Post on 09-Jan-2022
MSc5 Hybrid Buildings A08 October 2009 - P4 Jasper Moelker
tutors:ir. Roberto Cavalloir. Henk Mihlir. Peter van Swieten
Teleportportal to development
Study question:
‘By what design intervention can the center of the Teleport Area be transformed into a more efficient, continuous and liveable environment?’
Teleportportal to development
urban analysis
urban concept
masterplan
objectives
concept
cluster design
objectives
BLO
CK
circulation buildinglayout
constructionsystem
installationsystem
facade
light & visibility
mixed program
flexibility
appearance
UR
BA
N
study question
objectives
concept
BU
ILD
ING
proof systemby case study
proof systemby case study
building design
urban analysis
urban concept
masterplan
objectives
concept
cluster design
objectives
BLO
CK
circulation buildinglayout
constructionsystem
installationsystem
facade
light & visibility
mixed program
flexibility
appearance
UR
BA
N
study question
objectives
concept
BU
ILD
ING
proof systemby case study
proof systemby case study
building design
Teleport
Location // TeleportUrban design
Analysis // zoning
l o ni
a on s y
Urban design
Metro
HigwayA10
CruiseTerminal
Train
Analysis // infrastructureUrban design
office area office area
A10 highway
metro
train
car, bus, tram
Sloterdijkstation
( Amsterdam center )
Analysis // adjacent areasUrban design
Objectives
office area office area
Sloterdijkstation
TELEPORT
TELEPORT
OBJECTIVES:
> re-connect> intensify> humanize
Urban design
a green “band aid”
Teleport as transport hub
the membrane
ConceptConcept // re-connectUrban design
Concept // intensifyUrban design
Concept // humanizeUrban design
--> housing--> offices--> shops--> catering industry--> other facilities
--> highrise--> facilities--> slow traffic--> fast traffic
--> extend train platforms--> bus / tram terminal--> parking facilities--> distribution routes--> separate slow traffic
--> visibility & overview--> light--> green--> control people flow--> physiological aspects
--> wide street profiles--> parks & terraces--> use of daylight--> closeable areas
program
infrastructure
}}ify
ne
multiplelayers
mixedprogram
optimizedinfrastructure
comfort& safety
vesMasterplan // approach
> re-connect> intensify> humanizeurban space
Urban design
Setting
Sloterdijk Station
Highway A10
Masterplan // setting
Sloterdijk Station
Highway A10
Urban design
Masterplan // infrastructure
ar r ute
ra us
Car route(new)
Tram + Bus(new)
Trains
Cars
Metro
Tram
Urban design
Masterplan // park-over / network / building mass
Highrise &Boulevards
(highrise)(highrise)
(highrise)
Urban design
Masterplan // infrastructure infrastructure asis e
aarle er e
raar
era
are
us raer inal
rain stati nentrances
n rcar r ute
istri uti nr ute
ar par
Urban design
Masterplan // parkingUrban design
Masterplan // parks / boulevards / facilities
not full detailednot full detailed
not full detailed
Urban design
Masterplan // highriseUrban design
Masterplan // impressionUrban design
Cluster
urban analysis
urban concept
masterplan
objectives
concept
cluster design
objectives
BLO
CK
circulation buildinglayout
constructionsystem
installationsystem
facade
light & visibility
mixed program
flexibility
appearance
UR
BA
N
study question
objectives
concept
BU
ILD
ING
proof systemby case study
proof systemby case study
building design
METHOD :
STUDY CLUSTER TO PROOF THE
USABILIT Y OF THE MASTERPLAN
OBJECTIVES:
> light & visibility> flexibility to accommodate mixed program > dwellings > offices > retail > catering industry > other facilities
ObjectivesCluster
Strip withfacilities
Highriseon strip
Lightcorridors
Bus + TramTerminal
TrainPlatforms
Car Park
ConceptCluster
Concept
level -03 : infrastructure (fast traffic)
level -02 : construction, installations, distribution
level -01 : facilities (run shopping)
level +00 : facilities (fun shopping); entrances
level +01 : highrise (offices, hotels, dwellings)(and up)
CCCourtyardStrippp withfacillities
Highriseon strip
Liggghhhhhtttatrrriiummm
Cluster
Platforms (-03)
atrium
outline oftowers above
lightcorridor
Cluster
Parking (-02)
atrium
outline oftowers above
lightcorridor
Cluster
Boulevard (-01)
atrium
outline oftowers above
lightcorridor
Cluster
Ground floor (+00)
atrium
lightcorridor
Cluster
ImpressionsCluster
ImpressionsCluster
Building
urban analysis
urban concept
masterplan
objectives
concept
cluster design
objectives
BLO
CK
circulation buildinglayout
constructionsystem
installationsystem
facade
light & visibility
mixed program
flexibility
appearance
UR
BA
N
study question
objectives
concept
BU
ILD
ING
proof systemby case study
proof systemby case study
building design
Objectives
METHOD :
CREATE BUILDING DESIGN TO PROOF THE
USABILIT Y OF THE CLUSTER DESIGN
OBJECTIVES:
> light & visibility> mixed program> flexibility (change usage over time)> appearance
CONTSTRAINTS:
> building above train tracks and platforms
Building
Concept // basis
CONNECT & OPEN UP
Building
CONNECT & OPEN UPCONNECT & OPEN UP
Concept // sightBuilding
CONNECT & OPEN UPCONNECT & OPEN UP
Concept // circulationBuilding
CONNECT & OPEN UPCONNECT & OPEN UP
Concept // orientationBuilding
Concept // privacy
CONNECT & OPEN UPCONNECT & OPEN UP
Building
CONNECT & OPEN UPCONNECT & OPEN UP
Concept // constructionBuilding
CONNECT & OPEN UP
Concept // installations
CONNECT & OPEN UPCONNECT & OPEN UPCONNECT & OPEN UPCONNECT & OPEN UPCONNECT & OPEN UP
Building
CONNECT & OPEN UPCO C & O UCONNECT & OPEN UPCONNECT & OPEN UPCONNECT & OPEN UPCONNECT & OPEN UPCONNECT & OPEN UP
Concept // facadeBuilding
ConceptBuilding // circulationBuilding
Solo towers w/ mono core
Tower cluster w/ quad core + ring
Tower pair w/ dual core + ring
Clustering studiesBuilding // circulationBuilding
Core studies
Core embedded in void
Core plugged into towersCore plugged into towers
Building // circulation
OrganizationBuilding // circulation
Organization
A(stairs)
A(stairs)
B(elevators)
Building // circulation
SectionBuilding // circulation
Entrance
Entrance residents Entrance visitors
boulevard side on park level
Building // circulation
DetailsBuilding // circulation
ImpressionBuilding // circulation
ImpressionBuilding // circulation
ConceptBuilding // construction
System
main beamIPE 200 w/ extended lower flange
steel columntubular pro file 200 x 200concrete core
steel columntubular pro file 200 x 200concrete core
steel facade columntubular profile 120 x 80concrete core
edge beamIPE 170
edge beamIPE 200 w/ one side extended lower flange
main beamIPE 320
bracesbraces
braces
Joints
facade column - beamhinge joint
core column - beamclamped joint
Section AA1
Section BB1Plan upper floors
2700 2700 3600 3600 2700 2700 2000 2000
5700
5700
1350
1350
1350
Building // construction
Flow of forcesBuilding // construction
> one core per tower> service zone in tower center (in suspended ceiling)> other services in floors> climate in combination w/ facade
ConceptBuilding // installations
System
services abovesuspended ceiling
low temerature surface heatingin top of floor system or in additional dry floor system(adjustable to floor usage)
stairs & lifts
suspended ceiling
suspended ceiling
verticaldistribution
Section AA3
natural ventilationdirect or indirectthrough facade panels
mechanical ventilationpre cooled / heatedper dwelling / office
verticaldistribution
> HEATING> DRAINAGE> ELECTRICITY> VENT SYS in PLAN
Section BB1Plan upper floors
2700 2700 3600 3600 2700 2700 2000 2000
5700
5700
1350
1350
1350
Building // installations
noventilation
directventilation
indirectventilation
Natural ventilation Low surface heating
Heating and ventilation
> low surface heating in floor system (IDES)> if required placed in dry floor system on top (for extra insulation)
> no ventilation (closed)> indirect (pre heated) ventilation (4-10 deg)> direct ventilation ( > 10 deg)
Building // installations
AIR INvia bridge oncourtyard side
via bridge onboulevard side
AIR OUT
HEAT EXCHANGEin suspended ceilingin core area
FANS
Heating and ventilation
-
+
+ - + -
VaV
VaV
DWELLING OFFICE
HEAT REGULATIONpre cool / heat usingwater system (runningthrough vertical shaft)
VaVmin / maxdepends onfunction
Mechanical ventilation
> in addition to natural ventilation> air in/out via bridge> heat regulation using water system (distribution via shafts in core)> variable air volume (VaV) system depends on function (dwellings / offices / ... )
Building // installations
> contact vs privacy> day light vs sun shading> expression (of activity)
Concept
> contact vs privacy> contact vs privacy> contact vs privacy> contact vs privacy
Building // facade
Pattern & lightingBuilding // facade
System
OUT
IN
INOUT
900 x 900 x 4mm PC
30 - 30 - 30 - 30mm(not to scale)
min cover 20% max cover 95% black -> silver
Polycarbonate (PC) highly transparant lightweight (1200kg/m3) temperature resistance impact resistance thermoplastic (recyclable)
Building // facade
Detail // verticalBuilding // facade
Detail // horizontalBuilding // facade
Simulation
Prototype Rendering
Building // facade
ImpressionBuilding // facade
ImpressionBuilding // facade
Impression lightingBuilding // facade
Concept
> accommodate different programs> changeable over time> orient towards park or boulevard> more private activities towards center
Building // layout
Dwellings (+05)
DWELLING BDWELLING A
DWELLING BDWELLING ADWELLING A+
DWELLING A+
DWELLING C
Building // layout
Dwellings (+06)
DWELLING DDWELLING A+
DWELLING A+
DWELLING C
DWELLING D
Building // layout
Dwelling exampleBuilding // layout
Offices (+10)
OFFICE DESKSCAPEOFFICE UNITS
Building // layout
DetailsBuilding // layout
Building // layout