EXTREMES II
IKMAL IKRAM ARIFFINLEVEL 9
EXTREMES II
FLUID DYNAMICSTOPIC:
EXTREMES II
FLUID DYNAMICSChosen Field - Non Newtonian Fluids
A non-Newtonian fl uid is a fl uid whose fl ow proper� es are not described by a single constant value of viscosity.
Oobleck, a non-newtonian fl uid made with cornstarch and water
Many polymer solu� ons and molten polymers are non-Newtonian fl uids, as are many commonly found substances such as ketchup, starch suspensions, paint, blood and shampoo. In a Newtonian fl uid, the rela� on between the shear stress and the strain rate is linear (and if one were to plot this rela� onship, it would pass through the origin), the constant of propor� onality being the coeffi cient of viscosity.
Weight in Non Newtonian Fluid
Oobleck Simple terms : A non-Newtonian fl uid is a solid in liquid form
Viscosity is a measure of a fl uid’s resistance to fl ow. It describes the internal fric� on of a moving fl uid. A fl uidwith large viscosity resists mo� on because its molecular makeup gives it a lot of internal fric� on. A fl uid with low viscosity fl ows easily because its molecular makeup results in very li� le fric� on when it is in mo� on.
Viscosity Flow.
NON NEWTONIAN FLUID
EXTREMES IIEXTREME II
IKMAL IKRAM ARIFFINS3077092 SIALOOBLECK EXPERIMENTATION
OOBLECK
EXTREMES II
PRELIMINARYTOPIC:
EXTREMES II ISLAMIC PATTERNS
EXTREMES IIEXTREME II
IKMAL IKRAM ARIFFINS3077092 SIAL
p yTo create the change of state. To express a � uidity of form. Rigid
MULTIPLE GEOMETRY FOUND IN SINGLE PATTERN
GEOMETRY
EXTREMES II
PRELIMINARY
FREI OTTO
GEOMETRY
EXTREMES II
MODEL MAKINGTOPIC:
EXTREMES II
EXTREME II
IKMAL IKRAM ARIFFINS3077092 SIAL
Experimenta� ons - Explora� ons - Research - MODELS
MODELS
EXTREMES II
EXTREME II
IKMAL IKRAM ARIFFINS3077092 SIAL
Experimenta� ons - Explora� ons - Research - MODELS
MODELS
EXTREMES II
COMPONENTSTOPIC:
EXTREMES II
aPERIODIC
COMPONENT BASED STRUCTURE
COMPONENT
FOR MASS DUPLICATIONTHE PERIODIC GRID
EXTREMES II COMPONENT
REPETITION OF COMPONENTS - PERIODIC OR aPERIODIC
REPETITION TO PROMOTE A 3-DIMENSIONAL APPROACH - A 3-DIMENSIONAL WORK SPACE
EXTREMES II
RESEARCHTOPIC:
EXTREMES II RESEARCH
ARCHIGRAM
PAUL MAYMONT VERTICAL CITY , PARIS
DYMAXION HOUSE
CABLE CITY , TAKIS ZENETOS
ROBERT LE RICOLAIS, STRUCTURAL MODEL
EXTREMES II
MASSING PROPOSALTOPIC:
EXTREMES II MASSING
PUBLIC SPACE
RETAIL
COMMERCIAL
HOTEL
RESIDENTIAL
OFFICE
PROGRAM FLOOR AREA (m2) FLOOR HEIGHT (m2) NO. OF FLOORS
AXONOMETRICFRONT ELEVATION
TOP
15000
5000
9048
9048
10867.6
4
4
3.5
3.5
3.5
2
2
20
20
24
FLOOR DIAMETER (m2) TOTAL FLOOR AREA (m2)
452.4 48963.6
OVERALL BUILDING HEIGHT (m)
113.64
APPROX CAPASITY (STRUCTURE)
EXTREMES II COMPARISON TO BUILDINGS IN VIENNA
PHYSICAL MODEL
EXTREMES II
SITE ANALYSISTOPIC:
EXTREMES IIEXTREME II
IKMAL IKRAM ARIFFINS3077092 SIAL
p
MLegend
Underground Trains ( u-bahn )
Main Road
Inner Road
Highway
DonauKanal
DonauDanube
SITE DESCRIPTION
N
EXTREMES II
SUN WIND
SITE DESCRIPTION
EXTREMES II
FACADETOPIC:
EXTREMES II
PERIODIC FACADE TREATMENT
JEAN NOUVEL - WINDOW DETAIL
FACADE
EXTREMES II FACADE DESCRIPTIONMULTIPLE SIZES TO THE FACADE TREATMENT. CREATING A SYSTEM FOR USE. SUNLIGHT PENETRATION AND AIR CIRCULATION WOULD BE ABLE TO BE CONTROLLED TO SET A CLIMATE OF EFFICIENCY WITHIN THE BUILDING.
1. MAINLY ON LOWER FLOORS - PLAINLY AESTHETICS. - MAY BE OPERATABLE VIA ELECTRONICS2. EPERTURE WINDOWS - CONTROLLABLE OPENINGS - ELECTRONICS3. EPERTURE WINDOWS - CONTROLLABLE OPENINGS - HUMAN INTERVENTION4. SOLAR PANELS - FACADE TO GENERATE SOLAR POWERED ENERGYRESEARCH ON CH2
DUE TO THE STRUCTURE OF THE TOWER, CERTAIN SIDES WOULD BE ABLE TO BE GLASS. A MIXTURE OFTHE WAY THE GRID IS BEING USED MAY ALLOW THE TOWER TO BE VISUALLY AESHETICAL.
EXTREMES II
Transi� ons lenses contain patented photochromic dyes which cause the lens to ac-� vate-or darken-when exposed to ultraviolet (UV) rays from sunlight. When the UV light diminishes, the lenses fade back to clear. As outdoor light condi� ons change, the level of darkness adjusts, crea� ng just the right level of � nt and allowing just the right amount of light to enter the eyes at any given � me. This ac� on allows Transi� ons lenses to help protect your eyes from the light you can see -- reducing glare, diminish-ing eye strain and fa� gue and enabling you to dis� nguish contrast more easily.
For the light you can’t see - ultraviolet light - Transi� ons lenses can help protect your eyes for long-term preserva� on of healthy sight. It’s important to remember that, no ma� er how light or dark they appear to be, Transi� ons lenses are always blocking 100% of eye-damaging UVA and UVB rays. In other words, Transi� ons lenses provide automa� c protec� on from UV rays in any environment, con� nually protec� ng your eyes from the light you can’t see while you enjoy comfort and vision quality in the light that you can see.
PHOTOCHROMIC LENSES TO PHOTOCHROMIC GLASS
FACADE REACTING TO THE SUN
Photochromism is the reversible transforma� on of a chemical species between two forms by the absorp� on of electromagne� c radia� on, where the two forms have dif-ferent absorp� on spectra.[1][2] Trivially, this can be described as a reversible change of color upon exposure to light. The phenomenon was discovered in the late 1880s, including work by Markwald, who studied the reversible change of color of 2,3,4,4-tetrachloronaphthalen-1(4H)-one in the solid state. He labeled this phenomenon “phototropy”, and this name was used un� l the 1950s when Yehuda Hirshberg, of the Weizmann Ins� tute of Science in Israel proposed the term “photochromism”.[3] Photochromism can take place in both organic and inorganic compounds, and also has its place in biological systems
PHOTOCHROMISM AS A TYPE OF MATERIAL FOR GLASS FACADE SIDES
EXTREMES II PHOTOCHROMIC GLASS
PHOTOCHROMIC TINT
LONG DAYS IN THE MID OF THE YEAR
EFFECTS FROM BUILDING ORIENTATION - SUN DIRECTION
EFFECTS FROM THE SUN RAY THROUGHOUT THE DAY
EXTREMES II
STRUCTURETOPIC:
EXTREMES II
CURVED SPACE DIAMOND STRUCTUREPETER PEARCE 1994
STRUCTURE
DIAMOND STRUCTURE MODEL
DIAMOND LATTICE STRUCTURE
An ideal crystal is constructed by the infi nite repe� � on of iden� cal struc-tural units in space. In the simplest crystals the structural unit is a single atom, as in copper, silver, gold, iron, aluminium, and the alkali metals.
The structure of all crystals can be described in terms of a la� ce, with a group of atoms a� ached to every la� ce point. The group of atoms is called the basis; when repeated in space it forms the crystal structure. The basis consists of a primi� ve cell, containing one single la� ce point. Arranging one cell at each la� ce point will fi ll up the en� re crystal.
EXTREMES II STRUCTURE
ELEVATION DIAMOND LATTICE STRUCTURE
CCTV, OMA - DENSITY TREATMENT FOR THE STRUCTURE
EXTREMES II MASSING OPPORTUNITIES
STRUCTURE RESIDENTIAL OFFICE
COMMERCIAL / RETAIL HOTELTOP
EXTREMES II MASSING OPPORTUNITIES
VIEW 2
VIEW 1
EXTREMES II
PROPOSALSTOPIC:
EXTREMES II
PROPOSAL 1
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTUREIDEA OF DENSITY
PROPOSAL 1
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTUREIDEA OF DENSITY
PROPOSAL 1
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTUREIDEA OF DENSITY
PROPOSAL 1
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTUREIDEA OF DENSITY
PROPOSAL 1
EXTREMES II
PROPOSAL 2
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTURELIGHTER TYPOLOGY OF STRUCTURE
NOT STRUCTURAL
PROPOSAL 2
EXTREMES II
PROPOSAL 3
EXTREMES II PROPOSAL 3
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTUREDIAMOND LATTICE STRUCTURE - PHYSICAL MODEL
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTURE
PROPOSAL 3
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTURE
PROPOSAL 3
TENSION WIRE - STRUCTURAL SUPPORT CENTRAL CORE - SERVICES CENTRAL CORE - SERVICES -STRUCTURE FOR FLOOR SLABS
EXTREMES II
EXPERIMENTING ON THE DIAMOND LATTICE STRUCTURE
PROPOSAL 3
FACADE SCREEN CONNECTED TO TENSION CABLES
EXTREMES II
FACADE OPPORTUNITY
MULTIPLE SIZES OF HEXAGONSSIZE 1 - WINDOWSSIZE 2 - ENERGY SYSTEM (DYNAMO)SIZE 3 - ENERGY SYSTEM (SOLAR PANELS)SIZE 4 - FRAMEWORK
NED KHAN ( REACTIVE FACADE - SHINGLES)
EXAMPLE OF SHINGLE MOVEMENT - CAN BE UNIFORMED
PROPOSAL 3
FACADE OPPORTUNITY
MULTIPLE SIZES OF HEXAGONSSIZE 1 - WINDOWSSIZE 2 - ENERGY SYSTEM (DYNAMO)SIZE 3 - ENERGY SYSTEM (SOLAR PANELS)SIZE 4 - FRAMEWORK
NED KHAN ( REACTIVE FACADE - SHINGLES)
EXAMPLE OF SHINGLE MOVEMENT - CAN BE UNIFORMED
EXTREMES II PROPOSAL 3
DYNAMO SYSTEM
STAINLESS STEEL SHINGLES
FACADE OPPORTUNITYREACTIVE FACADE - POWER IS GENERATED BY THE USES OF THE WIND.IT
IS USED TO GENERATE POWER AS IT IS CONNECTED TO A DYNAMO SYSTEM COLLECTING ENERGY FROM THE MOVEMENT OF THE SHINGLES.
The kine� c energy of an object is the extra energy which it possesses due to its mo� on.
KINETIC ENERGYDEFINITION
DYNAMO SYSTEM
STAINLESS STEEL SHINGLES
FACADE OPPORTUNITYREACTIVE FACADE - POWER IS GENERATED BY THE USES OF THE WIND.IT
IS USED TO GENERATE POWER AS IT IS CONNECTED TO A DYNAMO SYSTEM COLLECTING ENERGY FROM THE MOVEMENT OF THE SHINGLES.
The kine� c energy of an object is the extra energy which it possesses due to its mo� on.
KINETIC ENERGYDEFINITION
EXTREMES II PROPOSAL 3
EXTREMES II
PROPOSAL 4
EXTREMES II PROPOSAL 4
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
EXTREMES II PROPOSAL 4
PERSPECTIVE
EXTREMES II PROPOSAL 4
FROM THE BRIDGE
SPACES IN BETWEEN - INTERIOR / EXTERIOR
EXTREMES II PROPOSAL 4
PUBLIC PLAZA
EXTREMES II
PROGRAMSLOBBY
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
FACADE - INTERIOR TREAMENT
EXAMPLE OF SPATIAL EXPERIENCE
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
FACADE - GRASSHOPPER
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
FACADE - GRASSHOPPER
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
FACADE - GRASSHOPPER
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
PROPOSAL 4
EXTREMES II
Primary structure Secondary structure Spaces -Pods for programs-Inbetween spaces for circula� on, open spaces, public spaces and etc.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
PROPOSAL 4
EXTREMES II
PROPOSAL 5
EXTREMES II PROPOSAL 5
FACADE VARIATIONS
MULTIPLE SIZES OF HEXAGONSSIZE 1 - WINDOWSSIZE 2 - ENERGY SYSTEM (DYNAMO)SIZE 3 - ENERGY SYSTEM (SOLAR PANELS)SIZE 4 - FRAMEWORK
NED KHAN ( REACTIVE FACADE - SHINGLES)
EXAMPLE OF SHINGLE MOVEMENT - CAN BE UNIFORMED
MULTIPLE SIZES OF HEXAGONSSIZE 1 - WINDOWSSIZE 2 - ENERGY SYSTEM (DYNAMO)SIZE 3 - ENERGY SYSTEM (SOLAR PANELS)SIZE 4 - FRAMEWORK
NED KHAN ( REACTIVE FACADE - SHINGLES)
EXAMPLE OF SHINGLE MOVEMENT - CAN BE UNIFORMED
EXTREMES II PROPOSAL 5
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
VARIATIONS
Experimenta� ons on the idea of the facade and site treatment.
SCREEN DIVIDED
DRAPE
EXTREMES II PROPOSAL 5
PRELIMINARY
SPATIAL ARRANGEMENTS
EXTREMES II PROPOSAL 5
DRAPE
Experimenta� ons on the idea of the facade and site treatment.
DIVISION
EXTREMES IIDRAPE
Experimenta� ons on the idea of the facade and site treatment.
DIVISION
PROPOSAL 5
EXTREMES IIDRAPE
DIVISION
Experimenta� ons on the idea of the facade and site treatment.
PROPOSAL 5
EXTREMES IIDRAPE
Experimenta� ons on the idea of the facade and site treatment.
GRID
PROPOSAL 5
EXTREMES IIDRAPE
Experimenta� ons on the idea of the facade and site treatment.
GRID
PROPOSAL 5
EXTREMES IIDRAPE
Experimenta� ons on the idea of the facade and site treatment.
GRID
PROPOSAL 5
EXTREMES IIDRAPE
Experimenta� ons on the idea of the facade and site treatment.
GRID
PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5VARIATIONS
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II PROPOSAL 5
EXTREMES II
Installed windpower capasity (MW)16 Ireland 496 745 805 1,24517 Austria 819 965 982 99518 Greece 573 746 871 990
The Earth is unevenly heated by the sun, such that the poles receive less en-ergy from the sun than the equator; along with this, dry land heats up (and cools down) more quickly than the seas do. The diff eren� al hea� ng drives a global atmospheric convec� on system reaching from the Earth’s surface to the stratosphere which acts as a virtual ceiling. Most of the energy stored in these wind movements can be found at high al� tudes where con� nuous wind speeds of over 160 km/h (100 mph) occur. Eventually, the wind energy is converted through fric� on into diff use heat throughout the Earth’s surface and the atmosphere.
The total amount of economically extractable power available from the wind is considerably more than present human power use from all sources.[11] An es� mated 72 TW of wind power on the Earth poten� ally can be commercial-ly viable,[12] compared to about 15 TW average global power consump� on from all sources in 2005.
Last report from Vienna received 10 days 2 hours 35 minutes 27 seconds agoWind from 90 degrees @ 1.6 KPH (0.4 m/s) Gusts to 8.0 KPH (2.2 m/s) Temp 13C Humidity 73% Dewpoint 8C Pressure 997.8 mb
h� p://www.fi ndu.com/cgi-bin/wxpage.cgi?call=DW2087!Vienna&radar=***&units=metric&last=120
Clean electricity from the airThe Unterlaa wind farm, which came into opera� on in the autumn of 2005, comprises four wind energy generators that supply “green and clean” electricity. The wind park’s genera-� on capacity is suffi cient to supply 2,700 households with electricity. Minus approximately 4,500 tonnes of CO2 per year
www.wien.gv.at/english/environment/klip/r� /klip-brochure.r�
PROPOSAL 5
EXTREMES II
COLLABORATION OF IDEAS TOPIC:
EXTREMES II PART 1
ces,
c.
Service Core-Connec� ng fl oors and spaces
Facade-Shingle eff ects-Kine� c energy collec� on
EXTREMES II PART 1
EXTREMES II PART 1
EXTREMES II PART 1
EXTREMES II PART 1
EXTREMES II PART 1
EXTREMES II PART 1
EXTREMES II PART 2
EXTREMES II PART 2
EXTREMES II PART 3
EXTREMES II PART 3
EXTREMES II PART 3
EXTREMES II PART 3
EXTREMES II PART 3
EXTREMES II
FINAL DEVELOPMENTTOPIC:
EXTREMES II
EXTREMES II
EXTREMES II
EXTREMES II
EXTREMES II
EXTREMES II
EXTREMES II
EXTREMES II
FINALTOPIC:
EXTREMES IIEXTREME II
IKMAL IKRAM ARIFFINS3077092 SIAL
SITE (AERIAL PHOTO)
EXTREMES II PHOTOS
EXTREMES II SITE PLAN
EXTREMES II WIND AND SUN ANALYSIS
SUN DISTRIBUTION
SUN PATH CLIMATE
EXTREMES IIMULTIPLE SIZES TO THE FACADE TREATMENT. CREATING A SYSTEM FOR USE. SUNLIGHT PENETRATION AND AIR CIRCULATION WOULD BE ABLE TO BE CONTROLLED TO SET A CLIMATE OF EFFICIENCY WITHIN THE BUILDING.
1. MAINLY ON LOWER FLOORS - GLAZED2. WINDOWS - PHOTOCHROMIC GLASS MATERIAL3. SOLAR PANELS - SOLAR ENERGY4. SHINGLE SYSTEM - KINETIC ENERGY
EPERTURE STUDY
EXTREMES II
PHOTOCHROMIC TINT
PHOTOCHROMISM
SUN DISTRIBUTION
EXTREMES II
MULTIPLE SIZES OF HEXAGONSSIZE 1 - WINDOWSSIZE 2 - ENERGY SYSTEM (DYNAMO)SIZE 3 - ENERGY SYSTEM (SOLAR PANELS)SIZE 4 - FRAMEWORK
NED KHAN ( REACTIVE FACADE - SHINGLES)
EXAMPLE OF SHINGLE MOVEMENT - CAN BE UNIFORMED
MULTIPLE SIZES OF HEXAGONSSIZE 1 - WINDOWSSIZE 2 - ENERGY SYSTEM (DYNAMO)SIZE 3 - ENERGY SYSTEM (SOLAR PANELS)SIZE 4 - FRAMEWORK
NED KHAN ( REACTIVE FACADE - SHINGLES)
EXAMPLE OF SHINGLE MOVEMENT - CAN BE UNIFORMED
FACADE VARIATION AND USE
PATTERN
EXTREMES II DYNAMIC REACTIVE FACADE
SUN WIND PROGRAM ACTIVITY OVERLAP
DETAIL OF SHINGLE SYSTEM VARIATION
EXTREMES II EXTERIOR RENDER
EXTREMES II AERIAL VIEW
EXTREMES II STRUCTURAL ANALYSIS AND SPATIAL ORGANIZATION
LATTICE GRID
EXTREMES II SECTION
EXTREMES II PROGRAM
FRONT ELEVATION
REFER PROGRAM TO IMAGE
EXTREMES II PLANS
TYPICAL CONFIGURATIONFIRST FLOORGROUND FLOOR
EXTREMES II SPACE
IMAGE SHOWN WITHOUT FLOORS
EXTREMES II EXTERIOR
EXTREMES II INTERIOR
EXTREMES II INTERIOR
EXTREMES II INTERIOR
EXTREMES II INTERIOR
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