.
TV01
TV01
CENTRELINE
780
LM01
ADJ.
760
AP12
780
760
700 LM01
LIGHT SWITCH
CL
ADJ.
ADJ.
MAINS SWITCHBOARD 2 WAY INTERCOM
383
SCALE: 1:20VENEER GRAIN
FX16
FX16
CEILING FAN AS SCHEDULED
TZ02 CO03
TZ02
CO03
2,900
550 TV01
1,000
2,000
280
TZ01
TZ02
SCALE: 1:20
TV01
GPO AP11
FFL
SS01
S16 FLEX ROOM UNIT 5 A-591
TZ02
TZ02
TZ02 SS01
STAINLESS STEEL FINISH TO BENCHTOP & 50mm RETURN. ALIGN TO SIDE WALLS
200
90 50
S15 LAUNDRY - WASHER SECTION TYPE 03 A-591
DRW
1,650
TZ01
250
TZ02
50
TZ02
D02
A-591
950
347 800
TZ01
FX01
FX03
INNER DRW FX32
AC CONDENSER UNIT 30 PLASTERBOARD CEILING ACCESS PANEL (RONDO OR SIMILAR TO APPROVAL) PROPRIETRY PULL DOWN ROOF ACCESS LADDER & HATCH TO COMPLY WITH ALL RELEVANT ROOF ACCESS & OHS CODES & REQUIREMENTS
LT07 TERRAZZO TILE SPLASHBACK TO EXTENTS OF OPENING. TILES CENTRED TO BENCH
90
MITRED CORNERS TO ALL STONE
210
187
TZ02
HW03
FX05
810
950
PA01
90
TZ01
GPO
AP06 S14 LAUNDRY - WASHER SECTION TYPE 02
INNER DRW
32 233
FX12
SCALE: 1:20
REFER TO PRODUCT INSTALLATION SPECIFICATIONS TO CONFIRM BBQ UNIT LOCATION. CENTRE BBQ TO BENCHTOP
S17 ENSUITE - FONT A-591
SCALE: 1:20 CL02
GPO
60
VENEER GRAIN
ADJ.
950
350
950
50
30 20
TZ02
DRAWER
D03
DRW
30 235
FX12 AP12
BENCH
DRW
LM01
WASHER BY PURCHASER
FX03
FX27
SCALE: 1:20
MITRED CORNERS TO ALL STONE
BASE OF LIGHT
233 32
30
FIX.
TZ02
S08 TYPICAL BBQ SECTION A-591
DRYER BY PURCHASER
TV01
JOIN LINE
250 50
HW03
WASHER BY PURCHASER
JOIN LINE
JOIN LINE
90 1,650
FX01 *FX01a FOR UNIT 2
RECESSED KICKER
PA01
JOIN LINE
660
CL02
TZ02
30 TZ02
LT04
LT04
GPO FFL
PA01
00
BASE OF LIGHT
REFER TO PRODUCT INSTALLATION SPECIFICATIONS TO CONFIRM BBQ UNIT LOCATION. CENTRE BBQ TO BENCHTOP
TZ02
WALL MOUNTED A/C UNIT EXHAUST TO OUTSIDE
885
TZ02
D01 1,442
D01
900
200
SS01
LINEAR BAR GRILLE A/C DIFFUSER SUPPLY / RETURN AIR
TV01
850
TZ02
TV01
FIX. 320
TZ02
TZ02
AP11
D06
50
RN01
TZ02
RN01
RN01
DRYER BY PURCHASER
160
RN01 TZ02
STAINLESS STEEL FINISH TO BENCHTOP & 50mm RETURN. ALIGN TO SIDE WALLS
FLANGELESS LINEAR BAR GRILLE. REFER MECH ENG'S DETAIL / SPEC
2,550
RN01 SS01
RN01
CL02
FIX.
TV01
TV01
800
800
RN01
LT07
HW11
TV01
2,550
TV01
FCL
FINISHED CEILING LEVEL
TV01
ABOVE FINISHED FLOOR LEVEL
20
LT07
D06
TZ01 RN01
FIXED
FIXED
11
FIXED
160
FIXED
PROVIDE COMPLIANT NONCOMBUSTIBLE SUBSTRATE
1,000
2,900
FCL
CL 20
TERRAZZO TILE SPLASHBACK TO EXTENTS OF OPENING. TILES CENTRED TO BENCH
20
LT07
PORTFOLIO
ELWOOD
NO. 21 OF 46
PORTFOLIO
HOPE ST
HOPE ST RESIDENCE
SOUTH YARRA | VIC | AUSTRALIA | 2019 Tallis Architecture
June 19, 2019 11:45 AM
NO. 22 OF 46
PORTFOLIO
RESIDENCE
NO. 23 OF 46
PORTFOLIO
June 19, 2019 11:45 AM
HOPE ST
NO. 24 OF 46
INTERNAL FINISHES Refer to Finishes & Fixtures Schedule for further details
CL
INTERNAL FINISHES Refer to Finishes & Fixtures Schedule for further details
CL 20mm SHADOW LINE TYPICAL
20mm SHADOW LINE TYPICAL adj. adj.
TV:01
LED RECESSED TO ABOVE SHELF
adj.
grain
TV:01
TV:01
grain
TV:01
ENGINEERED TIMBER FLOOR
GL:01 GL:02 GL:03
CLEAR GLAZING OBSCURED GLAZING MIRROR
LM:01 LM:01
LAMINATE FINISH 1 LAMINATE FINISH 2
MF:01 MF:02 MF:03
BLACK POWDER COAT METAL WHITE POWDER COAT METAL GREY POWDER COAT METAL
PA:01
WHITE PAINT FINISH
ST:01
STONE BENCH
TL:01 TL:02
TILE TYPE 1 TILE TYPE 2
TV:01
TIMBER VENEER
grain
adj.
LED RECESSED TO ABOVE SHELF
FF:01
grain
FF:01
ENGINEERED TIMBER FLOOR
GL:01 GL:02 GL:03
CLEAR GLAZING OBSCURED GLAZING MIRROR
LM:01 LM:01
LAMINATE FINISH 1 LAMINATE FINISH 2
MF:01 MF:02 MF:03
BLACK POWDER COAT METAL WHITE POWDER COAT METAL GREY POWDER COAT METAL
PA:01
WHITE PAINT FINISH
ST:01
STONE BENCH
TL:01 TL:02
TILE TYPE 1 TILE TYPE 2
TV:01
TIMBER VENEER
adj. - half depth
adj. - half depth adj. - half depth
FIXTURES & FITTINGS LEGEND
fix.
Refer to Finishes & Fixtures Schedule for further details
adj. - half depth fix.
TV:01
TV:01
LED RECESSED TO UNDER SHELF
LED RECESSED TO UNDER SHELF
TV:01
ST:01
adj. - half depth
TV:01
join line
TV:01
TV:01
ST:01
TV:01
ST:01
GPO
adj. - half depth
TV:01
MX:01 CT:01 TV:01
MX:01 CT:01
ST:01
Refer to Finishes & Fixtures Schedule for further details
join line
TV:01
FIXTURES & FITTINGS LEGEND
grain
fix.
grain
GPO fix. drw. adj.
drw. adj.
drw.
grain
drw.
OV:01
drw.
drw.
fix.
drw.
drw.
drw.
drw.
OV:01
DW:01 TV:01
drw.
DW:01 drw. grain
TV:01
drw.
drw.
drw.
drw.
fix.
drw.
drw.
drw.
BA:01 CN:01 FP:01 FW:01 HK:01 LB:01 MX:01 MX:02 MX:03 SK:01 SA:01 SB:01 SB:02 SF:01 SH:01 TP:01 TR:01 TS:01
BASIN CISTERN FLUSH PLATE FLOOR WASTE ROBE HOOK LETTERBOX MIXER 1 MIXER 2 MIXER 3 SINK SHOWER ARM SHOWER BASE 1 SHOWER BASE 2 SHOWER SHELF SHOWER PAPER ROLL HOLDER TOWEL RAIL TOILET SUITE
CT:01 CD:01 DW:01 OV:01 RH:01 WM:01 CO:01 HR:01
COOKTOP CLOTHES DRYER DISHWASHER OVEN RANGEHOOD WASHING MACHINE CONDENSOR UNIT HEAT RECOVERY UNIT
HA:01
HANDLE
BA:01 CN:01 FP:01 FW:01 HK:01 LB:01 MX:01 MX:02 MX:03 SK:01 SA:01 SB:01 SB:02 SF:01 SH:01 TP:01 TR:01 TS:01
BASIN CISTERN FLUSH PLATE FLOOR WASTE ROBE HOOK LETTERBOX MIXER 1 MIXER 2 MIXER 3 SINK SHOWER ARM SHOWER BASE 1 SHOWER BASE 2 SHOWER SHELF SHOWER PAPER ROLL HOLDER TOWEL RAIL TOILET SUITE
CT:01 CD:01 DW:01 OV:01 RH:01 WM:01 CO:01 HR:01
COOKTOP CLOTHES DRYER DISHWASHER OVEN RANGEHOOD WASHING MACHINE CONDENSOR UNIT HEAT RECOVERY UNIT
HA:01
HANDLE
drw.
K
1:20
K
1:20 LED RECESSED TO SHELF FCL
LED RECESSED TO SHELF TV:01 grain
TV:01 grain
TV:01 grain
PA:01
FCL TV:01 grain
TV:01 grain
TV:01 grain
PA:01 TV:01
MF:01
TV:01 TV:01
MF:01
TV:01
fix.
HR:01 fix.
HK:01
HR:01
TV:01 grain
TV:01 grain
TV:01
TV:01 grain
grain
TV:01 grain
TV:01
join line
TV:01 grain join line
PA:01
join line
PA:01
join line
HK:01
TV:01 grain
TV:01
NOT FOR CONSTRUCTION NOT FOR CONSTRUCTION
grain
HOPE ST
TV:01 Project
TV:01
118 Hope St, South Yarra VIC 3141
HOPE ST
TV:01
Project
118 Hope St, South Yarra VIC 3141 Drawing title
Drawing title
Interior - Kitchen/Dining
adj.
Interior - Kitchen/Dining adj. adj.
adj.
adj.
adj.
TV:01
Scale adj.
adj.
TV:01
adj.
adj.
fix. inner drw.
FFL inner drw.
FFL
Sheet size
A2
Checked by AM
Project
Drawing
HOPE drw.
A501
Plot date 14/6/19 drw. /Volumes/Projects/118 Hope Street/_C. DOCUMENTATION/C.1 - CAD/C.1.1 - ARCHICAD FILES/118H_DD.pln
D D
1:20
Status Preliminary fix.
1:20 1:20
Scale
1:20
Sheet size
A2
Status Preliminary
Checked by AM
Project
Drawing
HOPE
A501
Plot date 14/6/19 /Volumes/Projects/118 Hope Street/_C. DOCUMENTATION/C.1 - CAD/C.1.1 - ARCHICAD FILES/118H_DD.pln
NO. 25 OF 46
A300 N
A410
RESIDENCE
SECTION 03
PORTFOLIO
12 A700
9
TILE SETOUT
D002
TL:01
+16,337
+16,174
DS
DS
SW:01
8
7
5
4
3
2
1
2 A710 SW:01
90
4
WT:01b
SECTION 02 A410
3
DS SW:02b
L'DRY
DS
BROOM
D K
DINING TF:01
WT:02
2
W004
2
+16,355
2
W006
+16,195
SW:04
RAINWATER GARDEN
W003
933
W007 SW:04
SECTION 01
1,340
SW:01
3
A400
KITCHEN
1,560
1
1
W002 2,297
1,830
+16,500
W005
2
BED 1 TF:01
E A330
TF:01 LIVING
+16,500
3
W A320
RAINWATER GARDEN
1,338
4,901
ENTRY
SECTION 01
2,118
SW:02d
DS
4,901
90
SW:01
HRV
690
FW
SW:02d
SW:01
D001 863
890
6
90
+16,001
3 A710
HALL
SW:03a
5
1,001
W001
1,048
998
SECTION 02
POWDER ROOM
950
SW:04
WT:01a
DS
SW:04
SW:02a
SW:04
A410
221
90 2 90 90
70
249
139
1 A710
A400
W008
SW:04
70
CLEAN & RE-MORTAR EXISTING STONEWORK
10 90 35 105
90
3,014 1,234
3,020 1,528
+16,195
40 90 90
233 70
WT:01a 1
660
90 1,670
3,468
5,330
900
1,321
250
90 890
2,053
1,820
1,560
FINISHES
INTERNAL FINISHES
ixtures Schedule for further details
Refer to Finishes & Fixtures Schedule for further details
EXPOSED CONCRETE BLOCKWORK
FF:01
ENGINEERED TIMBER FLOOR
2,480 254
3,143
1,200
1,373
1,994 D
2,700 E
F
A410
C SECTION 03
B
W2 A320
S A310
1:50
680
9,397
10,562
GROUND FLOOR PLAN
1,224 4,750
10,562
A
1
40 90 90
NOT FOR CONSTR Project
PORTFOLIO
MAY GROVE
MAY GROVE RESIDENCE
SOUTH YARRA | VIC | AUSTRALIA | 2019 Tallis Architecture
June 19, 2019 11:45 AM
NO. 26 OF 46
PORTFOLIO
RESIDENCE
NO. 27 OF 46
External Finishes
June 19, 2019 11:45 AM
MAY GROVE
7
MF:01
MF:01
MF:01
PV:01
TIMBER BATTEN FENCE/PRIVACY SCREEN. NO. 28 OF 46 METAL FINISH - MATT BLACK EXTERNAL VENETIAN SUNSHADE, COLOUR: MATT BLACK VERTICAL CABLE, STAINLESS STEEL: MATT BLACK METAL CLADDING TYPE - MATT BLACK SHOU SUGI BAN CHARRED TIMBER BATTENS OVER CONVENTIONAL ROOFING SYSTEM. TO MATCH EC:04 PHOTOVOLTAIC PANELS
S-03
S-01
ST AN DA RD
B1
11 M A Y G R O V E
FENCE:01 MF:01 MF:02 MF:05 RO:01 RO:02
NEW SIDE DOOR WITH GLASS LEAF, FRAME TO BE MATT BLACK NEW SLIDING DOOR, FRAME TO BE MATT BLACK NEW ENTRY DOOR TO MATCH EC:02 NEW WINDOWS WITH BLACK STEEL SHROUD EXTERNAL CLADDING, SHADOW LINE, MATT BLACK EXTERNAL CLADDING, WHITE CYPRESS SHIPLAP BOARDS BATTEN SCREEN EXTERNAL CLADDING - SHOU SUGI BAN CHARRED TIMBER EXPOSED CONCRETE FOOTING RENDER FINISH
TITLE BOUNDARY
E04 MF:01
30,480
Parti Wall - 11 May Grove 24,646
5,834
FENCE:01
TITLE BOUNDARY
8,030
E
Stair
NGL
A: 6.9 m2
FENCE:01
HSBC 200
Bed 3 A: 11.1 m2
F
Under Ground Water Tank 1500L connected to garden, toilets & laundry. Refer to Stormwater Report. +7,460
2,500
E01
HRV 170
WC A: 1.6 m2
Services Under PV Batteries
OV
A: 17.3 m2
Garden Bed
WL04
Pit Under
+6,590
T E N N I S
G R O V E
1,800
GR AY M 11
A: 13.6 m2
C O U R T
Living
A: 12.3 m2
TITLE BOUNDARY
A: 14.5 m2
Hall
6 foot table 4.6 x 3.65
Dining
Garden Bed
Laundry
FENCE:01
SBPP 100
TITLE BOUNDARY
M A Y
+7,330
Hall
Garden Bed
+7,330
Kitchen
H A W K S B U R N
S-04 +10,330
Storage
Storage
5,097
S-04
E02
TITLE BOUNDARY
+15,212
D01 D02 & D04 D03 W01-04 & W06-11 EC:01 EC:02 EC:03 EC:04 EC:06
S-02
PORTFOLIO
TITLE BOUNDARY
P.O.S
E03
FENCE:01
E-04 West Elevation -
19,162
5,484
5,834
15 MAY GROVE AN ST RD
DA
Outline - 15 May Grove
7
B1
MF:01
MF:01
MF:01
MF:01
TITLE BOUNDARY
+14,115
TITLE BOUNDARY
+15,200
EC:02
MF:01
Development Summary
EC:04
Site
Covera
EC:02
Line of Ex. Fence
15
FENCE:02
M
GR
EC:06
188m²
Existing Dwelling:
93 m² (Ground) FENCE :01 Ground) 57m² (Lower
Existing Total Dwelling:
EC:06
Existing Site Coverage: 93.5m² Proposed Site Coverage - Ground 102m²
Lot Area:
Permeabili Pervious Area: Impervious Area:
150m²
45% 55%
Proposed Area:
WL01 WL02
Lower Ground Floor -
97m²
Ground WL04
102 m²
Floor -
NGL
+7,330 Tallis Architecture
project number
scale
+7,330
REVISION
ISSUE
DA
C D E
WINDOW REVISION REVISION REVISION
13 20 19
1,800
+10,330
AY
E OV
1,700
-
Line of Ex. Fence
LOWER GROUND - PROPOSED 1:100
PORTFOLIO
RESIDENCE
NO. 29 OF 46
External Finishes D01 D02 & D04 D03 W01-04 & W06-11 EC:01 EC:02 EC:03 EC:04 EC:06
+15,212
MF:01 RO:02 MF:02 EC:04
:03
1,250
NGL BEYOND
EC:06
EC
+10,330
MF:02
+7,330
PV:01
13 M A Y G R O V E
11 M A Y G R O V E
MF:01
MF:01
FENCE:01 MF:01 MF:02 MF:05 RO:01 RO:02
TIMBER BATTEN FENCE/PRIVACY SCREEN. METAL FINISH - MATT BLACK EXTERNAL VENETIAN SUNSHADE, COLOUR: MATT BLACK VERTICAL CABLE, STAINLESS STEEL: MATT BLACK METAL CLADDING TYPE - MATT BLACK SHOU SUGI BAN CHARRED TIMBER BATTENS OVER CONVENTIONAL ROOFING SYSTEM. TO MATCH EC:04 PHOTOVOLTAIC PANELS
15 M A Y G R O V E
TITLE BOUNDARY
PV:01
TITLE BOUNDARY
RO:01
11 M A Y G R O V E
TITLE BOUNDARY
13 M A Y G R O V E
TITLE BOUNDARY
GROVE
NEW SIDE DOOR WITH GLASS LEAF, FRAME TO BE MATT BLACK NEW SLIDING DOOR, FRAME TO BE MATT BLACK NEW ENTRY DOOR TO MATCH EC:02 NEW WINDOWS WITH BLACK STEEL SHROUD EXTERNAL CLADDING, SHADOW LINE, MATT BLACK EXTERNAL CLADDING, WHITE CYPRESS SHIPLAP BOARDS BATTEN SCREEN EXTERNAL CLADDING - SHOU SUGI BAN CHARRED TIMBER EXPOSED CONCRETE FOOTING RENDER FINISH
PORTFOLIO
OUR
OUR FABHAUS
AUSTRALIA | 2019 Tallis Architecture | Our FabHaus
June 19, 2019 11:45 AM
NO. 30 OF 46
PORTFOLIO
FABHAUS
NO. 31 OF 46
BEDROOM
BEDROOM
BEDROOM
KITCHEN
BEDROOM
BEDROOM
BEDROOM
KITCHEN DINING
LIVING
STORE
STORE
STORE
BATH
STUDY
UTILITY
L'DRY
LIVING 1
STORE
BATH UTILITY
DINING
LIVING 1
STORE
STORE
KITCHEN DINING
LIVING
BATH STUDY
BEDROOM KITCHEN
DINING
LIVING
BATH UTILITY
BEDROOM KITCHEN
DINING
STORE
BATH
STUDY
UTILITY
STUDY
UTILITY
STUDY
L'DRY
STORE
STORE
L'DRY
STORE
L'DRY
STORE
BATH
BATH
STORE
STORE
LIVING 2
Plot date 13/6/19
Plot date 13/6/19
1
BEDROOM
BEDROOM
BEDROOM
KITCHEN
BEDROOM
BEDROOM
STORE
UTILITY
STORE
BATH
STUDY
UTILITY
L'DRY
LIVING 1
STORE
BATH
STORE
DINING
LIVING 1
STORE
STUDY
KITCHEN DINING
LIVING
BATH UTILITY
BEDROOM KITCHEN
DINING
STORE
Designed by Julia Thomas & John Tallis
BEDROOM KITCHEN
LIVING
BATH
FLOOR PLAN Designed by Julia Thomas & John Tallis
BEDROOM
DINING
LIVING
Plot date 13/6/19
4
FLOOR PLAN Designed by Julia Thomas & John Tallis
KITCHEN DINING
STORE
BEDROOM
3a
FLOOR PLAN Designed by Julia Thomas & John Tallis
BEDROOM
Plot date 13/6/19
3
FLOOR PLAN Designed by Julia Thomas & John Tallis
BEDROOM
Plot date 13/6/19
2
FLOOR PLAN
LIVING 2
BEDROOM
BEDROOM
BATH
STUDY
UTILITY
STUDY
UTILITY
STUDY
L'DRY
STORE
STORE
L'DRY
STORE
L'DRY
STORE
BATH
BATH
STORE
STORE
LIVING 2
Plot date 13/6/19
Plot date 13/6/19
1
BEDROOM
GARAGE
BEDROOM
BEDROOM
KITCHEN
BEDROOM
FLOOR PLAN EXT 1 Designed by Julia Thomas & John Tallis
Designed by Julia Thomas & John Tallis
BEDROOM
BEDROOM
BEDROOM KITCHEN
KITCHEN DINING
LIVING
KITCHEN DINING
DINING
LIVING
DINING
LIVING 1
LIVING
LIVING 1
STORE
STORE
STORE
BATH
STORE
BATH UTILITY
BEDROOM
Plot date 13/6/19
4
FLOOR PLAN EXT 1 Designed by Julia Thomas & John Tallis
KITCHEN DINING
BEDROOM
3a
FLOOR PLAN EXT 1 Designed by Julia Thomas & John Tallis
BEDROOM
Plot date 13/6/19
3
FLOOR PLAN EXT 1 Designed by Julia Thomas & John Tallis
BEDROOM
Plot date 13/6/19
2
FLOOR PLAN EXT 1
LIVING 2
BEDROOM
BEDROOM
BATH UTILITY
STUDY
UTILITY
STORE
STUDY
UTILITY
L'DRY
STORE
STORE
BATH
BATH
STUDY
UTILITY
STUDY
STUDY
L'DRY
STORE
STORE
L'DRY
L'DRY
GARAGE STORE
STORE
BATH
BATH
GARAGE
STORE
STORE
GARAGE LIVING 2
BEDROOM
Plot date 13/6/19
1
Plot date 13/6/19
2
FLOOR PLAN EXT 2
BEDROOM
Plot date 13/6/19
4
FLOOR PLAN EXT 3 Designed by Julia Thomas & John Tallis
BEDROOM
Plot date 13/6/19
3a
FLOOR PLAN EXT 2 Designed by Julia Thomas & John Tallis
BEDROOM
Plot date 13/6/19
3
FLOOR PLAN EXT 2 Designed by Julia Thomas & John Tallis
LIVING 2
BEDROOM
FLOOR PLAN EXT 3 Designed by Julia Thomas & John Tallis
Designed by Julia Thomas & John Tallis
PORTFOLIO
OUR
June 19, 2019 11:45 AM
NO. 32 OF 46
PORTFOLIO
FABHAUS
NO. 33 OF 46
PORTFOLIO
OUR
June 19, 2019 11:45 AM
NO. 34 OF 46
PORTFOLIO
S.L.S.C.
NO. 35 OF 46
ST KILDA S.L.S.C. ST KILDA | VIC | AUSTRALIA | 2018 University of Melbourne
PORTFOLIO
ST KILDA
June 19, 2019 11:45 AM
NO. 36 OF 46
PORTFOLIO
S.L.S.C.
NO. 37 OF 46
PORTFOLIO
BoweR
BOWER WADEYE
NT | 2017 Bower Studio | University of Melbourne
June 19, 2019 11:45 AM
NO. 38 OF 46
PORTFOLIO
WADEYE
NO. 39 OF 46
PORTFOLIO
BoweR
June 19, 2019 11:45 AM
BOWER SUANUM
Papua New Guniea | 2018 Bower Studio | University of Melbourne
NO. 40 OF 46
PORTFOLIO
Suanum
NO. 41 OF 46
PORTFOLIO
June 19, 2019 11:45 AM
BARE
BARE DISENO 2016
NO. 42 OF 46
PORTFOLIO
DISENO
NO. 43 OF 46
Postcode/City: Province/Country: PORTFOLIO
June 19, 2019 11:45 AM Architecture:
Passive
Street:
Street:
Postcode/City:
Postcode/City:
Province/Country:
Province/Country:
Energy consultancy:
Certification:
Street:
Street:
Postcode/City:
Postcode/City:
Province/Country:
Province/Country:
Year of construction: No. of dwelling units: No. of occupants:
PASSIVE HOUSE
2019
20.0
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
Mechanical cooling:
Interior temperature winter [°C]: 2
1 5.0
Treated floor area m²
Fullfilled?2
-
≤
-
10
4 12 0
≤
16
16
≤
-
10
≤
-
≤
10
yes
0.6
≤
0.6
yes
PE demand kWh/(m²a)
44
≤
120
yes
PER demand kWh/(m²a)
20
≤
-
-
0
≥
-
-
Frequency of overheating (> 25 °C) % Frequency of excessively high humidity (> 12 g/kg) %
Primary Energy Renewable (PER)
Alternative criteria
15
Cooling & dehum. demand kWh/(m²a)
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE)
Criteria ≤
Cooling load W/m²
Airtightness
393.9
0 -
Heating demand kWh/(m²a) Heating load W/m²
Space cooling
x
The PHPP has not been filled completely; it is not valid as verification
Specific building characteristics with reference to the treated floor area
Space heating
NO. 44 OF 46
Mechanical engineer:
Generation of renewable energy (in relation to pro-jected kWh/(m²a) building footprint area)
yes 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:
Empty field: Data missing; '-': No requirement
Passive House Classic?
yes Signature:
Passive House with PHPP Version 9.6a
Specific energy for heating (monthly method) PHPP KELLYVILLE / Climate: Sydney / TFA: 394 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 18.4 kWh/(m²a) Interior temperature: Building type: Treated floor area ATFA :
°C 20 RESIDENTIAL m² 394
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
Losses - Ground
0
0
0
0
0
0
0
0
0
0
0
0
0
kWh
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
342
413
506
585
639
625
490
440
362
271
222
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
Solar gains - Horiz.
0
0
0
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
kWh/m²
ENERGY FOR HEATING 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%
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
Summer ventilation mechanically 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 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 0.3
0.0 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 0.0 0.0 0.0 0.0
0 2 0 0 0 0 0 3
COOLING & DEHUMIDIFICATION
Sum spec. losses
Specific losses and gains heating balance [kWh/(m²month)]
10 8
-
POTENTIAL SCENARIOS
PHPP KELLYVILLE / Climate: Sydney / TFA: 394 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 18.4 kWh/(m²a) Building type: RESIDENTIAL
kWh/m² kWh/m²
Internal humidity sources
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
Humidity loads (left) Dehumidification energy (right) [kWh/(m² month)]
2
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.
BASELINE
386 #REF!
1.0 #REF!
kWh/a
Results passive cooling Frequency of overheating: max. humidity: Frequency of exceeded humidity:
kWh/a
1064
m³
12 100
g/kg g/(P*h)
7.4% 15.6 10.9%
at the overheating limit Jmax = 25 °C g/kg
The baseline data istoprovided from the PHPP Summer basic ventilation ensure adequate air quality parison of the following scenarios. 0.33
Air change rate via vent. system with supply air:
Heat recovery efficiency:
0%
Humidity recovery efficiency: Subsoil heat exchanger efficiency:
0% 0%
Results active cooling Useful cooling demand: 2.4 Dehumidification demand: 2.6 Frequency of exceeded humidity: 15.1%
kWh/(m²a) kWh/(m²a)
of the proposed building composition - this data is for com-
1/h
HRV/ERV in summer (check only one field) None
A series of potential scenarios have been identified. Using thecontrolled results of both passive and active cooling Automatic bypass, by temperature difference Automatic bypass, controlled by enthalpy difference x criteria, the outcomes are displayed as they effect overheating, humidity, and Always dehumidification.
3.5
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
3 2.5 2
1Effective air change rate
1.5
n V,system
-
h*SHX
1/h
n V,equi,fraction
hHR
1/h
Exterior n of W106 width from 0.330 0% )*(10.00 )= 0.330 Reduction 5,530mm*(1to 2,000mm Passive House with PHPP Version 9.6a without HR 0.330 *(10% ) = 0.330 Summer ventilation Reduction 4,280mm* to 1,500mm Ground n of W107 width from 0.330 0% *(10.00 )= 0.000 PHPP KELLYVILLE / Climate: Sydney / TFA: 393 m² / Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a) without HR 0.330 * 0% = 0.000 Reduction of D104 width from 5,420mm to 2,400mm Ventilation conductance Building type: RESIDENTIAL D104 from stacked sliding to hinged double door V n c Building volume: 1061 m³ Heat recovery efficiency: 0% m³ 1/h Wh/(m³K) Deletion of W108 12 g/kg * Humidity 0% exterior H Max. indoor absolute humidity: 1064 0.330 * 0.33 recovery efficiency: = 115.8 W/K Internal humidity sources: 100 g/(P*h) Subsoil0.33 heat exchanger efficiency: 0% without 1064 * 0.330 * = 115.8 W/K Deletion ofHRW109 V,e
1
L,g
0.5 0
kWh/(m²a) reference to treated floor area according to PHPP
Building volume:
Max. indoor absolute humidity: Internal humidity sources:
4
('Heating')
('Annual heating')
Passive House with PHPP Version 9.6a
Summer ventilation
4.5
4
Annual method
kWh/m² kWh/m² kWh/m² kWh/m² kWh/m²
5
6
0
kWh/m² kWh/m² kWh/m² kWh/m²
JUL
AUG
SEP
OCT
NOV
DEC
JAN
FEB
MAR
APR
MAY
V
JUN
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.
V,equi,fraction
Air
V,e
ground HV,g 1064 Results cooling withoutpassive HR 1064 Frequency overheating: 7.0% Infiltration, window, extractofair system 1064 max. humidity: 15.5 Additional summer for cooling Frequencyventilation of exceeded humidity: 11.0%
* *
0.000 0.000
* *
at*the overheating limit Jmax = 25* °C 0.042 g/kg
0.33 = 0.0 Results 0.33 = active cooling0.0 Useful cooling demand: 2.1 0.33 = 14.7
Dehumidification demand: Frequency of exceeded humidity:
2.5 15.4%
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. Type of additional ventilation
Additional ventilation regulation -Summer basic ventilation to ensure Minimum acceptable indoor temp.
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)
h>25 ° C
Passive House Verification Photo or Drawing
Passive House Verification
>15% 10-15% 5-10% 2-5% 0-2%
Catastrophic Poor Acceptable Good Building: PHPP KELLYVILLE Excellent Street: 123 CONRAD RD
Building: PHPP KELLYVILLE
Climate zone: 5: Warm
Building type: RESIDENTIAL
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: Postcode/City:
Street:
Street:
Postcode/City:
Postcode/City:
Province/Country: No. of dwelling units: No. of occupants:
Interior temperature winter [°C]: 2
1
No. of dwelling units:
No. of occupants: 20.0
Interior temp. summer [°C]:
2.2
IHG cooling case [W/m²]:
Specific capacity [Wh/K per m² TFA]:
60
Mechanical cooling:
Treated floor area m² Heating demand kWh/(m²a)
Treated floor area m²
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) %
pAirtightness 6
Pressurization test result n 50 1/h
Heating demand kWh/(m²a)
JUN
MAY
APR
MAR
FEB
Interior temp. summer [°C]:
25.0
2.2
IHG cooling case [W/m²]:
2.2
Specific capacity [Wh/K per m² TFA]:
60
Mechanical cooling:
PHPP, Cooling units
0 -
Criteria
Alternative criteria
≤
15
-
≤
-
10
7 11
≤
-
-
≤
-
-
≤
10
≤
20
yes yes
0.6
≤
0.6
yes
Heating load W/m²
Fullfilled?2
yes
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
without HR
Criteria
Alternative criteria
15
-
≤
-
10
≤
-
-
≤
-
-
≤
10
≤
20
yes yes yes
≤
0.6
≤
120
PER demand kWh/(m²a)
18
≤
-
-
SHX
0% 0% 0% 0%
HR
)*(1) *(1-
0.00 0.00
yes 1901_PHPP_REV 3.xlsx -
pyes 7
Wh/m³ kWh/(m²a) kWh/(m²a)
n V,equi,fraction 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
Passive House with PHPP Version 9.6a x
VV n V,equi,fraction cAir Heating: 0.1 kWh/(m²a) / Freq. overheating: 7 % / PER: 2.3 kWh/(m²a) 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
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 *(1-
0% 0.330 *(10% 0.330 * 0% 0.330western * elevations 0% on the adequate air quality V
2
7 11 39
to ah*reduction in crossh ventilation.
)*(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
V,equi,fraction
Air
V,e
Fullfilled?
≤
0.6
*(1*(11/h * *
controlled x without HR 1061 * 0.330 Automatic bypass, * 0.33by enthalpy difference = 115.5 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 without HR 1061 * 0.000 * 0.33 = 0.0 Building type: RESIDENTIAL Infiltration, window, extract air system 1061 * 0.042 * 0.33 = 14.7 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 Max. indoor absolute humidity: g/kg Humidity recovery efficiency: 0% Additional summer ventilation for cooling12
4
0 -
PE demand kWh/(m²a)
Pressurization test result n 50 1/h
Non-renewable Primary Energy (PE)
393.9
3
L,g
0.330 0.330 0.33 0.330 0.330
Specific power consumption (for extract air system) 0.20 Results active cooling Useful cooling demand: 2.4 Dehumidification demand: 2.6 Frequency of exceeded humidity: 15.1%
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 andPassive dehumidification. m³ 1/h overall Wh/(m³K) 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
Street:
Specific building characteristics with reference to the treated floor area
Space heating
393.9
Certification: Postcode/City:
25.0 2.2
Exterior n V,e without HR Air change rate via vent. system with supply air: Ground n
Frequency of overheating: Additional ventilation regulationmax. humidity: Minimumnacceptable indoor temp. Exterior Frequency of exceeded humidity: V,e without HR Type ofGround additional n L,g ventilation without HR Summer basic ventilation to ensure
Internal heat gains (IHG) heating case [W/m2]:
5.0
10.9%
Results passive cooling Additional summer ventilation for cooling Effective air change rate
Province/Country: 1
Frequency of exceeded humidity:
V,g
of construction: 2019 temperature winter [°C]: TheYear PHPP results conclude an average frequency Interior of overheating at 7%.20.0
Specific building characteristics with reference to the treated floor area
Space heating
JAN
Province/Country:
Internal heat gains (IHG) heating case [W/m ]:
5.0
DEC
Street: Postcode/City:
Province/Country: 2019
Energy consultancy:
NOV
Certification:
Province/Country:
OCT
Energy consultancy:
Province/Country:
SEP
Postcode/City: Province/Country:
Street: Postcode/City:
AUG
Postcode/City:
Year of construction:
1901_PHPP_REV 3.xlsx
Street: Postcode/City:
at the overheating limit Jmax = 25 °C 1/h g/kg
V,e
Mechanical engineer:
JUL
Mechanical engineer:
Province/Country:
73.84 m
Postcode/City:
Province/Country: Street:
Altitude of location:
Province/Country: Architecture:
7.5% 0.00 15.6
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, ventilation air change rate: Internal humidity sources: window, extract air system
Street:
Street:
Street:
-
Home owner / Client:
Climate data set: AU0011a-Sydney
Architecture:
AU-Australia
Building type: RESIDENTIAL AU-Australia
Results passive cooling Frequency of overheating: Window ventilation air change rate: max. humidity: Effective air change rate
Climate data set: AU0011a-Sydney
Province/Country: KELLYVILLE RIDGE
m³ g/kg g/(P*h) 1/h
n V,system air quality Deletion W102 increases overheating due Summer basicofventilation to ensure adequate 1/h
Province/Country: KELLYVILLE RIDGE
Street: 123 CONRAD RD Postcode/City: 2155
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%
1061 12 100
Building volume: Mechanical, automatically Max. indoor absolute humidity:
Controlled Deletion ofventilation W102 Internal humidity sources: Air change rate via extract air system:
Postcode/City: 2155
Photo or Drawing
PHPP, Heating
2
ASSESSMENT
Window night ventilation, manual
Shade W103 to 5% Shade W104Internal to 5% humidity sources: Additional ventilation regulation Window ventilation air change rate: Minimum acceptable indoor temp. Results passive cooling
Frequency of overheating: Type of additional ventilation Effective air change rate max. humidity: Frequency of exceeded humidity: PHPP, SummVent Window Exterior nnight V,e ventilation, manual without HR SummerGround basic n L,gventilation to ensure Mechanical, without HRautomatically Controlled ventilation Air change rate via vent. system with supply air: Ventilation conductance
100
g/(P*h)
0.00 22.0
1/h °C at the overheating limit Jmax = 25 °C
7.5% 15.5 n V,system 10.9% 1/h
0.330
g/kg
*(1-
Subsoil heat exchanger efficiency:
W/K W/K W/K W/K
Wh/m³
0%
Results active cooling Useful cooling demand: 2.3 Dehumidification demand: 2.5 h*SHX hHR n V,equi,fraction Frequency of exceeded humidity: 15.2% 1/h Night ventilation value 6.61 1/h ) = 0% )*(10.00 0.330
kWh/(m²a) kWh/(m²a) 1901_PHPP_REV 3.xlsx
0.330 *(10% ) = 0.330 Shading selected windows on the and average adequate air quality Corresponding change rateincrease 1/h ) = Controlled by (please check) 0.330western * elevations 0% airslightly *(10.00 overheating 0.000 during operation, in addition to basic air change Temperature * 0% = 0.000 diff. exceeded humidity by reducing0.330 air flow however slightly reduces overall cooling and dehumidification Specific power consumption Wh/m³ Humidity diff. x 0.33 1/h HRV/ERV in summer (check only one field) demand. None V n c
p 8 exterior H
V,e
V
m³
1061
V,equi,fraction
*
1/hAutomatic
Air
bypass, controlledWh/(m³K) by temperature difference
controlled 0.330 Automatic bypass, * 0.33by enthalpy difference =
Always
x 115.5
W/K