Download - Dovile Puraite architectural portfolio
architecturalportfolio 2012
Dovile Puraite
education
2009-2011
Aalborg
Denmark
2005-2009
Kaunas
Lithuania
Master in Architectural Design (Engineering with specialization in Architecture)
Aalborg University
www.studieweb.aod.aau.dk/
Bachelor in Architecture
Kaunas University of Technology
www.ktu.lt/
work experience
skills
digital tools
linguistic knowledge
general
personal
AutoCAD, Revit, SketchUp, Virtual Environment, Adobe Illustrator, InDesign, Photoshop, Microsoft
Office, Ecotect, STAAD.Pro, Rhinoceros
Lithuanian (native), English (advanced), Danish (intermediate), Russian (basic)
physical & digital model making, conceptual & graphic design, technical drawing
open-minded, ambitious, self motivated and initiative; easy communicating and participating in
team work as well as working individually; strong passion for contemporary design , art and sustain-
able architecture; easily learning new softwares
2012
March - Now
Aarhus/DK
2012
February
Horsens/DK
2012
January
Skanderborg/DK
2010
Aug/Dec
Aarhus/DK
2008-2009
Aug/Jan
Kaunas/LT
LOOP architects/ www.looparchitects.dk
architect
sustainable design and renovation projects, prequalifications
VIA University College /www.viauc.dk/
teaching assistant
lecturing and consulting constructive architects
Frost Larsen architects /www.frostlarsen.dk/
architectural intern
graphical work for presentations
Schmidt Hammer Lassen architects/ www.shl.dk
architectural intern
technical drawings, conceptual modeling, graphical visualization for presentations
UAB Alumex /www.alumex.lt/
project manager
technical drawings, calculations, communication with clients
CVDovile Puraite
[email protected]_ Trojborgvej 22, 2th, Aarhus 8200, Denmark_+4552765508
4
5
7
8
9
10
Master thesis - The GRADEN school
Urban Mediaspace
Stacked Villas+
In Love with Nature
Uniting Cities
The Institute for Architecture & Design
TABLE of content
6The House of the Danish Industry Foundation
NEXT STEP V I L L A G E
16
VISuALISErING AF KIG MOd ``dET GrøNNE HuS``
Next STEP Village
sustainable transformation of villaalBert nauers vej, HøjBjerg
existing villa FroM 1978 in aarHus, private Client
new design with cut through the house.integration of glass facades and sky-lights - to support natural ventilation - passive heating.
Facades (east and vest)and roof are wrapped with green walls. it increases the insulation value, the biodiversity and collect rain water.
Clay floor makes better indoor climate and works as a humidity regulator in the house.
gables are covered with zinc (c2c product). on the south fa-cade it is possible to use it for producing hot water/ heating.
villa from the 70´s
C2C / recyclable &reusable
s u s t a i n a B l e transForMation oF villa FroM 70´s
proCess
Sustainable TRANSFOTMATION of Villa
ADMINISTRATIONS BYGNING, AARHUSVEJ 56, ODDERIDE FORLSAG
DATO: 25.01.2012
Office/ residential HOUSING projects
12
3
Next STEP VillageLOOP architects_2012
1
Der tages udgangspunkt i Cradle to Cradle-principperne og et ønske om at skabe et generationsdesign for klyngen, der sikrer integration af fremtidens løsninger, både materialemæssigt og ener-giløsningsmæssigt. Udviklingen går hurtigt, og mulighe-derne og løsningerne er mange, og derfor er der i konceptet arbejdet med en generation 1, der er gennembearbejdet energiløsnings- og bæredygtighedsmæssigt, der p.t. både er lønsomt og benytter sig af kendte, afprøvede løsninger. Samti-dig er der vist visioner for generation 2 og 3, hvor der foreslås mere fremadrettende løsninger - der om nogle år kan være både mere effektive og økonomisk rentable for klyngen.
Første geNeratioNsklyNge aNNo 2013 • Er fuldt forsynet med vedvarende energi.• Der arbejdes med indikatorer, som giver mulighed for, at
fordele forbruget af strøm over døgnet samt at optimere brugeradfærd.
• Der er fokus på et godt indeklima og materialer og bygnin-gerne er tænkt ud fra et Cradle to Cradle mindsæt.
• Der arbejdes med grønne facader og tage, og regnvand genanvendes.
• Der bygges et fælles serviceområde , herunder fx café, indkøb, væksthus , elbiler som deleordning m.m.
aNdeN geNeratioNsklyNge aNNo 2016
• Fokus på bedre udnyttelse af “waste” . • Leasing af teknisk udstyr integreres som koncept. • Der laves genanvendelsesstrategi for materialer . • Vindturbiner opstilles til produktion af strøm, og geoter-
misk køl etableres.
tredje geNeNeratioNsklyNge aNNo 2018
• Der fokuseres på produktion og lagring af energi fx gen-nem anvendelse af algeproduktion til biobrændsel.
• Der arbejdes med fjernstyret elforbrug over døgnet hvor det er mest fordelagtigt, herunder integrering af nyudvik-lede apps og anden teknologi.
• Større grad af diversitet i funktioner som produktion af madvarer og serviceydelser.
• Monokrystallinske solceller udskiftes med effektive tynd-filmssolceller i sydvendte glasarealer.
• Spildevand renses og genanvendes til fx bilvask, havevan-ding, tøjvask o.a.
koNceptets størrelse
• Grundstørrelse: 18.900 m2• Areal til boliger inkl. fælleshuse: 6.390 m2• 44 boligenheder• Foreslået 4 forskellige boligtyper fra 80 - 226 m2
elgrid
varmepumpe
smart grid
solceller
solvarme
vaNdiNg grøNNe vægge/væksthus
veNtilatioN varmepumpe
hybrid veNtilatioN / iNdeklima
biodiversitet
vækst- og Fælleshus&
Fælles Fryse/kølehus
regNvaNds-opsamliNg
jordvarme / varmepumper
grøNNe tage Fælles elbiler
cradle to cradle materialer
grøNNe vægge
boliger
spildevaNd
VISIONS FOR THE NExT STEP VILLAGE ARE:
• creating healthy and sustainable housing affordablefor everyone• creating an energy-producing cluster for mixed use• creating a new concpt for future homes with focus onquality and diversity• creating buildings that positively contributes to solvingglobal climate challenges and incresing the valuematerials and its lifecycle.• creating buildings that are adapted for continuoustechnology changes - generation design
CONCEPT SCALE
• Plot Size: 18,900 m2• Land for housing incl. shared houses: 6,390 m2• 44 residential units• Proposed 4 different types of housing 80 to 226 m2
NEXT STEP V I L L A G E
16
VISuALISErING AF KIG MOd ``dET GrøNNE HuS``
Next stepv i l l a g e
Vores visioner for Next Step Village er...
• ... at skabe sunde og bæredygtige boliger for alle
• ... at skabe en energiproducerende boligklynge.
• ... at skabe en ny boform med fokus på kvalitet og mangfol-dighed.
• ... at skabe et byggeri, der bidrager positivt til at løse vores globale klimaudfordringer og at minimere fremtidige behov for ressourcer.
• ... at skabe bygninger, der løbende tilpasses i takt med at ny teknologi og viden findes – generationsdesign
Idéen til klyngens plans tager ikke som traditionelt udgangs-punkt i kendte omgivelser, da Next Step Village er et koncept, der skal kunne tilpasses et vilkårligt sted i Danmark. Således vil der, ved valg af placering, skulle foretages nogle tilpasnin-ger. Dels fordi at orienteringen er altafgørende for, at klyngen forbliver selvforsynende med energi, men selvfølgelig også for at skabe en unik klynge tilpasset dets omgivelser og natur. Designet af klyngen fokuserer på at udnytte pladsen optimalt så vi på langt færre kvadratmeter kan opnå samme kvalitet og funktion til lavere pris som ved et parcelhus, der historisk set har været danskernes fortrukne boligform. Klyngens udform-ning tager hensyn til de klimaudfordringer, vi står overfor, ikke kun ved en bedre jordudnyttelse men fx også ved brug af vedvarende energi, nedsivning af regnvand, større biodiversitet og valg af sunde materialer.
Klyngen er designet med grønne områder, urbane pladser, offentlige og private haver samt terrasser. Bygningskomposi-tionen er optimeret i forhold til solorientering, således at de udendørs grønne rum og indvendige boligarealer får maksi-malt/optimalt dagslys. Der er arbejdet med en helhedsoriente-ret løsning, hvor Next Step Village vil fungere som et dynamisk miljø, der styrker det lokale samfund, dets økosystem og dets økonomi.
Der tages udgangspunkt i Cradle to Cradle-principperne og et ønske om at skabe et generationsdesign for klyngen, der sikrer integration af fremtidens løsninger, både materialemæssigt og ener-giløsningsmæssigt. Udviklingen går hurtigt, og mulighe-derne og løsningerne er mange, og derfor er der i konceptet arbejdet med en generation 1, der er gennembearbejdet energiløsnings- og bæredygtighedsmæssigt, der p.t. både er lønsomt og benytter sig af kendte, afprøvede løsninger. Samti-dig er der vist visioner for generation 2 og 3, hvor der foreslås mere fremadrettende løsninger - der om nogle år kan være både mere effektive og økonomisk rentable for klyngen.
Første geNeratioNsklyNge aNNo 2013 • Er fuldt forsynet med vedvarende energi.• Der arbejdes med indikatorer, som giver mulighed for, at
fordele forbruget af strøm over døgnet samt at optimere brugeradfærd.
• Der er fokus på et godt indeklima og materialer og bygnin-gerne er tænkt ud fra et Cradle to Cradle mindsæt.
• Der arbejdes med grønne facader og tage, og regnvand genanvendes.
• Der bygges et fælles serviceområde , herunder fx café, indkøb, væksthus , elbiler som deleordning m.m.
aNdeN geNeratioNsklyNge aNNo 2016
• Fokus på bedre udnyttelse af “waste” . • Leasing af teknisk udstyr integreres som koncept. • Der laves genanvendelsesstrategi for materialer . • Vindturbiner opstilles til produktion af strøm, og geoter-
misk køl etableres.
tredje geNeNeratioNsklyNge aNNo 2018
• Der fokuseres på produktion og lagring af energi fx gen-nem anvendelse af algeproduktion til biobrændsel.
• Der arbejdes med fjernstyret elforbrug over døgnet hvor det er mest fordelagtigt, herunder integrering af nyudvik-lede apps og anden teknologi.
• Større grad af diversitet i funktioner som produktion af madvarer og serviceydelser.
• Monokrystallinske solceller udskiftes med effektive tynd-filmssolceller i sydvendte glasarealer.
• Spildevand renses og genanvendes til fx bilvask, havevan-ding, tøjvask o.a.
koNceptets størrelse
• Grundstørrelse: 18.900 m2• Areal til boliger inkl. fælleshuse: 6.390 m2• 44 boligenheder• Foreslået 4 forskellige boligtyper fra 80 - 226 m2
elgrid
varmepumpe
smart grid
solceller
solvarme
vaNdiNg grøNNe vægge/væksthus
veNtilatioN varmepumpe
hybrid veNtilatioN / iNdeklima
biodiversitet
vækst- og Fælleshus&
Fælles Fryse/kølehus
regNvaNds-opsamliNg
jordvarme / varmepumper
grøNNe tage Fælles elbiler
cradle to cradle materialer
grøNNe vægge
boliger
spildevaNd
Der tages udgangspunkt i Cradle to Cradle-principperne og et ønske om at skabe et generationsdesign for klyngen, der sikrer integration af fremtidens løsninger, både materialemæssigt og ener-giløsningsmæssigt. Udviklingen går hurtigt, og mulighe-derne og løsningerne er mange, og derfor er der i konceptet arbejdet med en generation 1, der er gennembearbejdet energiløsnings- og bæredygtighedsmæssigt, der p.t. både er lønsomt og benytter sig af kendte, afprøvede løsninger. Samti-dig er der vist visioner for generation 2 og 3, hvor der foreslås mere fremadrettende løsninger - der om nogle år kan være både mere effektive og økonomisk rentable for klyngen.
Første geNeratioNsklyNge aNNo 2013 • Er fuldt forsynet med vedvarende energi.• Der arbejdes med indikatorer, som giver mulighed for, at
fordele forbruget af strøm over døgnet samt at optimere brugeradfærd.
• Der er fokus på et godt indeklima og materialer og bygnin-gerne er tænkt ud fra et Cradle to Cradle mindsæt.
• Der arbejdes med grønne facader og tage, og regnvand genanvendes.
• Der bygges et fælles serviceområde , herunder fx café, indkøb, væksthus , elbiler som deleordning m.m.
aNdeN geNeratioNsklyNge aNNo 2016
• Fokus på bedre udnyttelse af “waste” . • Leasing af teknisk udstyr integreres som koncept. • Der laves genanvendelsesstrategi for materialer . • Vindturbiner opstilles til produktion af strøm, og geoter-
misk køl etableres.
tredje geNeNeratioNsklyNge aNNo 2018
• Der fokuseres på produktion og lagring af energi fx gen-nem anvendelse af algeproduktion til biobrændsel.
• Der arbejdes med fjernstyret elforbrug over døgnet hvor det er mest fordelagtigt, herunder integrering af nyudvik-lede apps og anden teknologi.
• Større grad af diversitet i funktioner som produktion af madvarer og serviceydelser.
• Monokrystallinske solceller udskiftes med effektive tynd-filmssolceller i sydvendte glasarealer.
• Spildevand renses og genanvendes til fx bilvask, havevan-ding, tøjvask o.a.
koNceptets størrelse
• Grundstørrelse: 18.900 m2• Areal til boliger inkl. fælleshuse: 6.390 m2• 44 boligenheder• Foreslået 4 forskellige boligtyper fra 80 - 226 m2
elgrid
varmepumpe
smart grid
solceller
solvarme
vaNdiNg grøNNe vægge/væksthus
veNtilatioN varmepumpe
hybrid veNtilatioN / iNdeklima
biodiversitet
vækst- og Fælleshus&
Fælles Fryse/kølehus
regNvaNds-opsamliNg
jordvarme / varmepumper
grøNNe tage Fælles elbiler
cradle to cradle materialer
grøNNe vægge
boliger
spildevaNd
sustainable transformation of villaalBert nauers vej, HøjBjerg
existing villa FroM 1978 in aarHus, private Client
new design with cut through the house.integration of glass facades and sky-lights - to support natural ventilation - passive heating.
Facades (east and vest)and roof are wrapped with green walls. it increases the insulation value, the biodiversity and collect rain water.
Clay floor makes better indoor climate and works as a humidity regulator in the house.
gables are covered with zinc (c2c product). on the south fa-cade it is possible to use it for producing hot water/ heating.
villa from the 70´s
C2C / recyclable &reusable
s u s t a i n a B l e transForMation oF villa FroM 70´s
proCess
10Year C2C goals anD value proposition
revitaliZation
Design For DesasseMBlY
air & DaYligHt QualitY
use oF reneWaBle energies /passive strategies - 50% -> 80% reDuCtion
energY eFFiCienCY / eMBoDieD energY
10 Years
ClaY
Flo
orin
g
Cell
ulos
e in
sula
tion
solar Heating
gree
n FaCa
Des
Heat reCoverY
pv panels
BalanCeD ventilation
FunCtions
FunCtions
sMart Hou
se teCHnologies
outsiDe Covering
transForMation exaMple oF Corteen steel FaCaDeexaMple oF otHer solution WitH textile “eartHtex FaBriC”
the overall concept and approach to the project are guid-ed by a C2C mindset where added value and innovation is in focus. the aim is to transform a villa from the 70's to architecturally updated and interesting home that pro-vides family the best conditions, both in terms of daylight, indoor climate, materials, biodiversity and experience. value proposition and 10 year goals is an importent part of realizing a project like this.
Sustainable TRANSFOTMATION of VillaLOOP architects_2012
2
sustainable transformation of villaalBert nauers vej, HøjBjerg
existing villa FroM 1978 in aarHus, private Client
new design with cut through the house.integration of glass facades and sky-lights - to support natural ventilation - passive heating.
Facades (east and vest)and roof are wrapped with green walls. it increases the insulation value, the biodiversity and collect rain water.
Clay floor makes better indoor climate and works as a humidity regulator in the house.
gables are covered with zinc (c2c product). on the south fa-cade it is possible to use it for producing hot water/ heating.
villa from the 70´s
C2C / recyclable &reusable
s u s t a i n a B l e transForMation oF villa FroM 70´s
proCess
10Year C2C goals anD value proposition
revitaliZation
Design For DesasseMBlY
air & DaYligHt QualitY
use oF reneWaBle energies /passive strategies - 50% -> 80% reDuCtion
energY eFFiCienCY / eMBoDieD energY
10 Years
ClaY
Flo
orin
g
Cell
ulos
e in
sula
tion
solar Heating
gree
n FaCa
Des
Heat reCoverY
pv panels
BalanCeD ventilation
FunCtions
FunCtions
sMart Hou
se teCHnologies
outsiDe Covering
transForMation exaMple oF Corteen steel FaCaDeexaMple oF otHer solution WitH textile “eartHtex FaBriC”
the overall concept and approach to the project are guid-ed by a C2C mindset where added value and innovation is in focus. the aim is to transform a villa from the 70's to architecturally updated and interesting home that pro-vides family the best conditions, both in terms of daylight, indoor climate, materials, biodiversity and experience. value proposition and 10 year goals is an importent part of realizing a project like this.
ADMINISTRATIONS BYGNING, AARHUSVEJ 56, ODDERIDE FORLSAG
DATO: 25.01.2012
ADMINISTRATIONS BYGNING, AARHUSVEJ 56, ODDERIDE FORLSAG
FORRETNINGSFØRER22,2 m2
MØDE10,6 m2
KONTOR18,8 m2
MØDE10,6 m2
TOILET5,0 m2
FÆLLESKONTOR52,3 m2
KONTOR19,6 m2
TERRASSE
TOILET5,0 m2
KONTOR13,4 m2
NÆRARKIV10,8 m2
KONTOR13,7 m2
KONTOR10,6 m2
KONTOR10,8 m2
MØDE 21,3 m2
6,7 m2
ANRETTE-KØKKEN17,8 m2KANTINE54,4 m2
UDVIDELSES MULIGHEDHALL
5. GÆSTE P.
INDKØRSELPERSONALE INDGANG
UDVIDELSES MULIGHED 16 P.
AAR
HU
SVEJ
FORPLADS
DATO: 25.01.2012
Matr. Nr. 1 FU Odder By, OdderGrundareal: 2991 m2Lokalplan nr. 1039Område til erhvervsformålMax højde: 8,5 mMax. 2 etagerMax. Bebyggelse på grund 897 m2Max. 5982 m3Max. Etageareal ca. 1574 m2
N
STUEPLAN 540 m2
Office/ residential HOUSING projectsFrost LARSEN architects_2012
3
Dato: 30.01.2012
10 ALMENE BOLIGER I TOTALENTREPRISEKONKURRENCE
Boligselskabet VIBORG, Asmild Kær, Afd. 39
Dato: 30.01.2012
10 ALMENE BOLIGER I TOTALENTREPRISEKONKURRENCE
Boligselskabet VIBORG, Asmild Kær, Afd. 39
51.50
50.75
51.00
50.50
52.50
52.75
51.25
51.75
52.00
52.25
53.00
51.00
51.25
51.50
51.75
52.25
52.00
51.75
52.50
52.75
52.00
52.25
53.00
17 p-pladser, hvoraf 8 p-pladser etableres i 2. etape.
HCP
Indkørsel
Cykler
Skur
Cykler
Skur
HCP
14 p-pladser, hvoraf 8 p-pladser etableres i 2. etape.
* *
**
**
**
**
Legeplads / Fællesareal
N
4cn
4co
4cq
4cp
skellinie - KMS
Asmild Eng
transformerstation
cyke
lsti
DK: 51.98m
DK: 53.02m
DK: 52.13m
DK: 50.79m
trådhegn
2
SITUATIONSPLAN 1:500
AAB ODDER 14 ALMENE BOLIGER - AAHOLMSGADE 6, ODDER
Bebyggelsen set fra friarealet
AAB ODDER 14 ALMENE BOLIGER - AAHOLMSGADE 6, ODDER
71
2310
67
69
75
7
7
27
5
21
3
5
4
258
73
17
19
26h
Indkørsel
21 P-pladser
Fælles grønning
Leg
Affald
Aah
olm
sgad
e
Mejerivej
Bolig 1
Bolig 2
Bolig 3
Bolig 4
Bolig 5 Bolig 6 Bolig 7
Altangang
Trappe
Elev.
Stueplan (ikke målfast)
N
The GARDEN School in the dense city of AarhusAalborg University_master thesis_spring 2011
This project deals with a task of designing a new public school in the district of Frederiksbjerg in Aarhus. The new school will replace the current school of N.J Fjordsgade which no longer fits the growing number of pupils and changing educational needs.
The vision of this project is to design a new and modern school, which facilitates futureoriented educational principles. The pedagogical focus areas are learning flexibility, well-being and age differentation, which will be reflected into the architecture of the school and its surroundings. A healthy indoor climate promotes the performance of schoolwork by children and must also be integrated into the building design. The future school should encourage healthy lifestyle and conscious approach to the nature and city surroundings. The goal is to create synergy between pedagogical, architectonical and technical strategies.
Tools have been used: Revit, Rhino, Virtual Environment, BE10, Adobe Suite
4
Learning Gar-den
Urban Garden
Play Garden
School + city
The entrances to the school: public and pri-vate (school members only)
Giving to the city: pub-lic functions such as canteen etc., can be used by the residents of the area.
“Hearts” of the school - for all the school members and for dif-ferent districts.
3 different gardens dedicated for different age groups of pupils and different levels of privacy.
Primary level
Middle level
Final level
Division of the func-tions
master plan
Ingerslevs Blvd.
Skt. A
nna G
ad
e
Main building
A
B
C
Classrooms A - privateFittness - publicSports hall - public
Classrooms A - privateSubject rooms (arts) - public
Subject rooms (science) - privateAuditorium - public
Administration - semi privateLibrary - publicCanteen - public
Classrooms C - privateClassrooms B - private
AB
C
Public
Learning garden
Playing garden
Urban garden
Distinguishing element of the mas-terplan is the three gardens, each of which relates to different groups of children and create different lev-els of privacy.
The urban garden, placed in front of the Ingerslevs Boulevard is the place for oldest children. Skatepark, BMX track and other movement-encouraging activities are placed there.
The learning garden is placed in be-
tween the volumes. This is a place for school members to relax, play and study. A direct access from the subject rooms allows using plants, water and soil from the garden in everyday classes.
The playing garden is placed in connection with the existing Skole-marken. This is the place for the youngest pupils of the school. It consists of various playgrounds and can as well be used by residents of the area.
Ingerslevs Blvd.
Skt
. Ann
a G
ade
The architectonical expression states firmly that the new design is a place for children. Playful fa-cades, softly curved walls as well as a variety of outdoor activities and greenery make the new school a children friendly area that appeals to a synergy of play, learning and movement.
The city and school relationship is further expanded by creating a
technical approach
- comfortable thermal environment and good indoor air quality- category A requirements of overtemperature, CO2 pollution and air humidity
- mechanical [displacement] ventilation in winter- heat recovery with 85% of efficiency- natural [stacked] ventilation in warm period and night cooling
- good daylight in workareas - classrooms and shared areas- plenty of daylight from skylights and glazing between rooms- effective shading will reduce risks of blinding
- optimization of the envelope- the building meets the energy frame of the BR10
indoorclimate[VE]
ventilation strategy
lightingcomfort[VE]
energy consumption[BE10]
common areaclassroom
outlet outlet
inlet inlet
mechanical displacement ventilation
natural stacked ventilation
possibility to use some of the func-tions, such as the skatepark, can-teen/cafe, library and sports center, can be used by the residents and guests of Frederiksbjerg.
The very important point in the design was avoiding unused and undefined spaces. Almost every square meter of the school can be used for relaxing, socializing or studying. The classrooms “expand”
into the shared areas and the rest of the school when needed.
Based on good daylight conditions, comfortable temperatures and effi-cient ventilation strategies a healthy indoor climate is integrated into the design to ensure effective learning conditions for the children.
pond
water playground
pond
116.
00
31.00 156.00
127.00
106.00
24.00
32.00
7.00
38.5057.50
49.00
36.50
22.00
26.60
42.50
28.3
0
40.30
41.00
7.30
8.30
33.20
42.0
0
24.30
13.60
38.50
18.10
pond
water playground
pond
116.
00
31.00 156.00
127.00
106.00
24.00
32.00
7.00
38.5057.50
49.00
36.50
22.00
26.60
42.50
28.3
0
40.30
41.00
7.30
8.30
33.20
42.0
0
24.30
13.60
38.50
18.10
17 17
1717
18
19
1617
1717 17
181619
20
1
32
45
6
78
9 10 111213
14
15
1
3
2 2 2
22
22
24
2
2
2
2
4
56
7
8
9 1010
1111
1111
11
12
12
1111
1111119
81 level floor1 terrace2 classroom3 shared area4 WC5 tech room6 office7 library8 shared area9 tech room / WC10 storage for projects11 classroom12 terrace
80
381017385
394560
ground floor level1 fitness2 men’ changing room3 women’ changing room4 theater5 teachers’ room6 music 7 art8 tech room / WC9 cleaning10 storage11 tech room12 changing room13 kitchen14 canteen15 reception16 storage for projects17 classroom
13035401059390904327810845360
4560
20
ground level 1 level
18 teachers’ room19 tech room / WC20 shared area
6039
south facademain fasade
east facade
north facadeback fasade
west facade
20,0
20,0
20,0
20,0
10,0
10,0
10,0
10,0
south facademain fasade
east facade
north facadeback fasade
west facade
20,0
20,0
20,0
20,0
10,0
10,0
10,0
10,0
east facade south (main) facade
0.000
3.400
6.000
8.400
10.500
-5.000
-1.500
0.000
6.000
7.500
10.000
section C-C
0.000
7.500
13.500
0.000
5.000
8.500
10.500
3.500
-1.500
-5.000
6.000
15.000
20.000
18.500
-6.000
-1.500
section A-A
Multimedia house is to become the biggest Scandinavian public library and represents a whole new generation of modern hybrid libraries. The building is lo-cated at the mouth of Aarhus stream - one of the most prominent places in the city centre. It is a part of ambitious master plan for revitalizing the whole of the former industrial port area. Multimedia house connects both visually and practically the historic downtown with the waterfront.
The new Mediaspace is not merely a building. It is a destination. It is a space to exchange knowledge, an environment where creativity flourishes. Openess is the essential tool for ataining UNITY, DEVELOPMENT and KNOWLEDGE.
When came to this project I got involved into the detailing phase and have been working in a team of 10 people. My contribution to this project was mainly working on interior with Revit, making graphical presentation and physical models.
SHL_internship_autumn 2010Urban Mediaspace public library in Aarhus5
SHL_internship_autumn 2010
The House of the Danish Industry Foundation A building for the Sino-Danish Centre for Education and Research6
The Danish university building is situated on a newly established university campus outside central Beijing where individual buildings create an open and green settle-ment of recreational areas between the buildings. This way, the Danish building can be given its own expression and disposition without interrupting the general idea of the master plan.
The idea behind the design of the building is quite simple but creates an informal architecture full of expression and tension. - Simplicity in the expression and a dynamic concept with character. - Strong visual connection between functions internally in the building as well as in relation to the exterior. - Extensive use of daylight in a tense contrast between open and closed elements. - A design where the exterior reflects the interior, and the interior which is enhanced by the outside world. - Use of Nordic characteristics, such as daylight, functionality, synergy and poetry.
My contribution to this project was working with functions and room program, making plans and sections for the presentation, making physical models.
section AA
The Danish university building is planned according to a simple principle where the more public functions greet the visitor on the ground level. The functions turn progressively more private as you ascend. On the top floor, you will find only private apartments.
On the ground floor there is an open passage that you pass from the arrival area down to the lake through the impressive day lit atrium containing the reception, exhibition and a canteen. It is not only a foyer but an active showroom for the university activities.
On the following floors, the classrooms, study areas and offices for the researchers are distributed to achieve mutual synergy.
The apartments on the top floor have access to open roof garden and yards.
ground level
Ophold ophold
opholdOphold
cykelparkering
Forplads
adgang til lejligheder
græs
armeret græs
Indgang Indgang
græs
parkering varer/renovation
græs
interior
7This project addresses the design of a sustainable housing complex in the outskirts of Aalborg’s dense city centre. Design challenges the field between suburban housing and the city block to create a new way of living. The design approach is very much holistic by considering the dif-ferent aspects of sustainable architecture - such as social, technical, architectural and environmental. The new urban plan tries to revive the old existing area by integrating it into the city flow.Three islands with building groups create semi-private atmosphere and convey strong community sense. Buildings are located around the central parking entrance and make not just visual contact but also physical closeness by sharing spaces with neighbours.
Tools have been used: Revit, Rhino, AutoCAD, B-sim, PHPP, Ecotect, Adobe Suite
Stacked Villas+ zero energy housingAalborg University_group project_spring 2010
Cutting to reduce shadows on ground Pushing the facade to make shelter from envelopeStacking to reduce surface area Pulling to add apartments and density Pushing to optimize angel for solar cellsenergy concept
- utilizing the climate / building compact - tight envelope- sloping the south wall for PV-cells
- natural ventilation in summer- mechanical ventilation in winter- heat recovery with 90% of efficiency
- satisfying thermal environment and good indoor air quality- category B requirements of overtemperature, CO2 pol-lution and air humidity
- effective shading will reduce risks of blinding- large glazing areas will provide plenty of daylight
energy neutrality
ventilation strategy
indoorclimate[B-sim]
LightingComfort[Ecotect]
technical approach
Section BB1 5
7.2
9.9
4.0
10.4
13.6
16.8
20
21.6
25.7
6.7
13.1
16.3
19.5
0.0
20.1
section A-A
Section AAA D
7.2
9.9
4.0
10.4
13.6
16.8
20
21.6
26.2
6.7
13.1
16.3
19.5
0.0
15.1
14.8
12
11.7
8.8
8.5
5.6
1.6
5.3
section B-B
east facade west facade
physical models
Master plan
Architecture and Design - Aalborg University
project:
date:
group:
semester:
drawing:
scale: number:
1:500
Stacked villas
27.05.2010
8 Ark 8
N
A01
master plan
second floor plan
interior - living room
interior - kitchen
morning terrace15 sq m
bedroom9 sq m
bedroom10 sq m
master bedroom
14 sq mbathroom6.7 sq m
corridor10 sq m
living/dining/kitchen40 sq m
Living/dining/kitchen40 sq m
corridor5 sq mbathroom
5.5
bedroom10 sq m
master bedroom13 sq m
morning terrace11 sq m
morning terrace19 sq m
morning terrace15 sq m
Living/dining/kitchen40 sq m
corridor5 sq m
bathroom5.5
bedroom10 sq m
master bedroom10 sq m
bedroom14 sq m
bedroom10 sq m
master bedroom
14 sq m
bathroom6.7 sq m
corridor10 sq m
living/dining/kitchen40 sq m
morning terrace15 sq m
bedroom9 sq m
bedroom10 sq m
master bedroom
14 sq mbathroom6.7 sq m
corridor10 sq m
living/dining/kitchen40 sq m
Living/dining/kitchen40 sq m
corridor5 sq mbathroom
5.5
bedroom10 sq m
master bedroom13 sq m
morning terrace11 sq m
morning terrace19 sq m
morning terrace15 sq m
morning terrace15 sq m
bedroom9 sq m
bedroom10 sq m
master bedroom
14 sq m
bathroom6.7 sq m corridor
10 sq m
living/dining/kitchen40 sq m
Living/dining/kitchen30 sq m
corridor5 sq m
bathroom5.5
bedroom10 sq m
master bedroom13 sq m
morning terrace10 sq m
evening terrace19 sq m
evening terrace13 sq m
morning terrace15 sq m
bedroom9 sq m
bedroom10 sq m
master bedroom
14 sq m
bathroom6.7 sq m
corridor10 sq m
living/dining/kitchen40 sq m
Living/kitchen27 sq m
corridor5 sq m
bathroom5.5
studio7 sq m
master bedroom12 sq m morning terrace
9 sq m
evening terrace19 sq m
evening terrace11 sq m
morning terrace15 sq m
bedroom10 sq m
master bedroom
14 sq m
bathroom6.7 sq m
corridor10 sq m
living/dining/kitchen40 sq m
corridor8 sq m
bathroom4 sq m
bedroom16 sq m
kitchen17 sq m morning terrace
7 sq m
evening terrace19 sq m
evening terrace10 sq m
dining/living25 sq m
evening terrace8 sq m
First floor plan Second floor plan Third floor plan Fourth floor plan Fifth floor plan Sixth floor plan
BB
A
A
Design of the apartments are based on the same gen-eral principles. The living ar-eas are open and sufficiently illuminated from both east and west, while the smaller openings to the south/north improve the quality of the daylight.
Kitchens and master bed-rooms are facing the morn-ing sun in the east, while living areas, rooms and stu-dios are facing the evening sun in the west. Master bed-rooms also have a direct connection to the morning balcony.
The dinning room is placed in between kitchen and liv-ing room, creating an open division between the two, as well as acting as an anchor in the building that connects service rooms with social rooms - and being a place where the family gathers ev-ery day.
The horizontal windows en-sure nice views from the different workheights of liv-ing room, dining area and kitchen.
shared space / courtyard
canteen / exhibition hall
auditoriums
lecture roomsgroup rooms / work-shops / labs / ar-chives
offices / teaching staff / phD stu-dentsinner courtyard conceptual idea
The building of Institute for Architecture & Design is situated in a very important site of the Aalborg city center. It is surrounded by signifi-cant objects such as Utzon centre, Nordkraft, Aalborghus castle and oncoming music house.
Each part of the building applies to different functions yet connected by a central common space. The building combines open and closed spaces, has inner courtyard and open space on the roof for relaxing and having free time leisure. All parts of the building have access to the roof thus enabling circular motion inside.
Tools have been used: SketchUp, Revit, AutoCAD, Adobe Suite
The INSTITUTE for A&DAalborg University_individual project_autumn 2009
8
ground floor
first floor
second floor
third floor
site plan
9UNITING cities living brigeAalborg University_individual project_autumn 2009This project focuses on designing a Living Bridge between Aalborg and Norresundby. The design is based on an urban scenario, where the two cities are transformed towards more dense cities. The bridge contains a hotel and different recreational and public facilities. The water-space is thereby utilized as a building site for the growing density of the cities and their complex and dynamic life.
A key concept in the design was to create an integrated part of the city, a continuation of the urban fabric, so that the Limfjord would not be an immense obstacle anymore. It has also been an aesthetic vision to make a continuous form. A combination of sheltered pathways with multiple choices and possibility to engage in urban activities has been incorporated to ensure the bridge being a dynamic part of the cities.
Tools have been used: Revit, AutoCAD, STAAD Pro, Ecotect, Adobe Suite
N
Aalborg
Norresundby
botanical garden
reception lobbymaster plan
FUNKTIONSUITE
RECEPTION
TOILETS KITCHEN
RESTAURANT
LIBRARY
SHOPKIOSK
LEFT-LUGGAGE
ADMINISTRATION
STORAGE
SOCIAL ROOM
TECHNICAL ROOM
COFFEE/SNACKBAR
STORAGE STUFF R.
SECURITY
STORAGE
KITCHEN
DISHWASHINGSUPPLY
SERVICE/MAINTENANCE SERVICE/MAINTENANCE
DEPOSIT/STORAGE
COFFEESNACKBAR
SECURITY/STUFF ROOM
STORAGE
ADMINISTRATION
BAR
TECHNICAL ROOM/STORAGE
SHOP
COFFEESNACKBAR
ADMIN ISTRATION
FLOORPLAN A5
FLOORPLAN A4
FLOORPLAN A3
FLOORPLAN A2
FLOORPLAN A1
FLOORPLAN B5
FLOORPLAN B4
FLOORPLAN B3
FLOORPLAN B2
FLOORPLAN B1
FLOORPLAN B6
FLOORPLAN B7
FLOORPLAN C5
FLOORPLAN C4
FLOORPLAN C3
FLOORPLAN C2
FLOORPLAN C1
FLOORPLAN C6
FLOORPLAN D5
FLOORPLAN D4
FLOORPLAN D3
FLOORPLAN D2
FLOORPLAN D1
FLOORPLAN D6
FLOORPLAN D7
FLOORPLAN E5
FLOORPLAN E4
FLOORPLAN E3
FLOORPLAN E2
FLOORPLAN E1
CONFERENCE ROOM
FLOORPLAN C7
SERVICE/MAINTENANCE SERVICE/MAINTENANCE
DEPOSIT/STORAGE
SHOP
STORAGE
CONFERENCE ROOM
ATRIUM
ATRIUM
SECURITY
TRAM LINE
TRAM LINE
BICYCLE PATH
BICYCLE PATH
SERVICE/MAINTENANCE
DEPOSIT/STORAGE
SERVICE/MAINTENANCE
SOCIAL ROOM
SHOPSHOPSHOP
SHOP
SHOP SHOPSHOP
SHOP
TECHNICAL ROOM/STORAGE
SERVICE/MAINTENANCE
DEPOSIT/STORAGE
SERVICE/MAINTENANCE
ENTRANCE/RECEPTION
OFFICE
SQUASH
CANTEEN
TABLE TENNIS
MASSAGE ROOMS/SOLARIUM/STORAGE
STAFF ROOM
CHANGING ROOM
CHANGING ROOM
SPA LOUNGE
SPA
SAUNA
FRESH AIR ROOM
TECHNICAL ROOM/STORAGE
SERVICE/MAINTENANCE
DANCING/BALLET CLASSES
9200
5993
5993
15853 6033 17027 6033 17270
12038
50265011
4986 4958
37908
9978
5023
5002
26577
19999
29001
18977
4977
4978
28932
23480 23569
46784
6000
2000
2000
1051213713 13683
17802
29006
31532
67600
12000
56387
19006
996723219 23213
61493 61577
996727758 27846 25805 25805
24061
61657
1200024828 24828
25210
50115
12112 1900119001
16605
9200
6033
55437
12000
21185
56406
996723219 23219
49529
12000
21663 21763 996725805 25805
24061
3690
37045409
5334
5358
5716
9220
5737
1500
2000
17225
5012
4988
50113
13585 189117416
16579
16580
5000
5000
6000
5290
5290
47382
17635 13869 15878 23450 16785 20172
60406 53819
17916 11878 23883 18057 11879 23883
19006
55437
22133 12027 6000 15570
21185
48838
39619
15766 8000
21493
56424
22146 12022 22225
26270
62247
2520918701 18813
3040 6033 2928 6000 86656000215110560 4148
12000 25199
29208
55960
996722979 22996
17800
21023
21023
55924
22996 9967 22996
49545
18921 30624
48709
19437 10033 19143
17154
61838
21800 16830 23221
800051371169120408070 3693 7339 8066 7817
4026
56153
19225 17607 19328
60335844120017219 2027 17288
56152
19111 15901 21134
19470
50111
18869
47131
50115
16580
19006
18979
26580
5018
25230
4977
4163
4163
3707
3720
24021
33536
3822
26688
26688
3822
3860
18861 11826122227206
35235
9617
5000
6000
9452
4802
24021
16583
3733
48781
19382 10143 19256
17154
40330
17027 17270
12039
40330
53684
35220
26541
11774
3705
BB
A
A
section AA section BB
The bridge becomes a Living bridge by integrating vari-ous functions as public, commercial and sports facilities, and combining different kind of commuters to create a concentrated, dynamic piece of the urban landscape.
Functions and facilities are placed along the bridge into six bubbles. The main hotel with reception is placed in the second bubble from the north, underneath which a tram stop finds its place. The rest of the hotel is placed in three other bubbles, with one of them also housing shopping facilities on the deck level.
Besides four bubbles for the hotel, one bubble is assigned to sports facilities. The last bubble with botanical park is located just before the bridge opening.
For structural calculations and dimensioning the program STAAD.Pro was implemented to estimate displacements, stresses and eigen frequency in the construction.
Acoustic analysis of the conference room was per-formed to ensure accept-able sound level. Materials for interior were chosen ac-cording to their acoustical characteristics.
facade technical approach - structural diagrams
view from Norresundby side
10 DWELING for Ornitologist Aalborg University_individual project_winter 2010
Project location lies in Thy National Park, Hanstholm, Denmark. Building site was chosen on top of the hill next to the lighthouse and a small grove. It is found to be practical for two reasons - easy access for mounting nets in the grove and ringing birds, and good visibility for watching meadows down the hill where birds breed.
Conceptual idea - simple volumes placed on the main axis. Each volume represents a different room and function. The main axis - staircase stepping down the hill awards the occupant with different experiences and provides for easy acces to each room.
Tools have been used: Revit, AutoCAD, Adobe Suite
the rooftopstaircase
concept sketches
Rough concrete was cho-sen as the main mate-rial corresponding to sur-roundings - harsh wind, poor vegetation and bun-kers as historical context. It is used both for exterior and interior due to its abil-ity to reviel texture beauty when hit by the sun light.
N
A
A'
A
A'
B B'
ground floor -1 floor
bedroomtoilet facilitieskitchen area
social areaworking area
storage
10,5 m22,8 m25,5 m24,5 m24,0 m21,5 m2
section B-B section A-A
working / social room
Entrance to the building is embeded into the ramp from which one can enter the staircase. The bedroom is located on the top of the slope, so man could wake up with birds singing in the grove and Eastern sun.
The next volume consists of toilet facilities, kitchen and dining area including small storage room for wood or working equipment. In the lowest part of the building, a cosy social room takes place with a fire place and working space. All windows in the building are placed ac-cording to the sun position and landscape views.
For watching birds one can find a place on the rooftop, where amaz-ing views overlook the area in all directions.