Ruiqi Han: Selected Works 2020-2024 by Ruiqi Han

Ruiqi Han ruiqi_han@outlook.com London SW8 2DU, UK https://www.linkedin. com/in/ruiqi-han-rikiii77/ University of Pennsylvania | Weitzman School of Design Master of Architecture Candidate

mo(i)ré-scape Architecture Design Portfolio

RUIQI HAN

EDUCATION University of Pennsylvania, Philadelphia, PA, USA

Aug 2021 - May 2024

CONTENT

Master of Architecture

• Awarded a $35,000 merit-based scholarship annually. • Received the $25,000 Aedas 2023 Fellowship for research in AI, mixed-use, and urban design. • Awarded 2nd Place in Digiblast 2021 for designing an outdoor Boulder Rock Climbing facility, focusing on architectural tectonics and innovative material use.

AA School, London, UK

Jan 2024 - April 2024

RMIT University, Melbourne, VIC, Australia

Feb 2017 - Oct 2020

Exchange Program, Diploma

Bachelor of Architectural Design；

• Active participant in the Venice Biennale 2020/21, City X project. Addressed sustainability and urban challenges, proposing an urban system and sustainable urban ecology for Xiong’An.

ruiqi_han@outlook.com London SW8 2DU, UK

EXPERIENCE

https://www.ruiqihan.com/

Aedas Shanghai, China

May 2023 - Aug 2023

Architectural Assistant

LAVA | FARRAGUT HOUSING Turbine | HUDSON RIVER PLANT CONFLOW | CALLOWHILL MARKET THe Filtering City | XIONG’AN FUTURE CITY

Ant Group Headquarters Office | Design Develop Phase • Conducted in-depth facade detail scheme analysis.

ORZI | SCHUKILL RIVERBANK CLIMBING PARK

• Developed sophisticated digital models to aid in design visualization and refinement. Luzhou Laojiao Chengdu Headquarters | Schematic Design Phase • Actively contributed in conceptualizing innovative design schemes. Contributed to the project’s

Synthetic Odyssey | MARS FUTURE CITY

achievement as a finalist in a competitive architectural selection process.

SKILLS

• Designed and refined facade schemes, adding aesthetic and functional value to the project.

Digital

• Prepared comprehensive architectural drawings, including sections and plans, ensuring clarity.

MAD Architects Beijing, China

Architectural Intern

PYTHON | Deployable Structure

Zhuhai Art & Cultural Center | Schematic Design Phase

FOFA | Fuction of Fashion in Architecture

• Engaged in conceptual design, shaping the initial vision and aesthetic of the project. • Developed both digital and physical models, providing a tangible representation of the concepts.

• Contributed to the conceptual design and developed digital models for Tower Sky Lounge

PROFESSIONAL

• Produced renderings for clear visualization and presentation of design proposals.

English (fluent) Chinese (native)

Golucci Interior Architects Beijing, China

Dec 2019 - Jan 2020

Intern

Renovation of Western Restaurant, National Grand Theatre | Construction Development Phase

CERTIFICATE

• Conducted thorough construction feasibility analysis to ensure the practicality and efficiency of the renovation plans. This involved assessing structural limitations, material suitability, and design integration

LEED AP BD+C

FUNICULAR STRUCTURE SYSTEM| Lightweight Formwork for Concrete Construction

Shenzhen Hubei 500m Tower | Schematic Design Phase • Assisted in masterplan, preliminary core planning strategy for the tower, GFA for office zone

Language

ACADEMIC ( Computational Design)

Jan 2021 - May 2021

• Conducted index analysis to ensure design efficiency and compliance with relevant standards.

Craft

LEED

ACADEMIC ( Architecture)

with the existing space.

• Credential ID : 0011550170

Ajisen Ramen (JoyCity) | Schematic Design Phase • Involved in conceptual design, providing a clear visual representation of the proposed interior layout

AWARD

ACADEMIC RESEARCH IAAC International Workshop Melbourne, Australia

AEDAS Fellowship

2023

Merit-based Scholarship

• Focused on BIO-material with digital fabrication, including the development of structures

Pressing Matters 11

2021 2022 2023 2021

2nd Place in Digiblast

2021

• Developed discrete assembly models for AI-driven design exploration.

and molds for biomaterial growth

DIGITALFUTURE 2020: Complex City Melbourne, Australia • Combined voxel-based modeling with physics simulation.

July 2019

July 2020

SKILL Rhino - Revit - AutoCAD | Drawing CNC - Laser Cut - 3D Print | Digital Fabrication Python - Grasshopper | Computational Design Technologist Vray - Lumion - D5 - Enscape - Keyshot | Rendering

LAVA Farragut Housing

RESIDENTIAL | FARRAGUT HOUSING 2022. FALL / Individual Professor: Jonas Coersmeier

The design concept for this housing project is centered around the idea of creating a hybrid organization of communal and private spaces. This is achieved through the use of materials and forms that evoke a dialogue between opacit y and transparency, allowing for a balance between privacy and communit y. The result is a dense living environment that provides residents with a sense of communit y and belonging, while also offering a comfor table and func tional living space.

The design process involved a careful consideration of the material cast expression, exploring the ways in which different materials and forms can create a dialogue between opacit y and transparency.

SOCIETY

HOUSING

MO(I)RÉ-SCAPE

provisional, and material, fluctuating between primar y and secondar y systems. Adaptations in material organizations offer alternative ways in which the dweller and visitor consume and experience media.

Shared-Living Configuration

employs origami-inspired techniques for unit aggregation, focusing on creating a seamless blend of private and communal spaces. This approach leverages the interplay of materials and forms between opacit y and transparency, enabling the development of adaptable living configurations.

Apar tment Configuration

MO(I)RÉ-SCAPE

Type A

Type C

Type B

1 Bedroom

3 Bedroom 2 Bathroom

Studio

B C

D E

G A

Unit Cluster Plan

Shared-Living Configuration

B A

C A

D A

E A

F A

G A

Unit Cluster Sec tion

Apar tment Configuration

MO(I)RÉ-SCAPE

AXONOME TRIC CHUNK

MO(I)RÉ-SCAPE

Turbine Hudson Pier

PUBLIC | INFRASTRUCTURE 2023 Teamed with: Haoxing Chen; Kirah Cahill Professor: Danielle Willems

The “ Turbine” project innovatively combines a data center with a water filtration plant into a striking pier structure on the Hudson River in New York Cit y. Unlike traditional infrastructures, it welcomes the public, offering an enlightening experience about the Hudson River ’s pollution. The design includes various passive climate control methods, revolutionizing the conventional data center model. Traditionally, data centers, exemplified by the AT&T Long Lines building in New York , are windowless, secured, and rely on mechanical air conditioning. “ Turbine” disrupts this model by employing the Hudson River as a renewable cooling source. River water is drawn into the facilit y, cooling the ser vers through water-chilled slabs and tanks, then released back into the river, slightly warmer. This method not only innovates ser ver cooling but also contributes to environmental sustainabilit y by purif ying the river water. As the water flows through the facilit y, it undergoes filtration, including natural processes like oyster-based purification, visible to visitors. This journey of water from murky to clear is par t of the educational aspect of “ Turbine,” raising awareness about water pollution and conser vation. Fur thermore, “ Turbine” redefines data center architec ture by being open to the public. While maintaining data securit y, it allows visitors to experience a unique visual spectacle where ser ver lights and water movements create an immersive, under water-like ambiance. This approach makes “ Turbine” a multifaceted projec t , combining data management , environmental stewardship, and public engagement in a resilient and aesthetically vibrant design.

URBAN Chunk Model

PUBLIC

MO(I)RÉ-SCAPE

Elevation

Pie

A mix of precast and in-situ concrete is used to create the lower half ofthe building which comes into contac t with the water. The outermostlayer of concrete ac ts as a waterproof barrier, the nex t inner layer ispar t of the main strucural system, and the floor are made of precastconcrete units which include water circulation of cool water whichdraws heat fromn the ser vers out of the building.

Em r9

pir

San

tat

ita

tio

ria

3 6 VIA

Pie

Cli

1 protec tive, reinforced concrete 2 structural reinforced concrete 3 water- chilled precast concrete flooring 4 drainage mat 5 drain 6 steel substruc ture elevates floor for ser ver maintenance & cooling Foundation Detail

nto

ove

uds

dso

Riv

st A

ive

par

Par

tme

nts

ark

Site Plan

MO(I)RÉ-SCAPE

“ Turbine” will ac tively engage in filtering and cleaning the Hudson River water as it cools the ser vers within the building. Utilizing a blend of chemical and natural processes, the projec t aims to eliminate water pollutants. For instance, some tank s will be rich in oyster species indigenous to the Hudson River, known for their natural water filtration capabilities. Visitors will witness the water purification process firsthand as they move through the facilit y. Tanks near the building’s west side will show heavily polluted river water, while those towards the east will reveal progressively cleaner water. Thus, “ Turbine” provides a unique educational experience for New York ’s citizens, highlighting the perils of water pollution and demonstrating environmental conser vation methods. This innovative infrastruc ture projec t merges a data center with leisure and educational elements, presented in a vibrant and robust design.

MO(I)RÉ-SCAPE

Sec tion

Plan

MO(I)RÉ-SCAPE

9 8 11

15 17 12

Facade Studies

Chunk

7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

triple pane glazing drain insulated metal & plywood qutter per forated aluminum solar shades horizontal mullion ceramic waterproof & insulated panel steel substructure to suppor t cladding structural steel truss USG Paraline Baffles Linear Ceiling ver tical mullion batt insulation rigid insulation water-vapor barrier steel stud to suppor t interior par titions gypsum board aluminum frame for solar shades aluminum suppor t for solar shades bolt

22 11 19

Facade Close-Up

MO(I)RÉ-SCAPE

CONFLOW Callowhill Market

KET

PUBLIC | MARKET

dual

2022. SPRING / Individual

Professor: Jackie Martinez

The stretch and recomposition of the existing “SPINE ”,

ne uo ea ke

the abandonded viaduc t used to be the induc trial spine traveled through the Callowhill. To emphasize the duo charac teristics of the viaduc t , how to reac tivate the area with the industrial background and the current over toke situation by the wildness.

nd ket nd he

With the spirit of this conflow of systematic machinism and the WILD GROW TH, to reinforce the publicit y of the market and provide the water garden and the water supply and drainage, the infrastruc tral solution for the market and the work space.

ure

The Dragon Spine is the proposal of a sustainable future market , a garden and a catalyst of Callowhill.

EXPIMENTAL

PUBLIC

MO(I)RÉ-SCAPE

Wild Grow th On-site

Material E xperiments

Deformation Analysis

Site Wild Grow th Elements

MO(I)RÉ-SCAPE

stastic voronoi grids

distort

distort form small units

wrapped unirts

SPINE - Tectonic System

Structure

Wildness Overtoken System

Public Garden System

Elevator

Communal Park @ Viaduct Lvl

Market Stalls @ Ground Lvl Viaduct

Dialogue between tectonic system and the viaduct

MATERIAL STUDY TRANSL ATION | Dragon Spine

Operational Drawing

MO(I)RÉ-SCAPE

Mar-

MARKE T

MarMar-

E X IS T I N G Mar-

VIADUCT Entry 1500sq

F&B 1500sq

OFFICE

Market 8000sq

Work Space 8000sq

Aquaduct

Aquaduct 8000sq

Aquaduct

Garden 8000sq

Work Space Garden

ENTRANCE WA LKWAY A B OV E LOA D I N G PAT H

GY M

d oo nw o t t Bu

N1 0th

C O -WO S RPAC KING E

V I A D U C T A B OV E

Viaduct

Ground Floor Plan

MO(I)RÉ-SCAPE

Tectonic i i

Component Axon

Component Section

Component Plan

Under Unit Tec tonic (Bar)

Under Unit (Lounge)

MO(I)RÉ-SCAPE

The Filtering City CityX China

CITY PLANNING | ECOLOGY 2020 Teamed with: Ziyue Zhang Professor: Tom Kovac , Charles Anderson, Michele Pasca

The filtering city is the proposal of a sustainable future city, where aim to, filter out the existing environmental concerns and modern urban problems evoked from traditional city typologies. The input factors to the filtering machine include, poor air quality, lack of garbage treatment , insufficient daily impor t , and human habitat-related conditions; and hence the output , a clean, sufficient and efficient city

SYSTEM

ECOCITY

COLLECTOR

MO(I)RÉ-SCAPE

NODE NETWORK

A s a bottom-up urban system, internalising 3 major filtration system, star ting from setting up our proposed collec tors, interconnec t each other and forming nodes, networking and cit y, finally form regional linkage in larger scale.

CITY

Recycled Builing Marerials

GROWTH DIRECTION

Infrastructural City System

LARGER-SCALE AXE

Air Pollution

Provide axial agglomeration of regional linkage Beijing Tianjin Hebei

Bottom-Up Urban Systems

Ecological sustainability Transport services infrastructure Water Filtration

Waste Transformation Smarter Utilities

Ensure availability and sustainable managementof water and sanitation for all Apply recycling technologies

Networked Ecologies Supply Chain & Transportation

AIR FILTER

250m

WATER FILTER WASTE FILTER HABITAT SPACE

MO(I)RÉ-SCAPE

BLOCK CHARACTERISTICS

PROGRAM ADAPTIVE STRUCTURE

Service

HUMAN RATE

Pollution Particle Capture Frame Solar Energy Energy Machanism

+ URBAN GRENNERY - artificial landscape + HUMAN - accessible for walk

SUNLIGHT QUALITY

DISTANCE TO EXISTING TOWN

Human

Semi-closed habitation Residential Communal Indoor Public Space

CONNECTIVITY

Species + SYSTEM INTERGRATION

Upper greenery

+ HUMAN - indoor habitation space

Service

Transportation Resources Transmission BLOCK

[H2]

Species +

Species Harvest & Research Centre

Human

Integration knoting network

Service & Species + Waste Filteration + MANUFACTURE - engine base

Waste Filter

Generated Spatial Network

By setting up grid, with each cell at 250 metres by 250 metres, intending to analyse and approach the assemblies of the overall urban system and subsequently to establish a means by which programs could be adapted.

MO(I)RÉ-SCAPE

Service

Pollution Capture Frame Solar Energy Energy Machanism

Human

Semi-closed habitation Residential Communal Indoor Habitat Space

Service

Transportation Resources Transmission

Species +

Species Harvest & Research Centre

Service

Transportation

Human

Integration knoting network Public space

Species Alternative agricultral site

Service

Bio-waste recycle mechanism

PROGRAM ADAPTIVE STRUCTURE

Service

Pollution Capture Frame Solar Energy Energy Machanism

Human

Semi-closed habitation Residential Communal Indoor Habitat Space

Service

Transportation Resources Transmission

Species +

Service

Waste Filtration Resources Transmission Research Centre

Waste Filter

Generated Spatial Network

Species Harvest & Research Centre

PROGRAM ADAPTIVE STRUCTURE

+ ENERGY - SOLAR ENERGY - solar pannels + URBAN GRENNERY - artificial mountain + HUMAN - accessible for walk + ENERGY - SOLAR ENERGY - solar pannels + URBAN GRENNERY - artificial mountain + HUMAN - accessible for walk

+ HUMAN - indoor space

+ MANUFACTURE - engine base

MO(I)RÉ-SCAPE

Ötzi / Digiblast Climbing PlayGround

INSTALLATION 2021. Summer / Individual Professor: Ezio Blasetti, Danielle Willems

The design process involved a detailed study of karst caves, examining the various forms, tex tures, and patterns that are created through erosion. This information was then used to inform the design of the climbing playground, with the goal of creating a space that is both functional and aesthetically pleasing.

The climbing playground created in this project is a unique and inspiring space for boulder climbing enthusiasts. Inspired by the characteristic and aesthetic qualities of the natural geographical features of karst caves, this climbing playground provides climbers with a space to explore, challenge themselves, and experience the rugged beauty of these environments. The design demonstrates the power of architecture to create spaces that are both functional and aesthetically pleasing, and highlights the impor tance of considering the natural world in the design process.

PUBLIC

INSTALLATION

MO(I)RÉ-SCAPE

Erosion Studies

Renderings

MO(I)RÉ-SCAPE

Synthetic Odyssey Mars Future City

VOXEL-Based Computational Design 2020 Teamed with: Alan Kim; Sally Ling; Wenrui Tan Professor: Alisa Andrasek

Propose a vision for the future of human and inhuman architecture on Mars. Utilizing NASA images of the Mar tian dunes, the project aims to conver t these landscapes into synthetic ones that can be used to study the adaptive grow th of architecture on the red planet . This project takes inspiration from the current experiment of high-density supercities on Ear th, where there is an emphasis on distributed and localized energy systems as well as automated construction and mobility.

The project begins by analyzing NASA images of the Mar tian dunes, which ser ve as the basis for creating synthetic landscapes. These landscapes are then used to study the grow th of architecture, both human and inhuman, in a hypothetical future scenario. The design approach is focused on adaptive grow th, taking into account the unique challenges and oppor tunities presented by the Mar tian environment , and the role of architecture in creating resilient and sustainable solutions for the future.

SYSTEM

VOXEL

MO(I)RÉ-SCAPE

RUGGED

SLOPE PL AIN

RUGGED RIDGE

SPRAWL

ADAP TATION

Geographic Analysis / Terrain AMALGAMATION

SWIRL RIDGE

ADAP TAION

SLOPE VALLE Y SHADOW PL AIN UNDUL ATION PE AK kWh/m2

Mars Landscape Matrix

-------------------------

594< 516 4 39

-------------------------

362 286 < 209

Solar Energy Analysis

Swarm System Grow th

MO(I)RÉ-SCAPE

Human Inhabitation

Tr a n s i t i o n a l

Voxelisation was optimised in the different resolutions according to the site analysis. Higher-resolution was located in the area that humans cannot inhabit . Thus, space has been created for non-human in the finer resolution of voxels with the dimensions of 8x8x8m. Human approachable spaces have lower resolutions to consider the spatial qualities that could be brought up in the component section.

Infrastructural

Human Inhabitation Units Tr a n s i t i o n a l U n i t s Power Storage Units Power Generation Units

MO(I)RÉ-SCAPE

HUMAN INHABITATION UNITS

TRANSITIONAL UNITS

POWER GENERATION UNITS

POWER DISTRIBUTION UNITS

Chunk

Entropy Tense Calton Cultural Complex

Culture / Narrative 2020 Professor: Peter Knight

The Carlton Cultural Complex ’s design draws its inspiration from a collage created during the early conceptual stage. This collage, akin to a fabricated photograph, encapsulates a ‘layered narrative’ that profoundly influences the project ’s emotional essence, material choices, and spatial organization. This narrative is intricately crafted through the superimposition and jux taposition of various timelines and rhy thms, mirroring a tapestry of diverse historical and cultural elements. The complex ’s design thus becomes a reflection of this rich, multi-layered story, conveyed through a thoughtful arrangement of spaces and materials that echo the collage’s depth and complexity.

The transition from abstract concepts of emotion and memory to tangible architectural form is a pivotal element of the Carlton Cultural Complex . This process involves a delicate and deliberate transcription of intangible feelings and recollections into physical space. The challenge lies in capturing the essence of these ephemeral elements and expressing them in a concrete, spatial form. This architectural alchemy, where abstract emotions are transformed into a solid, inhabitable structure, is what sets the Carlton Cultural Complex apar t . It stands not just as a building, but as a spatial narrative that weaves together layers of histor y, memory, and emotion into a cohesive and evocative architectural expression.

SYSTEM

VOXEL

MO(I)RÉ-SCAPE Background

Contents

Pic tureplane

Transit

Eyes

MANIFESTO Museum, an experiential space that celebrating achievements of human being, to reminds of the

Distance

past, the time. A three-dimensional diary book, a still recorder, a local specialty of the region, a wellcooked dish with carefully picked ingredients. Arcadia is not a garden anymore, we all know the Eden is gone, but the treasures will come back, the great memories, like a sushi train It appeals as a stop motion animation, with the series of temporary scenario. In those small spaces one can stepping close, stepping back—sense a roiling ambition to reconceive

Etant Donnes - Marcel Duchamp

not just the past, but how we access it, and why: what we owe the dead, and ourselves, when we try to picture what is lost.

M E M O R I E S A

MANIFESTO

S P

O R

R C

“History, without a trim.” (is that possible ?)

I R R AT I O N A L I

Etant Donnes - Marcel Duchamp

3 Layers of Narrative

Consider history as an overarching narrative or slogan, or think it as a variety of aspects related to individual struggles in engagement with different conditions and issues. If architectures could present as different layers to convey diverse memories? Treat architecture as a container that parallel events could coexist and flow freely without chaos, but a history with multi-dimensions then could be unwrapped.

Conceptural A xonomatric Drawing

Projection Room Slide to Main Exhibition Room Main Exhibition Room Escalator Core

10 9 8

Garden Reception

2 Elevated Corridor to Heritage Showroom

3 Long stair in Ruins

Third Floor

Library

Heritage Showroom Gathering Space 5

Sculpture Showroom

ROOF TOP

OFFICCE GALLERY SPACE

Second Floor MULTI-MEDIA L AB (Reflected Ceiling Installation) Garden Reception

SLIDE

Office

PROJECTION ROOM

Cloak

HERITAGE SHOWROOM

GARDEN

Ground Floor Plan

Sec tional Drawing

Multimedia Lab Exhibition Rooms Escalator Core

Multimedia Lab

10 Projection Room

For th Floor

8 Hidden Stair from Tech Lab to Projection Room

Escalator Core

5 Sculpture Showroom

9 Reflected Slide

6 Gathering Space

LAYERING CHAOTIC

FUNICULAR STRUCTURE SYSTEM Lightweight Formwork for Concrete Construction

Advanced Structure Design / Computational Fabrication 2023 Team: Haoxing Chen, Ruiqi Han Professor: Masoud Akbarzadeh

The flexibility of 3D-printing allows to adapt to non-standard boundary conditions and design loads, using material efficiently only where it is needed. Such floor systems would thus have the potential to be significantly lighter compared to traditional, 25-30cm-thick concrete floor slabs used in the construction of framed buildings. This directly lowers the requirements for the foundations (often a dominant resource and cost factor), but also enables lightweight building ex tensions and a reduction of total floor height , offering possibilities to address, among other issues, the ver tical densification of cities. The use of 3D-printing is par ticularly suited for such compressiondominant systems, which take full advantage of the compression strength of 3D-printed components, but do not rely on their relatively low tensile and shear capacity. Taking advantage of Additive Formworking techniques and computational 3D Graphic Statics form-finding method, 3D Polyhedral Structure – Additive Formwork challenges the use of Ultra High Per formance Fiber Reinforced Concrete (UHPFRC) by proposing a structurally efficient and flexible construction system composed of discretized complex elements and moment-based double cur vature Floor modules.

COMPUTATION

STRUCTURE

MO(I)RÉ-SCAPE

0.4

1 Shortest edge

Force Diagram

Form Diagram

Node-Edges Mapping

Edge-Faces Mapping

Find the Star ting points

Convex Hull

Edge Peripherial Points Mapping

Delete Dulplicated faces

Find the E x trusion Distance

E x trude from the mesh

Grasshopper Script

Find the Peripherial Points for Convex Hull

To SubD

P y thon Code Par t

MO(I)RÉ-SCAPE

Safety Factor

Strain

CNC WOOD PANEL S

Python Deployable Structure

Deployable Structure Design 2022 Teamed with: Shengnan Gao; Suwei Wang Professor: Mohamad Alkhayer

A thorough mathematical analysis was conducted to determine the optimal length of the geometry guide lines. This study took into account various factors such as structural stability, deployment efficiency. The results of this study were used to inform the design of the deployable structure, ensuring that it is both functional and aesthetically pleasing.

The deployable structure designed in this project utilizes a pentagon configuration and a double-layer system to provide a reliable and functional space solution. The mathematical study of pentagon geometr y was crucial in maximizing the deployment tendency, and the end result is a structure that is easy to deploy and provides ample stability. The design is a testament to the impor tance of considering both form and function in architectural design.

STRUCTURAL

DEPLOYABLE

MO(I)RÉ-SCAPE

outside sticks

connector sticks

inside sticks

Connec tor Stick s Diagrams

A A

126.9 o 126.9 o

B B

171.9 o 171.9 o C

143.1 o 143.1 o C 171.9 o 171.9 o

126.9 o 126.9 o

inside sticks

171.9 o 171.9 o

outside sticks

Joints Diagrams 171.9 o 171.9 o

FOFA Fuction of Fashion in Architecture

Fashion Design 2022 Professor: Danielle Willems

Sur vey the histor y of fashion in parallel to architecture star ting from Ancient Civilization to Present . The focus will be on the relevance of garment design, methods and techniques and their potential to redefine current architectural elements such as envelope, structure, seams, tectonics and details. The functional, tectonic and structural proper ties of garment design have been explored as generative platforms to conceptualize ver y specific architectural elements. One of the challenges is the reinvention of a means of notations and techniques that document the forces and the production of difference in the spatial manifestations of the generative systems.

FASHION

TECTONIC

MO(I)RÉ-SCAPE

Garment Model for 3D Print

Close-up Render I

Close-up Render II

MO(I)RÉ-SCAPE

Close-up Pic ture I

Close-up Pic ture II

SKILL

SKILLSET

Rhino - Revit - AutoCAD | Drawing CNC - Laser Cut - 3D Print | Digital Fabrication Python - Grasshopper | Computational Design Technologist Vray - Lumion - D5 - Enscape - Keyshot | Rendering

MO(I)RÉ-SCAPE SKILLSET

A03 01

OFFICE

WET AREA DETAIL NTS NTS

OFFICE

GROUND FLOORGROUND CAR PARK FLOOR CAR PARK

BASEMENT CARBASEMENT PARK CAR PARK

A01 01

FULL PART SECTION NTS

A03 02

BALCONY DETAIL NTS

MO(I)RÉ-SCAPE SKILLSET

male

female lobby cleaner

D EA duc

exhaust duct

disabled wc & sh

NTS

refrig.

kitchen c/d

121.1 m²

switchboard

commons

OA duc

PROFESSIONAL

SELECTED PROFESSIONAL WORKS

SELECTED PROFESSIONAL WORKS

URBAN RENEWALUNIT OF HUBEI COORDINATED AREA MAD Architects

Tower | Urban Renewal | Concept Design 2021 Contribution: • Contributed to the conceptual design and developed digital models for Tower Sky Lounge • Assisted in masterplan, preliminary core planning strategy for the tower, GFA for office zone • Produced renderings for clear visualization and presentation of design proposals.

+297.0M

+295.5M +292.5M

+291.0M +288.0M

As the city of Shenzhen developed and grew, a multitude of faceless glass towers multiplied and replicated across the city. Based on principles of economy and uniformity, the city grew in density but lacked in architectural character and placemaking. Hubei Tower has the oppor tunity to elevate the architectural scene of the Luohu District , and to create an iconic landmark for the city and a unique public space for its residents. Instead of another unforgettable boxy glass tower, we propose that Hubei Tower should be an organic shaped tower with sinuous lines inspired by nature. Through the monotony of the surrounding residential and commercial towers, the Hubei Tower - the Shenzhen Tree - will emerge as a beacon of hope for the future. 3M

7.5M

SKY LOBBY 2 - 61/62F +288.0/292.5 M

MO(I)RÉ-SCAPE 中央区地标

CENTRAL DISTRICT LANDMARKS

主塔楼

Main Tower

办公群房

Office Podium

艺术中心 Culture Center 500.00

42.00 61.00

+204.0M

+297.0M

+202.5M

城市核

Urban Core

+295.5M 3M

+199.5M

7.5M

+198.0M

+292.5M

7.5M

+291.0M 3M

+195.0M

+288.0M

怀月张公祠

Heritage Villa

中央公园

Central Oval Park

下沉商业古村正门

Sunken Plaza

Village Gate

Site Planning Struc ture

2.2 规划结构与核心策略 PLANNING STRUCTURE AND CORE STRATEGY

核心筒规划分析图

SKY LOBBY 1 - 41/42F +195.0/199.5 M

CORE PLANNING STRATEGY OFFICE GUEST LIFT

ICE GUEST LIFT

~OP1-8 ~OP2-8

SELECTED PROFESSIONAL WORKS

OP3-1~OP3-8 OP4-1~OP4-8

OP5-1~OP5-6 OP6-1~OP6-6

OP1-1~OP1-8 OP2-1~OP2-8

OBSERVATION DECK

OP3-1~OP3-8 OP4-1~OP4-8

SKY LOBBY 2 - 61/62F +288.0/292.5 M

OP5-1~OP5-6 OP6-1~OP6-6

OFFICE TRANSFER LIFT

ICE TRANSFER LIFT

OX1-1~OX1-6 OX2-1~OX2-6

~OX1-6 ~OX2-6

FIRE AND GOODS LIFT

E AND GOODS LIFT

OS1~OS2 OS3~OS4

OS2 OS4

ERVATION DECK PUBLIC LIFT

OBSERVATION DECK PUBLIC LIFT

OB2

OB1~OB2

HIGH ZONE

LIFT

VIP LIFT

VIP2

VIP1~VIP2

BASEMENT LIFT +204.0M

+297.0M

SKYLOBBY +202.5M +199.5M

+295.5M 3M 7.5M

+292.5M

3M 7.5M

MID ZONE +198.0M +195.0M

SKYLOBBY

+291.0M 3M

+288.0M

LOW ZONE

SKY LOBBY 1 - 41/42F +195.0/199.5 M

3.4 建筑平面图 TOWER FLOOR PLANS

Core Planning Strategy

SKY LOBBY 2 - 61/62F +288.0/292.5 M

Sky Lobby

MO(I)RÉ-SCAPE SELECTED PROFESSIONAL WORKS

Sec tion

MO(I)RÉ-SCAPE SELECTED PROFESSIONAL WORKS

塔楼标准层平面

TOWER TYPICAL PLAN LOW ZONE

Tower Typical Plan Low Zone (Office)

MO(I)RÉ-SCAPE SELECTED PROFESSIONAL WORKS

产品组合产品组合

PRODUCT PRODUCT PORTFOLIO PORTFOLIO 9.9m

15.1m

9.9m

产品组合产品组合

PRODUCT PRODUCT PORTFOLIO PORTFOLIO 9.9m

PRODUCT PORTFOLIO

ZONE 9-10 ZONE 9-10 2.078 m2 1.337 m² 64.3%

FLOOR 85 - 399m FLOOR 85 - 399m GFA/FLOOR GFA/FLOOR 2.078 m2 NFA/FLOOR NFA/FLOOR 1.337 m² EFFICIENCY EFFICIENCY 64.3%

2.078 m2 1.337 m² 64.3%

ZONE 9-10 ZONE 9-10

15.1m

9.9m

ZONE 7-8ZONE 7-8

FLOOR 85 - 399m FLOOR 85 - 399m GFA/FLOOR GFA/FLOOR 2.078 m2 NFA/FLOOR NFA/FLOOR 1.337 m² EFFICIENCY EFFICIENCY 64.3%

产品组合

15.1m

9.9m

FLOOR 65 - 306m FLOOR 65 - 306m 2.734 m2 GFA/FLOOR GFA/FLOOR 2.734 m2 NFA/FLOOR NFA/FLOOR 1.993 m² 1.993 m² EFFICIENCY EFFICIENCY 72.8% 72.8%

ZONE 7-8ZONE 7-8

FLOOR 65 - 306m FLOOR 65 - 306m GFA/FLOOR GFA/FLOOR 2.734 m2 ZONE 9-10 NFA/FLOOR NFA/FLOOR 1.993 m² FLOOR 85 - 399m EFFICIENCY EFFICIENCY 72.8% GFA/FLOOR NFA/FLOOR EFFICIENCY18.8m 13.0m 18.8m

16.9m

13.0m 16.9m PRODUCT PORTFOLIO 13.0m

13.0m

2.734 m2 1.993 m² 72.8% 2.078 m2 1.337 m² 64.3%

ZONE 7-8

15.3m

FLOOR 65 - 306m GFA/FLOOR 2.734 m2 NFA/FLOOR 1.993 m² EFFICIENCY 72.8% 20.3m 20.3m

15.3m

20.3m

17.2m

20.3m

17.2m

产品组合

ZONE 6 ZONE 6

15.1m

9.9m

18.8m

ZONE 5 ZONE 5

FLOOR 55 - 259.5m FLOOR 55 - 259.5m GFA/FLOOR GFA/FLOOR 3.308 m2 3.308 m2 NFA/FLOOR NFA/FLOOR 1.911 m² 1.911 m² EFFICIENCY EFFICIENCY 57.7% 57.7%

ZONE 6 ZONE 6

15.1m

FLOOR 55 - 259.5m FLOOR 55 - 259.5m 3.308 m2 GFA/FLOOR GFA/FLOOR 3.308 m2 NFA/FLOOR NFA/FLOOR 1.911 m² 1.911 m² EFFICIENCY EFFICIENCY 57.7% 57.7%

18.8m

ZONE 4 ZONE 4

产品组合产品组合

FLOOR 45 - 213m FLOOR 45 - 213m FLOOR 35 - 166.5m FLOOR 35 - 166.5m 13.0m 18.8m 16.9m GFA/FLOOR GFA/FLOOR 4.025 m2 4.025 m2 GFA/FLOOR GFA/FLOOR 4.660 m2 4.660 m2 NFA/FLOOR NFA/FLOOR 2.629 m² PRODUCT 2.629 m² PRODUCT NFA/FLOOR NFA/FLOOR 3.263 m² 3.263 m² PORTFOLIO PORTFOLIO EFFICIENCY EFFICIENCY 65.3% 65.3% EFFICIENCY EFFICIENCY 70.0% 70.0%

ZONE 5 ZONE 5

ZONE 4 ZONE 4

FLOOR 45 - 213m FLOOR 45 - 213m 2 GFA/FLOOR ZONE GFA/FLOOR 4.025 4.025 m2 6 m NFA/FLOOR NFA/FLOOR 2.629 m² 2.629 m² FLOOR 55 - 259.5m EFFICIENCY EFFICIENCY 65.3% 65.3% GFA/FLOOR 3.308 m2 NFA/FLOOR 1.911 m² EFFICIENCY 57.7%

FLOOR 35 - 166.5m FLOOR 35 - 166.5m 2 4.660 m2 GFA/FLOOR GFA/FLOOR ZONE4.660 5 m NFA/FLOOR NFA/FLOOR 3.263 m² 3.263 m² FLOOR 45 - 213m EFFICIENCY EFFICIENCY 70.0% 70.0% 2 GFA/FLOOR 4.025 m NFA/FLOOR 2.629 m² EFFICIENCY 65.3%

ZONE 4

20.3m 20.3m ZONE 7-8 ZONE 7-8

17.1m

18.9m

15.6m

17.4m

14.4m

- 399m OR 78 m2 R m² 37 CY 3%

FLOOR 65 - 306m FLOOR 65 - 306m 2.734 m2 GFA/FLOOR GFA/FLOOR 2.734 m2 1.993 m² NFA/FLOOR NFA/FLOOR 1.993 m² EFFICIENCY 72.8% EFFICIENCY20.3m 72.8% 20.3m

17.1m

18.9m

15.6m

17.4m

14.4m

ZONE 3 ZONE 3

16.9m

ZONE 2 ZONE 2

15.3m

FLOOR 25 -20.3m 120m FLOOR 25 - 120m GFA/FLOOR GFA/FLOOR 4.922 m2 NFA/FLOOR NFA/FLOOR 3.526 m² EFFICIENCY EFFICIENCY 71.6%

4.922 m2 3.526 m² 71.6%

13.0m

13.0m FLOOR 25 -18.8m 120m FLOOR 25 - 18.8m 120m GFA/FLOOR 4.922 m2 ZONE 4 GFA/FLOOR NFA/FLOOR NFA/FLOOR 3.526 m² FLOOR 35 - 166.5m EFFICIENCY 71.6% GFA/FLOOR EFFICIENCY 4.660 m2

4.922 m 3.526 m² 71.6%

25 m2 29 m² 63%

ZONE 3 ZONE 3

FLOOR 15 - 73.5m FLOOR 15 -20.3m 73.5m GFA/FLOOR GFA/FLOOR 4.793 m2 4.793 m2 NFA/FLOOR NFA/FLOOR 3.396 m² 3.396 m² EFFICIENCY EFFICIENCY 70.8% 70.8%

15.3m

15.3m FLOOR 15 20.3m - 73.5m FLOOR 15 -20.3m 73.5m GFA/FLOOR GFA/FLOOR 4.793 m2 4.793 m2 ZONE 3 NFA/FLOOR NFA/FLOOR 3.396 m² 3.396 m² FLOOR 25 - 120m EFFICIENCY EFFICIENCY 70.8% 70.8% GFA/FLOOR 4.922 m2 NFA/FLOOR 3.526 m² ZONE 4 ZONE 4 EFFICIENCY 71.6% FLOOR 35 - 166.5m FLOOR 35 - 166.5m 2 4.660 m2 GFA/FLOOR GFA/FLOOR 4.660 m 3.263 m² NFA/FLOOR NFA/FLOOR 3.263 m² 70.0% EFFICIENCY EFFICIENCY 70.0%

NFA/FLOOR 3.263 m² EFFICIENCY 5 ZONE 5 ZONE70.0%

- 259.5m OR 3.308 m2 08 m2 R m² 1.911 m² 11 CY 57.7% %

FLOOR 45 - 213m FLOOR 45 - 213m GFA/FLOOR GFA/FLOOR 4.025 m2 NFA/FLOOR NFA/FLOOR 2.629 m² EFFICIENCY EFFICIENCY 65.3%

20.3m

17.1m

4.025 m2 2.629 m² 65.3%

17.4m

15.6m

17.1m

18.9m

ZONE 1 ZONE 1

17.2m

ZONE 2 ZONE 2

15.6m

17.4m

14.4m

ZONE 1

93 m 96 m² 38% 2

- 120m OR 22 m2 R m² 26 CY 6%

4.922 m2 3.526 m² 71.6%

17.2m

FLOOR 7 - 36m FLOOR 7 - 36m 18.9m 17.1m GFA/FLOOR GFA/FLOOR 4.508 m2 NFA/FLOOR NFA/FLOOR 2.951 m² EFFICIENCY EFFICIENCY 69.0%

4.508 m2 2.951 m² 69.0%

17.2m FLOOR 7 - 36m FLOOR 7 - 36m 2 GFA/FLOOR GFA/FLOOR ZONE4.508 2 m NFA/FLOOR NFA/FLOOR 2.951 m² FLOOR 15 - 73.5m EFFICIENCY EFFICIENCY 69.0% GFA/FLOOR NFA/FLOOR EFFICIENCY

4.508 m2 2.951 m² 69.0% 2 4.793 m 3.396 m² 70.8%

ZONE 1 ZONE 1

14.4m

18.9m

17.2m

FLOOR 35 - 166.5m GFA/FLOOR 4.660 m2 NFA/FLOOR 3.263 m² EFFICIENCY 70.0%

34 m2 93 m² 8% 9-10 2.078 m2 1.337 m² 64.3%

20.3m

15.3m

FLOOR 7 - 36m GFA/FLOOR 4.508 m2 NFA/FLOOR 2.951 m² EFFICIENCY 2 ZONE 2 ZONE69.0%

ZONE 1 ZONE 1

FLOOR 15 - 73.5m FLOOR 15 - 73.5m 4.793 m2 GFA/FLOOR GFA/FLOOR 4.793 m2 3.396 m² NFA/FLOOR NFA/FLOOR 3.396 m² 70.8% EFFICIENCY EFFICIENCY 70.8%

FLOOR 7 - 36m FLOOR 7 - 36m GFA/FLOOR GFA/FLOOR 4.508 m2 NFA/FLOOR NFA/FLOOR 2.951 m² EFFICIENCY EFFICIENCY 69.0%

4.508 m2 2.951 m² 69.0%

14.4m

17.4m

15.6m

14.4m

ZONE 1 FLOOR 7 - 36m GFA/FLOOR NFA/FLOOR EFFICIENCY

4.508 m2 2.951 m² 69.0%

SELECTED PROFESSIONAL WORKS

Zhuhai Cultural Arts Center MAD Architects Urban Renewal | Concept Design 2021 Contribution: • Engaged in conceptual design, shaping the initial vision and aesthetic of the project. • Developed both digital and physical models, providing a tangible representation of the concepts. • Conducted index analysis to ensure design efficiency and compliance with relevant standards.

+297.0M

+295.5M +292.5M

+291.0M +288.0M

Following China’s rapid urbanization and emergence of new districts and public buildings, MAD Architects, led by Ma Yansong, has won an international competition to design the new Zhuhai Cultural Ar ts Center. Their proposal, titled “ Village Under the Dome”, will be situated within China’s Pearl River Delta in the Yinkeng Village, a historic town that has recently been demolished and relocated by the municipality to make room for new projects. Instead of rebuilding over the demolition, their design offered a conser vation and renewal of the village, creating a new function of the original site. 3M

7.5M

To conduct field research of the area, we looked into the remaining traces of the centuries-old village, and conversed with residents who refused to leave their town. The citizens’ strong sense of emotion and memor y, and the remains of the town’s urban fabric inspired the architects to be the only firm to propose a design that goes against the demolition and preser ve the village’s memor y. The new civic center will be a human-centered project that restores the LOBBY 2 - 61/62F publicSKY life and promotes respect and acknowledgement of the town. +288.0/292.5 M 3M

MO(I)RÉ-SCAPE SELECTED PROFESSIONAL WORKS

MODEL A - URBAN PLANNING SCALE - 1:500 大尺度城市模型 1：500 尺寸与范围 [PARALLEL VIEW] Performance Center Cultural Training Area Office Area Exchange and Exhibition Area Reading Area Art and Creativity Area Art Appreciation Area Art Exchange Area MEP Transportation Fusion Construction

100mm

3500

Site Planning Struc ture

E xisting Condition Analysis

DIMENSION 3000*2000*100 Physical Model Study

Physical Model

SELECTED PROFESSIONAL WORKS

Roof Struc ture Deformation and Stress

Sustainabilit y Strategy

SELECTED PROFESSIONAL WORKS

Luzhou Laojiao Chengdu Headquarters Aedas Corporate | Schemetic Design Phase 2023 Contribution: • Actively contributed in conceptualizing innovative design schemes. Contributed to the project’s achievement as a finalist in a competitive architectural selection process. • Designed and refined facade schemes, adding aesthetic and functional value to the project. • Prepared comprehensive architectural drawings, including sections and plans, ensuring clarity.

The project is located on the Nor th side of the Chengdu City and overlooks the vast greener y of urban Corridor to its East . Although high-density commercial buildings surround the project , the development is designed with a circular green space system to ensure that the development is enveloped with a natural landscape. Dr. Andy Wen’s unique approach to the project ’s complex tex ture lends the design a rich and contemporary appeal. The public space is redefined with elevated greenery and a sky garden to create natural synergy between the architecture, the city and its people. The project integrates Grade-A offices, a city terminal and lifestyle shopping centre, food and beverage, enter tainment and various other functions. Office and apar tments are located in the twin towers are conveniently located and accessible through the podiums and underground public transpor tations.

MO(I)RÉ-SCAPE SELECTED PROFESSIONAL WORKS

Low-rise Elevator *4 Mid-low-rise Elevator *4 Mid-high-rise Elevator *4 High-rise Elevator *4 VIP Elevator *2 Shuttle Elevator *1 Freight Elevator *2

180m Tower

Hotel Elevator *3 Apartment Elevator *3 Service Elevator *2 Lounge Elevator *2

100m Tower

OFFICE

TERRACE COMMERCIAL PODIUM 1F OFFICE LOBBY CARRIAGE WAY COMMERCIAL

VISUAL CORRIDOR

METRO UN-PAID AREA

METRO PAID AREA METRO LINE16 Honglian STA.

ACC E

METRO INTERCHANGE LVL LINE#19 PLATFORM METRO MEP LVL LINE#16 PLATFORM

TO T

RTH

ERN

LOT

METRO LINE19 Honglian STA.

SELECTED PROFESSIONAL WORKS

Vertical line ultra-white glass transparent curtain wall

Vertical staggered sunshade facade

Thank you for taking time reading my folio :)

ruiqi_han@outlook.com London SW8 2DU, UK https://www.linkedin.com/in/ruiqi-han-rikiii77/