I NT E R P R ET E R HUNGDA CHIEN'S ARCHITECTURE PORTFOLIO 2007-2017
A A A A A A A A 01 B Dalian B BGolden B Beach/ Fall,2015 Architectural Practice, Neo's Team Project, DPArchtects B B B B Type & Location Urban Planning, Dalian, China Location Dalian, China Adviser Neo, Chen (neochen@dpa-cn.com) Parts in Charge Schematic Design Key Description Dalian Golden Beach is a mixed-use development, occupying a land area of 16ha, located at Dalian, China. Set along a 1km waterfront promenade, Dalian Golden Beach is created a main shopping axis that integrates retail malls, hotels, residences and recreational attractions. B
Hard Rock Hotel
Rainbow Concert Plaza 360 degree Music Restaurant
Sculpture Plaza/ Recreation Centre
Post Rock Bar Street Green House / Interior White Beach
Flea Market
Tide Youth Hostel Duty Free Shop
Hard Rock Experience Store
Rock’n’Roll Fast Food Restaurant Harley Club House
ARCHITECTURAL PRACTICE / DPARCHITECTS
2013-2015
005
A A B B
A A A A A A 03 B Tower B Bof Riches / Winter,2014 Architectural Practice, Neo's Team Project, DPArchitects B B B Type & Location Commercial+Residential+Office, Wuhan, China Parts in Charge Design Development, Detail Drawing Key Description Rising 225m above the ground, this 53-storey tower is a new topology in wuhan, composing of a 15-storey residential building adding on the top of the 38-storey office tower located in the city centre of Wuhan.
A A B B
A A A A A A 02 B Global B BFinancial Centre/ Fall,2014 Architectural Practice, Neo's Team Project, DPArchitects B B B Type & Location Office Building, Wuhan, China Parts in Charge Curtain Wall Detail Drawing Key Description Located on a site along Construction Avenue, Financial Centre incorporates first-class office spaces. At 52 storeys and 220m in height, the building becomes a legible element on Wuhan’s skyline.
B
A A B B
A A A A A A 04 Centre/ Spring,2015 B GZ B Financial B Architectural Practice, Neo's Team Project, DPArchitects B B B Type & Location Mixed-use Development, Guangzhou, China Parts in Charge Schematic Design Key Description Nestled within the developing district of Guangzhou, GZ Financial Centre is an urban catalyst that redefines standards of what it means to live, work and play in the city.
GZ Financial Centre / Aerial Perspective
ARCHITECTURAL PRACTICE / DPARCHITECTS
2013-2015
007
A A B B
A A B B
A A A A 05 B SJT B Masterplan/ Winter,2014 Architectural Practice, Neo's Team Project, DPArchitects B B Type & Location Masterplan & Urban Design, Sujiatun, Shenyang, China Parts in Charge Schematic Design Key Description The vision of the master plan is to develop a unique, vibrant and sustainable city that is highly attractive to knowledge-based industries to reboot its economy.
B
A A B B
A A A A A A 07 B Linkong B B Office Lobby/ Fall,2015 Architectural Practice, Neo's Team Project, DPArchitects B B B Type & Location Interior Design, Shanghai, China Parts in Charge Schematic Design Key Description To Blur the boundary between outside poetic landscape and inside office lobby but also frame the two offices’ main entrance by creating the cloud-like pattern on the walls.
A A B B
A A A A A A 06 B SJT B Culture B Centre/ Spring,2014 Architectural Practice, Neo's Team Project, DPArchitects B B B Type & Location Library, Museum & Theater, Shenyang, China Parts in Charge Schematic Design Key Description Break the traditional formal government buildings in China. Taking “Urban Living Room” as main concept to create a vibrant and meaningful gathering place for local residents.
A A B B
A A A A A A 08 Fall,2015 B LN BWengchang/ B Architectural Practice, Neo's Team Project, DPArchitects B B B Type & Location Residential in Wuhan, China Parts in Charge Schematic Design Key Description The project consists of 38 blocks of seascape residential incorporating a clubhouse, three podium commercials and multi-service centers. Aims at creating a few visual focus points among the residential cluster. ARCHITECTURAL PRACTICE / DPARCHITECTS
2013-2015
009
A A B B
A
09 A RobloX/ A A Summer,2017 Discrete Design Research, Bartlett RC4, London
A A A Type B B Computation B Residential/ Design/ Robotic Assembly Collabrate With B U-Borovskaya, B B Cheng-han Yu, Yen-fen Huang Anna
Parts in Charge Design Development, Fabrication, Rendering Adviser Gilles Retsin, Manuel Jimenez Garcia, Vincente Soler Key Description This project is aimed to explore the feasibility of construction through the new method of discrete digital design. It investigates the potential of the pre-cast concrete system to enable flexibility and adaptability in construction and form generation through producing standardized UHPC (Ultra-High Performance Concrete) elements where the current prefabricated systems are lacking.
ROBLOX
summer 2017
0011
Tile Design
Triangles allow the highest adaptation for combinatorics Triangles allow the highest adaptation for combinatorics system and rectangles allow the eďŹƒcient growth in system and rectangles allow the efficient growth in vertical and horizontal directions. Therefore, we combine vertical and horizontal directions. Therefore, we combine both in in order order to to achieve achieve geometrical geometrical complexity complexity and and both assembly serialized discrete assembly.
a a
a a
a
a
a a
3a 2a
a
7-triangle-based 7 -triangle-basedtile Tile
Combinatorics System
The geometry of the concrete tile is based on an extruThe geometry of the concrete tile is based on an sion of 7 regular triangles, which generates a hook-shape extrusion of 7 regular triangles, which generates a block. This tile has 8 possible connection faces with hookthree shape block. This tile has 8 possible connection faces typesthree of combinational systems: squaresystems: connection face, with types of combinational square rectangular face, connection face,connection 7-triangle-based connecconnection rectangular face, 7-trianglebased connection face. tion face. Each type connection faces can connect only connect to Each type ofofconnection faces can only to anothanother corresponding one (same type of connection er corresponding one (same type of connection face). face). Under this geometrical constraint, the tile can Under this42geometrical constraint, thewith tile 2can generate generate possible connection ways single tiles. 42 possible connection ways with 2 single tiles.
Connection Type A
a.
Part-to-Part Combinatorics
A
Connection Type B
[a1-2,a1-3] 0
[a1-2,a1-3] 0 [a1-2,a1-1] 0
[a2,a3] 0
[a1-2,a1-4] pi [a1-4,a1-4] 0
[a1-2,a1-4] pi [a1-4,a1-4] 0 [a1-1,a1-3] 0
[a2,a3] 0
[a2,a3] 0
[a1-3,a1-5] 0,pi [a1-1,a1-3] 0,pi
[a1-4,a1-5] 0,pi [a1-1,a1-4] 0,pi
[a2,a3] 0
ROBLOX
summer 2017
0013
A
TileCombinatorics CombinatoricsLibrary Library||C# C#Grasshopper Grasshopper Tile
a+b [1-1,1-2,1-3,1-4,1-5] 0, p i Count:200
A [1]pi [2,3]0 Count:200
a+b [1-1,1-2,1-3,1-4,1-5] 0, p i Count:200
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Take(200);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z) .Take(20);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Take(200);
C + D [1]0 , pi Count:300
A [1]pi [2,3]0 Count:200
a + b [1-1,1-2,1-3,1-4,1-5] 0, p i a [2,3] 0 a [4,4] 0, pi b [2,3] 0 b [4,4] 0, pi Count:300
Var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Ta
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.X).Take(50);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Take(100);
a + b [1-1,1-2,1-3,1-4,1-5] 0, p i a [2,3] 0 a [4,4] 0, pi b [2,3] 0 b [4,4] 0, pi Count:300
A + a [1-1,1-2]0 , pi Count:200
C + D [1]0 , pi Count:300
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Take(100);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.X) .Take(150);
Var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Ta
a + b [1-1,1-2,1-3,1-4,1-5] 0, p i a [2,3] 0 a [4,4] 0, pi b [2,3] 0 b [4,4] 0, pi Count:300
A+B [1-1,1-2]0,pi Count:300
A + B + C +D [1][2,3] Count:300
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z).Take(100);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.X).Take(50);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z) .Take(100)
A + B + C +D [1][2,3] Count:300
a [1-1,1-2,1-3,1-4,1-5] 0, pi Count:200
A + B + C +D [1][2,3] Count:300
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z) .Take(100)
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z) .Take(200);
var addFaces = availableFaces .OrderByDescending (x => x.plane.Origin.Z) .Take(100)
ROBLOX
summer 2017
0015
Regular RegularStructural StructuralGrid Grid
Centralized-Regular Grid Centralized-Regular Grid
Long Tile: 288 Short Tile: 1536 Total: 1824
Long Tile: 324 Short Tile: 1086 Total: 1824
Volume: 6. 3m3 Weight: 15.15 tn.
Volume: 5.68m3 Weight: 13.63 tn.
A
Interior View of Discretized Masion Domino
Centralized Structural Structural Grid Centralized Grid
Discretized DiscretizedMasion MasionDomino Domino
Long Tile: 156 Short Tile: 364 Total: 1,148
Long Tile: 135 Short Tile: 768 Total: 1,038
Volume: 6.9 m3 Weight: 16.6 tn.
Volume: 7.4 m3 Weight: 17.6 tn.
ROBLOX
summer 2017
0017
On-site On-site Assembly| Assembly |ABB ABBIBB IBB1600 1600 RobloX is considered the possibilities of using robots for automatic assembly assembly in discrete discrete design design at the the scale scale of ofarchitecture. architecture. The The industrial robot is industrial robot is applied applied for for pick-and-place pick-and-place tasks, tasks, replacing replacing manual work in order to commit repetitive, dull motions assembly manual work in order to commit repetitive, dull motions assembly work with higher efficiency. work with higher efficiency. RobloX project introduces the “on-site assembly” strategy which includes the following scenario: a future user can following scenario: can order order pieces pieces which will be bedelivered deliveredon-site on-site together with robot for fast the which will together with thethe robot for the fast construction. At the construction site, after dispatching, the construction. At the construction site, after dispatching, building elements can be picked up by the robot and placed onethe by building elements can be picked up by the robot and placed one by one. one.
Units are put in the same position according to aggregation logic.
Pedestal allows to increase the space for robotic assembly. .
1:1 scale units are assembled one by one.
Could be assembled up to 16 units at one time
ABB IBB 1600 x/1.45 Payload 10kg Rich 1.45m Number of axes 6 + 3 Robot base 484x648 Robot weight 250kg
Off-site Assembly Gantrysystem systemwith withhanging hangingrobots Robots Off-site Assembly||Gantry
g in X
Movin
on
directi
Moving
Construction up to 5 meters. Refilling conveyors with units. 2 hanging 6 axes robots. Robots pick UHPC blocks from 4 spots.
Assembled construction can be moved on the pallet
A
tion
Moving in Z direction
As for the larger-scale constructions, experiments are possible with the robotic armsarms are hanging from a from ceiling-a the Gantry Gantrysystem systemwhere where robotic are hanging mounted surface surface portal. The assembly strategy strategy is similariswith the ceiling-mounted portal. The assembly similar on-site one, but it allows an extended robotic operational range. with the on-site one, but it allows an extended robotic operational Such cooperative robotic building approach requires only two range. Such cooperative robotic building workers for the whole construction process.approach requires only two workers for the whole construction process.
in Y direc
ROBLOX
summer 2017
0019
Discrete Cloning Cloning Troop| Troop| Vertical Vertical Building Building Elements Elements Discrete A field of cloning chunks is generated by the same A ďŹ eld of cloning chunks is chunks generated the same combicombinatory system. The areby aggregated by two types of repeated blocks that can a natory system. Theconcrete chunks are aggregated by achieve two types series of highly-variated vertical elements. With of repeated concrete blocks thatbuilding can achieve a series of the achievement of geometrical complexity, it uncovers highly-variated vertical building elements.inWith the the limitations of geometrical constraints pre-cast achievement of geometrical complexity, it uncovers the concrete systems. limitations of geometrical constraints in pre-cast concrete systems.
A
ROBLOX
summer 2017
0021
A
10 A Wind A A A winter,2012 Community/ Personal Graduation Thesis Design, Tunghai University
A A A A B B B B B B B B
Type Residential/ Urban Design/ Sustainability Location Keelung, Taiwan Adviser Wu, Chia-fung (wuchiafang@googlemail.com) Key Description To utilize spatial instruments responds to the natural (wind) from macro scale's landscape park to micro scale's adaptive wind panels and also interact with wind actively by setting up seasalt therapy in each unit. More importantly, to build up a "Place" to engage people's community awareness.
WIND COMMUNITY
winter 2012
0023
Issue Introduction The purpose of architecture's existence is to turn a site into a place. In other words, it is to uncover the significance of an environment. -Genius Loci In my point of view to reinterpret the sentence above, a place could be considered as people living in the an existing environment and a site could be merely deemed as being in the world only. And, architectures exist could be considered as a method to make a site become into a place. However, facing the gradually alienated neighborhoods in cities, a place with a building existing in a certain environment but without activities happen is very general, could it still be considered as a place? In traditional African tribes, people often gather and chat under a tree, making trees became a symbol of communication hence forming a gathering space; in another word, a "Place". Therefore, I'm going to search for a new neighborhood relationship through the viewpoint of nature. Started from functions such as residential buildings, and with the help of plants, understanding the natural climate regulation.
a.
Tree can be a symbol of communication hence forming a gathering space, providing people can rest under it. Yet, how can we learn from trees and form a gathering space through the viewpoint of nature, instead of another solid concrete buildings?
b. A
a. GATHERING SPACE/ AFRICAN TRIBES
b. GATHERING SPACE/ TAIWAN
c. COLLAGE/
TREE.MICRO CLIMATE.PEOPLE.GATHERING
INTERFACE/ Coat
INTERFACE/ Bamboo+Net
INTERFACE/ Canvas Tent
INTERFACE/ Bamboo+Net
Variable self-constrcution to respond to severe climate.
WIND COMMUNITY
winter 2012
0025
What's a Windbreak? An Interface between Nature and Artificial, is used to shelter dwellings or livestock and create a comfort field for activities. Hence, windbreak could be considered as a result of people’s intension. People use the advantages of trees which could break up the wind and plant rows of trees on the prairie to create a comfort field behind. It’s a good example to demonstrate how we human beings to build up an interface within nature and live with it.
Therefore, in my design, I learn from natural( the mechanism of windbreak) and try to create a variety of interfaces in different scales to know when we face the nature, how far we can get and how humble we must be.
WIN DBR EA KF O ST RE
windward side-50 km/hr-20˚c
S] CES
e rfac e t In
O [PR
T] [INPU
Co
25 km/hr-25˚c a.
leeward side(protect zone)-15 km/hr-27˚c
nd l d Wi
g up g tect akin ayerin e r l b pro / / 1 2 0 0 03/ p p p e e e st st st
T] PU UT
ar
ol/W Co
[O
ind W m
] CK BA D E [FE d
ie l
F
b. A
a. PHOTO/
WINDBREAK FOREST
b. DIAGRAM/
THE CHANGES OF WINDSPEED
ac
it tic
ure ies icult tat r bi arg ha
Windbreak Stimulation Different density deployment of tree mass could create various wind-proof fields for different purposes of activities.
d.
c.
b.
warm
cool
a.
= 1 Tree Unit
=Wind Direction
= Wind Field Analysis
Tree Array WIND COMMUNITY
winter 2012
0027
Site Analysis
50 0
20 0
m
m
2k
80m
m
CONDITION I LACK OF URBAN LINKAGE
CONDITION II DEVELOP AGAINST THE NATURE
AREA // WATER FRONT FOCUS // OPEN SPACE, PROMENADE
AREA // EXISTING BUILDING SITUATED BETWEEN MOUNTAIN AND SEA FOCUS // LANDSCAPE+ARCHITECTURE
After Keelung seaport’s export amount ng Is decreased, there’re more and more shipyard land factories, warehouses along the waterfront are abandoned which haven’t been renovated properly caused an environmental unfriendly water front and fragmental open spaces for the local which waste its own unique natural scene. How should we demonstrate an open space and provide an urban linkage of waterfront promenade?
Hopi
a.
The Keelung seaport city was developed thanks to its own natural topography but it also means people need to gain the lands by excavating it which is against the nature. Within these decades we’ve learned the lessons from natural + Seafood Market catastrophes happened in Taiwan that human (Tourism) beings cannot concur the natural; instead, we should act humbly and build a better relationship with nature.
+ Temple (Local Gathering Spot) Inner Keelung Harbor Temple/ Gathering Spot As a localized area, it’s always significantly important to mention their temple where usually hold up a big event or celebration and gather most of nearby people could compare to a community centre in modern cities.
+ site
KL
a. SITE SATELLITE IMAGE /
BACHIMEN, KEELUNG CITY, TAIWAN
re
A
ent yC
Cit
+ Factory
175m 45
m
8m
20 m
CONDITION III HOMOGENOUS DEVELOPMENT
CONDITION VI NATURAL RESOURSES
AREA // ARCHITECTURE FOCUS // ARCHITECUTRE DEPLOYMENT
AREA // RESIDENTIAL UNITS FOCUS // UNIT PLAN, INTERACTION INTERFACE
Developer usually develops the city from its own interests regardless the site condition itself. But when it comes to a city like Keelung, which rains frequently and has severe sea wind problems, + Shipyard Warehouse usually lack of adaptation to(half weather cause the abandoned) local will start to seek solutions such as adding a micro illegal space outside their existing inbetween spaces, eventually, sacrificing the quality of public spaces.
With Keelung’s abundant and various weather condition, we shouldn’t passively accept the current situation but positively seek a balance between the live pattern and natural resources for forming a new local Keelung lifestyle.
Canoe Spot There’re a few canoe clubs will practice canoeing here from May to September while the weather is warm. And due to Keelung harbour is the main commercial hub having plenty of cargo ships come in and out ;therefore, this area is their safe zone to practice and gather.
Fishing Spot Usually happen during the fishing season around Mid April to December and different species occur on different times within a day.
Sea
+ Exisiting Housing
+ Exisiting Tribes
+ Indigenous Peoples Culture Centre
Tourist Seashore Activities Extension-Gathering Spot Gathering Spot
WIND COMMUNITY
winter 2012
0029
Wind Rose & Rain Chart
DEC
JAN
FEB
MAR
APR
JUN
JUL
AUG 0.98
MAY-OCT
1.5
0.82
1.0 0.5
MAY
0.61
0.58
0.63
0.67
-0.93
-0.83
-0.81
0.82
0.84
0.91
-0.75
-0.67
-0.72
0 -0.5 -1.0 -1.5
-1.10
0.55
-0.60
[ 02-FISHING ] HUMID/DRY-COOL/SHADOW-LIGHT
About Keelung City Keelung City is located in the northern part of Taiwan Island and nicknamed the Rainy Port for its frequent rain and maritime role. It occupies an area of 132.76 km2 and is separated from its neighboring county by mountains in the east, west and south. The northern part of the city faces the ocean and is a great deep-water harbor since early times. Whether the weather condition or its topography, it’s proven that Keelung City itself has climate diversity as an experimental location to search for a new neighborhood relationship through the viewpoint of nature.
Chicken Grunter /Beltfish Fishing Zone located between Hoping Island and Keelung Inner seaport which has deeper and clear sea water.
0
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15 16 17
DAY : Chicken Grunter Warm water, high salt water area
[ 03-CANOE] Keelung harbour is the main commercial hub having plenty of cargo ships come in and out ;therefore, this area is their safe zone to practice and gather. Main season is summer.
+ Exisiting Housing a. + Shipyard factory +wavebreak
Program Strategy Fishing Spot Most of people standing at the seawater front is fishing for interests. But there’re lots of people still go fishing for living and this boat here is one of them.
Sea
A
a. SITE PANORAMA /
BACHIMEN, KEELUNG CITY, TAIWAN
PHASE I URBAN LINKAGE+LANDSCAPE PARK Landscape Park 12,000 sqm, which included: Waterfront promenade Canoe Club House 300sqm Nature Classroom(algae related) 400sqm Fishing Zone 200sqm Outdoor Sport Area 600sqm Market 1000sqm Management office 100sqm
SEP
OCT
NOV
DEC
JAN
FEB
MAR
APR
MAY
NOV-APR 0.94
0.85
-0.55
0.59
0.67
0.64
-0.811
-0.97
-0.97
0.61
0.58
0.63
0.67
-0.93
-0.83
-0.81
-0.71 -1.10
0.82
-0.75
[ 01-ALGAE ] HUMID/DRY-COOL/SHADOW Seaweed Algaes grow in intertidal zone where provides moderate waves, weak sunlight and rocks as their growing base.
7 18 19 20 21 22 23 24
Local people use seaweeds as one of their cooking ingredients or consider it as a medicine to cure hydroncus.
Moss
Yellow Seabream Habitat in shallow seawater, high-awareness, Under the bridge or shadow area
NIGHT : BeltďŹ sh Shown at night, Phototactic
+ Factory
+ site
PHASE II WIND COMMUNITY
PHASE III UNIT INTERFACE
Service Apartment 7,000 sqm, which included: Family Unit A 200sqm*18 (break-wind) Unit B 200sqm*6 (in-between) Unit C 300sqm*3 (protected) Management Office 50sqm*2 Library 300sqm*1 Kitchen+Classroom 150smq*2 Parking Lot 800sqm(80)
27 units for 5400sqm, each unit included: Living Room+Kitchen+Bedroom Sauna Room (toilet/steam room/smoke sauna/bathing tub) Garden(algae farm)+Balcony
Inner Keelung Harbor
Algae Habitant Fishing Zone Canoe WIND COMMUNITY
winter 2012
0031
a.
B
Windbreak Devices Learning from the site, I start to design a series of windbreak devices to adapt micro climate changing within one day, such as bamboo screen, net, planting...etc.
Design Strategy I -Contour Shifting 1.Break down the existing retaining walls 2.Create a natural soil slope 3.Divid into three different topography 4.Zoning the Wind Field * Analysis the new topography by software for comparison. -Creat Urban Seashore Activities Through contour shifting could create the diversity of micro climate in our site, we can place different urban activities according their environmental characteristic and combine with the existing local activities.
C
1’ x
o 4’ 6 +2.5 13
14
A
1
4
2
3 a. MASTERPLAN /
WIND COMMUNITY, KEELUNG CITY, TAIWAN
Wind-Related Activities By the beneďŹ ts of new topography, I also placed some wind-avoided activities in site which is diďŹƒcult to have a proper environment to play in Keelung, such as badminton, table tennis...etc.
Algae Classroom An algae classroom could be considered as a small family factory with all the devices to manufacture the algae from harvest to eat which is also an open class for everyone who is interested in experiencing local Keelung culture.
A
8
+2.5
9 6 14
A
1 +2.5 10 +2.5 12
7 +2.5 4 +3.5
16
1 9 +2.5 17
11
+3.0
3
+2.5
1
5
15
2
PHASE I URBAN LINKAGE+LANDSCAPE PARK Lanscape Park Entrance
5
Algae Classroom
11
Chess Table
17
Algae Farmland
Residentail Entrance
6
Fishing Zone
12
Open Book Exchange
A
Housing
1
Waterfront Promenade
7
Sun Bath
13
Cardgame Table
B
Seafood Market
2
Parking Lot
8
Outdoor Artworks
14
Canoe Port
C
Temple
3
Table Tennis
9
Urban Wind Room
15
Children Playground
4
Badminton
10
Tea Garden
16
Hiking Trail
WIND COMMUNITY
winter 2012
0033
Courtyard Create 4 courtyards to increase the vertical ventilation and the distinction of 4 clusters. Besides the physical beneďŹ ts, it's also considered as a symbol of community awareness like trees in traditional African tribes.
cluster II
Monsoon During the winter, the north-east monsoon comes from the sea with low temperature, high-salty and high humidity which is extremely uncomfortable. On the contrary, while in summer, it comes from the opposite direction with breeze and comfortable temperature.
cluster I
a. Public Spaces Try to create as many decks as possible and also place most public spaces at the south side providing better environmental amenities for activities.
A
A
A
1 3 A 6
+13.0 D
D
4 2 +13.0
2
B 5 B
+13.0 E C
B
F
Design Strategy II -Rebuild the Wind Mechanism As we mentioned before, the windbreak is an interface between Nature and Artificial, are used to shelter dwellings or livestock and create a comfort field for activities. So, basically, we need to prevent the severe sea wind going through the building directly but also introduce part of it for ventilation so that we can create an environmental comfort area in leeward side for activities. Yet, how should we rebuild the Windbreak Mechanism in an architecture way? Here’s following steps :
G
C
D
1
North-ea st
Moonsoo n
Stack the units. A
2 Fragment the units to introduce more wind into it. a. 1st FLOOR PLAN /
WIND COMMUNITY, KEELUNG CITY, TAIWAN
Cluster I
3
II
Courtyard
III
IV
4
A
Unit A (Brea
Create 4 main courtyards to increase Design 3 types of un the vertical ventilation and distinction. the different wind e
cluster IV
cluster III
Wind-Related Activities As the landscape park below, place some activities in leeward side. But this time, Im trying to blur the boundary between the private unit and the public corridor hoping to engage residents’ interests.
Buffer Zone By rotating the units, it could create a buffer zone between the architecture surface and indoor space which makes the interface between natural and artifical is not only a skin but a space with its function.
A A
2
7 +13.0
A
8
A
D 10 6
9
5
B
+13.0 +13.0 G
D
6
2
B
+13.0
C
PHASE II WIND COMMUNITY
A
Unit A (Embrace) B
(Typical Floor)
Main Entrance
E
Cooking Classroom
4
Open Movie Theater
Vertical Circulation
F
Guard Room
5
Story Telling
Unit A (Break Wind)
G
Library
6
Bamboo Forest
1st Floor Plan 10
Chess Table Cold Wind / winter (North-east moonsoon) Cool Breeze / summer (South-west moonsoon)
B
Unit B (Filter Wind)
1
BBQ
7
Cardgame Table
C
Unit C (Embrace Wind)
2
Frontyard
8
Tea Garden
D
Courtyard
3
Open Book Exchange
9
Second Hand Market
Roof Deck Unit B (Filter)
ak Wind)
nits to respond to environment.
E G
Pulic Space
5 Place most public spaces in leeward side providing better environment.
6 Rotate the units itself to create a buffer zone within it.
7 Analyse the deployment to make sure the wind environment is correct. WIND COMMUNITY
winter 2012
0035
PHASE III UNITS’ INTERFACE Main Entrance Vertical Circulation A
Living Room
B
Kitchen & Dining Room
C
Sitting Room (Guest Room)
D
Toilet
E
Master Bedroom
F
Bedroom
G
Garden
H
Balcony
1
Shower
2
Bath
3
Stair
4
Steam Sauna
5
Smoke Sauna
6
Salt-Collecting Panel
7
Wind Panel
Cold Wind / winter (North-east moonsoon) Cool Breeze / summer (South-west moonsoon) The Path of Seasalt Therapy * From 1 to 10 means the sequence of the whole process of seasalt therapy.
2 1
D
7
B
3
G C
H
A
7
G
Unit A
(Typical Unit)
1st Floor Plan
4 7
D 5 6
3
G
F
E
Wind Panel It’s a micro-scale instrument for residents to adapt to the weather in daily life and also considered as a salt collector to catch the salt either from the sea wind or the steam from seasalt therapy which is originally from site.
H
Unit A
(Typical Unit)
2nd Floor Plan 7
A
a.
Design Strategy III - Live with Nature by Expanding the Bathroom - Set up Seasalt Therapy at home When we learn from wind(nature), it doesn't only mean that we respond to the nature passively by deploying the volumn in the view of wind environment but also mean that we need to live and interact with wind actively. Therefore, we try to take the advantages of the site itself, introducing the seasalt bath into units and also collect the salt from sea wind to build up a Seasalt Therapy at home.
Water Source
New Water
Reclaimed Water
[ BEDROOM] E [ LIVING/DINING ROOM ] [ KITCHEN ]
Salt Production Process
F
COLLECT SALT A C
SALT CRYSTALIZATION
B
+RAIN WATER
Cooking Drinking
[ LAUNDRY ]
(HEAT needed)
Washing Machine Hand the Clothes Out
+ (HEAT)
[ BATHROOM ]
[ TOILETD ] Stool Clean
Washing Sink Bath 2 (STEAM) Shower 1 (STEAM) Stool
[ GARDEN/BALCONY] Irrigation
+SEA WATER
H
[ PARKING LOT]
+[SAUNA ] Steam Sauna Smoke Sauna
STEAM SAUNA
G
Evaporate
+RUNNING WATER
Deliquescent
SMOKE SAUNA
BATH
Car Washing
4
(STEAM needed)
5
(HEAT)
(STEAM)
+ (HEAT)
SEA WATER
[ ALGAE FARM ]
(at the landscape park)
SPATIAL STRATEGY LAUNDRY SMOKE SAUNA (HEAT) SALT COLLECT
SALT COLLECT
SALT COLLECT
AT
AT
STEAM
HE
SALT BATHING
HE
STEAM SAUNA SALT BATHING
SALT BATHING
1
Verticalize the bathing space to collect the sea salt from the above.
2
Use the heat from smoke sauna to speed up the salt crystalization.
3
Also, waste heat from smoke sauna can dry the clothes faster. BEDROOM
(DINING ROOM/BALCONY) LAUNDRY
SALT COLLECT
Combine the shower and steam sauna with the showering system next to it.
BEDROOM LAUNDRY
ENTRANCE
SALT COLLECT
STEAM SAUNA
KITCHEN
SMOKE SAUNA
SMOKE SAUNA SALT BATHING
5
4
STEAM SAUNA
GARDEN (SEMI PUBLIC SPACE)
STEAM
SHOWER
SMOKE SAUNA
SHOWER
Complete the seasalt therapy.
a. COLLAGE/
SEASALT THERAPY
SALT BATHING
6
Place the garden or other semi public spaces as a buffer to the main living area.
7
DINING ROOM
LIVING ROOM
Fragment the main living spaces in order to interact with seasalt therapy in daily life.
8
SHOWER
The Seasalt Therapy at Home is Built.
WIND COMMUNITY
winter 2012
0037
RF
12
1
2
3
4
5
6
9
7
4F
10
3F 9 1
2
7
11
2F
4
5
10
8
12
1F
13
GF
AA’ Section
a. A
a. PHYSICAL MODELS/ WINDCOMMUNITY
1
Salt Collector
6
Living Room
11
Garden
2
Smoke Sauna
7
Balcony
12
Wind Panel
3
Bedroom
8
Bamboo Forest
13
4
Bathing
9
Shower
Urban Windroom (Landscape Park)
5
Kitchen
10
Corridor
RF
1
6
12
3
4F
12
2
7
3F
1
4
9
3
2F
2
10
5
7
10
1F
11
13
GF
BB’ Section 1
Steam Sauna
6
Balcony
11
Guard Room
2
Shower
7
Garden
12
Wind Panel
3
Staircase
8
Corridor
13
4
Smoke Sauna
9
Outdoor Theater
Urban Windroom (Landscape Park)
5
Dining Room
10
Public Kitchen
WIND COMMUNITY
winter 2012
0039
A A B B
A
11 A Diaster A ARelief Shelter/ summer,2011 Shell Lace Structure Research, Tonkin Liu, London
A A A Type B B Mobile Device/BShelter/ Residential Location B BStriken BArea Disaster
Collabrate With Vivian Yang (Group Work) Parts in Charge Design Development, 3D Modeling, Rendering Adviser Tonkin Mike, Anna Liu (anna@tonkinliu.co.uk) Key Description Take the advantages of Shell Lace to build up a disaster relief shelter which can be conveniently delivered, easily assembled and eco-friendly at the same time.
What is Shell Lace Structure? Shell lace structure is a new structural technique, which was inspired by seashells and use digital modelling and digital analysis with laser-cutting fabrication to create lightweight self from flat sheer materials. We could conclude shell lace structure into four simple steps-curved, corrugated, contorted and perforated. Creating steel shell lace sheets
Curved
A flat steel plate is curved into a shell form that adds stiffness.
Corrugated This curved plate is then folded to add strengthand stiffness to the form.
Contorted
To stop the form from unfolding again it is distorted. The contortion in plan locks in stiffness
Perforated
Perforation bring lightness and allow areas of low stress are removed to reduce weight.
Why is the Disaster Relief Shelter? Shell Lace Structure has studied many kinds of building types, including pavilion, cloister, bridge, ferry terminal and landmark gateway. But,as we know, with global warming and sea levels rising, the frequency of disaster has increased. Many people are designing modern-day Noah's Arks, which are buildings that can float on sea. What about when buildings are destroyed, where are we going to stay for temporary? We begin to look at other advantages of Shell Lace and start to think how about to build up a disaster relief shelters? Here’s a series of studies about it and a few requirements to achieve as a shelter.
What is the Requirements as a Shelter?
Strong Structure / Shell Lace Strucutre
Eco-Friendly & Light / Cardboard
Mininal-Wastage / Tessellation
Easy-Assembled / Homeless SHELL LACE STRUCTURE / DISASTER RELIEF SHELTER
summer 2011
0041
MINIWASTAGE
Study I
(From Cutting Plan to Physical Model)
Study II
Study III
Same Curve One slice is joined to another rotated slice
Two similar curves One slice is joined to another rotated sl
FROM CUTTING PLAN TO 3D MODEL The following study is a sequence about finding out which one can use the minimal material to create the maximum space for shelter.Start from drawing the cutting plan and assemble it to test out the space.
Shape of Cutting Plan/ Same Curve Method of Assembling/ One slice is joined to another rotated slice
A
A’ A
Study VII
Study VIII
Study IX
Same Curve One slice is joined to another flipped slice
Same Curve One slice is joined to another rotated slice
Same Curve One slice is joined to another rotated slice
A
B A
B A
A
FROM 3D MO TO CUTTING P
At the same time, I as a tool to study fr the cutting plan. Th it can make sure th been created first, a cutting plan next.
A
Study IV
Study V
Study VI
Study VII
Same curve (mirror it) One slice is joined to another rotated slice
One two-hill curve with an arch One slice is joined to another rotated slice
One two-hill curve with an arch One slice is joined to another rotated slice
A pair of cutting sheet with two similar One slice is joined to another rotated sl
Slice X Slice X
Slice Y
Slice Y A B
A B A B
A
A
A
Sli
Slice X
Slice Y
A B A
Sli
lice
A’
Study IV
Study V
Study VI
Two similar curves One slice is joined to another rotated slice
One simple arc A with another curvier curve B One slice is joined to another flipped slice
One simple arc A with another curvier curve B One slice is joined to another flipped slice
A A’
B A
Study I
ODEL PLAN
I also use Rhino rom 3D model to hrough this way, he stable shed has and the efficient
B’A
B
A
(From 3D Model to Cutting Plan)
Shape of Cutting Plan/ Two similar curves Method of Assembling/ One slice is joined to another rotated slice
BA
BA
A
BA
BA
Study II
Study III
Two similar curves One slice is joined to another rotated slice
One simple arc A with another curvier curve B One slice is joined to another flipped slice
Slice X
Slice X
A B
Slice X
Slice Y
A Slice Y
B A
Slice Y
Study VIII
A
Study IX (Final Result)
CONCLUSION
Let’s take the Study IX(Final Result) as an example to explain it from three aspects.
1.Efficiency of Cutting Plan/
r curves lice
Same curve type X slice One slice is joined to another rotated
Make sure the curve is built up in a symmetrical way.Like slice X is built up by several parallel curve A and the curve A also built up by half of curve A through mirroring it twice.
2.Space/
A pair of cutting sheet with the same curve One slice is joined to another rotated slice
The height of the slice’s arch will determine the height of the space.(which means slice X will create a taller space than slice Y)
ice X Slice X
A
ice Y
Slice X B B
3.Structure/
A
A
A A A
Slice Y
B B
The curvature of the curve will determine the strength of the structure.
SHELL LACE STRUCTURE / DISASTER RELIEF SHELTER
summer 2011
0043
DETAIL
On the basis of a light structure and cheap cost, corrugated cardboard is chosen as the main material for the shelter. In order to understand the characteristics of card board, we also make a series of models in scale 1:5 with 1mm regular cardboard to test out the joint.
PERFORATION
Detail Study I
Shape of Cutting Plan/ Same Curve Method of Assembling/ One slice is joined to another ipped slice
A
1
A
1
A
1
A
2
A
2
A
2
Study I
Study II
Study III (Final One)
Perforate in a grid system which the size of the hole is in a sequence.
Maintain the hierarchy of circles but deploy it more randomly.
Decrease the density to strength the st
By using Rhino, we could unroll the surface and perforate along the surface. The size of the hole determined by the strength of the surface, which means the bigger strength the arch bore, the smaller hole the arch got. Structure Analysis
Strong
A
Weak
Detail Study II
A
3
A
3
tructure from pervious one.
A
3
(Strongest Attachment)
Same Curve One slice is joined to another ipped slice
A
Detail Study III (Final One)
1
A
1
A
1
CONCLUSION Corrugated Cardboard
Customized Clip
1.The Detail of Attachment/
Detail Study II can provide the strongest attachment by stitching but be time-consuming work. Hence, we tried to customise clips to build and take apart fast and easily which also can provide the same strength as Study II.
2.Perforation/
To simplify the attachment, we tried to design a clip to build and take apart the shed fast and easily.
When we perforate the surface, it depends on the structure analysis and the aesthetics so that we can ďŹ nd the best soultion from both aspects.
SHELL LACE STRUCTURE / DISASTER RELIEF SHELTER
summer 2011
0045
How Efficient the Cardboard is? After pervious research is done, we began to calculate the efficiency of the cardboard could be. One piece of the cutting plan could create half square meter of itself and the weight could be lessened 15% after perforated it. For instance, hypothesizing one piece of the cutting plan is 5sqm and we want to create a 50sqm shelter which means we need 20 pieces (50*2/5). And one piece of 4mm cardboard is 115 g/sqm; therefore, a 50sqm shelter takes 11.5kg(115*20*5) cardboard and after perforated it, we only got 8.775kg (11.5*15%)which is amazing. Believe it or not, it’s happening.
b.
a. A
a. COLLAGE/
DISASTER RELIEF VILLAGE
b. PHYSICAL MODELS/
DISASTER RELIEF SHELTER
Built Easily by Refugees We try to design a shelter for refugee could build up their temporary dwelling by themselves while waiting for their new house to be rebuilt.
Flexibility of the Shelter We hypothesis each unit is 50sqm but the length could be extended by people’s will. However, when it comes to public facilities requiring a higher interior net storey height, we can also customize the special unit to accommodate it.
Community Awareness After being stricken by disaster, how to make the individual units become into a community to organize the masses is important. In an architecture aspect, we can build up a gathering space by extending the shelter or we can create an event plaza surrounding by shelters as the symbol of spirits in their refugee camp.
“Light” When we mentioned the Light, it said from two aspects. One is the weight of shelter is light which can be portable easily and another is the interior is light in the sunny day by its perforation.
SHELL LACE STRUCTURE / DISASTER RELIEF SHELTER
summer 2011
0047
A A B B
A
A A B B
12 A Tea,Hotspring,Gathering/ fall,2010 Personal Project & Competition, Tunghai University
A Type B Eco-Tourism/ Bath House/ Sustainability Hostel/ Location B Taiwan Nantou,
Adviser Wu, Chia-fung (wuchiafang@googlemail.com) Key Description To help people escape from the commercialized and capitalized urban life, and be able to experience an ecological environment. I intend to use tea as the medium to convert an urbanite from consumer to tealover.
Issue Introduction In modern cities, people do the similar things every single day and live in a commercialized and capitalist city unabling to escape from it. The Taiwanese government noticed the issues and started to follow the western countries and implement the policy ” Fiveday work week” in 2001 in order to help people have sufficient holidays to go short-distance traveling every week. However, the policy can cure the symptoms, not the problems itself. “How to escape from the regular routine urban life but as an ext ension of it? “ is still the question we need ask.
Urban Daily Life
Tea Plantation
I started to review what’s the thing we did everyday in capitalist city, which is shopping. We buy things everyday from our needs to material desires but where do all these things come from? In capitalism, people live in the city only experience the end of production chain without participating in producing the products, which give me chance to think what if we reverse the concept, make the consumer (city people) become the producer to experience the rural life as an opportunity to escape from the city. To help people escape from the commercialized and capitalized urban life, and be able to experience an ecological environment. I intend to use tea, which is one of the most popular beverages of Taiwanese, as the medium to convert an urbanite from consumer to tea-lover. Under this framework, I started to study the process of making a tea and understand the environmental requirements of tea plantation to further develop a spatial relationship between human and the natural. And bringing up new concept, “EcoTourism” of the urban, providing a quick escape from daily works, with “Tea, Hot spring, and Gathering”. Concept Diagram
Farmer
Factory
Merchants
Consumer
Eco-Tourism
Tea Lover (consumer)
Judging Tea
Tea Plantation
Tea Lover (consumer)
ECO-TOURISM / TEA, HOTSPRING, GATHERING
fall 2010
0049
A
Program Stratgy
.TEA HOUSE
BEDROOM
DINING ROOM
TEA ROOM
.HOTSPRING HOUSE
WORKING ZONE
BATHROOM
KITCHEN
heat
+
02 SPATIAL CHARACTER
WORKING ZONE
BEDROOM
heat
BATHROOM
heat
KITCHEN
DINING ROOM
TEA ROOM
01 SPATIAL SEQUENCE
cool
.WATER POOL (FISH POND) (WATERING)
cool
.WATER POOL
heat
.HOTSPRING HOUSE
.TEA HOUSE
.HIKING TRAIL
=
fog
BEDROOM
.Public Facilities Others are Unit’s Program
.TEA GARDEN
fog
.TEA GARDEN
-Reprogramming in an Ecological Way The tea growth requires the environment to be high in humidity, diurnal temperature variation, and short daylight hours, which happens to be easy fog-forming. The collecting of the fog can be done by controlling wind flow, humidity, and temperature. This process of controlling fog can then be transformed into an interactive space between human and fog, such as ‘heat programs’ like the hot spring, kitchen,bathroom, tea production zone, or ‘cool programs’ like water pools, fishing pond, watering.
PROGRAM DIAGRAM
2230 Bed Time
Full Moon
ACTIVITIES
cool
fog
sun
wind
1
2
1
Bedroom Bathroom Working Zone
While heat programs are working
3
heat
1 2 3
Units cooling system by vantilaton
3
2
Relationship with Heat Programs &Cool Programs in Section
-Review the Process of Tea Production Eco-Tourism is a concept of minimizing the impacts on local environment but also maximiz ing the economic benefits and tourists’ require ments when it comes to develop a certain area. In order to reduce the environmental impacts, it’s necessary to study the tea industry and review the process of tea production in an ecological way, which will help us to establish a new relationship between tourism and tea industry.
Eco-Tourism
Fermentation
For teas that require oxidation, the leaves are left on their own in a climate-controlled room where they turn progressively darker. The tea producer may choose when the oxidation should be stopped, which depends on weather conditions (heat and humidity).
01
02
03
Tea Plucking
Withering is used to remove excess water from the leaves, which can be either put under the sun or left in a cool breezy room.
Withering
The leaves may be lightly bruised on their edges by shaking and tossing in a bamboo tray or tumbling in baskets.
Disruption
The damp tea leaves are then rolled to be formed into wrinkled strips by hand.
04 Rolling(Shaping)
05
heat
Drying is done to "finish" the tea for sale. Baking is usually the most common.
06 Drying
TEA MANUFACTURING PROCESS
heat
heat
KITCHEN
fog
0600 Hiking
.HIKING TRAIL
fog
heat
ECO-TOURISM / TEA, HOTSPRING, GATHERING
Weekdays : City
Weekend : Tea Garden
0900
1030
1130
1200 Lunch cooking
1330
1400
cool
heat
1500 Swimming
1600 Tea Time
1700
1900 Dinner cooking
2000 Hiking
heat
cool
2100 Hot Spring
.TEA GARDEN
WORKING ZONE
WORKING ZONE
WORKING ZONE heat KITCHEN DINING ROOM
WORKING ZONE
.HOTSPRING HOUSE cool .WATER POOL
.TEA HOUSE TEA ROOM
heat
heat KITCHEN DINING ROOM
.HOTSPRING HOUSE heat BATHROOM
Sun Moon Lake
fog
cool
fog
FOG
Hot water vapor passing over cool air produces condensation around nuclei in the air, and it is those tiny droplets that are called fog.
heat
How to Make Fog ?
Climatic Condition for Growing Tea Tea is a favorite drink all over the world today. The ideal climatic conditions for the production and growing of tea are as follows: Temperature/ 21°C to 29°C is ideal for the production of tea. High temperature is required in summer. The lowest temperature for the growth of tea is 16°C. Rainfall/ 150-250 cm of rainfall is required for tea cultivation. Soil/ Tea shrubs require fertile mountain soil mixed with lime and iron. The soil should be rich in humus. Land/ Tea cultivation needs well drained land. Stagnation of water is not good for tea plants. Heavy rainfall but no stagnancy of water, such mountain slopes are good for tea cultivation.
High Humidity + Short Daylight Hours + Diurnal Temperature Variation
=
fall 2010
0051
Choose Site From Eco-Attitude -Find the Topographic Conditions is Easy Fog-Forming. By reviewing the process of tea production, we’ve found that the most important element of weather for tea plantation is Fog. Fog can be considered a type of low-lying cloud, and is heavily influenced by nearby bodies of water, topography, wind conditions, and even human activities. Therefore, there’re a few topographic conditions we need to take into consideration when we look for a site, which is a nearby body of water, like a lake or the ocean and a mid to high altitude mountain area.
winter
spring
summer
autumn
d. Study the frequency of winds blowing from particular directions over a specified period in site can also help us to control the direction of fog flow.
Va lley A
rea
/G
ath
er
Fog
c. The site, which is on a slope, is located at the south side of Sun Moon Lake, near the bottom of valley. Due to its location is at the bottom of the valley, the surrounded mountain slope would force the wind to converge and flow in a much stable and directional manner, according to Bernoulli’s Principle.
Land
Land Lake
Day
Big g
est
Fre
sh Wa te
r La
Lake
Night
b. Sun Moon Lake is surrounded by the Central Mountain Range and located 748 m above sea level. It’s 27 m deep and has a surface area of approximately 7.93 kilometres. Under this geographical condition, microclimate is easily altered; therefore I choose this area as my site.
ke
site
Ce
ntr a
l Ta
a. A
a. EXPLODED AXONOMETRIC/ SITE ANALYSIS
iwa
n
a. Taiwan is famous for its tea, which are of three main types: oolong tea, black tea and green tea. Oolongs grown in Taiwan account for about 20% of world production and Nantou is the main oolong tea place of production where also the largest body of water located as well as a tourist attraction, Sun Moon Lake.
Learning From Natural - Mimosa - To Guide the Wind and Collect the Water As we all know, mimosa has a special reaction when touched, which shuts its leaves in a flash, then re-opens later. This mechanism allows the mimosa to survive in critical environment such as under strong winds and heavy rains. The mechanism can be separated into these detailed processes:
fog
Tea Garden
Un it
Un it
01 Leaf and Wind - Fragmentation of the Leaves Closing the leaves can produce a smaller surface area, which reduces wind drag and allows wind to pass easily without damaging the plant.
Wind
A
fog
Un it
heat Hotspring
Un it
cool Water Pond
A/40
A/20
A/10
A/6
A/4
cool Water Pond
Fregment by control points
Event Plaza/ Sport Court Un it
fog
Tea Garden
cool Water Pond
Un
it
heat Hotspring
Wind
02 Leaf and Rain - Variation of the Angle between the Stem and the Leaves By varying the angle between the stem and the leaves, rain water can flow away quickly so there would be little water accumulation on the plant.Learning from these mechanisms in detail, we can learn to control the wind flow and to collect or to remove rain water actively.
Let the Wind flow fast and decrease the wind damage.
Let the Wind flow fast and decrease the wind damage.
After the wind pass through the 1st and 2nd layer, the speed of wind has been slowed down.
Bigger Unit Low Density
Standard Unit Medium Density
Smaller Unit High Density
1st Layer
2nd Layer
3rd Layer
a.
Wind Field
b. The Amount of Rain Contact Surface Increase Gradually Drainage
01
02
03
04
05
Semi-Outdoor Space
10
11
12
06
07
08
09
Collecting Rain and Forming Water Pond
13
14
15
16
17
18
Indoor Water Space a.Collecting Rain and Forming Water Pond
19
b.Guide Wind
a. CONCEPT DIAGRAM/ WIND FIELD
c.Drain Water
b. CONCEPT DIAGRAM/ FORM MAKING
d. Volumn Section Slice
20
21
22
23
24
25
26
27
Form Making by Draining Water ECO-TOURISM / TEA, HOTSPRING, GATHERING
fall 2010
0053
Combine Tea Culture with Mimosa Spatial Arrangement-Control Fog
1st Layer Lake - People This area is close to the lake, having small volume and low density; therefore the wind can pass through fast and uently.
- Deploy Volumns through the Fog Treating the collection and dispersal of the fog as the main objective, the mechanism of mimosa, which we learned of how wind and water can be controlled, is applied to arrange the relationship of space. This spatial arrangement can be divided into three parts, Lake-People, People-Tea, and Tea
Water Collecting Build up the waters pond by collecting the rain water is not only enjoyable for us, but also helpful to adapt to the micro climate by lowering the temperature in summer.
A
C
C C 6
5
4
cool 1
Diurnal Fog Stimulation
B C
Just Wake Up 8 C
C
cool 5
0600
Lake-People
People-Tea
Tea
Start Making Tea
Unit - Double Skin Build up double-skin units could adapt to the micro climate between the tea production zone and living zone.
1700
Volumn - Small Wind Flow - Fast
Big Slow
Taking Hotspring
1900
Heat Programs
Hot Bath at Home and Ready to Sleep
B
1
4
2100
A
2nd Layer
3rd Layer
People - Tea Plantation This is located in the middle of the site, having bigger volume and high density; therefore the wind will be slowed down, making the fog to be easily collected. Besides, ‘heat programs’ and ‘cool programs’ are implanted to this area, which can produce fog actively and carry the fog back to the area of tea plantation with wind of lower velocity.
- Tea Plantation This area is composed of small volume, lower density, and the use of ‘heat programs’ to supply fog, which would accumulate and favor the teas’ plantation.
A
7
8 B
7 heat 3 fog
2
fog
cool
fog
heat 2
heat
3 heat
5
heat
7
2 fog B
7
8 A
B
Fog Gathering Zone By building hotspring room(heat) in front of tea garden, it could produce the fog behind and also as a wind proof to protect fog from dispersing.
2
7
8
Masterplan & Section Entrance
1
Tea House
5
Water Pond
A
Unit A (Biggest One)
2
Hotspring House
6
Drain Trench
B
Unit B (Medium)
3
Sauna House
7
Tea Garden
C
Unit C (Smallest One)
4
Canoe Port
8
Hiking Trail
ECO-TOURISM / TEA, HOTSPRING, GATHERING
fall 2010
0055
About Locust One of the most striking and devastating examples of collective movement is exhibited by locusts. Swarms of the desert locust, Schistocerca gregaria, can devour large areas of vegetation and have a huge social and economic impact on humans, affecting the livelihood of one in ten people on the planet in plague years. How do these destructive swarms form and what is the mechanism that drives swarming in locusts?
A
A A B B
A A A 13 A Artificial A A Oasis/ Spring,2011 Personal Academic Project, Tunghai University B B B Type B BShelter/ B Installation/ Infrastructure Adaptive Location Sahara Desert, Africa Adviser Ho, Jeong-Der (jeong_der@hotmail.com) Key Description Base on the research of collective behavior of locust, the bio-mechanism becomes our formation reference. The function is built while the biological formation; with the form developed by bio-mechanism,we tried to think about the dynamic links between form and function, also it’s operational field. Which means to find the possibilities of form and function modestly in the given form development . In the way of this logical operation, form not only follows function but also formulates.
COLLECTIVE BEHAVIOR OF LOCUST / ARTIFICIAL OASIS
spring 2011
0057
Bio-Mechanism of Locust -To Simplify the Mechanism -To Conclude the Form-Making Parameters When the biological formation is created, it always has its functional purposes. Base on the hypothesis, I started to study on the mechanism of collective behavior of locust to deduce its form-making mechanism as the reference to understand the dynamic relationships among form, function, and its operational field.
Humidity / Time Soil / Soft Humidity / Low
Hard High
Hatch / Early,fast
Late,died
tin
Ma
IUS AD
OW TH R GR
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r Yea
UA Q
of
t Amoun
OW GR
TH
ga thin s wi cust
S DIU RA
Dec
avio
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e
Fora
ging
r Yea
Instar1
gu
g>
Lay
nge
ly
ing
>E
ay
Au
Cha
ltip
tin
M
Me
Mu
Ma
HUMIDITY / TIME
/ tch Ha w upsis o ho Grtamorp
Ma
gg
Po d
s
ti
La
ng
yi
July
Same speed,
Food Amount / Number of Locust Food>Locust/ Cooperate with Each Food
a. A
Locust Food<Locust/ Kill Each as Food (The bigger one kill the smaller one )
a. DIAGRAM/
MECHANISM OF LOCUST
ng
June Egg Pods
Dominate Area
Smaller dominate area, High density, Various speed, Same Direction,
Bigger dominate area, Low density, Same speed, Random Direction,
Gregarious Condition< 4R >= Solitary Condition (Locust=2r=R)
r
R
r
r
r
R
R
R
Solitary
Gregarious
reas
Beh
st
er emb
Solitary Condition Gregarious Condition
April
of Lo
Sept
h
Conditon Change
A MO QU UNT OF ANT LOC UST ITY OF FOO D
t Amoun
Instar2
Slow / Small
Mature
DENSITY / AREA BEHAVIOR PATT ERN
4R
Instar3
Instar5
a ng ithi s ts w Locu
er Octob
Instar4
Bio- Mechianism of Locust
Instar5
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Marc
Mature
HUMIDITY / TIME
m
DE BE NSIT HA Y / AR VI O EA R PA TT ER N
us
be
ve
No
nd ion itio n
io
osi s
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r
e
T
ar
Speed/ Coverage(radius) High / Wide
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ry
eg
Co nd Gre Soli Ch ito ga tary an n rio C us ond ge Co it
ry
Growth Radius
ra
Gr
ta
rary
bu
li
se
Janu
Fe
So
ng
Egg Pods
Ha Gr tch/ Me ow tam orp up h
ea
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cr
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er
mb Dece
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ha
ing Lay
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Gre
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濕度 / 時間
-Growth Radius 生長半徑
-Amount / Quantity of Food 數量 / 食物量
-Dominate Area 掌控範圍
MULTIPLY
HUMIDITY/RADIUS
GROW UP
SUFFICIENT FOOD AREA
BREED 2ND GENERATION
TOUCHED THE DISTRICT BOUNDARY WONT DECREASE THEIR DOMINATE AREA. BUT WILL MOVE TOWARD THE OPPOSITE DIRECTION
UNDER SOLITARY CONDITION THEY HAVE VARIOUS DIRECTION
ONCE THEY’VE TOUCHED EACH OTHER, THEY WILL BREED NEXT GENERATION AND MOVE TOWARD THE OPPOSTIE DIRECTION
DENSITY
HYPETHSIZE THEY ARE ALL UNDER SOLITARY CONDITION AND IN AS SUFFICIENT FOOD AREA
DOMINATE AREA
CHANGE
NEXT GENERATION HAS TRANSFORMED ONCE
TOUCHED AND MOVE TOWARD THE OPPOSITE DIRECTION
DECREASE ......
THE NUMBER OF LOCUSTS > THE AMOUNT OF FOOD
BALANCE
8
MULTIPLY
BREED NEXT GENERATION
FOOD/AMOUNT
Spatial Parameter
Dominate Area
Instar6
掌控範圍
a. Gregarious Condition (Area < 4*Radius) b. Solitary Condition (Area > 4*Radius)
Growth Radius
成長半徑
Bio-Formation Keyword
Instar5
-Humidity / Time
HATCH
Stimulation of Collective Behavior of Locust
Instar4
ti o
Instar3
di
Instar2
on
Instar1
ITS A DYNAMIC LIFECYCLE OF LOCUST WILL CONTINUE UNTIL ITS EXTINCTION.
THE NUMBER OF LOCUSTS < THE AMOUNT OF FOOD
THE NUMBER OF LOCUSTS = THE AMOUNT OF FOOD
COLLECTIVE BEHAVIOR OF LOCUST / ARTIFICIAL OASIS
spring 2011
0059
Operation Field - To Re-Distribute the Water Resources by the Form-Making Mechanism Desertification is a serious environmental problem in drylands which is driven by a number of factors, such as drought, climatic shifts, hi tillage for agriculture, or overgrazing. Here, I’m more concerning about the provisioning of water.
7% Rain Water
s
urce
so r Re ate
W
De
ser
Am
ou
Ins
uffi
W 7%
at
rain
er
Re s
cie
nt
ou
18
%
de
rce
w
nt
of
t
18% Dew Water Gr
ou
nd
wa
te
r
wa
Ed
ter
ge
75
%
gro
un
dw
ate
r
Su
ffic
Site
of
De
ser
t/
Gre
en
s
%
75
er
at
dw
un
o Gr
Water resource in desert composed of 75% underground water as its main source, 18% dew water and only 7% rain water. However, most of dew water is usually evaporated after the sun came out which means how to collect dew water efficiently is our priority.
ien
t
ield on F rati
e
/ Op
The Site is between desert and greens which can make sure it has underground water underneath.
ally
ber
e/ ltur
-Cu
Sub
Ber ern Theavior Patt Bah
01
02
f l o
Fe
va sti
an
and
Ram
ide
Br
su is u ity d ent ge an a er id es erb langu pass B The r than ecom e nd and y are a id , w ity istory . The nic g3 eth tire h Africa havin en , of m the aphy Musli a year r i , g n in e o n h ge Su s wit f brid ie stly lo mo ctivit stiva e. By in a an, Fe arific I a m nd sc ies, a l of it Ram estiva activ ent , F er eir and ing th ee diff hich is r y h d , t u s w of st ded ttern ation clu a con ring p he situ ct. t ra he gat sented o inte t re rep rs how be Ber
ge e Ed
rt
ese
of D
Th
Looking for a site at the edge of desert as an experimental site to reverse the desertification by re-distributing the water resources through the form-making mechanism learning from the collective behaviour of locust.
al tiv Fes ice 03 carif S of
ba
Glo
on
cati
rtifi
se l De
ap
ity M
abil
ner Vul
Site/ Berbers,Sahara Desert
Desertification is the degradation of land in drylands. Caused by a variety of factors, such as climate change and human activities, desertification is one of the most significant global environmental problems. Techniques focus on two aspects: provisioning of water, and fixation and hyper-fertilising soil.
a. A
EXPLODED AXONOMETRIC/ SITE+SUB-CULTURE
Form-Making Mechanism A. Studying groundwater level to estimate the speed of growing up.
B. Controlling the density and the quantity by the dominate area's radius.
C.Generated the form while bowls touched by other, which makes the radius of upper surfaces varying from different times.
Touch and Open New Bowl
Low
or
ollect
ter C e / Wa
vic ive De
Adapt
Pour Water Into New Bowl
el d Lev
un rt Gro e s e D
evel ter L
Wa ound
Gr
Medium High
Water Collecting System Groundwater Cycling System -1 filter - storage - evapotranspiration - cooling - major filter(drinkable) - using
Rainwater Collector Process - open umbrella - collect - electromagnetic induction - storage
Dew Collector Process - close umbrella - congeal - collect - filter - drink
Rainwater Collector Water Pump Dew Collector
Filtrating Process
Drinking Water Storage Tent Groundwater Level
Water Collector (Adaptive Device) COLLECTIVE BEHAVIOR OF LOCUST / ARTIFICIAL OASIS
spring 2011
0061
8
4
2
1
11
8
Artificial Oasis = Desert + Water 5
Water collector is an adaptive device which not only can collect, storage and recycle water but also as a shelter providing shading area and tent for resting at night. Besides, from the aspect of ecology, it can decrease the speed of desertification and even can cultivate the green by redistributing the water resources reasonably.
7
7
Festival of Bride
A
7
Festival of Sacrifice
7
Dry Season
4
ARTIFICIAL OASIS WATER COLLECTING SYSTEM 1 2 3
Desert Parasol/Shading Area
4
Tent/Resting Place
5
Market
6
(Ramanda)
Plan & Section
Praying Place
7
Dew Collecting Condition
10
Green Cultivatin Area
Stable
8
Rainwater Collecting Condition
11
Desert
Solum
9
Underground Water Level
10
1
8
7
2 2
8
10
8
8
1 2
2
6
9
Rain Season I
Rain Season II
COLLECTIVE BEHAVIOR OF LOCUST / ARTIFICIAL OASIS
spring 2011
0063