Material Experiment Series Folding Paper
(Extract from AA Thesis)
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Proposing Water Infrastructure Water Distrubution Pattern Projective Diagrams
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Lowest Highest Mid Water Water Water Quality Quality Quality
Highest Mid Water Water Quality Quality
4 Proposing Water Infrastructure
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Lowest Water Quality
Mid Water Quality
Using the concept of materials as information, blurring the conventional boundary betweem matter (physcial) and information (non- physical) establish doing- and making as a primary model of investigation for possibility of
Highest Water Quality
MOVING WATER in the territory Highest Point Mid Point Lowest Point Conceptual Diagram: Elevation of nature system 2
Wetand system as a connector
Elevation of Water infrastructure Diagram
Parameter is set according to the nature system: Identify source point (most polluted area)at the highest point While the existing
Nature behaviour of the water system:
River is always At the lowest point)
With the force of gravity pull, Water always flow from highest point to the lowest point.
An Wetland system will attached at the Interchange area to treat the water in order to Meet the next level of water quality
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Ridge structure – physical model Aim to explore the possible of moving water from high point to low point
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Observe: Characteristic of Paper folding as Material The relationship between the folding surface and it’s height
The wider the folding surface; the taller it become A series of folded surface, from large to small, it will form a slope surface that can be implemented into water distribute system.
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Material Investigation .: Characteristic of Paper Folding Paper folding as an potential material for water distribution system
Water distribution pattern
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
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4 Proposing Water Infrastructure
Define: lowest water quality
Material Respond to the Site condition
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Define: mid level of water quality
Define: Highest level of water quality
Lowest Water Quality Mid Water Quality Highest Water Quality Demolish Site Road node
Creating hierarchy of height different Lowest to highest Irrigation node
water quality; intention is to to move the water
Water distribution pattern : Water Moving Strategies
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
4 Proposing Water Infrastructure
Define: lowest water quality convey path
Material Respond to the Site condition
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Define: mid level of water quality Potential convey path
Define: Highest level of Potential convey path
Lowest Water Quality Mid Water Quality Highest Water Quality Demolish Site Road node Irrigation node Lowest Water Quality convey path Mid Water Quality convey path Highest Water Quality convey path
Interweaving those strips to Move the water in-between them
Water distribution pattern : Potential convey path to move the water
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
4 Proposing Water Infrastructure
An Artifical topography is formed
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Observe: the Edge that along those topography able to move the water without depending on the surface
Physical Model has been built to test it’s captivity 1
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Remove the surface and using the edge of the material as a Convey pipe * And only certain area will require surface to allow water to flow; will indicate in the landfill drawing
Lowest Water Quality Mid Water Quality Highest Water Quality Demolish Site Road node Irrigation node Lowest Water Quality convey path Mid Water Quality convey path Highest Water Quality convey path New convey pipe
Remove the surface and using The edge of the material to Convey the water
Water distribution pattern : Evolving into infrastructure
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
4 Proposing Water Infrastructure Convey pipe
Identify the area where the infrastructure will
Demolish Site
be happened. Assign the width of the Water Skeleton according to it’s height. This
Road node
Process allow maximum coverage from this Irrigation node
system
Water distribution pattern : Formation of Water Skeleton 1
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Lowest Water Quality
Mid Water Quality
Highest Water Quality
10m width/ 9m height 30m width/ 6m height 60m width/ 3m height Demolish Site Road node Irrigation node
RELATIONSHIP BETWEEN EXISTING WATER QUALITY WITH THE HEIGHT & WIDTH OF THE PROPOSAL INFRASTRUCTURE
Existing Canal Existing River
Identify the area where the infrastructure will be happened. Assign the width of the Water Skeleton according to it’s height & Width. This Process allow maximum coverage from this system at a appropriate location
Water distribution pattern : Evolving into infrastructure
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
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Respond to the Existing River:
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Readjust the joint of Water Skeleton adjacent to the Existing River . Also lower it’s height by 1 level (3m) Respond to the Existing River:
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Readjust the joint of Water 2
Skeleton adjacent to the Existing River . Also lower it’s height
Respond to the Existing River: Readjust the joint of Water
by 1 level (3m)
Skeleton adjacent to the Existing River
4 Proposing Water Infrastructure
Respond to the Existing River:
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Readjust the joint of Water Skeleton adjacent to the Exist-
Water Flow Direction1 : Readjust the angle of Water
ing River . Also lower it’s height
Skeleton, so that the water able
by 1 level (3m)
to flow continually
Respond to the Existing River:
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Readjust the joint of Water Skeleton adjacent to the Exist1
ing River . Also lower it’s height by 1 level (3m)
Water Flow Direction1 : Readjust the angle of Water Skeleton, so that the water able to flow continually
Water Flow Direction1 :
1 RELATIONSHIP BETWEEN DIFFRENT WATER QUALITY WITH
Readjust the angle of Water
ADJACENT PROGRAMME
Skeleton, so that the water able to flow continually
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Water Flow Direction1 : Readjust the angle of Water Skeleton, so that the water able to flow continually
Water distribution pattern : Restruction of Water Skeleton (Detail) 1
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Water Skeleton Restructed Water Skeleton Demolish Site Road node Irrigation node Existing Canal
Responding to the Site Condition. Water Skeleton restructured at certain problematic angle in order to Move the water . And the height is readjusted
Existing River
when it intersect with existing road. Water body.
Water distribution pattern : Restruction of Water Skeleton
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
Lowest Water Quality
Mid Water Quality
Highest Water Quality
8m
12m
16m
System1: 20m
24m
28m
32m
4 Proposing Water Infrastructure
System2:
36m
40m
44m
48m
60m
Wetand system as a connector
The Relationship between Width of the canal & Water quality & Programme
GOOD Water Quality
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POOR
System3:
Lowest Water Quality
Mid Water Quality
Highest Water Quality
9mn 10 width Elevated Water height range-9-6m 30m width Elevated Water height range 6-3m
6mn
40m width Elevated Water height range 6-3m 60m width Elevated Water height range 3-0m
3mn
Existing Canal Existing River
0mn
Existing River
Elevated Water Infrastructure is composite Of efficiency connector among water Skeleton
Water distribution pattern : Evolution of Elevated Water Infrastructure
Elevation of FLOWING water within infrastructure in relationship with quality of water it’s carry
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
4 Proposing Water Infrastructure
Lowest Water Quality
Mid Water Quality
Highest Water Quality
10 width Elevated Water height range-9-6m 30m width Elevated Water height range Existing Canal 6-3m Existing River 30m width Elevated Water height range
10m width Elevated Water Infrastructure 6-3m
Height Range : 6- 9m Depth: 3m
60m width Elevated Water height range
Allow up to 2 storey 3-0mbuilding to slot underneath the infrastructure Water System1: Aquatic Ecosystem Standard. Adjacent Activities: Boardwalk Bridge Jogging
Water distribution pattern : Detail of Elevated Water Infrastructure 1
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Elevation of FLOWING water within infrastructure in relationship with quality of water it’s carry
30m width Elevated Water height range 6-3m
Lowest Water Quality
Mid Water Quality
Highest Water Quality
40m width Elevated Water height range 6-3m Existing Canal 60m width Elevated Water height range Existing River 3-0m
30- 40m width Elevated Water Infrastructure Height Range : 6- 3m Depth: 3m Allow up to 1 -2 storey building to slot underneath the infrastructure System2: Secondary Recreation standard/ Adjacent Activities: Boating Canoeing Fishing Wakeboarding
Primary Industries - Irrigation - Fisheries & Aquaculture - Non- Portable Water
Water distribution pattern :
Elevation of FLOWING water in relationship with quality of
Detail of Elevated Water Infrastructure
water it’s contain
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
4 Proposing Water Infrastructure
10 width Elevated Water height range-9-6m 30m width Elevated Water height range 6-3m
Lowest Water Quality
Mid Water Quality
Highest Water Quality
30m width Elevated Water height range 6-3m 60m width Elevated Water height range 3-0m Existing Canal Existing River
60m width Elevated Water Infrastructure Height Range : 0- 3m Depth: 3m Do not allow building to slot underneath he infrastructure System3: Primary Contact standard Adjacent Activities: Swimming Surfing Interactive Water Feature Children Water Playground
Water distribution pattern :
Elevation of FLOWING water in relationship with quality of
Detail of Elevated Water Infrastructure
water it’s contain
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Lowest Water Quality
Mid Water Quality
Highest Water Quality
BLUEConnector 1- WETPOND BLUEConnector 2- TERRACE WETLAND BLUEConnector 3- DETENTION BASIN Elevated Water Infrastructure Existing Canal Existing River
Water distribution pattern :
Elevation of FLOWING water in relationship with quality of water
Connectors
it’s contain
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE
4 Proposing Water Infrastructure
10 width Elevated Water height range-9-6m 30m width Elevated Water height range 6-3m 40m width Elevated Water height range 6-3m 60m width Elevated Water height range 3-0m Existing Canal
Landfill to achieve 5% slope only occur on 3 selected condition.
Existing River Landfill At The highest point of the water infrastructure Interchange between two water system
Highest Point. Lowest point of the water infrastructure and Interchange between water system. The intention is to move the water back to the ground
The Lowest point of the water infrastructure
Water distribution pattern : GroundWork 1
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Landfill At the highest point of the water infrastructure
Landfill at Interchange of water system
Landfill at the Lowest point of the water infrastructure
Other than moving the water, i have decided to further examining the potential of the landfill through the integration between landform with builtform. And possible ways of it responding with Existing condition
Motion Fabrication MAK MUN PHENG
Industrial Waterscape
LANDSCAPE URBANISM 09/10
ARCHITECTURAL ASOCIATIONSCHOOL OF ARCHITECTURE