Portfolio

FanyiJIN

PORTFOLIO

https://issuu.com/sturtle

Fanyi Jin 09.04.1996

Tel: +4591728488 +8615651899602

Mail: jinfanyi@outlook.com Helsinki, Finland

EDUCATION

Aalto University, Espoo, Finland [09.2019-08.2022]

Master of architecture.

Southeast University, Nanjing, China [09.2014-06.2019]

Bachelor of Architecture.

WORK

Henning Larsen Architects, Copehagen, Denmark [09.2021-08.2022]

Full-time Intern, involved in all design phases. Including Conceptual design, finalized designs for engineers, ceiling panel design using Grasshopper;3D modeling using Rhino, main rendering for front pages, other drawings and diagrams, etc.

Aalto University, Espoo, Finland [01.2021-05.2021]

Research assistant, involved in digital design tutorial writing for 3D modeling and rendering, website editing.

Tezuka Architects,Tokyo, Japan [07.2018-10.2018]

Full-time Intern, involved in hand-making models, drawings of a kindergarten and other related works.

Atelier Dashaus, Shanghai, China [01.2018-02.2018]

Full-time Intern, involved in initial designing, calculation and construction drawing (CAD).

Junfa, Kunming, China [12.2020-03.2021]

Part-time Intern, site monitor in Junfa dongfeng square(high-rise).

SKILLS

Design skills

Conceptial design, volume generate, computational design, all stage development.

Software skills

Proficient in: Rhinoceros, Grasshopper, Enscape, Auto CAD, Sketch Up, Vray, Adobe Creative suite (InDesign, Photoshop, Illustrator, etc.).

Moderate in: Archicad, Revit., Blender, processing, C language, Python 3, HTML5, CSS3.

Language skills:

Native in Mandarin Chinese, proficient in English spoken and written for business and conversational purposes.

Ab initio in German and Japanese, willing to learn any other preferred languages.

Other Skills: Also designed furniture, small products, poster, and logo

OTHER WORKS & HOBBIES

Website: Website editor in Aalto University digital learning Resposible for most of the content in:

• Digital Design Work Flows-Vector( including 2D Drafting and 3D modeling), [https://digitaldesign.aalto.fi/digital-design-workflows/vector/]

• Digital Design Work Flows-Hybrid-3D visialization, rendering [https://digitaldesign.aalto.fi/digital-design-workflows/hybrid/visualization-rendering/]

Tutorials: Grasshopper ang Rhino tutorial

Logo design: A set of logos for a company with subsidiaries of education, internet, and HR.

Product Desigin: Badge for chemstry students.

Music: Self-composing and mixing: Don’t say that word, This Moment, Gunpodwer, Illusory. etc. [https://soundcloud.com/fanyi-jin]

Videos: Show me your studio Henning Larsen Copenhagen studio.

Cooking

Projects from school

01 Pasila Lung

Computational design: Inner landscape for highrise in Helsinki

02 Endless Flowers&Further develpoment for construction

Construction&space focused: Home for a couple with flowers and pigeons

03 Palace of Rhythm

History and urban context focused: Worker’s Cultural Palace

Projects from work

Contents

Aalto University: Digital learning tutorial Website [https://digitaldesign.aalto.fi/digital-design-workflows/vector/] [https://digitaldesign.aalto.fi/digital-design-workflows/hybrid/visualization-rendering/]

Henning Larsen

Several different project in different phases

Other works

Service Design: Old things, new life

Activity center based on garbage collection

Construction: Creation Pavilion: Wood workshop in Community

Skyward Pavilion: Timber pavilion with waterside view

Projects from school

01 Pasila Lung

Computational design: Inner landscape in Helsinki

Site: Pasila, Helsinki

Cooperator: Maral Alaei, Tuuli Töniste

Instructor: Prof. Toni Kotnik, Prof. Pia Fricker, Prof. Carlos Bañón

Luka Piškorec, Kane Borg

In the concrete city centre of Pasila, greenery is needed. The winter months of the cold climate in Helsinki will lie dormant even the scarce of nature. The inner garden of the Pasila high-rise will stay green throughout the seasons, acting as a lung inside of the building and providing natural ventilation for the apartments. The air is flowing into the central landscape of the building through the openings in the building envelope. To ensure the airflow, most of the openings are placed in the predominant wind directions of the area. In the semi-warm centre atrium of the building, the air is purified and humidified by the vast net of plants throughout the atrium. The purified air will move from the building centre to the apartments by buoyancy induced ventilation. The used air is admitted back to the central atrium where the CO2 is absorbed to the plants and the warm air will rise to the top of the higher part of the building centre with the heat difference.

The openings of the building envelope will provide natural lighting to the inner landscape throughout the day from the East, South and West and can be used to cool down the building in the summer. Artificial light is also used for the indoor planting, which also improves the quality of the indoor terraces.

In the middle of the plant nets of the atrium, there are open voids for the floating islands that hold some of the social spaces. The floating islands are connected by a bridge to the horizontal hallways next to the apartments. The two-story apartments provide the possibility to create balconies to the outer side for the view of Helsinki and inner side for the view of the inner landscape and use on the colder seasons. The lower part of the building and the inner landscape among with the floating islands are public and open to everyone. On the ground level, most the natural rock is preserved, adding some commercial spaces and pathways formed by the terrain connecting to the railway station and east side of the building.

Controller

Regarded the whole building as two parts: inner landscape and residence. The inner landscape is not only for planting, it also includes all the public places. While the residence part can be regarded as private part. The two different parts represent two states. The conditions that influence the states are controllers.

External Conditions:

Form Control of the Building

Openings in the exterior wall of the building

Internal Conditions:

Activity circulation Nodes inside the building

Controller:

According to these conditions, the building volume will be added or deduced, and the above conditions will be converted into input. Use curve and point as controller, there is added curve, added point, reduce curve, and reduce point.

Engine

Didive the entity to cells, the two states can be simplified to simple command: open/close the volume cell. The close cell represents residence volume, while the open cell represents landscape void.

2D Form Generation

Option 3

Feedback:

Simulation

The engine generate many different shapes, simulate the air flow, light, and other conditions of these shapes to feedback to the beginning. This loop optimized the result.

Air Flow Simulation:

When the wind blows into the building, the more directions the air flows, the higher the natural ventilation efficiency is. Use vector and distraction lines and curves to stimulate the air flow in side building.

3D Form Generation

Mix open cell & close cell with a specific proportion Open cell&close cell compete for space, close cell spread from inside to outside An initial mixing proportion of open cell (landscape) and close cell (residence)

is set.

Open cell spread from outside to inside, create openings and holes

Option

Option

Option 1 Option 2 Option 3 Option 4 Option

Option 3 Option 2

Form Control With Adding With Adding Removing Control Points

Air flow should spread to diverse directions, it is influenced by control points and curves.

Air flow should spread to diverse directions, it is influenced by control points and curves.

Option 4

Pasila Lung (Purification of Air by Vertical Landscape)

+

Air flow should spread to diverse directions, it is influenced by control points and curves. + Option 3 Option 4 Pasila Lung (Purification of Air by Vertical Landscape)

Air flow should spread to diverse directions, it is influenced by control points and curves.

points and curves. + Option 3 Option 4 16 Pasila Lung (Purification of Air by Vertical

Air flow should spread to diverse directions, it is influenced by control points and curves.

+

Air flow should spread to diverse directions, it is influenced by control points and curves.

2 After the wind is brought inside the building, it goes through the inner landscape in diverse directions, guiding the airflow inside the building, improving the air quality. After the wind is brought inside the building, it goes through the inner landscape in diverse directions, guiding the airflow inside the building, improving the air quality.

guiding

Point controller: node

Ensure building volume reduce other part as landscape void

Carve landscape void inside the building volume

Cell off: void- Landscape Cell on: volume-Building

Curve controller:

path

Volume build up & carve path

Cell on: volume-Building Cell off: void- Landscape

Adjust node size and smooth

Smooth testing

Cell on: volume-Building Cell off: void- Landscape

Cell on: volume-Building Cell off: void- Landscape

Smooth testing

Encure building volume & Carve landscape void Relationship between inside&outside

Complex controller

Building volume path &landscape opening node

Cell on: volume-Building Cell off: void- Landscape

Building volume node &landscape opening path

Cell on: volume-Building Cell off: void- Landscape

Outer shape control

Reduce volume according to outer curve

Overall Landscape Function

• Plant nets

Atragene-klematis

Solanum dulcamara (Bittersweet)

Overall Landscape Function

1.

1. Growing Grid (also works as part of the structure)

1. Growing Grid (also works as part of the Inner terraces

2. Plants start to grow 3. Plants smoothing the surface

3.

2.

• Inner terraces

• Outer terraces

Inner landscape parks

• Outer terraces • Farming

Picture from: https://www.minnesotawildflowers.info/flower/bittersweet-nightshade

Rubus idaeus Raspberry Ivy

Picture from: https://www.dreamstime.com/ stock-photo-raspberry-bush-ripe-berrieswooden-fence-suburbs-st-petersburg-image76004792

• Outer terraces • Farming

2. Plants start to grow 3. Plants smoothing the surface 9

Picture from: https://www.impactplants.co.uk/ ivy-hedra-helix-screens

Salmon soup for dinner.

I love my bed.

Let’s go for a walk.

Dad, shall we go to the summer market upstairs?

Welcome to our house party!

There’s a party. Looks fun.

03 Endless Flower

Construction&space: Home for a couple with flowers and pigeons

Endless Flowers

Site: Meiyuanxincun, Nanjing, China

Instructor: Prof. Yonggao Shi

couple who raise flowers and pigeons

Meiyuanxincun Village, Nanjing. work,Academic Yongshi Gao

The community of Meiyuanxincun was built is the 1920s as residence for the political and military leaders of the Republic of China at that time. Thirty years later, the majority of tem moved to Taiwan and never come back. Since then, the time of the place paused while the surrounding area developed to be prosperous city. It's a village in the city, and the development is 30 years behind the neighbour area, barely preserved, but has it own charm.

There are three layers of 'unmatch' on the site. First is the unequaled development of the prosperous city environment and the enclosed lagging inner place. Second is the unmatching of watching and living: Meiyuanxincun has beautiful narrow alleys, lush plants, and small elegant villas, but the living condition is poor. One villa for a family is now shared by three or more families, the facilities of the house are aging, some of the houses has water leak and ventilation problemd, etc. Third is the possitive attitude of the residents regardless facing the living difficulties. The raise birds, plant vegetables and flowers, build their own facilities in the limited place in the courtyard, etc.

This design captures the following site features: grey brick walls to enclose the courtyard, lush vegetation that climbs on the wall, and bird raising habit of the residents. Three folded walls in different direction break the isolated relationship between house and yard and form a fluid 'endless' space loop.

The community was built in 1920s as a residence for the political and military leaders of Republic of China at the time. Thirty years later, majority of them moved to Taiwan and never came back. Since then, this place was gradually declined, and surrounded by prosperous This design captures the following site features: grey brick walls used to enclose the lush vegetation that climbs out of the yard, and residents who like to keep birds. In order break the isolated relationship between the yard and the house, three fold walls were used, by interspersed with each other, they leaving gaps to provide space for plants and birds.

Find the proper shape of the site.

Divide the living part (private) and the flower shop(public).

Make two U shape wall open to different directions

Intersest the two U shape walls. Lower the wall for living part for light.

Thicken the wall in the middle part to place the bathroom.

Add another wall vertically as bedroom. The inner and outer space become a fluid loop.

40mm PLYWOOD BOARD

20mm WOOL WITH VENTILATION

300mm POLYURETHANE INSULATION BOARD MOISTURE BARRIER

180mm CLT

Further study: Construction

FIRE RETARDAND TREATMENT 15*50mm BATTENS 18mm GYPSUM BOARD

YP2 ROOF GARDEN

PLANT 100mm SURFACE SOIL

400mm GROWTH MEDIA 3mm SEPARATION FABRIC

300mm DRAINAGE MEDIA

CAPILLARY FABRIC (PROTECTION LAYER)

Due to the change of my study place(Nanjing-Helsinki), another location is chosen for the site, some modifications are made according to the new field condition.

20mm ROOT BARRIER

300mm POLYURETHANE INSULATION BOARD MOISTURE BARRIER

80mm CLT

FIRE RETARDAND TREATMENT 15*50mm BATTENS 18mm GYPSUM BOARD

Helsinki is not far from the Arctic Circle. The winter is long and extremely cold, so there is a specific thermal requirement for buildings.

US1 LOAD BEARING EXTERNAL WALL

YP1 ROOF DRAINAGEN PLANE

30mm TIMBER CLADDING 32mm VENTILATION 300mm INSULATION 120mm CLT 18mm GYPSUM BOARD AIR BARRIER

US1 LOAD BEARING EXTERNAL WALL 30mm TIMBER CLADDING 32mm VENTILATION DRAINAGEN PLANE 300mm INSULATION 120mm CLT 18mm GYPSUM BOARD AIR BARRIER VAPOR SEMI-PERMEABLE TEXTURED WALL FINISH U-VALUE 0,25W/ m²K

30mm TIMBER CLADDING 32mm VENTILATION 200mm INSULATION 120mm CLT 15mm GYPSUM BOARD

US2 LOAD BEARING EXTERNAL WALL,BATHROOM 30mm TIMBER CLADDING 32mm VENTILATION 200mm INSULATION 120mm CLT 18mm GYPSUM BOARD 35mm BATTENS+AIRGAP 100mm ISOLATION 15mm WATERPROOFING BOARD U-VALUE 0,25W/ m²K

US2 LOAD BEARING EXTERNAL WALL,BATHROOM 12mm GYPSUM 120mm CLT 18mm GYPSUM BOARD

35mm BATTENS+AIRGAP 100mm ISOLATION 15mm WATERPROOFING BOARD 35mm BATTENS+AIRGAP 100mm ISOLATION 15mm WATERPROOFING BOARD

VSK1 LOADING BEARING PARTITION WALL,BATHROOM 12mm GYPSUM 120mm CLT 18mm GYPSUM BOARD 35mm BATTENS+AIRGAP 100mm ISOLATION 15mm WATERPROOFING BOARD

VSK2 LOAD BEARING PARTITION WALL, INSIDE

18mm GYPSUM BOARD

VSK2 LOAD BEARING PARTITION WALL, INSIDE EI30, R’w 55 dB

VSK1 LOADING BEARING PARTITION WALL,BATHROOM 120mm CLT 18mm GYPSUM BOARD

15mm GYPSUM BOARD 120mm CLT 15mm GYPSUM BOARD

VS1 NON-LOAD BEARING PARTITION WALL 18mm GYPSUM BOARD

120mm TIMBER FRAME + SOUND ISOLATION (50mm) 18mm GYPSUM BOARD

VS1 NON-LOAD BEARING PARTITION WALL 15mm GYPSUM BOARD 120mm TIMBER FRAME + SOUND ISOLATION (50mm) 15mm GYPSUM BOARD

VS2 NON-LOAD BEARING PARTITION WALL, U-GLASS 60mm U-GLASS(GLASS THINKNESS 6mm)

VS2 NON-LOAD BEARING PARTITION WALL, U-GLASS 60mm U-GLASS(GLASS THINKNESS 6mm)

PRODUCED BY AN AUTODESK STUDENT VERSION

03 Palace of Rhythm

Urban context and history: Worker’s cultural palace

Site:

Northeast China

Worker's cultural palace is a very special type of facility begin to boost in late 1950s, played an important role in 1980s and 1990s, and gradually disapear from 2000s.The Workers' Cultural palace originated from the Soviet Union's thinking on communist culture, which is, how culture and education were produced by the working class as a public product and how they were practiced.

China's early industrialization process and urban culture in the 20th century were clearly marked by the Soviet Union. Due to the geographical conditions adjacent to the Soviet Union and the industrial foundation established during the Japanese occupation era, Northeast China became the original space for the country's industrialization. To develop the culturak for the boosting working class, a large number of Workers' Cultural Palaces were built. People came to watch performances organized by factory officials, participate in many activities such as singing, dancing, playing musical instruments, chess, cards, and sports, which enriches the leisure life. The form of these buildings are effected by Soviet Union too. They are symmetric, made of concrete, and heavy.

However, after the Reform and Opening up, the gradual development of private enterprisesmade the concept of collective culture shrink. Compared with the leisure and entertainment organized by a unified organization, people tend to engage in activities with personal freedom and interest, thus the Workers' Cultural Palace gradually declined. Some of them were evolved into other functions, such as children's activity centers, cinemas, theaters run by performing group; Some of them were split into multiple parts and leased by multiple companies. Some unlucky ones were demolishded.

The new design of the Workers' Cultural Palace expresses how this facility will operate in the new era, serving all citizens. The periphery conforms to the urban texture, the site is surrounded by the 'fence', which follows the rhythm of the preserved old front facade. Inside the enclosure social housing, different activities are divided into three boxes, which have completely different spaces and operate independently.

Projects from work

Aalto university digital learnign Website

digitaldesign.aalto.fi

Rendering tutorial: https://digitaldesign.aalto.fi/digital-design-workflows/hybrid/visualization-rendering/

2D drawing tutrial: https://digitaldesign.aalto.fi/digital-design-workflows/vector/2d-cad-drafting/

3D modeling tutorial: https://digitaldesign.aalto.fi/digital-design-workflows/vector/3d-cad-modeling/

Project 01

Stage P.P. Henning

Main task:

Larsen

Design and model spiro ramp, stairs, and handrails for final delivery to engineer. The design proposal of Perforated ceiling panel.

Software: Grasshopper, Rhino, Enscape

Project 02 Stage P.P.

Henning Larsen

Main task: Detail model for final delivery to engineer and render company.

The design proposal of Perforated ceiling panel.

Software: Grasshopper, Rhino, Enscape, Illustrator

Project 03

Conceptial design

Henning Larsen

Main task:

Concept design, volume develop, option test, 3D modeling, structure model, diagrams, renderings.

Software: Rhino, Grasshopper, Enscape, Photoshop, Illustrator.

Project 04

Conceptial design Henning Larsen

Main task:

Site design, model build up, block build up, interial design. cover page rendering, diagram.

Software: Rhino, Enscape, Photoshop, Illustrator

Other projects

Classification Hall

Construction:

Creation Pavilion: Wood workshop in Community.

This community timber structure is built on-site from particle board. The design focuses on the modulus that can be flexibly configured. The grid wall can be used as a load-bearing structure and place various items. This flexible and disassembled pavilion can be used as a temporary spot for pop-up store, children’s activity place, and gallery, etc. After the event is over, it will be disassembled and moved to other places for next use. The construction process is also a part of the community activity, children drew pictures and collage stickers as their personalized designs on the boards. The subsequent use is very welcome, as people are very happy to be in the building they constructed by thier own hand.

Construction:

Skyward Pavilion: Wood workshop in a resort.

The pavilion was originally conceived as a bus stop in the vallege, with obtuse angled timber trusses providing open perspectives. The height modulus of the structural unit corresponds to the seat height. Later on, it is decided to be used as a waterside viewing pavilion instead of bus stop, some vertical elements were added along the extension lines of the structural rod to form a more ornamental effect. Ideally these platforms would provide support for creeping vines, with boxes in the middle for bee breeding. But beekeeping is of course rejected by the local residents.