HSIAO-JU LEE
2019
Taipei,Taiwan rickylee9988@gmail.com Career
Ruentex Construction & Development -Architects (2018.7-2019.5)-10 month
ACHIVEMENT
Da-Link Architect & Associate (2019.10-Now) Jhongli City No.1 - (Congregate housing)
Mandatory military (4 month)
National Center for Research on Earthquake Engineering - (Research Building) Investigation Bureau(MJIB) - (Office building)
INTERNSHIPS
Xianglong Huang Architects (2015-summer)-2 month
ACHIVEMENT
Archasia Design Group (2016-summer + 2017-winter)-4 month Highwealth Construction (2017-summer)-2 month
2014
Editor In Chief (2018 NTUT Architecture Graduation Book) Class representative (2016-2018 Architecture)
EDUCATION ACHIVEMENT
National Chengchi University - (Libraries) Twin Lake Towers - (Congregate housing)
Contents
Banciao Towers - (Congregate housing) National Taipei University of Technology(NTUT)-Taiwan,Taipei-(2014-2019) Studying to achieve a Bachelor’s Degree in Architecture-(2014-Now) Defense Mechanism - Graduation Project - (2017.10-2018.6)3rd place Möbiusband House - Architecture - (2017)Superior Priz Pop-up Store - Installment art (2016)1st place
Defense Mechanism
4-21
Phase 1 Phase 2
Defining Space from Sound - space (2016)Superior Priz Cliff House- dwelling unit(2015) 1st place
Phase 2
Micro city & Mega city - implement Design(2015) 3rd place
WORKSHOP
Grasshopper (2016.9)-Structure Camp
COMPETITION
Rhino (2017.1)-Advanced Camp Vray for 3dsmax (2017.3)-Advanced Camp Team 20 (2018.7)-Architecture Urban Planning Competition
REURS-27
24-25
Collection
Editor In Chief (2018 NTUT Architecture Graduation Book)
2
22-23
Nertebral
Low carbon apartments Planning (2017.6)-Planing Competition
SKILLS
Rhino
4.8
ACHIEVEMENTS
Photoshop 3dsmax
4.5 3.7
College Student Proficiency Test 2018
Shaping Space
Sketchup
4.5
Vray for all
4.8
- Digital design
- Material test
26-28 29-30
NT
CM
Site / Keelung Port , Taiwan
Type / tsunami / defense / system
01
Phase 1
R27
Defense Mechanism Protecting key buildings
SS
Several Sites Scattered around the City
DM
A
Thermal power plant
2017-2018 ( 8 month )
Brief March 11 2011, stratigraphic separation occurred under the outer Sea of Japan. Sendai City bore the brunt of the earthquake. The disaster took down almost all of the houses and infrastructures, even more it caused heavy casualties by the tsunami that came after earthquake. The officials at that time were eager to find preventions for next catastrophe.
B
Phase 2
After tsunami retreated, many machines and containers remain on the coast. These objects could become deadly weapons to inner land houses when the next disaster arrive. Needless to say that the damages caused by tsunami is huge and direct, but think after disaster happened, there are ways through design which can prevent and lower the damages.
Exclude threats
Thermal power plants that are located near harbors. There is a potential crisis may occur due to the waves which might cause by tsunami, and won’t be enough time for power stove to chill down. Follow on will be an explosion of the power plant causing casualties and big fire. Furthermore, the communication system will be useless because of the power shut down, so rescue team couldn’t evacuate all personal to safe zone and cause many injuries.
Container tower , Plaza
Phase 3
Evacuate Residents
Wave become a higher tsunami because of piles of waves pushing together. The north east coast of Taiwan is where earthquake frequently occur. The last study shows, the out sea of Keelung have a high possibility to shape a tsunami. Learning form the lesson of Sendia event, therefore, the project target three areas in Keelung where might possibly be damaged directly and indirectly by tsunami.
4
Container tower , Plaza
C
Phase 1
Protecting key buildings
Phase 2
Phase 3
Exclude threats
Evacuate Residents
The exhibition of the experiment of renewable energy for the substitution of fossil fuel. This building generates a reaction force against tsunami, procrastinates the time of tsunami striking, and provides a ďŹ rm and high-enough refuge for the inside workers.
The breakwaters against the coast aren’t high enough to endure the destruction caused by a tsunami. The current base length is only 6 meters high, which is far away from the 14-meter-high wave along with 311earthquake.
A defense system for the power plant against the tsunami to halt the expansion of the disaster which might threaten the lives of surrounding civilians. To reduce the damage caused by a tsunami, the building provides a protection mechanism for the power plant, which also contribute safety for the nearby citizens from power shortage.
0
6
75
150
450 M
Fig.01
Thermal power plants are an alternative between petrochemical energy and renewable energy, and are necessary at this stage. Because coal mine production can be supplied for several years compared to petrochemicals, many people hate it because of mining and air pollution.
Fig.01 / Power Plant Perspective
Fig.02 Fig.05
Fig.03
Fig.06
Fig.04
8
The future of the base will inevitably replace the more environmentally friendly power generation mode (in recent years, it has been reserved for conversion into fuel or even renewable energy).
It hopes to use it as an experimental field for researching renewable energy in the event of excessive energy, while opening up to more people to understand them. The fact that it must have been criticized but must exist
Fig.02 /
Fig.05 /
Fig.03 / Section | Fig.04 / Site Plan
Fig.06 / Perspective
Assemble and pile up the
Intercept containers and
Wave blocking
containers to clear the threats
equipment of port area.
mechanism.
on the ground oor.
UP UP
Phase 1
Protecting key buildings
Phase 2
Exclude threats
Phase 3
Evacuate Residents
Container tower operation The system is set to prevent tsunami from rolling up a number of containers and equipment and then increase disaster.
0
10
75
150
450
M
observatory
Container
Curtain skin
Main core
Fig.07
12
Structure
load up
load down
observatory
Fig.08
The tsunami will accelerate its inland invasion and take away a large number of containers and coastal factories in a relatively flat section, thereby destroying the safety of buildings and people.
Because Keelung's hinterland is narrow and there is no opportunity for considerable length to withstand the waves, it tries to concentrate the containers and build a mechanism that breaks the waves, which in turn slows the speed and intensity of inward invasion.
Fig.07 / Building Section
Fig.08 / Structure Exploded view
Fig.09
Fig.11
observatory
Container Fig.10
14
In the past, Keelung was defined as a commercial port due to geographical conditions. During the passage of time, alternative ports with better conditions (Palip Taipei Port) reduced the flow of containers and logistics.There is no need for too much terminal cargo, so there will be a lot of port space being released back to the edge of the city.Keelung is surrounded by mountains, but few people have access to green belts. Therefore, I believe that the above-mentioned transformation will be able to return to the cement greenbelt and share the opportunity due to the establishment of container towers and the planning of moisture-proof forests.
The knife-edge block threatens Sendai's experience and in the overcrowded state, after the disaster, the metamorphosis and the topography are relatively flat. The container with the most damaging path is accelerated due to the tsunami acceleration, and the coastal refuge escape platform is built according to the height of Sendai and released. The space is suitable for planting suitable moisture-proof forests as a layer of protection that faces the tsunami most directly.
Fig.09 /
Fig.11 / Mechanism Illustrating
Fig.10 / Perspective
To ďŹ nd a higher level building around the region of the base.
Decide a suitable spatial form according to the height of viaducts.
Set a springboard and landing point for supply transportation on the roof.
Find functional conditions for refuging inside the region.
Evacuation Viaduct Locate a suitable refuge in a crowded urban, and shorten the damaging period after damage.
Phase 1
Protecting key buildings
16
Phase 2
Exclude threats
Phase 3
Evacuate Residents
Find the nearest node around the high oor area and evacuation routes.
Fig.15
Fig.14
18
Fig.16
Fig.18
Fig.17
Find the highest point of Keelung and determine the appropriate space conditions based on the height of the viaduct. The roof is equipped with landing and material transport landing points. The building has a better water supply system. Convenience stores, hypermarkets or supermarkets can quickly provide usable consumables in the event of a disaster.
Hospitals and clinics can quickly select temporary rescue workers from this escape area. High-rise and escape belts look for the nearest node (in addition to providing more effective demand for asylum-seekers, they can also be transported through units within the unit.
Fig.14 / Perspective | Fig.15 / 1f Plan | Fig.16 / 2f Plan
Fig.17 / Perspective | Fig.18 / 1f Plan | Fig.19 / 2f Plan
Fig.19
Transport supplies
Fig.20
The shape of the control box is arbitrary .
Fig.23
Fig.21
Fig.22
20
Fig.24
Fig.26
Fig.25
Fig.27
The structure attached to the bridge provides a linear green belt and acts as a soft space in a busy city, thereby eliminating the tension between buildings. In the streets of the building space, which were created by the creation of elevated platforms and forced the plane to be cut, they gave back to the people whether they were on foot or on foot.
They even rented planted walls to plant what trades brought closer to each other and these were built to promote the economy. Elevated architecture in Keelung, which is no longer dominated by logistics and transportation, can return to the proper state and appearance of the city.
Fig.20 / Mechanism Illustrating | Fig.21 / Program Stydy | Fig.22 / Perspective
Fig.23 / Concept Perspective | Fig.24 / Fig.25 / Fig.26 / Fig.27 / Diagram
Type 2 /
DM
SS
R27
Single building
Type 1 /
Shaping Space Site / Taipei International Flora Exposition, Taiwan
Type / Mobile / Salon / concept
NT
02 2016-2017 ( 1 month )
Brief CM
Saloon, the main form is that chairman invites other guests to attend the party,through increasing communication opportunity they can pleasure themselves and promote selfcultivation. This event through the shape of space to provide different space experience,and then merge more races into this space.
Concert
Multifunction
Roof structure Removable walls
Exhibition
Exploded view drawing
Architecture through repeated discussion and debate to set up the meaning and direction of the space existence. Ever classic architectures develop the distinctive logical thinking in this process.
Speech
OFFICE
EXHIBITION SPACE
PUBLIC
22
OFFICE
OFFICE
ADJUNCT
MEETING ROOM
SS
R27
Single building
DM
REURS-27
03
Site / Taipei Huashan 1914 Creative Park, Taiwan
Type / NT
GO-Wirking Space / Impact Hub / Social Innovation
2015-2016 ( 1 month )
CM
Brief INTRANCE
ADJUNCT
INDOOR EXHIBITION
INTRANCE COFFEE SHOP
OUTDOOR EXHIBITION
Redefine large art village in the city,exchange ideas.Provide the possibility of sustainable development and innovative society. Waste mound can provide natural stage for outdoor performance. Historic factory is in front of the base, and new project green land is at the back. There are trees planted on the mound fitting in with the space and combining with landscape, create a performance stage interacting with nature.
CO-WORKING SPACE
A. Social space B. Small meeting room C. other
60 m2
80 m 2
PERSPECTIVE
SWOT
A C
B
15 m 2
5m
2
SO
Relatively quiet.
A
Coffee SHOP
D
40 m 2
60 +20m 2
20 m2
C
B
15 m 2
5m
2
A. Seating area B. Bar C. Staff room D.Outdoor seating area
WO
Café shop , 50 seats。
SECTION
50 m
80 m 2
B 30 m
24
20 m 2
A
原廢土堆能讓戶外表演空間提供自然的舞台。
2.
位於華山的主動線上,是視覺的節點。
3.
基地前是歷史的廠房,背對新規劃的綠地。
1.
前往大草原的意圖不明確。被明顯的建物機能(展場、電影院)所隔絕。
2.
樹植綠化目的遮蔽高架橋卻也讓背後的綠地犧牲。
3.
該區域性質集合行為持續時間短、聚散快, 但相對於綠地的動線串聯僅電影街一條。
2
2
A. Large Square B. Midium Square
ST
It can be assigned to different themes or flexibly based on display needed.
行政 管理
1.
A
Exhibition Square
B
5 m2 15 m2
A. 員工休息室 B. 儲物間
Analysis
WT
1.
串聯華山與草原的關聯性。
2.
華山紋理廠房的座向。
3.
該選擇的土堆上已有現植樹木,配合空間並結合景觀。
1.
不能打破華山主軸節點上對於綠的視線緩衝。(視覺穿透性的貫通)
2.
對於區域性質的特性如何恰當置入一個停留的意義。
SS
R27
Practical design
DM
Nertebral
- Digital design
Workshop / NT
Taipei Huashan 1914 Creative Park, Taiwan
Type / CM
Digital design / Nertebral / Snake
04 2015-2016 ( 1 month )
Structure detail
Brief Start with snake bones as the axis. Capture the pattern of snake's movement while it is preying on prey to involve human body to make relationship. Maintain the connection between the spin of snake's boneďźˆmain axle) and rib (line). Duplicate outer side of axis connection line. Maintain stability of outer side and controllability to make the twine which is on the human body more apparent .
Phase 1
Study Programs
Phase 2
Choosing materials
Phase 3
form follows function
Back mechanism making process
Extend Component Main Structure
Bending Structure
Additional Strengthening Vertebral Prototype attach the body
26
Phase 1
Study Programs
Phase 2
Choosing materials
Ball joint / Cartilage 2cm Styrofoam
Phase 3
form follows function
Phase 1
Study Programs
Phase 2
Choosing materials
Phase 3
form follows function
Straight fiber 2mm Elastic steel
Using linear method makes all nodes and bulkheads to fix overall context through wire rope.
Gear / Bulkhead 1.5mm Acrylic Sheet 28
Adjust the shape, fit the curve with the body, and then fix wire rope supporting backbone on the back of the trestle.
Low
- Material test
97x69x27mm 157g
National Taipei University of Technology, Taiwan
Materials / -Cement -Epoxy resin -Plaster -Soap
CM
1:1
05
High
Workshop /
NT
2:2:1 99x69x25mm 240g
beans,Water)
3:1:3
3:2:1
99x69x30mm 190g
90x69x32mm 180g
Cement
(Cement,
Harderner,Sawdust)
(Cement,
Harderner,Crayon)
Oil,Water)
3:1:2
3:0.5:1
100x70x30mm 210g
91x69x27mm 300g
(Epoxy resin,
(Cement,
3:1:2
High
Harderner,IUPA)
Cyanoacrylate,Water) 2:1:2
100x69x29mm 220g
101x69x27mm 340g
(Epoxy resin,
(Plaster,Polystyrene
Harderner,Acrylic)
,Water)
3:1:0.5
Low
Low
Epoxy Resinmixture Concentration
Light clay,Water)
(Epoxy resin,
(Epoxy resin,
(Plaster,
MasterBatch) 3:1:0.5
Plaster
Harderner,Color
9:1:9 110x71x31mm 140g
100x70x27mm 200g (Epoxy resin,
Paint(black&white), Water) 9:1:1:9 99x70x29mm 300g
(Epoxy resin,
(Plaster,
Harderner,leaves)
Soil,Water)
99x69x30mm 210g
High
100x70x30mm 200g
3:1:1
High
97x68x25mm 145g
(Cement,
2015-2016 ( 2 month )
30
1:1
(Soap,Coffee Powder)
Low
R27
Admixture Design
SS
CONTENTS
Soap
DM
(Soap,Sawdust)
4:1:3
200x30x15mm 390g