Portfolio_job application_2017 by doudoudoudou

Wanting Dong MLA Candidate 2017

PORTFOLIO

01 Graduate school 1. Weaving Energy Instructor: Robyn Reed, Tao Zhang 2. Fluid Waterfront Park Instructor: Adam Anderson 3. Sand Dune Classroom Instructor: Suzanne Mathew

02 Supplement Work 4. Research: Future of Dam Instructor: Scheri Fultineer, Emily Vogler 5. Representation: The Lightning Field Instructor: Theodore Hoerr

Wanting Dong

6. Installation: Light Maze Instructor: Beverly Choe, Jun Sato 7. Design Journal: City Walk

03 Undergraduate school 8. Water management: The Grove Instructor: Kristian Kelley, Paul Coseo 9. Architecture: Yanyu Pavilion Instructor: Qian Wan 10. Construction document: Streetscape design

04 Interdisciplinary Work 11. Installation: lonelytogether(.net) 12. Scientific Illustration: Immunity 13. Game: Rhythm and Reason-The Poetry of Whale Science

01 Graduate

Graduate

Weaving Energy

Urban System, Brighton, Massachusetts Individual work, Feb.2016-May.2016 Background This studio is based on the understanding of city and river as a dynamic system. The urban design of the selected site is required to give innovative, practical and systematic solutions to re-establish the missing connections. Concept Human, flows of water, waste, energy, communications, transportations and consumptions are mediating forces at the river edge for the emerging changes of Brighton in the metropolitan Boston.

01 Graduate

Graduate

01 Graduate

Graduate Traffic Energy (negative) The noise and vibration from the cars passing Turnpike are negative energies that impact people living near by. A transformation hub is designed to collect the vibration from traffic to generate clean energies for the site.

Human Energy (positive & emerging) People come and leave, they bring things here and take away some with them. A series of programs and spatial designs intend to encourage the exchange of materials and information, which brings emerging energies to the site.

Water Energy (positive & negative) Run-off as well as debris and contaminants flow to the site then eventually go to the Charles River.

These water are collected, purified and transformed to other forms of energy when flowing through the site.

01 Graduate

Graduate

01 Graduate

Graduate

01 Graduate

Graduate

01 Graduate

Graduate

Fluid Waterfront Park Constructed Ground, Providence, Rhode Island Individual work, Jan.2016-Feb.2016 Background The studio starts with the experiment, fluidity study and translation of landform fluidity. Topography, hydrology and circulation are corresponding in the physics and aesthetics of landform. Concept Located along Providence River - a tidal river, this project incorporates the design of grading to create a dynamic place that explains the fluidity of water, landform, people and view.

01 Graduate

Graduate

01 Graduate

Graduate

01 Graduate

Graduate

01 Graduate

Graduate

01 Graduate

Graduate

Sand Dune Classroom Design Principles, Barrington, Rhode Island Individual work, Sep.2015-Dec.2015 Background This studio is based on the understanding of coastal geological conditions, the observation of site natural phenomena, the exploration of materials and techniques, and the logical concept development. The design of classroom is required to help people have a better understanding of the natural processes in the site. Concept The design of class room in the dynamic natural environment is highly adaptive to the tidal change, growth and succession of beach/salt marsh vegetation.

Concept

Graduate

The modular structures are flexible in their combination and configuration.

Graduate

Each module is designed in an appropriate porosity to help stableize the dune, create new micro habitats for beach animals, become entertainment and educational places for people.

01 Graduate

Graduate

01 Graduate

Graduate

01 Graduate

Graduate

02 Supplement Work 1. Research: Future of Dam 2. Research & Representation: The Lightning Field 3. Installation: Light Maze 4. Design Journal: City Walk

02 Supplement

Supplement

Future of Dam

Research Project, Pawcatuck River, Rhode Island | Connecticut Team work, Sept.2016-Dec.2016 Background Currently in the United States there are over 100,000 dams and in New England the number exceeds 14,000. Many of these are over a century old, less than 10â&#x20AC;&#x2122; high and no longer are used for their original purpose, and need to be repaired or removed in the coming decades. Each dam has its own unique trade-offs and a diverse group of stakeholders that will need to be engaged in the decision about the future of dam. This research project uses Potter Hill Dam as a geographical frame to investigate questions of the design, management, visualization, public engagement and decision-making.

Photo credits: Patric Beals

Drawing credits: Wanting Dong

A B

erosion

sediment reaching the shoreline

deposition natural flow

potential drought

potential flood

C main current path

Trade-off card examples

Scenario #1: Do Nothing Scenario1 Do Nothing

REMOVE THE DAM

STRUCTURAL

Supplement

sediment loss DO NOTHING TO THE DAM MODIFY THE DAM

sediment reaching the shoreline

sediment loss

CONNECTED WATERSHED

FRAGMENTED WATERSHED

Connectivity Connectivity is an important factor to indicate the health of a river system. It includes the connectivity with fluxes of energy, matter and organism.

Fragmentation Watershed fragmentation describes the damed river system that disconnects the fluxes of energy, matter and organism.

Scenario #2:Denil New Fish Denil Fish Ladder Scenario 2 New Ladder Impacts

Operations

Cross Sections

Before Breach

FISH PASSAGE _

LOW

HIGH

PROBABILITY OF DAM FAILURE _

LOW

HIGH

RELEASE OF CONTAMINATION _

potential drought

Upstream

Biotic DO NOTHING TO THE DAM

LOW

Upstream

HISTORICAL LANDSCAPE PRESERVATION

Upstream

LOW

Downstream

- Over-topping water flow - Over 100 years old concrete dam body

- Minimum Fish Passage

HIGH

Dam

- Sediment and contaminants are accumulated behind the dam - Impoundment has differnet environment and species compared to the downstream condition

HIGH

Biotic

Habitat Fragmentation

After Breach

HYDROPOWER POTENTIAL _ LOW

HIGH

COST

fastest flow

LOW

HIGH

BLUEWAY CONNECTIVITY _

A B

erosion

deposition

Existing Dam

Upstream

Existing Denil Fish Ladder

Potter Hill Bridge

Impacts

HIGH

Downstream

LOW

Downsteam

- The potential of dam breach caused by long-time erosion or extreme weather would cause the damage of the dam body

Cross Sections

- Release sediment may block the channel downstream - Release contaminant downstream which would poison the fish and other living creatures there

Before Construction

HIGH

PROBABILITY OF DAM FAILURE _

along the river, which will affect Fragmentation fish migrating and genetic main current Dams cause thepath habitat fragmentation biodiversity of inland specieswill affect fish along the river, which

LOW

HIGH

RELEASE OF CONTAMINATION _

1 migration and genetic biodiversity of inland specices.

LOW

UPSTREAM WATER LEVEL Upstream Existing Impoundment_ o Dam

LOW

HIGH

Fish Denil

Existing Waste Gate

Existing Water Level

LOW

Existing Grade

Existing Grade Of River Bank

Fish Denil Entrance

Dam

- Entrance are all Existing blocked by rocks, Mill refering to the site

- Few fish pass the denil today

- The dam has over-topping water flow problem which would cause dam failure by erosion

picture

4 2

HIGH

main current path

Downstream Natural Channel

HIGH

HISTORICAL LANDSCAPE PRESERVATION

potential flood

Dam Breach

- Sediment and Contaminant are released - Water level drops which would influence the species living in the impoundment condition

Operations

FISH PASSAGE

A drought potential flood natural flow potential Dams cause the habitat fragment Dams cause the habitat fragment C

Scenario #3: Bypass Channel Scenario 3 Bypass Channel LOW

Downstream

B Connectivity along the river, which will affect fish migrating and genetic Free-flowing rivers provide connected biodiversity inland species habitats to migratory fish of and enhance erosion genetic biodiversity of B inland specices.

Upstream HIGH

HABITAT CONNECTIVITY _

Downstream

LOW

HABITAT HABITAT fastest flow CONNECTED FRAGMENTED C FRAGMENTATION FRAGMENTATION deposition HABITAT HABITAT

GEOPHYSICAL natural flow

HIGH

UPSTREAM WATER LEVEL

REMOVE THE DAM 1 Biotic MODIFY THE DAM

Biotic

Habitat Fragmentation

BIOTA

LOW

After Construction

HYDROPOWER POTENTIAL _

DO NOTHING TO THE DAM MODIFY THE DAM sediment reaching the shoreline

REMOVE THE DAM

LOW

HIGH

COST _ LOW

HIGH

BLUEWAY CONNECTIVITY _

LOW

Fish Denil

HIGH

HABITAT CONNECTIVITY _

New Denil Fish Ladder Entrance Added Resting Pools Notch in Weir Crest

New Denil Fish Ladder Exit

sediment loss

Impacts

HIGH

Operations

INFRASTRUCTURE

BLOCKED SEDIMENT

LOW

Sedimentsediment loss Dams removal may result in sediments being transported to the downstream. And these sediments participate in building up the shoreline at beachfront environment.

Fish Denil Entrance

Dam

- Clean the rocks at the denil entrance

- Add a weir to the dam body which would solve part of the over topping water flow problem

Cross Sections

1 Month after Construction

FISH PASSAGE

DISTRIBUTED SEDIMENT

- Add a ramp for passing people -Replace the old fish passage with a new designed fish denil

Scenario #4: Nature-Like Fish Ladder Scenario 4 Natural-like Fish Ladder LOW

sediment reaching the shoreline

1 2

HIGH

PROBABILITY OF DAM FAILURE _

LOW

HIGH Slope: 1/12

RELEASE OF CONTAMINATION _

Sediment Dams inhibit the transport of sediments that are required to prevent coastal erosion in the downstream, which causes definite problems for beachfront environment and properties.

LOW

UPSTREAM WATER Upstream Fish LEVEL Existing Impoundment _ Exit o Dam LOW

2 HIGH

Fish Ladder +Baffle

Riverside Path

Fish Resting Pool

Existing Grade

HISTORICAL LANDSCAPE PRESERVATION _

LOW

Existing Water Level

Bypass Channel

Upland Forest

- Part of the Existing Existing Existing Grade - On-site Upland road construction and are preOf River Bank Mill species mill plant will be reserved

- Plant native wetland species along the river bank - Construct a new 8â&#x20AC;&#x2122; wide riverside path.

HIGH

moved. - A rocky channel was designed to allow fish migration.

20 Years after Construction

HYDROPOWER POTENTIAL _ LOW

HIGH

COST _ LOW

HIGH

BLUEWAY CONNECTIVITY _

REMOVE THE DAM

DO NOTHING TO THE DAM

LOW

fastest flow

deposition natural flow

CULTURAL

potential drought natural potential flow flood potential drought

LOW

Impacts

erosion

deposition

EXTREME WATER FLOW

Flow Regime Flow regime describes the temporal discharge pattern of high and low flows of a river. Free-flowing river has adaptive discharge through the course of a year.

Flow Regime Flow regime describes the temporal discharge pattern of high and low flows of a river. Damed river loses its adaptive discharge and often has reduced base flow and extreme peak flow.

main current path

Existing Dam Upstream

LOW

UPSTREAM WATER LEVEL Existing _ oDam LOW

main current path

HIGH

Operations

Bypass Channel

- Maples and riverside native species create a scenic experience for the bike riders and pedestrians

Upland Forest

- Native plant spe- Native species like cies grow back in the oak and white pine rocky channel forms a typical upland - Healthy food web forest landscape and bypass ecosystem would be established by the inhabitating flora, bird and fish species

Cross Sections 1 Month after Construction

HIGH

Upland Forest

Existing Water Level Of River Channel

Water Level Of Bypass Channel

LOW

Existing Grade Of River Bank

Riparian Zone - Lowland river bank plants - Native plants - Flooded land - Diverse habitat - River Access

Boulder Zone - Keep grade in Remove place and allow Mill grade to get higher - Create riffles to attract migratory fish - Provide refuge and hiding places

Fish Resting Pool - Provide migratory fish with pools to rest, feed, or hide in - Promote growth of other species that promote water quality - Potential swimming

20 Years after Construction

-Live Stake slope stabilization -Road side protection Upland species

HIGH

HYDROPOWER POTENTIAL LOW

Grade Of Bypass Channel

HIGH

HISTORICAL LANDSCAPE PRESERVATION

5 HIGH

COST _ LOW

HIGH

BLUEWAY CONNECTIVITY _

HABITAT CONNECTIVITY _ LOW

Card credits: Wanting Dong

Impacts

Upland Forest

HIGH

sediment reaching the shoreline sediment reaching the shoreline HIGH

Removed Fish Ladder

Covered Dam

Filled Grade

Rest Pools

Rocky Material

LOW

sediment loss

HIGH

Riparian Zone - Shadbush and riparian grass species: River Birch, Dogwood, Bluestem, Switchgrass

Boulder Zone - Pickerelweed, Arrow arum, Echinacea, Cardinal flower - Egrets and other water birds catch fish here

Fish Resting Pool - Golden rod, Arrow arum, Bluegrass - Migrating fish species pass the fish ladder, like Alewife, American Eel

Cross Sections Drawing credits: Future of Dam research team Before Removal

PROBABILITY OF DAM FAILURE LOW

- Oaks and White Pines grow back to the site

Operations

FISH PASSAGE _ Design Opportunity

sediment loss

Downstream

PROBABILITY OF DAM FAILURE

LOW

Card credits: Future of Dam research team

Bypass Channel

RELEASE OF CONTAMINATION

potential flood C

NATURAL WATER FLOW

1 2

Scenario #5: Removal Dam Removal Scenario 5 Dam LOW

Riverside Path

HIGH

HABITAT CONNECTIVITY

FISH PASSAGE

erosion

Model: Patric Beals, Wanting Dong Photo credits: Patric Beals

Topics in Representation

Individual work, Sept.2015-Dec.2015 The Lightning Field(1977) is a land art work in the remote desert of New Mexico by artist Walter De Maria. It consists of 400 stainless steel poles with solid, pointed tips, arranged in a rectangular 1 mile Ă&#x2014; 1 kilometer grid array.

Concept Representing Lightning Field focuses on 3D and 4D techniques for representing time basing on the research and analysis, and to travel in time into the future and demonstrate how an intervening or disruptive force fundamentally alters the land art. Traveling into the future, the energy contained in lightning can be great sources: to generate hydrogen from water, to harvest energy from rapid heating water due to lightning, or to use the matrix of metal poles to harvest strikes either directly or by converting it to heat or mechanical energy.

02 Supplement

Supplement

The Lightning Field

02 Supplement

Supplement

Light Maze

Responsive Structure for the Coastal Edge Team work, Oct.2015 Background The goal of this workshop is to develop an modular adaptive structural system which will engage the ground, site, and human body. It is also a process to test and learn about the properties of metal as a structural, spatial and experiential medium. Concept The modules of curved sheet metal connected in the shape of arch is proved to be the strongest structure through small scale experiments, weight-load calculation and prototyping. Light Maze takes advantage of the curved reflective surfaces and filtered lights in the woods to create amazing and dreamlike light environment. And the module itself also acts as resting places under the arch.

Oct 29, 2015 @ RISD Farm

City Walk

84 daysâ&#x20AC;&#x2122; city observation - selected work Feb.2016 - May.2016 Background Walking/seeing is a good way to understand urban places by looking in new ways and to make critical observations of occupation pattern and the cultural, environmental and political systems at work in city we live in.

Path

Node

Supplement

Edge

03 Undergraduate school 1. Water management: The Grove 2. Architecture: Yanyu Pavilion 3. Construction document: Streetscape design

Water Management, South Mountain Village, Phoenix Individual work, Aug.2014-Dec.2014 Background Citrus has always been historically important in Arizona, and a cornerstone in its economical agricultural sector. THE GROVE redevelopment plan aims to reform and change the status quo of South Phoenix by applying the green system and greywater system based on the original canals, and bring in modern interpretations. Concept In arid area, rather than bring people water, the people will now provide water for the landscape and themselves.

Undergraduate

The Grove

03 Undergraduate

Undergraduate The Greywater System is based on the old San Fransisco Canals system which used to help with agriculture irrigation. This system is designed to filter out contaminates, allowing human contact and the ability to water citrus trees.

Traditional Chinese Garden Building Design, Wuhan, China Individual work, Sept.2013-Dec.2013 Background The project aims to design a traditional Chinese pavilion in a park adjacent to the Sand Lake which is he second largest lake in the city of Wuhan, and the only lake located in downtown. Traditional construction techniques are combined with spatial design for modern uses. Concept The best way to preserve history is to interpret traditions with modern language.

Undergraduate

Yanyu Pavilion

03 Undergraduate

Undergraduate

Construction document, Tempe, Arizona Individual work, Aug.2014-Dec.2014 Background

This is a set of construction document of streetscape design in ASU campus, which includes overall site plan, demolition plan, hardscape plan, grading plan, dimension plan, site details, planting plan and details, irrigation plan and details, and lighting design and details.

Undergraduate

Streetscape Design

03 Undergraduate

Undergraduate

03 Undergraduate

Undergraduate

03 Undergraduate

Undergraduate

03 Undergraduate

04 Interdisciplinary Work 1. Multi-media installation: lonelytogether(.net) 2. Scientific Illustration: Immunity 3. Educational game: Rhythm and Reason: The Poetry of Whale Science

04 Interdisciplinary

Interdisciplinary

lonelytogether(.net) Interdisciplinary Study - Multimedia Installation

Wanting Dong (MLA) + Emily Pan(MFA), Sept.2016-Dec.2016 Concept LONELYTOGETHER(.NET) is a project to understand the scale and prevalence of loneliness in the RISD community. It is also a simple exposure of this school’s state of mind, which (based on the rate of responses) seems to be consistent over time. • On an individual level, participants are encouraged to share a small, intimate detail of their lives at RISD (lonely or not lonely). • Their feedback is funneled into their immediate communities, to connect individuals to their known peers. • Ultimately, the resulting data is shared with the RISD community in a high-traffic common space as well as publicly on the web. This project is installed in three parts: • First, in the elevators of each building on the RISD campus, four buttons are installed, labeled “Lonely”, “Not Lonely”, “Alone”, and “Together”. Each time a button is pressed, data is sent to be aggregated on a web server. • A small monitor then sits In the lobbies of each building on the RISD campus, showing the polled results for that particular building. • In a larger community space, the total results are projected. http://lonelytogether.net/

December 6, 2016 @ RISD Museum

04 Interdisciplinary

Interdisciplinary

In the end, regardless of the scale or form, this project is an exercise in empathy and understanding how we emotionally connect to the people we are surrounded by. Though we ask relatively little of each individual, the compounded result of the piece reveals a description of the group that would otherwise sit undiscovered. http://lonelytogether.net/

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December 6, 2016 @ RISD Museum

Cover design for Immunity Magazine

Wanting Dong (MLA) + Sherry Zhang(PhD), Apr.2016 Background This special issue is in the immunology field of co-stimulatory and co-inhibitory receptors. It covers the basic knowledge of the receptors, and discuss their specific roles in different diseases (i.e. Tumor, autoimmunity, infection, transplant). In adaptive immune system ,However, excessive co-stimulatory signal can result in abnormal T cell activation. So co-inhibitory receptors are also required to dampen and control TCR(T cell receptor) and co-stimulatory signals. In this sense, co-stimulatory receptors and co-inhibitory receptors have opposite functions, and both of them are important, but sometimes can also have â&#x20AC;&#x153;evilâ&#x20AC;? side.

Publication link http://www.cell.com/immunity/issue?pii=S1074-7613(15)X0006-9

Interdisciplinary

Scientific Illustration

04 Interdisciplinary

Interdisciplinary

Rhythm & Reason: The Poetry of Whale Science Educational Game Design for New Bedford Whaling Museum Jan.2016-Feb.2016 Concept Description and technique, metaphor and accuracy, rhythm and reason, the insight into the narrations of human, and the principles of universe. This is poetry. This is also science.

Game play-testing video https://vimeo.com/208437932

control: keyboard + cursor + voice

whale song | noise in the ocean