Jheng-Ru Li
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Jheng-Ru Li
[Project 22]
Green Port
Research of Taiwan Green Port Establishment Editorial Design | Exhibition Design | Master Plan | Motion Graphic 2011 Fall Client: Ministry of Transportation & Communications (MOTC) Team Work: National Sun Yat-sen University
“Green ports” and “eco ports” have recently become the core strategies for port development in Europe, the United States, Japan, and Australia. Many port cities set green ports into action and transformed ports in order to balance the economy and promote the environment. To protect the oceans and increase the competitiveness of port cities, the proposed research details a green port plan for Taiwan.
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Green Port
Goal
The goal of this plan is to create a port city with a low environmental impact, high bio-diversity, recovered habitat, healthy community, and high profit. This project includes a four-year program. The major tasks in this project are: sustainable harbor environmental planning; sustainable harbor construction; sustainable harbor management and operation; sustainable harbor community; and case studies for green ports internationally.
ECO Community
Jheng-Ru Li
Dry Bulk terminal
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Jheng-Ru Li
Green Port Identity Animation Client: Ministry of Transportation & Communications (MOTC) Directed by Shiau-Yun & Jheng-Ru Li Concept & Development by Jheng-Ru Li Design & Animation by Jheng-Ru Li Sound Design by Jheng-Ru Li Music Design by MUSDM More info: https://vimeo.com/47159995
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Jheng-Ru Li
Development Process of Port City Client: Ministry of Transportation & Communications (MOTC) Directed by Shiau-Yun & Jheng-Ru Li Produced by National Sun Yat-sen University (NSYSU) Concept & Development by Jheng-Ru Li & Wang Hsiang-Hsiang Modeling by Jheng-Ru Li Design & Animation by Jheng-Ru Li Sound Design by Jheng-Ru Li Music Design by MUSDM More info: https://vimeo.com/49908924
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Jheng-Ru Li
[Project 30]
Ocean Project A series of marine icons Icon Design 2016 Spring Personal Work: Jheng-Ru Li
Concerning the problem of overfishing in Asia Pacific Ocean, Project aim to increase awareness and raised concerns over the way our seafood is obtained and marine environment.For more information and stills gallery, please turn to: https://www.behance.net/gallery/36905915/Fish-Project-free-icon-set
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Jheng-Ru Li
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Jheng-Ru Li
[Project 30]
Icelandic Truf
Iceland Visitor Planning Guide 2016 Illustration 2016 Spring Personal Work: Jheng-Ru Li
This is a concept illustrations for the Iceland Visitor Planning Guide 2016. The focus was on the iconic Architecture and magnificent landcapes the counry offers.For more information and stills gallery, please turn to: https://www.behance.net/gallery/38188585/ ICELANDIC-TURF-
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Jheng-Ru Li
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Jheng-Ru Li
[Project 30]
A Thousand Shades of White Greenland
Film | Photography 2014 Winter Personal Work: Jheng-Ru Li
‘’A Thousand Shades of White’’ is a film and photography project concerned with the human face of climate change in the far north nation. By capturing the changing Iceberg, ice fjord and the life of inuit who survived for centuries by hunting seals and whales in the remote villages in Greenland. Shows how climate change impact the traditional life style in greenland. Hope to raise awareness of the impact of global warming. For more information and stills gallery, please turn to: jhengru.com/greenland/
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Jheng-Ru Li
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Jheng-Ru Li
[Project 14]
Vegetation House
A Greenhouse to Promote Plant Growth Residential 2010 Spring Team Work: Jheng-Ru Li;Chieh-Hsuan Hu Faculty Advisors: Yu-Tung Liu, Yuan-Rong Li, Shiau-Yun Lu and Chor-Kheng Lim
Concerning the problem of farmhouses in suburban areas, this project focuses on whether the building creates a suitable environment for many different types of plants to grow naturally. Just as a stone in the forest is attached to a plant by the local environment, the building should not change or, worse, destroy the original ecosystem; it should coexist in harmony with the ecosystem and allow a diversity of plants to grow smoothly alongside it. American Society of Landscape Architects (ASLA) 2011 Student Award Award of Excellence http://www.asla.org/2011studentawards/558.html “An innovative and beautiful integration of architecture and landscape architecture. The analysis of which plantings are possible without water is well thought out. The blend of architecture and landscape is a strong message. Bravo!” —2011 Student Awards Jury
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Vegetation House
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Vegetation House
Design Program and Intent
Jheng-Ru Li
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Roof Canopy Layer
Vine Layer Vegetation House
Plants Layer Usage According to different environmental factors, it is suitable for the growth of plants to configure the distribution areas of the plant, to design the buildings’ forms, and to create a suitable environment for many different types of plants to grow naturally.
Roof Surub Layer Epiphyte plants
Roof Herbaceous Layer
Groundcover Layer
Canopy Layer Surub Layer
Herbaceous Layer
Jheng-Ru Li
Portfolio 2016
Roof garden
The Diversity of Vegetation
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Vegetation House
Epiphyte Plants The planters are designed with brick from the irrigation systems, so that seeds will attach to the vertical building facade naturally.
Deatial of the facade
Jheng-Ru Li
Vegetation House
Recycle and Reuse Rainwater The lowest location of the ecologically poor site is selected to collect and keep the local rainwater, and the humidity and temperature will be maintained.
Rainwater collection system
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Vegetation House
New Tectonics In order to reduce construction time on the land and to avoid waste, the construction will remain limited to the local environment. In this proposed design, most components will be produced and processed completely in factories and then transported to the site to be assembled.
New tectonics process
Past construction process
Jheng-Ru Li
Vegetation House
Coexisting with the Ecosystem Using this approach can achieve peaceful coexistence between the building and the environment, under the premise of not destroying the land to build a farmhouse and maintaining the local ecosystem in this National Scenic Area, using such means as stones covered with plants, which, although existing, will not be awkward.
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Jheng-Ru Li
[Project 10]
Living with Floods Planning and Design for Guandu Plain, She-Zih Island Master Plan, Waterfront Park 2008 Fall Team Work: Jheng-Ru Li;Shih-Chia Chiu; Chen-Wei Wu; I-Chun Chien and Shih-Yeu Hou Faculty dvisors: Shiau-Yun Lu and Shian-Po Liao
“Fighting with water” has been a proverb for hundreds of years. It reveals the human fear of nature. High embankments are built to provide people with a feeling of safety. Taipei City, the capital of Taiwan, is now encircled by concrete. With global climate change, it is critical to rethink the philosophy of living with nature. This project proposes the concept of “living with floods” and returning the floodplain to the river. It is a challenge to a densely populated city, especially the capital.
American Society of Landscape Architects (ASLA) 2009 Student Award Honor Award http://www.asla.org/2009studentawards/266.html ''Really basic and really smart! Flooding is an important issue and this deals with it head-on. Nice graphic representations as well.''- 2009 Student Awards Jury
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Linving with Floods
Circulation The new circulation system will integrate the arterial roads for both sides of the developments and provide collectors to connect and manage local traffic. It is expected that it will preserve more space for ecology. >Pedestrians, bicycles, and gas-fuelled buses will have priority on the street. >Bus stops will have arrival times displayed. >Blue-way connection.
pedestrian crossing
esplanade
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Summer
Autumn
Winter
Jheng-Ru Li
Linving with Floods
Urban Agriculture & Wetland Systems We aim at the demand for retention space now, and use the landform design methods to shape a lot of the swamp, which is used to store storm water.
New Recreation facilities: hot air balloon
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Jheng-Ru Li
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Jheng-Ru Li
[Project 22]
An Emerging Natural Paradise Aogu Wetland & Forest Park Master Plan Master Plan,Wetland 2009 Fall Forestry Bureau, Council of Agriculture, Excutive Yuan, TAIWAN Team Work: National Sun Yat-sen University Prof. Shiau-Yun Lu, Prof. Yang, Lei, Prof. Jason Yu, Prof. Hsueh-Wen Chang, Prof. Yuen-Po Yang, Prof.Ming-Rea Kao Hsiang-Hsiang Wang, Shau-Fu Wang, Hsin-Pei Wang, Jheng-Ru Li, Shu-Ting Shang, Hui-Yin Lin, Ying-Chieh Lin, ChenWei Wu, Shih-Yeu Hou, Yi-Chun Chou, Chia-Wen Hsu, Yung Chen Hsu, Kai Tsao, Chen-Hao Chang, Kai Chu Yang, Yu Jie Zhan, Tzu-Lin Kuo, Tzu-Chieh Chen, Hsiao-Yu Hsieh, Yi-Chun Chien, Che-Wen Chien
Aogu is a 1,600-hectare site located on the route of Asian migrating birds. The site was reclaimed from the sea and unexpectedly reverted to a coastal wetland because of land subsiding and the cessation of farming in the area. The project focuses on establishing a series of rehabitation strategies on the site that is reclaimed for human development, and emphasizes the site as a seeding process for the natural systems, as well as environmental education and eco-tourism. American Society of Landscape Architects (ASLA) 2011 Professional Award Award of Excellence http://www.asla.org/2011awards/217.html “Among the best water initiatives we saw. It’s interesting that they took the approach that a previously reclaimed shoreline should go back to the natural--what a radical move. The scale was amazing, instead of just looking at the landscape, they looked at global flyways. A really clear presentation that resonates.” —2011 Professional Awards Jury
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Aogu Wetland & Forest Park Master Plan
Aogu Wetland & Forest Park Master Plan
Hydrological Strategies
Passive Conservation Strategies
Fresh water is scarce at the site. Therefore, keeping all available fresh water onsite has been the guideline for the hydrological strategies, except when the storm rainfall intensity is higher than the design standard. A flood-retention pond at the center of Don-shi Park, which is capable of storing the 0.3 million cubic meters of storm rainfall runoff that comes only once or twice a year. Domestic discharges and farm disposals are collected through drainage ditches, purified through a set of constructed wetlands, and stored in the retention pond during the dry season. This will play the most important role in keeping the proposed site green and viable.
The western site of the park (Don-Shi Park) is the conservation core area with strict conservation policies. The main concept of the conservation is to restore and re-populate various types of habitats to recreate various ecosystems that existed here historically. In the master plan, marsh, mangrove, mud flat, open water, salt mud, ditches, woodland, grassland, wild farm, fishing ponds, etc., are merged into the wetland and forest park.
Green Fishing Area
Salt Marsh Water Level Control Gate Afforest Salt Marsh
Marsh Land Shallow Water
Dynamic water Level Control Gate Deep Water Pond
Salt Marsh
Observation Pavilion
Scolopacidae/Charadriidae Foraging Habitat Space
Open Water
Afforest
Elevated Board Walk
Swale
Swale
Nature Woodland
Shallow D
Ditch
Jheng-Ru Li
Portfolio 2016
Wastewater Treatment
Open Water Area
Mangrove Wetland Constructe Wetland
Wetland Observation Station Mangrove Constructed Wetland (Fresh Water)
Open Water
Tertiary Wastewater Treatment Wetland
Board Walk Mangrove
Deep Water Pond (Core Protective Zone)
Wetland
Pig Farm
Fish Farm
Bike Path
Grass Land
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Aogu Wetland & Forest Park Master Plan
Aogu Wetland & Forest Park Master Plan
Active Conservation Strategies
Vision
The middle part of the park (Aogu Park) plays the buffering role and provides services to natural species, villagers, and visitors. The eastern part of the park (Xi-Zi-Xia Park) is the entrance of the park and is less environmentally sensitive, but is of high value in regard to education and demonstration.
Aogu Wetland and Forest Park is the showplace of the process of natural systems. The site has been reclaimed and reverted to a coastal wetland, which unexpectedly has become a refuge for migratory birds and other wildlife. The aim of this project focuses on establishing a series of conservation and re-habitation strategies on sites reclaimed for human development, and emphasizes the site as a seeding process for the natural systems, as well as environmental education, eco-tourism, and cultural sustainability.
Nature Swamp
Treatment Wetland Environmental Monitoring & Research Center Cascaded Constructed Retention Pond Wetland Nature Swamp Shallow Pond
Tertiary Wastewater Treatment Wetland
Green Fish Farm
Fish Farm
Embankment Wetland
Afforest
Parking lot Afforest
Swale
Eco
Jheng-Ru Li
Portfolio 2016
Current Flooding Area
1m
1.5m
2m
2.5m
1m
1.5m
2m
2.5m
Proposed Flooding Area
Agricultural Experience Area
Accommodation Area
Embankment Agriculture Experience Area
Afforest/Buffer Zone
Eco- Lodge
Eco- Lodge
Si-Gu Community
Retention Pond(Mangrove)
o- Lodge
Wetland
Bird Watching Pavilion
Swale Shallow Ditch
Nature Woodland
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Jheng-Ru Li
[Project 18]
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6M
Minimal Surface Installation 2010 Fall Team Work: Jheng-Ru Li; Chieh-Hsuan Hu and Jin-Ya Wang Faculty Advisors: June-Hao Hou 2011 NCTU Architecture Exhibition Exhibits
In mathematics, a minimal surface is a surface that minimizes its area locally. This is equivalent to (see definitions below) having a mean curvature of zero. We try to use the minimum area surface (Enneper’s Surface) features to achieve a total surface area equal to 6 square meters with the possibility that attempts to minimize the area of contact with the ground, the surface characteristics of the minimum area for the mean curvature equal to zero, and body stress distribution able to arrive at the perfect balance. It calculates smooth degree 3 curves and surfaces based on parametric equations. X=
(u•cos(v)- u (2a-1) ) (2a-1)•cos(2a-1)•v
Y=
{-u•sin(v)- u (2a-1) ) (2a-1)•sin(2a-1)•v
Z=
2 a•ua •cos(a•v)
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6M2-Minimal Surface
Material
In order to show Enneper Surface characteristics, we use two soft materials to build a 1:1 solid model. >Hollow plastic hose—radius 0.5mm*10 >Aluminum stick—radius 0.5mm*3 >Elastic fabric—thickness 0.05mm.
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