Portfolio of Juntian Chen 2017-2021

PORTFOLIO OF JUNTIAN CHEN 2017-2021

SELECTED WORKING SAMPLE FROM 2017-2021

04.Green Link

Planning of Ecoduct and Ecological corridor SITE: Gothenburg, Sweden ACADEMIC: Year1,Semester1 (Msc.) Tutor: Meta Berghauser Pont BRIEF In this project I researched the social-ecological solutions for connecting important biotopes which is cut through by highway-159 in the south part of Gothenburg. In the project I combine the design of ecological corridors, ecoduct with social benefits for people, like public open space, cycling route and urban permaculture space. Which provide different types of landscape for surrounding residents.

05.Energy Link-Cycle

To the future electrical fueling station SITE: Kaizhou new town, Chengdu, China TYPE OF PROJECT: Competition

BRIEF In the future, city will not be lled with the dull and dirty plain parking lot, but the more humancentered charging stations and multifunctional parking zones, to frame a new automobile charging ecosystem. We want to activate these negative public spaces with resilient infrastructure, providing unified but multifunctional zero-emission units to offer electric vehicle charging, and bio-heating power generation devices. We also want it to be a public playground with asphalt paving and some space for sports. These are meant to create a more interactive, active and energetic parking lot ID that could change the stereotypes of the traditional parking lot.

ENERGY LINK CYCLE TO THE FUTURE ELECTRICAL FUELING STATION. Project statement In the future, city will not be filled with the dull and dirty plain parking lot, but the more humancentered charging stations and multifunctional parking zones that could combine our electricity charging, recreational waiting time, and businessbooming together, to frame a new automobile charging ecosystem. We first address the problem of the single function of the charging unit. By energy circulation module that is shown in our document, the solar power cell is adjustable that it could generate maximum electricity by following solar angle, and corresponding to whether it could be a collector for rainwater. The rainwater will be mixed underground with compost pit, while the ecological supplement will go into nearby bushes landscape, while the heat generated is stored floor heating. Most importantly, electricity charging by solar energy and floor heating by the biological compost system. Thus, many social behaviors could be brought up.Like free markets, public toilets, food stall and temporary exhibitions. We want to activate these negative public spaces with resilient infrastructure, providing unified but multifunctional zero - emission units to offer electric vehicle charging, bike parking safe booths, and bio-heating power generation devices. We also want it to be a public playground with asphalt paving and some basketball boards. These are meant to create a more interactive, active and energetic parking lot ID that could change the board stereotypes of the traditional parking lot.

" THE AUTOMOBILE WILL DRIVE US TO A BETTER FUTURE, THUS WE NEED A BETTER CHARGER."

Energy link-cycle

SITE PLAN The area is set by the entrance of a park, by the side of the natural reserve. To make the parking lot part of the ecosystem, the rainwater is collected through an eco duct across the parking lot to create landscape and recreational values. The charging station grid is placed by the conductor since the biowaste composition process could generate ecowaste to the bushes and flower bed. The parking lot is composed of a parking area and sports plate that occupies several car parking spaces. With sport elements inserted, the parking area could be more energetic, young and trendy for a new automobile parking style.

LEGEND Infrastructure of the electrical fuel station

Indoor e-bike charging station

UE

DU

CT

Outdoor car parking & charging Outdoor bike parking Motorway Pedestrian

Blue-green infrastructure Public green openspace

st

e for to ute

Green corridor Blue corridor (stream) Local forest patch

Ro

i

Recycling points of eco-waste compost

To N

atu

ral

Public space Food stall (flexible)

are

a&

fie

Mini sports field Platform for public events

Str e

+

AQ

Indoor electrical fueling station

am

e forest in th

0

25

50M (1:1500)

ld

3D VIEW

ZOOM-IN OF 3D VIEW Multifunctional social space Based on the energy link-cycle, different types of public space can be created. For example:the area of bioswale and wadi for rainwater storage/purification in the parking lot can at the same time provide natural experience for people who use the electrical fueling staion. Also, people can find their favorate food by visiting flexible food stall in the parking lots and they can experice how foodwaste can be recycled during the process. Meanwhile, in the parking lot, there are also some flexible space for sports and kid's games. In this way, the electrical fueling station can become one kind of public space for providing colorful lifestye.

Open green space

Mini sports field

Public events

Food stall

Basketball

Meeting space

Ecological value In our proposal, the parking lot with electrical fueling station are not " grey infrastructure" any more.It can recycle and reuse rainwater by using natural based solutions."Bioswale,wadi, st re a m co r r i d o r e tc . " T h e g re e n b l u e infrastructure of the fueling station's area can be connected to a broader context. For example: surrounding runoff corridor, hedge in the farmland and forest patch. As a result, the future's electrical fueling station can function as a "Patch", which can link and strengthen the local ecological network.

Connecting local green corridor (hedge)

Blue green corridor (Ecoduct)

Bioswale

SINGLE FUELING GRID The grid uses foodwaste and biomass recycling, also rainwater storage facilities to replenish fertilizer to produce fertile garden soil for the landscape maintenance. The pavilion of the grid presents an asymmetric anti-sloping roof, and its southwest side is the area with the largest solar radiation in our selected site. It is equipped with solar panels, absorbing and storing batteries for night lighting and fans. In addition, the concrete surface of the parking lot was changed to an asphalt track material and set as a slow-moving area, so that people who exercise at night can run and exercise and become a shared playground.

Single grid example +Car/Bike charging +Temporaty meeting space +Biowaste bin

The pavilion of the grid presents an asymmetric anti-sloping roof, and its southwest side is the area with the largest solar radiation in our selected site. It is equipped with solar panels, absorbing and storing batteries for night lighting and fans. Since the fueling station is composed of several single grids, in order to save energy, smart grids for solar panels are taken into consideration. The column of the grid is multifunctional. It can function as charger for phone, also in the centre of the column there is a water pipeline which can transport the rainwater, and it is connected to the rainwater purification collector unfer the grid's floor.

The floor of the grid are made of recycled wood panel and can be easily installed and replaced. Under the wood panels, floor heating pipes are installed and the power is generated by the compost pit for bio waste. Then, under the floor heating pipelines, insulation layers are installed.

The composting system are connected to the bio-waste bin in the grid. The composting system include 2 parts: water purification system and biowaste composting system. In the water purification system, black water from biomass and foodwaste will be collected and cleaned in the purification system and become greywater and a sensor in the purification system can monitoring the water quality. The grey water will be transported to the rainwater collecting system to be purified again and then be recycled for cleanin g and landscape irrigation. After the water extracted, the left biomass will be composted and go through the process of anaerobic digestion. Then the eco-fertilizer can be produced and "energy" can be generated for the floor heating pipelines.

INTERACTIVE Many things could happen within 20-40 minutes of waiting time. In our concept design, they could try to be in the role of a shopkeeper, a supervisor, or a customer through our instant App and touch on the pedagogy system of sustainability. To provide a scenario of how people could fully utilize the space, our every instruction is online with a UX interface to engage different groups of people. We consider not only the vehicle passengers but consider them as a new type of consumers, that will come and stay for at least 20 minutes in the area. This development could provide a greater economic benefit to the locals, especially for some small businesses such as street food, temporary exhibition, handcrafted art pieces and etc. On top of that, the station is a pedagogical resource to show the energy circulation system and inspire the visitors on ecological sustainability. By presenting the input and output of energy generation, plus the interplay of the rainwater collection and waste recycling, the charging station demonstrates the profound impact that electric cars could bring for the sustainable future.

LET'S POINT !

SCENARIO

The charging station with a separate toilet for a compost pit and chagring areas for electric bikes and cars.

The parking lot provides extra exercise areas like a pingpong table, a public gym and the cross-country track suitable for running intead of asphalt pavings.

OTHER PROJECTS (Groupwork projects) Architecture/ Urban water management planning/River bank sports park

Recent finished working samples + Water integration planning of Izmir + Masterplan Artis (Rennovation of Plaantage Middenlaan) + Development plan of Gardens De Hooge Riet(Visualization)

I. Water integration planning of Izmir(Basin Bostanli and Poligon) Section drawing based on water storage proposals in zoom-in area

(My role: 1.GIS analysis of water system and existing water infrastructue 2.Section drawing of proposal in key zoom-in area) GIS mapping and data analysis of Bostanli water system (Cooperated with Josje Hoefsloot)

B O S TA N L I WATER SYSTEM

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Section A-A A

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6

IZMIR - WATER VISION

12

48

12

50

20

17

20

17

A

4

20

4 2

28

4 4

45

20

8

8

4

80

2

20

Section B-B B B C C 4

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32

60

4

15

15

8

20

4

100

Section C-C

E

The Bostanli catchment has an extensive hinterland of approx. 40 km2. In the upstream area, many small natural streams come together and form wider streams that run towards the city. These streams are denaturalized in downstream urban areas, 21 7 9 where infrastructure often crosses the Section D-D canals. In addition, the culverts under the bridges are relatively small, resulting in bottlenecks for water drainage during extreme weather events.

D E

F G

D

F

18

3

7

5

30

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G 5

4.5

4.5

30

4.5

4.5

18

2

8

2.5

25

Section E-E

Visualization of general longlitude of the Bostanli basin Erosion

2018. Sk.

Move the tram + dike

Bestekar Yusuf Nalkesen Sk.

Fast run-off Fast runoff in new urban developments on hill-slopes

Overflowing at constructing culverts and bridges

10

Overflowing neighbourhoods

Bank overflowing & blocked drainage

6

2

4

8

4

6

12

5

8

8

22

Section F-F

High water level in the canal due to inflow and sea water rise

X

2018. Sk.

Keep the tram

Bestekar Yusuf Nalkesen Sk.

Coastal flooding

Urban green Pasture Nature Bareland

X

X

X

X

X

X

X

20

R U R AL A R EAS Bareland

C IT Y OF THE HILLS

C IT Y IN TH E C OAS TAL PL AIN

Section G-G

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4

6

12

5

8

8

22

II. Masterplan Artis (Renovation of Plaantage Middenlaan) (My role: Conceptual design and visualization of the renovation of Plaantage Middenlaan)

Current situation

III. Development plan of Gardens De Hooge Riet in Ermelo (Visualization) (My role: Visualization based on the development plan of the green area)

Current situation

01. Mountain and Village in Block Collective living apartment design for Chinese urban farmer (Bee Breeders Competition-2018)

Groupwork project (My role: Rhino model making/Diagram drawing/V-ray Render)

03. Run with life Tidal flat sports park in Ji An city (2019)

Independent Project

RUN WITH LIFE

Tidal Flat Park of Gan River in Ji An City

Site in broader context

Flood/pollution of runoff

Erosion and pollution of muddy flat

JI'AN CITY, Jiang Xi

Navigation construction

Ecologial damagement

Flood analysis and strategy for different water level

Landscape strategies for different water level

Planning of plants

3 levels of green trail in the park level 3 Walking

Section of trails

Plan of trails

Activities in different sites

level 3 Walking

level 2 Walking+Running

Eco-Grassland along Gan River

Wood trail in the forest

Walking/Bicycle trail along the dike

Beach&playground along the river