portfolio laura nenonen
Curriculum Vitae
21.2.2011
Personal Information Name Date and Place of Birth Phone
Laura Maria Katariina Nenonen 1.4.1988, Oulu Finland +45 71249370
lauranen@paju.oulu.fi
Education 2010-2011 2007-2010
Student of Architecture Student of Architecture
Aarhus School of Architecture, Department of Architecture University of Oulu, Department of Architecture
2004-2007
Upper Secondary School
Oulun Lyseo Upper Secondary School
Work experience 2010 2009
Assistant Designer, Laatio Architects Ltd, Helsinki Assistant Designer, Laatio Architects Ltd, Helsinki
2008
The work included filing, correcting blueprints and designing fittings and doors. I also worked two weeks as a project secretary substitute. Trainee, Rakennus-Auridos Oy The work included mostly cleaning of the construction site.
Published work 2009 2008
Researcher’s Cabin The Finnish Architectural Review, 1/2009, Education and Research, Aalto University. Contemporary architecture in the national landscape. Researcher’s Cabin Shelters for studies in the Koli landscape. Louekari, Vahtera, Karsikas (Eds.)
Exhibitions 2009 2009
Stairs for the Pavilion University of Oulu Department of Architecture 50-year anniversary exhibition, Department of Architecture. History of Architecture II Studio work
2009
University of Oulu Department of Architecture 50-year Anniversary Exhibition, Department of Architecture. Culture Pavilion Culture Pavilions for Rotuaari – exhibition, Oulu City Library
2008
Researcher’s Cabin Shelters for studies in the Koli landscape – exhibition, Alvar Aalto Museum
Scolarships 2009
An incentive scholarship on successful studies granted by the Laboratory of History of Architecture
Workshops 2010 2009
Workshop with Sami Rintala and Department of Architecture in Oulu University. We designed and built a bridge in Bodø. Workshop on algorithmic architecture at the University of Oulu, Department of Architecture
Language Skills
Computer Skills
Finnish English
native language fluent spoken and written skills
Programs: Autodesk Autocad, Autodesk Revit Architecture,
Swedish
moderate spoken and written skills
Autodesk 3ds Max, Adobe Illustrator, Adobe Photoshop, Adobe InDesign, McNeel Rhinoceros, V-Ray for Rhino Other: The basics of RhinoScript scripting language
Unit Bridge | Green Urban Community Autumn 2010 Aarhus School of Architecture | Department of Architecture The bridge reunites the old city structure both sides of the railroad valley in Aarhus. Despite the great views the area is mostly unused by pedestrians and the only access to the bottom of the valley is limited to the railroad platforms. The future green belt and new pedestrian connections would allow more pedestrians to the area, and this combined with the attractions on the bridge would change the nature of the valley to much more vibrant and vivid. The main idea on the bridge structure is to create public platform for the circulation and activities on the third level. The housing is mostly situated on units from third to fifth level but there is also some housing units on the lower levels. Every unit contains a certain function. Some units are meant for commercial functions, for small businesses or as studios, creating more social life on the bridge. Also the common green gardens and squares on the third level add up to the image of a small urban street. There is also four units meant only for circulation. They lead from first level and railway platforms to the third level.
27 pl
15 pl
general layout plan 1:1250
+17,600
+17,600
+17,600
+14,300
+13,990
+13,990
+10,840
+10,840
+7,250
+7,250
+7,250
+6,690
+3,590
+3,590
+ 0,000
4,200
+3,590
+0,000 -0,750 - 1,000
section south-north 1:500
elevation to east 1:500
3800
3800 900
3000
entrance 5m² 3280
1000
void
3800
+0,000
2100
bathroom 4,6m²
bedroom 7,5m²
3800
2500
5770
3800
3800
unit (34)
4700 3000
6770
without floor area under 1,6m: 52 m²
8500
master bedroom 14,6m²
green garden 23,4m²
+6,740
+6,800
(21,2m²)
53
00
61 00
43
00
4700
3600
4700
3800
low ceiling +3,590
(27,2m²)
7900
kitchen/ living area 20,2m²
1220
3000
3800
with floor area under 1,6m: 70,1m²
All the housing units are similar, suitable for singles, couples or small families with floor area of 52 mñ. The units are slightly modifiable, though the bathroom and kitchen are basically set and the small space does not give that many options for room diversity, the residents can decide themselves wether they need any division walls or only glass railings as presented. Also the rooftop gardens are optional as they are an independent structure just added on top of the units. The windows on the bottom floor of the units, opening to the public alley, are opaque glass this way offering privacy. The units are constructed from steel frame and steel and glass plates installed on top of the steel skeleton. Thanks to the strength of the structure and the stability these units gain when put together, the whole bridge structure can be supported only with the structure of the units. The extra wall space between neighbouring units can be used as installation space for plumbing and electricity as well as extra storage space.
3800
8500
55
00
2600
low ceiling
61 00
1220
+3,590
4110
low ceiling
4700
+2,660
8500
(12,1m²)
1900
2500
4110
2600
7600
3800
3800
2500
plans of the housing unit 1:400
cohesive system
The cohesive positioning of the units reflects the speed and direction of the railroads. The coherent system enables most economical use of the cells. System requires views and light only on one or two sides of the building
organic growing
This model reflects the nature and vegetation on the site. The free orientation of the cells allows different variations of views and openings to multiple directions. This system requires free space on all sides of the structure.
on the site
I decided to combine the best of both systems in the final bridge, not making it too monotone, but still maintaining some sort of principle and coherence in the structure. The final form of the bridge was, aside it’s diagonal nature as a bridge, mainly regulated by the orientation of the units. The bridge is designed so that every apartment unit has long views from the top floor. Most of the units are facing west to the long views over the railroad. Some of the units are also facing to the south towards Banegårdsgade and some towards north to Orla Lehmanns Alle.
the formation of apartment unit gardening
bigger roof garden
access
slope for the stairs
slope for the stairs
reducing walls
stretching roof garden and living space
sleeping cooking/living access/hygiene
entrance and bathroom
apartment unit or commercial unit
2nd bedroom, living area and kitchen or kitchenette and storage master bedroom and entrance or store/studio and entrance
bicycle storage and entrance
or bathroom and entrance
apartment unit elevations 1:500
west
laundry room and entrance or store/studio and entrance
laundry room and entrance or store/studio and entrance
circulation unit or commercial unit
south
east
north
commercial unit elevations 1:500
west
south
private garden (level 4-5)
green gardens
Every unit has it’s own roof top garden. On the third floor most of these gardens are public, but on the fifth floor they can be kept private, offering only visual connection to the neighbours. Gardens can also be made common or mutual for two or three
public garden (level 3)
intensive soil mix 200-400 mm separation fabric 3 mm 40 mm drainage plate 6 mm protection fabric
total thickness, private gardens: 250 mm perennials, grasses, shrubs total thickness, public gardens: 450 mm grasses, shrubs, trees
east
north
+5,500
+5,500
27 pl
27 pl +7,250
-0,750 +0,000
+7,250
+0,000
-0,450
+0,000
playground
+7,250
-0,450
+0,000
+0,000
playground -0,450
+7,250
plan of level 02 1:750
+0,000
+0,000
plan of level 04 1:750
15 pl +0,000
housing unit
-1,000
+7,250
circulation unit commercial unit
-1,000 +0,000
roof gardens
playground +7,250
roof gardens +7,250
public street
+6,690
+6,690
plan 01 1:500
plan 03 1:500
playground
plan of level 05 1:750
15 pl
Inari Port Area Idea Competition 2010 Summer 2010 Group Project The competition proposal Seita forms a new and multifunctional center core on the Inari city area. The plan gathers together the harbour functions of the area and combines them with public services, business facilities, residential areas plus camping and outdoor activities. The plan is based on the Sami cultural heritage and the whole shape of the plan has it’s inspiration from the Sami people’s sacred places Seitas. The firm shapes of the islands can be seen from the whole Inari center area as well as from the trespassing highway and as such, they create a solid identity to the whole surrounding area. The key functions of the plan are mainly situated on the existing islands. The islands form the central core of the area and the varied functions on the shore area complement them. The main idea of the plan can be achieved by only building the island areas. The plan can be executed in a way where the hotel building in the west and housing area in the east are build in the second and third phase of the construction project.
general layout plan 1:3000
block plan 1:1500
Bodøelva Bridge June 2010 Workshop with Sami Rintala and The Laboratory of Contemporary Architecture and Design of Oulu University From the beginning of the Autumn semester of 2009 we felt an urge to organize and hold a workshop between a group of friends. To our luck, our school arranged a meeting with Sami Rintala and he proposed a project in northern Norway, in the municipality of Bodø. It took twelve students, three teachers and ten days to build this 20 meters long light-traffic bridge stretching over Bodøelva river. The bridge unites the new residential area with the old historical part of Bodø. The shape is an hourglass and the closed mid-part opens with glass railings and loosely placed floorboards to offer views down along the river. We learnt an entirely new perspective of designing with this projects. We had to think every detail through so that we could ourselves build it. It was also first time we worked so closely in groups. The best part was, we could realize our designs with our own hands, and see the final result in reality in such a short time.
day 5 morning
day 5 evening
day 10 morning
day 10 evening
Guest House in Marjaniemi Spring 2009 The Laboratory of Contemporary Architecture and Design Bachelor’s Thesis The Guest House is situated in Hailuoto, on a small island in the Oulu coast region. The nature of the area is very fragile as it consists of brushwood and stunted trees growing in sandy soil. The construction has a minimum footprint as the buildings are supported by slender pillars. All circulation between the buildings is arranged on wooden platforms continuing all the way to the seashore. The organic shape of the structures is in contrast to the existing old fishermen's huts on the area and therefore the Guest House is situated apart of them. The region is extremely windy, due to the open sea area, and buildings can be seen as kinds of wind collector's as they are facing the wind, sea and wild views.
elevation to east 1:500
elevation to southeast 1:500
elevation to southwest 1:250
plan 01 1:250
plan 02 1:250
elevation to northeast 1:250
elevation to northwest 1:250
elevation to southeast 1:250
section 1:250
plan 01 1:400
plan 02 1:400
Apartment House Autumn 2009 The Laboratory of Contemporary Architecture and Design The Apartment House is designed based on the HÜyhtyä Regional Plan. It has five storeys on the high end and lowers gracefully down into a two-storey building. The building includes 46 apartments. The apartments are arranged economically so that each staircase serves four apartments per floor. All apartments have a main living area opening to south and most of the bedrooms are facing north. The big balcony zone to the south blocks most of the unwanted sunshine and warmth in the summer, but allows the low winter sun to bring it’s heating power to the apartments. The windows facing north are smaller and fewer than the ones facing south, which minimizes the heat loss.
18900
YP1
17707
1:25
17006
Katon leikkaus pituussuunnassa Tuuletusikkunan 1:30and longitudinal projection ofprojektio window section of roof1:30 1:30 1:7
ONTELOLAATTA
16115
17707 1:25
VS8
VS4
KH
SK VS10
PH
3266
3818
lintuverkko
US2
teräspalkit k7000 kannattavat teräspoimulevyjä
13625
MH
12625
12625
1:80
KOLOLAATTA
ONTELOLAATTA
VP1
MH
YP1 teräsbetonilaatta 80 50 tasaushiekka kumibitumikermi puukuitulevy 19 teräspoimulevy 140 teräspalkit 315x160 k7000 tuuletusväli 100 tuulensuojavilla 30 500 mineraalivilla höyrynsulku ontelolaatta 200
2910
K
KH
KH 2618
E VS10
2618
VS8
VP4
9325
9325
KOLOLAATTA
KH
K 2610
KH 2318
E MH
6325
liimapuuhun porataan 10x10mm aukot tuuletukselle
varjosauma
10
6325
KOLOLAATTA
E
VS10
2618
MH
KH
VS4
KH
K
2935
tuuletusikkuna peitetään kuitubetonielementillä jossa aukot tuuletukselle betonielementti kiinnitetään piilokiinnikkeillä molemmilta sivuiltaan saumattomasti seinäelementtiin
4025
US2
VP4
3025
10
3025
KOLOLAATTA
varjosauma
MH
US1
VS1
E
V 1015
12625
VP5
15
15
MH
0
1:20 ONTELOLAATTA
AP1
PESULA
VS8
2635
KERHOTILA US4
2330
1:40
AUTOPAIKOITUS PUOLILÄMMIN
KUIVAUS
KOLOLAATTA
YP3
section of roof and ventilation window 1:30
US5
AP2 -3000 -3533
section 1:100
A
16639
EI60
1010 1215
F4 6 AR 6 x10 50
620
F1 1 AR 6 0x10 50
1310
1470
F5 6 AR 4 x13 00
1380
TH
10.5 m²
10.5 m²
8.0 m²
WC
8.0 m²
1.5 m²
53.5 m²
A2 1H+TUPAK+S 45 m2 TUPAK
105722.0 m²
F8 21x21 0.6 AROH/K/E
MH 12.0 m²
1220
A4 4H+K+S 990 100 m2
VALOPU TKI UPO TETTU MAAHAN
51.5 m²
1493 185
9x21
KH
2.5 m²
PV
A5 5H+K+S 103 m2
RS
1220
1060
720
6.0 m²
KH 5.0 m² JK-P K
APK
21.0 m²
6325
OH/K/E 47.5 m²
S
MH
L.VAUNU VARASTO 7 m2
10.5 m²
2.5 m² PK
A8 1H+TUPAK+S 43 m2
1060
SK
KH
TUPAK
MH 11.5 m²
A8 3H+K 79 m2
KATE TTU OL ESKE LU
OH/K/E
WC
IST
1220
50.5 m²
1.5 m²
S 2.5 m²
UT
C4 5H+K+S 114m2
595
MAA NALAI NEN PYSÄ KÖIN TI
09x2 1
F8 21 x21 AR 0 .6
1850 2.5 m²
2140
KH PK
K KH
PV PK
590
6 m² 6.0
MH
SUKS ITEL INEE T
15.5 m²
VARASTO 38 m2 SK
203
AP K
A12 1H+K 40 m2
SK
MH
A11 3H+KK+S 73 m2
MH 17. m² 17.0
12.0 m²
-PK JK
12.0 m²
AP K
KH
-PK
6.0 m² JK
LEVE SIALT TA AIS ISIIIN IN
1220 1060
MH
41.0 m²
210
SK
AP K
OHK/K/E
UOP 10x2 1 HÄTÄ TIE
F7 12 x21 AR 0 .6
1060 1220
PV
IST
UT
530
US
PK
OH/KK/E
L.VAUNU VARASTO 6 m2
34.5 m² JOHD ETAA N HU
465
10.0 m²
PK
F7 12 x21 AR 0 .6
1220
RS
5.0 m²
JK -PK
UOP 10x2 1 HÄTÄ TIE
F7 12 x21 AR 0 .6
PE NK
KI
KH
A13 3H+KK 70 m2
MAAH AN VA LETT UA OJ AA PIT KIN
4.5 m² SC NÄ 11 00
JKPK
FINNO NICO
KATO N SA DEVE DET
A
SK
MI TT +S KÖ OH AL N AH ISS x 19 I 00
S 2.5 m²
4555
A14 2H+TUPAK 56 m2 TUPAK
PV KH
26.0 m²
AXIOM PALLO
MH
4.5 m²
TIKASAUTO
FINNO MOPO
11.5 m² JK -P
K AP K
plan 01 1:400
SK
VARASTO 7 m2
FINNO KASKELOTTI
PK
A OL RG PE
A15 2H+KK+S 43 OH/KK m2 22.5 m²
LIPPUTANKO
KORIPALLOTELINE KAK PYÖ SIKERRO RÄT ELIN KSINEN E
VESIALLAS
C5 5H+K 103m
4
EI60
13625
600
VS9
US
KI
K/E
FINNO LENTOKONE
MH 12.0 m²
S
5.5 m²
KAKS PYÖR IKERROK SINE ÄTEL N INE
A9 4H+K+S 94 m2
PE NK
SC MI TT NÄ +S KÖ OH AL N AH ISS x 19 I 00
TIKASAUTO
KORIPALLOTELINE
VS8
35
VS1
PV
11 00
4803
AXIOM HIEKKALAATIKKO
GRILLIKATOS
plan level 03 1:100
7x21
F7 12 x21 AR 0 .6
MH 12.0 m²
PK
SK
SYÖK PARV SYTORVI EKE RA INTEG RO KENT EESE ITU EN
APK
APK
LO
4555
1130
10.5 m²
SK
SUKSITELINEET
VARASTO 38 m2
0 40 k2
US2
TH
10.5 m²
PK
KAKSIKERROKSINEN PYÖRÄTELINE
JK-P K
910
SO
612
685 910
SO
188 1490
VS11
MH 12.0 m²
2.0 m² S
5.0 m²
2140
600
VS1
7117
VILJELY
OH/K/E 53.0 m²
VK 1.0 m²
1568
HO
7505
17.5 m²
FINNO JAZZ
0 30 k2
plan 1:400
VS3
UOP 10x2 1 HÄTÄ TIE
F9 17x27 AR 0
VARASTO
1100
WC
EI6 0
805
K
PK
ITT+ SOH N NÄK ÖAL AHIS SI x 1900
SK
OH/K/E
2.0 m² F7 12x21 AR 0.6
8 m2 F7 12x21 AR 0.6
SCM
JK-P
S
6273 LUONNONKIVET UPOTETTU BETONIVALUUN
275
VS2
VS6
S 2.0 m²
AP K
APK
APK
K
VS9 VS3
PV
HÄTÄTIE MH
3021
2.5 m² KH
MH
JK-P K
S
APK
5.5 m²
VS16
1328
WC VALAISIMET UPOTETTU MAAHAN SUUNNATTU PUUHUN
1131
09x2 1
VS13
EI 60
11.5 m²
KAKS PYÖR IKERROKSI ÄTEL INE NEN
NIT N LIIN
700
PENK KI
UOP 10x21
MH
2865
2991 KAKSIKERROKSINEN PYÖRÄTELINE
VS10
APK
C3 1H+TUPAK+S 57m2
0 EI6
1220
1600
6971
RS
KH
K
F7 AR 0.6
587
WC 1.5 m²
VS5
VS12
6384
k 2400
13.0 m²
APK
VARASTO 44 m2 12x21
A1 3H+K 97 m2
k 2300
1503
APK
11.0 m²
5.0 m² JK-P
AIKALTA OSTETTUJA UONNONKIVIÄ
MH
SK
SUKSITELINEET KAKSIKERROKSINEN PYÖRÄTELINE
S 2.0 m²
VS8
200
VS1
JK-P K
SK
UOP 10x21 HÄTÄTIE
MH
JK-P
56.5 m²
KH 8.5 m²
19x21
PK
JK-PK
VS12 0 30 k2
VS7
LO
NÄKÖALAHISSI
US2
932
WCO
TUPAK 29.5 m²
2192
6240
C2 1H+K 44m2
5120 SK
OH/K/E
VARASTO 9 m2
SCMITT+SOHN
1100 x 1900
APK
PK
K 19.5 m²
C1 4H+K+S 97m2
MH 13.0 m²
1107
k 2400
VS8
VS11
350
10x21
VS4
JK-P K
JK-PK
TH 10.5 m² 2791
PENKKI
PK
8.0 m²
k 2300
317
MH 21.0 m²
ISTUTUS
KH
KH 5.0 m²
PK SK
VS3
09x2 1
910
3477
9x21
KH 4.0 m²
VS10
US1
16.0 m²
VS10
09x2 1
VK 2.5 m²
WCO 09 x21
636
1041
00 23
APK
MH
WCO
VS15
SK
WCO 09x21
1310
F2 13x13 AR 500
k
2116
OH/K/E 48.0 m²
4700
910
HO
120
k 2300
VS10
3713
VS1
694
k
SK
PK
VS3
EI30
UO
1728
636
VS6
VS9
09x2 1
910
VS2
1220
VS2
600
8x21
400
EI30
2488
VS3
HO
1390
LO
10x5
10x21
UO
UO 10x21 EI30
MH 13.0 m²
09x2 1
910
1830
k2 30 0
618
3620
HO
2463
EI30
10x5
k2 30 0
VS1
1031
VS12
6325
VS9
SK
VS10 VS4
TL
715
VS15
1010
EI30
0 30 k2
400
1830
9x21 1107
1170
13531
950
13966
JK-PK
910
S 2.0 m²
VS4
VK 2.5 m²
KH 4.5 m²
UO 10x21 EI30
1010
SO
621
F5 6x13 AR 900
APK
7x21
LO
VS10
WCO 09x21
VS11
600
680
185
1310
F2 13x13 AR 900
k2 40 0
VS8
00
910
2501
200
4308
k 23
1500
600
VS8
10622
MH 8.0 m²
1063
1320
VS13
VS10
F3 1 AR 5 8 50
VS8
408
09x21
HO
09x21
HO
09x21
HO
VS1
TL
910
2235
VS8
250
298
k 2300
1435
0
250
6503
VS10 1065
1
F6 AR 56x18 50
1279 8
MH 13.0 m²
620
1435
1031
910
2005
PV
N180 E290
1842
9x21
KH 2.5 m²
MH 8.0 m²
MH 10.0 m²
k2 30
LO
620
F4 6x10 AR 1300
3459
1010
F1 10x10 AR 1300
VS10
621
1370 4
VS8
620
elevation to north 1:400
VS8
VS15
MH 12.0 m²
880
F2 1 AR 4 3x13 00
23 00
PK
1310
F2 AR 113x13 050
1380
600
8x21
1706
US1
791
LO
VK 2.5 m²
915
F5 6 AR 1 x13 050
JK-P K
F2 13x13 AR 450
F5 6x13 AR 450
F3 18x18 AR 300
620
F10 42x30 AR -300
F4 6x10 AR 950
F1 10x10 AR 950
1378
0 EI6
2155
4199
1923
620
1010
1170
1310
620
1867
1810
KATE OLES TTU KELU
ISTU TUS
PEN KKI
4605
elevation to south 1:400 1790
640
620 1310
F2 AR 813x13 00
350
F5 AR 46x13 00
F2 AR 413x13 00
1:25
16540
620
lintuverkko
17006
1010
1:45
1115 1
632
F4 6 AR 8 x10 00
F1 1 AR 8 0x10 00
katolta kerättävä sadevesi kerätään kattoterasseilla vesisäiliöihin ja käytetään kattopuutarhojen kasteluun
1:7
valokatto laskee pituussuunnassa 1:8 sadeveden keräys kattoterassin vesisäiliöihin katon matalimmalta räystäältä
1:7 RST palkki 60x60 k1200 valokatto Purso, 6+6 karkaistu, laminoitu ja opalisoitu lasi
MH 12.5 m²
RST pilari 150x150 k1700...7400
1:7
VS8
MH 7.5 m²
1438
2219
13748 910
Parvekkeen naamakuva 1:20 LO KATTOTERASSI 7 Parvekkeen pohjakuva 1:20 1107
00 23
VS15
VS6
VS10
SO
9x21
0 30 k2
VS4
1113
k 2300
8395
HO
JK-P K
1220
varjosauma
6300
US2
628
UO EI30
kevytsoraharkko 150x680
1010
10x2 1
247 HÄTÄTIE
AR YP40.6
ruokamultakerros 200 1220 suodatinkangas kevytsora 150 juurisuoja teräsbetonilaatta 80 suodatinkangas uritettu polystyreeni 240 kumibitumikermi 50..., kallistusbetoni kallistus 1:80 ontelolaatta 265
1061
784
ONTELOLAATTA
C6 1H+TUPAK+S 49m2
avautuva parvekelasitus Lumon alumiini, 6 mm karkaistu kirkas lasi
F7 12x21
UOP 10X21
1658
SK
09x2 1
MH 13.5 m²
AR 0.6 353
100 250 25 30 100
PV
vedeneriste limitetään betoniseinän alle
KH 6.5 m²
APK
US 2 kantava teräsbetonielementti mineraalivilla tuulensuojavilla tuuletusväli teräsbetonielementti, pinta: valkolasuuri
VS1
F7 12x21
1880 k 240 0
1:80
k syöksytorvet 13048 ruostumatonta teräspeltiä, kiinnitys VS9 RST kiinnikkein pilariin
VS3
186
7x21
910
1482
PK
VS5 673
S 2.0 m²
1309
kansilaudat, höylätty V/MÄ 28x95 VK 400 kestopuiset2.5 alussoirot, m² 28x95, 28x45 tiivistetty sora TL 1 EI30 0x5
VS12
300 k2
100 30 250 25 30 100
UO
x21
KH 3.5 m²
370
VS7
662
VS13 VS3
SO
1400
US3 kantava teräsbetonielementti kumibitumikermi sementtilevy mineraalivilla tuulensuojavilla tuuletusväli teräsbetonielementti pinta: valkolasuuri
1454
0
600
9x21
30 k2
910
700
S 1.0 m²
694
WCO 09x2 1
182
k2 30 0
WC 1.5 m²
1241
k 2300
1830
VS11
09x2 1
910
WCO 09x2 1
09x2 1
HO
160
kaikki alumiiniprofiilit eloksoitu
13625
200 60
910
WCO
vaakatuki, RST palkki 60x60 k1200 valokatto Purso, 6+6 karkaistu, laminoitu ja opalisoitu lasi
E290
1369
200
09x2 1
N180
HO
10x2 1 EI30
910
275
MH 7.5 m²
valkobetonista valetussa viljelyaltaassa kasteluoja, epoksipinnoite, vedensuodatusputket 400 mm välein täytettävissä sadevesisäiliöistä
09x2 1
SK
HO
2519
6307
section of6300 the roof gardens 1:30
kantava rakenne, RST pilari 150x150 k1700...7400
opaalilasi parvekkeen väliseiniin EI15 + EI15
k1000
F7 12 x21 AR 0 .6
UOP 10x2 1 HÄTÄ TIE
± 0,000 = 8,800 OSASTOINNIT
PALOLUOKKA P1
1220
4803
F9 17 x27 AR 0 .6
1060 975
EI60 EI30 EI30
suojapelti kumibituminauha
tiiviste lattialämmitys
12625
EI90
mäntylauta 25x200 tulitikkuraolla painekyllästetyt puujuoksut 50x60...100 k400 alla kumitassut parvekelaatta, epoksi pinnoite, kallistus 1:80
12625 1:80
Kaupunginosa /Kylä
Kortteli/Tila
Tontti/Nro.
Piirustuslaji
Juokseva nro.
Höyhtyä
Kuura
1001
TYÖPIIRUSTUS
201
3. kerroksen asunnot 1-6
1:50
Suunnitteluala ja piirustusnumero
Muutos
Rakennustoimenpide
Uudisrakennus 1700
Rakennuskohteen nimi ja osoite
As. Oy Hanki EI60
Suunnittelijan yhteystiedot
BOX office Aleksanterinkatu 6 90100 Oulu, 040 035 0205 Päiväys
6389
liimapuu
asunnot roilot parvekkeet varastot
kantava rakenne, RST pilari 150x150 k1700...7400
1090
vaakatuki, RST palkki 60x60 k900...2000 kantava rakenne, RST pilari 150x150 k1700...7400 pystytuki, RST pilari 60x60 k900...2000 lasikaide Lumon, alumiini, laminoitu ja opalisoitu 4+4 turvalasi
TUPAK 25.5 m²
3068
1
1310
F5 6 AR 8 x13 00
VS1
O
210
EI60
620
Vastuullinen suunnittelija
6.5.2010 Laura Nenonen Ark YO
ARK
section of the balcony 1:30
a
Höyhtyä Regional Plan Autumn 2009 The Laboratory of Planning and Urban Design
The aim of the regional plan was to unify and compact the existing residential area near the Oulu city center. The Höyhtyä region has a very strong parklike identity which I attempted to preserve in the plan. The new construction masses define the area and protect it from the disturbance of two roads running by the area. Pedestrian streets trespass through the area while the car traffic is minimized. The most important theme in the planning was to create a more socially and communally active environment. The region includes different functions for different age groups from skate park to greenhouses. Different neighbourhoods and public areas are also visually connected.
b
b
a
10m
100m
section a-a 1:1500
section b-b 1:1500
principle sketch 1:750
The Island Utopia Spring 2010 Group Project, Generate Workshop The workshop was arranged by graduating students to teach the basics of Rhinoscriptscripting language. The island project was based on the Cellular Automata and Recursion Line scripts. The Recursion Line creates an organic, branch-like structure which defined the road network. The Cellular Automata script was used to create structures consisting of cubes attached to the road network. The result is an utopian hotel island, each cube representing one hotel unit receiving enough light, air and views in a huge complex.
01 Cellular Automata script operates according to a function that calculates the positions of the cubes. The function is based on given rules that regulate wether a unit is to be created, saved or deleted. 02 The script divides the Recursion Line and creates a regular grid of points around it using vectors. 03 The final cubes are formed using temporary spheres that are created according to the information gathered from the Cellular Automata function. 04 The city structure formed by the Recursion Line and Cellular Automata scripts. 05 Elevations and visualization of the final structures created by the Cellular Automata script.
03
01
02
04
03
05
Student House Spring 2009 The Laboratory of Contemporary Architecture The house is a urban infill, situated in the middle of the city structure, in a narrow gap on top of an existing building. The irregular shape follows the lines and geometry of the surrounding buildings and allows space, light and views to the existing windows and balconies. The building has a double facade with a bearing concrete structure inside and a white glass facade on surface. The cut-out form surrounding the garden is covered with wooden grating. The house is designed for five architecture students. Because of it‘s location atop of a building it‘s entrance is arranged from the inner courtyard by private stairs. Given the rather small footprint and four floors of the building, stairs have become a dominating theme in the house‘s architecture. The basic functions of the house are arranged on the first floor, along with one bedroom and a garden. The second floor is the most private with it‘s four bedrooms and one bathroom. The third floor is dedicated to working as there is located the student‘s studio and a workshop. The sauna and a rooftop terrace are situated in the fourth floor.
elevation 1:200
plan 01 1:200
03
02
04
perspective view from the studio
Culture Pavilion Autumn 2008 The Laboratory of Contemporary Architecture and Design Exhibited in Oulu City Library in Spring 2009
The purpose of the Pavilion is to increase the social and cultural activity in the centre of Oulu. The building operates both as an art gallery and cafĂŠ. The form of the building draws attention and creates solidity and shelter in the chaotic environment. It reminds of a boulder left behind by massive glaciers in the ice age. The firm stone material used in the walls creates an image of monumentality. In contrast to the delicate entrance upon a glass-clad water pool that swallows the visitors inside. The interior is a vast continuous space with organic shapes offering variations for the art exhibitions. A functional box-shaped core houses all the essential functions of the cafĂŠ.
sections 1:100
Stair for the Pavilion Spring 2009 The Laboratory of Contemporary Architecture and Design Exhibited in Oulu University Department of Architecture 50th Anniversary exhibition in Autumn 2009
section 1:20
The stair is integrated with the strict diagonal inner core of the pavilion which conducts to a very functional form of the stairs, opposed to the outer shape of the Pavilion. The simplicity of the stair is emphasized by its natural and mainly untreated materials. The concrete used in the railing represents the same solid architecture as the exterior of the building. Whereas the translucent glass steps bring lightness and flow to the stairs as they same time make the entrance more open. The wooden handrails make the wholeness softer and are highlighted by lights embedded in the wall. The handrail on the right side follows the functional form of the railing and on the left side it is embedded into the concrete wall. When reaching the second floor glass railing the material of the handrail changes from wood to glass. The glass steps are embedded into the wall and the railing, so they need no visual support.
plan 1:20
perspective view
Shelter for Studies Spring 2008 The Laboratory of Contemporary Architecture and Design Published in The Finnish Architectural Review 1/2009 Exhibited in Alvar Aalto Museum in Autumn 2008, “Shelters for Studies in the Koli Landscape�
12 9
15 06 6 70
80
57 10 2 02
77 2 7 05
structural model 1:25
2
6
general layout plan 1:200
perspective view
inspirational pictures
The architecture of the shelter was mainly influenced by the Koli landscape and the characteristics of it’s nature. The flow of the water and the shapes and shadows of the pine trees can be distinguished in the final design. The building has one great window opening to the lake and to south-west, so enabling enough light and warmth inside even during cold winter months. A solid wooden wall on the opposite side masks the building from the forest. The bearing structure is entirely visible while it reflects the patterns of the trees. Moving sun casts changing shadows through the structure creating different patterns inside the building. The interior is a comforting nest, like a whale’s belly with it’s wooden skeleton and warm natural materials. The interior is coated with light aspen boards creating a pure and bright space, while the exterior is clad with slightly darker wood blending in to the surroundings.
exhibition in Alvar Aalto museum
section 1:50
plan 1:100
structural model 1:25