Portfolio

ARCHITECTURE

PORTFOLIO

SHENG LI

Selected Works 2014 - 2020

SHENG LI Location 1603 E Florida Ave. Urbana, 61802, IL Phone +1 (217) - 979 - 8163 Email shengli3@illinois.edu lishengparuru@gmail.com 495889339@qq.com Online Portfolio https://issuu.com/home/published/sheng_li_portfolio_3 Personal Website https://www.shengdesigns.com/

Education

Experience

University of Illinois at Urbana-Champaign Master of Architecture

Illinois, United States

China University of Mining and Technology Bachelor of Architecture

Jiangsu, China

ZXD_Architects (Beijing Institute of Architectural Design) Architectural Intern

Beijing, China

Aug 2018 - May 2021

Sep 2013 - May 2018

May 2019-Aug 2019

Selected Project: Opening ceremony Venue of Beijing Design Week Concept design/Design Development Artistic installation of Beijing Design Week Research/Concept design Crystal CG company office design Research/Concept design/Schematic design DABEI Hotel renewal design Schematic design SHIJIAZHUANG CBD Planning Exhibition Hall Research/Concept design/Schematic design

MAD Architects Architectural Intern

Beijing, China Jul 2017-Dec 2017

Selected Project: Changsha Highrise building design Research/Concept design/Design Development ROYAL Residential design Design Development YueCheng Courtyard Kindergarten Schematic design/Interior design/Design Development China Philharmonic Concert Hall Schematic design/Interior design Shenzhen Complex residential design compitition Schematic design

Professional Practice

Archievements

Skills

Surveying and Mapping Practice at Fuping County Site Practice Highrise Building environment perfomance research Sketch Practice at Linzhou, Anyang City Chromatics Practice at Zhaji Village, Xuancheng City

Hebei, China Jiangsu, China Jiangsu, China Henan, China Anhui, China

2020 Fall Earl Prize. As Director of the Illinois School of Architecture Site Temple International architecture ideas competition YAC Tree house design competition 120 Hours Compitition Xuzhou Performance Art Competition

Honorable Mentions

Basic • AutoCAD • Rhinoceros 3D • Indesign • Lightroom • Lumion • Vray for Rhino

Other • Modeling • Drafting • 3D Printing • Laser Cutting

• Vray for Sketchup • Grasshopper • T-arch • Sketch-up • Revit • Maxwell • KeyShot

• Echotect • OpenStudio • WUFI • 3D MAX

...

...

PARKLAND COLLEGE INSTITUTE OF AVIATION: AVIATION MAINTENANCE TECHNOLOGY (AMT)

THE ORIGIN : 2.0 GREAT LAKES WATER RESEARCH INSTITUTE/AQUARIUM

FOREST PEARL TREE HOUSE MODULE DESIGN

LOST TOWER MEDITATION SPACE ON WAR RELICS

STEEL MEMORY US STEEL RAILWAY LANDSCAPE IN CHICAGO

THE TRANSFORMATION ARCHITECTURAL DESIGN OF THE ART EXHIBITION CENTER

THE BUBBLES RECONSTRUCTION DESIGN OF THE BOILER ROOM IN CUMT

THE MOUNTAINS DESIGN OF HAN-DYNASTY PORTRAYAL STONE MUSEUM

GARDEN FOR CHILDREN DESIGN OF ZHANGZHUANG TOWN CENTRAL PRIMARY SCHAOOL

THE CABINS DESIGN OF COLLAPSIBLE AIR DROP EMERGENCY RELIEF DEVICE

THE WATERFULL HIGH-RISE BUILDING COMERCIAL COMPLEX IN XI’AN ROAD

THE LIGHT OF CITY CULTURE Sydney Central Railway Station Renovation Plan-Urban Cultural Education Exhibition Space Design

PROMISED LAND 120 HOURS COMPITITION PROJECT

PEAK FOREST THE DIHAO COMMUNITY DESIGN IN XUZHOU, JIANGSU

BACK TO HOMETOWN DESIGN OF COMMUNITY SERVICE CENTER IN QUANTAI MINING AREA

OTHER INTERN PROJECTS WORK AT MAD ARCHITECT & ZXD ARCHITECT

8 26 42 52 58 66 78 88 96 106 112 122 122 123 123 124

Architecture is an efficient and green environment created by technical means.

01 Honorable Mentions 2020 Fall Earl Prize. As Director of the Illinois School of Architecture

PARKLAND COLLEGE INSTITUTE OF AVIATION: AVIATION MAINTENANCE TECHNOLOGY (AMT) Academic Studio Project (2020 Fall) Group Works (Work with WESLEY GONZALEZ) Site: Champaign, Illinois, NA The New “Aviation Maintenance Technology” is a facility that strives to promote a collaborative environment of international and local students that pursue aviation studies. Our goal is to enhance communication and interaction between the students and faculty while promoting aviation maintenance technologies. We achieve this by creating a transversal passage from one side of the building to another, creating horizontal and vertical connections. The “notched” curved roof blends and unifies the diversity of heights that the institute holds. The New AMT promotes quality spaces and comfort through different spatial, aesthetic, and sustainable design approaches.

SITE PLAN

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Fenced Boundary Site Delimitation Main Access to Site Vehicular Access to Site

ACCESIBILITY AND SITE BOUNDARY 1 2 3

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A ir p o r t A p ro n F l ight s t a r S t at i o n I n s t it u t e o f Av i at i o n at Park l a n d C o l l ege Wil l a rd F i re D e p a r t m e n t I n s t it u t e’s Ha nga r Pol ice T ra i n i ng S cho o l P r ivat e Haga rs Wa reho u s e s Fenced Boundary Site Fe n Delimitation ced B o u d n a r y Main Access S it e D el i m i tto atSite ion Vehicular Access to Site

A ir p o r t A p ro n F l ight s t a r S t at i o n I n s t it u t e o f Av i at i o n at Park l a n d C o l l ege Wil l a rd F i re D e p a r t m e n t I n s t it u t e’s Ha nga r Pol ice T ra i n i ng S cho o l P r ivat e Haga rs Wa reho u s e s

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Fe n ced B o u d n a r y S it e D el i m i t at i o n

SITE PROGRAM & EXISTING BOUNDARY H

Site image (East of site)

Site image (North of site)

Site image (South of site)

PLAN DESIGN STRATERGY

Following the function

Concept image

The project’s main strategy is to be efficient and convenient to use, and only the large, iconic roof is kept in shape. Massing with different functions also follows the circulation of technical education and aircraft maintenance, with hangar and affiliated warehouses and maintenance on the north side and classrooms and office space on the south side. Simultaneously, between the classroom and office space is an atrium that runs through the whole building, which can be used as a simple communication space, rest space or exhibition space, etc. The strategy of the site design is the logistics and truck unloading area on the north side, the temporary aircraft parking area and temporary outdoor maintenance area on the west side, the parking lot on the east side, the green landscape, and the main road to the college on the north side.

CONCEPT GENERATION

MAIN PROGRAM ARRANGEMENT

PUSH BACK & PROGRAM HEIGHTS

PASSAGEWAY AND CONNECTION

BENDING & BLENDING

NOTCHING THE “FIFTH FACADE”

A NEW INSTITUTE OF AVIATION

EXTERIOR CIRCULATION

PEDESTRIAN PEDESTRIAN PEDESTRIAN CIRCULATION CIRCULATION CIRCULATION

VEHICULAR VEHICULAR VEHICULAR CIRCULATION CIRCULATION CIRCULATION

SERVICE SERVICE CIRCULATION SERVICE CIRCULATION CIRCULATION

PEDESTRIAN PEDESTRIAN CIRCULATION CIRCULATION PEDESTRIAN CIRCULATION

VEHICULAR VEHICULAR CIRCULATION CIRCULATION VEHICULAR CIRCULATION

SERVICE SERVICE CIRCULATION CIRCULATION SERVICE CIRCULATION

From Institute’s From Institute’s From Parking Institute’s Parking Parking

FacultyFaculty and Visitors Faculty and Visitors and Visitors

Loading andLoading Unloading Loading and Unloading andStation Unloading Station Station

From Fligstar From Fligstar From & Willard Fligstar & Willard Fire & Department Willard Fire Department Fire Department

General General Complex General Complex Loop Complex Loop Loop

Building Maintenance (Mechanical) Building Building Maintenance Maintenance (Mechanical) (Mechanical)

From Institute’s Parkland From Institute’s Parkland From College Parkland College - Institute College - Institute of -Aviation Institute of Aviation of Aviation From From Institute’s Parking Parking From Parking

Access to additional Access to additional to airport additional airport facilities airport facilities facilities Faculty Faculty and Visitors and Visitors FacultyAccess and Visitors

Access toand Airport Apron Access Access toand Airport toand Airport Apron ApronStation Loading Loading Unloading Unloading Station Loading Unloading Station

From Fligstar From Fligstar & Willard & Department Willard Fire Department Fire Department From Fligstar & Willard Fire

General General Complex Complex Loop Loop General Complex Loop

Access Control Checkpoints Access Access Control Control Checkpoints Checkpoints Building Building Maintenance Maintenance (Mechanical) (Mechanical) Building Maintenance (Mechanical)

From Parkland From Parkland College College - Institute Institute of Aviation of Aviation From Parkland College - Institute of -Aviation

Access to additional to additional airport airport facilities facilities AccessAccess to additional airport facilities

Access to Airport to Airport ApronApron AccessAccess to Airport Apron

PEDESTRIAN CIRCULATION

VEHICULAR CIRCULATION

SERVICE CIRCULATION

Access Control Control Checkpoints Checkpoints AccessAccess Control Checkpoints

BUILDING OCCUPANCY - Occupancy classification: Institutional: Classroom and Offices - E Industrial: Hangar and Shops - F-1 - Sprinkler Systems: Yes. - Type of Construction: IIA Non-Combustible - NFPA Group S-1: Aircraft related occupancies. - Fire resistance mitigations: Two mean of egress in second floor; Hangar fire suppresion system; Two-hour fire resistance wall assembly in hangar. - Total Building Square Footage: - Building lowest elevation: 29.5 ft - Building heighest elevation: 49.t ft Basement: Yes, 13 ft height.

ARCHITECTURAL PROGRAMMING - Aircraft Hangar = 15,715 SF - Workshops (4) 1= 6,070 SF - Hangar Storages (4) = 6,315 SF - Reception Area = 525 SF - Locker Rooms (2) = 450 SF - Classrooms (4) = 3,000 SF - Cafe = 450 SF - Offices (2) = 2,850 SF - Conference Rooms (2) = 620 SF

- Design Lab = 1,450 SF - Library = 1,480 SF - Atrium & Study Area = 3,720 SF - Temporary Exhibition = 1,115 SF - MER (3) = 11,925 SF - Storages (total) = 2,400 SF

INTERIOR CIRCULATION

Ground Floor Circulation

Administrative Employees/Staff Students Workshop Operators Vertical Circulation Means of Egress

Second Floor Circulation

Administrative Employees/Staff Administrative Employees/Staff Students Students Workshop Operators Workshop Operators Vertical Circulation Vertical Circulation Means of Egress

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Hangar Workshop Hangar Storages Reception Area Loading Area Locker Rooms Bathrooms Electric Room Classrooms Atrium Exhibition Cafe Offices Conference Rooms Storages Parking Area

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Design Lab Library Auxiliar Offices Reading/Study Area Retail Office Conference Room Library Archive Bathrooms Storages

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First Floor Plan

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Masterplan

ELEVATION

45ft

32ft

14ft

West Elevation

45ft 32ft

14ft

North elevation

STRUCTURE DESIGN Cantilever suspension, braced with tensors and rigidized the structure. 15 ft catilever span.

Steel frame system for institutional facility with girders and beams. Curved roof is made by rectilinear steel beams.

Chevron cocentric steel bracings

Hangar independent structure Girders and Trusses Columns Lateral Load Resistance Members

Model Image

HANGAR STRUCTURAL SYSTEM 7 FT-TRUSSES @ 25 ft

MAIN STRUCTURAL COMPONENTS (GRAVITY + LATERAL)

SECTION DRAWING

A-A Section

B-B Section

C-C Section

HVAC SYSTEM DESIGN The HVAC system’s design is the main point of this project. The strategy of HVAC design was from the analysis of the site climate environment. Simultaneously, because this project is a composite building of Hangar and education, the corresponding HVAC zone division should be carried out. It is separated into four parts: central atrium, classrooms, offices, and Hangar. The classrooms and office zones are centrally adjusted for temperature through AHUs. Additional VAV Units are added to the classroom and office areas to ensure that users can individually adjust this column’s temperature. The central atrium has a different design: AHU’s cold and warm air is sent to the atrium space through the hidden ventilating wall. This is a design technique in which fresh air will flow to the target area at a prolonged flow rate. As the surface skin of interior wall decoration, it achieves the purpose of practicality and beauty. For unique spaces like Hangar that need to be semi-open, special heating methods are required. In this project, heat radiation is adopted, and individual gas heating HVAC Units are suspended on the quilt. The two heating methods cooperate. To meet the hangar part’s heating requirements, in summer, four large hanging fans are used for ventilation to achieve indoor cooling.

Supply Return Fresh Air Exhaust Equipment (Chiller, Boiler, AHU etc.)

Hvac System Diagram

MECHANICAL FLOOR PLAN

Ground Floor Hvac System Plan

Second Floor Hvac System Plan

BUILDING ENVELOPE TECHNICAL DRAWINGS

4.THM ( 52%)

( 52%) Therm Version 7.7.10.0 (1 of 4.THM 1)

Therm Version 7.7.10.0 (1 of 1)

THERM ANALYSIS & DETAIL PERSPECTIVE 36.5

8.6 3.9 13.2 22.5 31.9 41.2 50.5 3.98.6

55.2 45.8

45.8 8.6 27.2

Temperature Analysis

THERM Analysis

Wall Detail Perspective

ENVELOPE TECHNICAL DETAIL DRAWINGS 36 in flashing 36 in flashing 2.5 ft x 1.75 ft metal frame 36 cafe in flashing 2.5 ft x 1.75 ft metal cafe frame

2.5 ft x 1.75 ft metal cafe frame 3 in x 2.5 in “C” channels

W6 x 50 with 3.5 in diam perforation 3 in x 2.5 in “C” channels

W6 x 50 with 3.5 in diam perforation 3 in x 2.5 in “C” channels exteterior aluminum cladding W6 x 50 with 3.5 in diam perforation Schock Isokorb Type S22 exteterior aluminum cladding Thermal Break Schock Isokorb Type S22 -

exteterior aluminum cladding Thermal Break Schock Isokorb Type S22 Thermal Break

2 x 4 wood studs sealeant, counter-flashing 2 x 4 wood studs 2 in Field-Lok seamed roofing panels sealeant, counter-flashing 6 in EPS roof insulation xin4Field-Lok wood studs 2 seamed roofing panels sealeant, counter-flashing 6 in EPS roof insulation 2 in Field-Lok seamed roofing panels 6 in EPS roof insulation 3 in composite structural metal deck

3 in composite structural metal deck W21 x 160; 1.5 in fire-proofing foam spray 35 inxcomposite structural metal deckspray L x 0.51.5 bolter to column flange W21 x5160; in fire-proofing foam L 5 x 5 x 0.5 bolter to column flange L 4 xx4160; x 0.51.5 bolter to column web W21 in fire-proofing foam spray L5 4x5 4 x 0.5 bolter to column flange web L 4 x 4 x 0.5 bolter to column web 1.5 in Isolatek High-Density SFRM 1.5 in Isolatek High-Density SFRM 1.5 in Isolatek High-Density SFRM

2 in curved aluminum cladding, 3 in EPS rigid insulation, 2 in curved aluminum cladding, in sheathing, 3 in EPS0.5 rigid insulation, 5 in mineral0.5 wool insulation, in sheathing, 2 in curved cladding, 0.5aluminum in sheathing panel 5 in3mineral insulation, in EPS wool rigid insulation, 0.5 in0.5 sheathing panel in sheathing, 0.5 in stainless steel plate 5 in mineral wool insulation, 0.5 in stainless steel plate 0.5 in sheathing panel 18 x 18 in welded steel plate ininstainless steel plate double-pane glass with 0.5 in argon 180.5 x 18 welded steel plate 1600UTglass Kawneer Wall double-pane with Curtain 0.5 in argon 18 18AIRFOIL in welded steel plate 12 in xCS vertical 1600UT Kawneer Curtain Wall double-pane withvertical 0.5 in argon 12 in CSglass AIRFOIL plate 1600UT Kawneer Curtain Wall 12 in CS AIRFOIL vertical plate 2 in curved aluminum cladding 3 in EPS rigid insulation 2 in curved aluminum cladding 3 in diam. PVCrigid drainage pipe 3 in EPS insulation flashing 2 in curved cladding 3 in diam.aluminum PVCmetal drainage pipe in sheathing panel 30.5 in EPS rigid metalinsulation flashing 3 in diam. PVC drainage pipe 4 inin concrete parapet 0.5 sheathing panel metal 5 in aluminum “C” flashing channel 4 in concrete parapet in sheathing panel 5 in 0.5 aluminum “C” channel 4 in concrete parapet

5 in aluminum “C” channel water proofing membrane

18proofing in RC retaining wall water membrane 18 in RC retaining wall water proofing membrane

18 in RC retaining wall

W14 steel beam

1.5 Isolatek High-Density SFRM W14insteel beam 0.5 in Isolatek steel welded plate 1.5 in High-Density SFRM W14 5x5 steelx beam HSS 0.5 welded to plate 0.5 in steel welded plate 1.5 in5x5 Isolatek SFRM HSS x 0.5High-Density welded to plate 0.5 to welded back bolted 0.5 back in steel plate plate to column flange HSSback 5x5 x 0.5 welded to plate 0.5 to back bolted plate to column flange 0.5 backacousting to back bolted wooden grid ceiling plate to column flange wooden acousting grid ceiling wooden acousting grid ceiling

5 in mineral wool insulation W14 columnwool insulation 5 in mineral PAC-2000F W14 columncolumn aluminum cover 5 inx mineral wool insulation 18 18 in steel base plate PAC-2000F column aluminum cover W14 column 0.5 bolts anchored to floor 18 xin18 in steel base plate PAC-2000F column aluminum 0.5 in bolts anchored to floor cover 18 x 18 in steel base plate 0.5 in bolts anchored to floor 9 in concrete floor slab 3 in rigid floor insulation 9 in EPS concrete slab 0.75 in fire resistance layer 3 in EPS rigid insulation 9 in concrete floor slablayer 0.75 in fire resistance 3 in EPS rigid insulation 0.75 in fire resistance layer

CLIMATE ANALYSIS

TEMPERATURE RANGE + MONTHLY DRY BULB In Champaign, Illinois, the mean dry bulb temperature fluctuates throughout the year. It is mainly under the comfort zone area (a horizontal gray area), which ranges from 68F - 75F. The average low temperature is below the comfort during the whole year. The Average High temperature is 88 degrees during July. Dry bulb temperature allowed us to determine the mechanical systems required to provide both heating and cooling throughout the year. As a response to this variation of temperatures during the year, we decided to use a VAV system to tackle both heating and cooling temperatures during the year.

SUN SHADING CHART The sun shading chart states that we can design exterior shading devices for the Summer/Fall seasons. By using the ruler, we determined the optimum angle for shading during a year. In this case, we protected solar incidence during the months between June and September, specifically in the south critical facade.

PSYCHOMETRIC CHART RECOMMENDATIONS

DRY BULB TEMPERATURE THROUGH YEAR

The psychometric chart helped us to take design strategies to promote a comfort zone environment and spaces. In this case, we mostly paid attention to the “Heating and Adding Humidification if needed” (Winter-Spring) recommendation as well as “Internal Heat Gain” (during Summer mostly). On the other hand, the chart informed us about the importance of using and considering sun shadings devices during specific months of the year - 8.9% - of the year (Summer mostly).

The dry-bulb (temperature) in the weather fluctuates/varies each day and month of the year. At the beginning of June, warmer days can start to feel in Champaign. July is the hottest day of the year. Dry bulb typically ranges from 32 to 69 during the day, from March to May. During June-September, the temperature can fluctuate from 61-81% and 81-100%, but this “warmer” temperatures only occur 26% of the year’s total time.

ENERGY AND DAYLIGHTING PERFORMANCE ANALYSIS

SUN HOUR: PV OPPORTUNITY The building’s curved roof always receives direct radiation. Even though of its geometry, the top can handle an incredible amount of PV panels. On the other hand, we required high R-values in the roof to reduce excessive heat transmittance during the summer.

WHOLE BUILDING EUI The overall Energy Use Intensity of the building is approximately 24.26 kBTU/year. After analyzing the equipment we used for MEP and respective energy analysis, we almost achieved the Energy LEED certification. Additionally, we manage to reduce CO2 emissions from 61 to 86%.

ENERGY REDUCTION: PV PANELS Additionally, to the building’s mechanical equipment, the primary energy consumption during a year is heating. After implementing energy panels in both roof and skylight, we significantly achieved to reduce more than what the building spent on heating.

WALL-TO-WINDOW RATIO The Wall-to-Window Ratio of the building is 36%. Therefore, we comply with the ICEE code recommendations for high-performance buildings that state we should have a maximum of 40% of glazing wall. However, surpassing the minimum area for optimal skylight design.

SPATIAL DAYLIGHT AUTONOMY The sDA analysis shows that most of the building’s educational part’s functional spaces receive enough daylighting during the year for its educational purpose. However, enclosed spaces in the buildings, part of the hangar, and areas under-balcony in the atrium receives partial daylighting throughout the year.

ANNUAL SOLAR EXPOSURE The ASE analysis shows that most of the buildings have a desirable rate of comfortable glare. However, spaces such as the second-floor balcony receive a high amount of glare given the skylight opening. INTEGRATED PV SKYLIGHT

PHOTOVOLTAIC PANELS RADIANT HEATING SYSTEM

100% EXHAUST AIR DISPLACEMENT VENTILATION

NATURAL DAYLIGHTING

HVAC SYSTEM

SUSTAINABILITY SECTION + SYSTEMS

Architecture is a landmark that can bring vitality to a region.

02 THE ORIGIN : 2.0

GREAT LAKES WATER RESEARCH INSTITUTE/AQUARIUM Academic Studio Project (2019 Fall) Individual Works Site: Waukeegan, Illinois, NA The project is located in Waukegan, Illinois. The main function is an aquarium and a marine life conservation research institution. Simultaneously, because of its strategic location, the goal is to turn the building and surrounding sites into a theme park surrounded by natural landscapes. The main design idea is to refer to Darwin’s theory of biological evolution. Marine life is the origin of living things. Therefore, the building’s form is based on the central point radiating different functions to the surroundings, and each function adapts to “evolve” into different forms according to different contents. But look carefully; these different forms of buildings also contain the same element, that is, the architectural “cells.” The architectural form also shows the greatness of marine life and the philosophical meaning of evolution.

SITE DIAGRAM

SITE ANALYSIS

Site greening analysis

Main axis of site

Site key points

The surrounding area has a lake view of Michigan Lake. It has many green plants, which have the full potential to become a park in the Waukegan area. With the aquarium building as the center, it becomes the Harbour theme park, which facilitates tourists to enjoy the beauty of Lake Michigan and becomes a place for local people to take a walk.

The site design is composed of two sets of intersecting axes, one is the classic south-north and west-east axis of the Chicago area, and the other is the connection site and the line connecting the Waukegan city center and the line connecting the site and the Chicago city center. . The two sets of axes realize the dialogue with the city.

Several key points of the site are closely related to the transportation mode. The Waukegan area’s transportation system is very developed, including buses, trains, ferries, private cars, and other ways to reach the site, even on foot. The rich transportation mode can create an open Theme park about the Waukegan harbour aquarium.

AQUARIUM MISSION

An educational facility An aquarium (plural: aquariums or aquaria) is a vivarium of any size having at least one transparent side in which aquatic plants or animals are kept and displayed. ----From Wikipedia The new aquarium is no longer just a public space for displaying marine life or aquatic life; it is more like research and educational institution. The display of life is only a means of education. The main function is to observe life visually. People learn more and even learn how to protect the environment and protect these animals. The significance of this kind of education and research is the main task of the aquarium. NOW/FUTURE FUNCTION

BOATING

AQUARIUM

LEARNING

DANCING

OR ?

RESEARCHING

PARTY

WATER-SIDE THEME PARK

PROTECTING

DESIGN FROM AXIS

Axis sketch

Massings sketch

Not only the site and the city have an axis, the environment (wind direction, sun path, etc.) can also be the basis for the axis.

Massings in different directions are developed through different axes to form a complex. These massings intersect at the center point.

DESIGN REASEARCH MODEL

“Morphosis” model

Functional model

The Morphosis model is based on on-site design to study the possibility of building generation. Create various elements on the site, which may be axes, key points, or patterns formed by partitions. Finally, these elements are collaged together to form different spatial effects.

Different functions are arranged on the site by refining the relationship, and the public space is organized according to the traffic relationship. Then the auxiliary space is arranged in the corresponding correct position. Then use this model to explore the relationship between massing of different functions and the city.

Initial model

Develop reference model

The initial model is the first building-related model born after the research model, covering the site’s design and the combination of different building massing. Simultaneously, the concept of the collage of possible elements of the project is presented on the model through different forms of massing.

According to the development model obtained from the initial model, the site is divided more specifically. In a specific grid environment, the green area and the pedestrian walkway are separated through the precise division of the grid and the axis. Even the green landscape and the massing collection in the center are also Roughly determined.

FUNCTION & USER

WAUKEGAN VISITOR OTHER VISITOR STUDENTS RESEARCHER CHILDREN

MARINE ORGANISM EXHIBITION LAKE ORGANISM EXHIBITION BIRDS EXHIBITION MARINE ORGANISM EDUCATION ORGANISM RESEARCH CENTER BIG TANK LOBBY, TICKET CHECK, etc. SOUVENIR STORE, GIFT SHOP VISITOR SERVICE CENTER SERVICE ROOM (RESTROOM etc.) STORAGE

NO.1 EXHIBITION MASSING NO.2 EXHIBITION MASSING NO.3 EXHIBITION MASSING RESEARCH MASSING EDUCATION MASSING ATRIUM

ORGANIZATION

ORGANISM or ARCHITECTURE ?

Architectural evolution Like living things, buildings start from a single individual, and then through different combinations of the same elements, different forms are evolved according to the unique functions of each volume.

Evolution Diagram

DIAGRAM

Corridor

Research

Birds exhibition

Education

Marine organism exhibition (Big tank)

Marine organism display

Lake organism exhibition

Ramp

Marine organism exhibition (Main)

Architectural Element Combining the same architectural elements into different architectural forms through different forms, they are the forms that fit each functional zone. Education requires large lecture halls and flexible exhibition spaces, while research institutions need to be efficient and concise. The bird exhibition is a slowly upward ramp to get closer to the sky. Combining them is the Waukegan lakeside research institute.

PLAN DRAWING

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Main entrance ramp Exit ramp Garden rest area Bigtank Stair Office Storage Restroom Visitor service center MEP room Marine organism exhibition Marine tunnel Marine service office Marine perfomance show Elevator Emergency exit Lake organism exhibition Report area Education area Temporary Exhibition Research visitor service Research Lab Research office Big stair reading area Research exhibition gallery Birds exhibition space Birds exhibition ramp

MARINE ORGANISM EXHIBITION

Exhibition Circulation The marine life exhibition area of the aquarium shows visitors the unique charm of marine life through different forms of water tanks and rich graphics and projection forms. Space has a fixed circulation, but it is not fixed. People can travel through different exhibition spaces just like swimming in the ocean.

Simultaneously, in terms of technology, there is a conservation and biological feeding area above the exhibition space, and the staff can easily perform various water tanks.

Sea Otter

Beluga Whale

Turtles

Seadragons

Sharks

Saltwater Fishes

Sea Stars

Penguins

Octopus

Crustaceans

Corals

Jellies

A-A Section

B-B Section

Architecture is a pure fantasy like innocence.

03 FOREST PEARL:

Tree House module Design YAC Tree House Module Compitition (2020) Individual Works Vibrac; Mothe Chandeniers; Ebaupinay, France The metal ball treehouse is a childlike design but full of artistry and rationalism; its artistic expression is in appearance and actual feelings. A pure metal ball hangs on the tree, reflecting the surrounding vegetation and trees and reflecting the site’s ancient buildings; people can talk about nature and history from this mirror metal ball. Whether in the tree or on the ground, the building maintains a high degree of uniformity in modular design. The form also retains the appearance of a metal spherical surface. There is a hot spring function on the top of the above-ground building, and the building module hanging on the tree provides a platform where people can view or rest. The indoor water and electricity are all self-sufficient while also providing living spaces such as toilets and kitchens to meet people’s needs. In short, this is a multi-functional art installation, a childlike treehouse that can talk to nature and history.

DESIGN CONCEPT

MASTER PLAN (3 SITE SELECT)

Mothe Chandeniers 47°05’32.6”N 0°01’54.6”E

Vibrac 47°00’09.3”N

0°25’29.3”W

Ebaupinay 45°38’26.5”N

0°03’54.3”W

SITE SELECTION ANALYSIS Hot spring near the lake and forest. The woodland will become as a park public space.

Tree house build in forest near the old building and hide under the tree.

Communicate with nature The three sites share common characteristics, including ancient buildings, water, forests, and large lawns. Therefore, the floor-standing building part of the designed modular treehouse will become a single building corresponding to the lawn, choose the lawn as a rest platform or activity square, and then arrange the building modules around. The treehouse module is to choose a relatively dense forest so that the treehouse is hidden in the forest to achieve concealment. At the same time, whether the building is on a tree or on the ground will have a dialogue with the surrounding old buildings, allowing people to have a dialogue with history and nature.

SECTION & PLAN

7.60M 6.20M 5.00M 4.10M

2.10M

0.90M 1.40M

4

5 4 2 1 1.00M

4.20M

1.00M

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1 2 3 4 5 6 7 8 9 10

Top Hot Spring Ladder Hole Ramp Metal Ball Planter Metal Ball Light Balcony Bed Restroom Cabinet Kitchen

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7 6 A

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A N

TECHNICAL DIAGRAM Roof & Roof Holder Metal Ball Frame Glass wallMullion

Floor Holder Support Beam Support Steel Bar Metal Ball Frame Support Anchor Unit Tree Trunk Ladder

Tree house module structure & energy analysis The building’s overall structure is mainly divided into two parts: the inner frame and the outer mirror metal panel. The inner frame is a treehouse skeleton formed by the interaction of a series of support structures with the trunk as the structural fulcrum. Simultaneously, there are ribs of the building and two modular functional spaces to support the treehouse. The metal panel is hung on the building skeleton to achieve an artistic visual effect. In addition to the basic functions, the modular storage space and bathroom will also provide an electric power system and a water circulation purification system to satisfy the treehouse’s self-sufficiency.

Tree house functional modularity The modular treehouse interior contains multiple functional partitions, among which the module in the form of a treehouse contains toilets, beds, cabinets, and cooking tables. Each floor module corresponds to a functional block. All the functional blocks are of modular design. Even users can customize their own treehouse functions, such as installing two beds without cabinets. All functional modules are arranged around the trunk to form an annular space. At the same time, the trunk can also become part of the internal space. Users can hang the TV or projection screen on the trunk. The floor-standing building module also has additional hot spring functions installed on the top of the building; people can enjoy the hot spring while watching the beautiful scenery, forming a multi-functional modular treehouse that is enough to attract people.

Bed

Ladder

Cabinet

Restroom Cooking Table

AXO EXPLOSION DIAGRAM Roof Solar Energy Panel #4 Roof Metal Panel Roof Metal Panel #4 Support Structure Restroom Unit perspective render Planted Units Planted Units #12

Glass & Grille #4 Cabinet Unit #1

Bed #1

Enclosure Glass & Facade Restroom Unit #1

Cooking Unit #1

Cabinet Unit perspective render

Handrail Panel #4

Handrail Panel

Floor Panel #4 Floor Panel Balcony Floor Panel #4

Metal Ladder Floor Holder

Cooking Unit perspective render

Insulation Layer & Waterproof Layer Support Structure Metal Panel Holder #4

Metal Panel #4

Metal Panel

Tree Trunk Bed Unit perspective render

Architecture is a conversation with nature.

04 LOST TOWER: MEDITATION SPACE ON WAR RELICS

Site Temple international ideas Compitition (2020) Individual Works ‘Vera Cruz da Figueira’Fortress, Algarve, Portugal This temple collisions time and space and let people communicate with the land, vegetation, sea, and sky by cross-time dialogue. Each area has a starting and ending point suitable for meditation. The meditation pool on the top lets people feel live in nature and touch with the sky as the top, taking the sea as the bottom. This meditation area was allowing visitors to forget about time and pursuing the purest meditation space. The building’s main body is a concrete structure inserted diagonally above the ruins like a sculpture, with a strong visual impact. At the same time, exaggerated appearance also attracts people to enter the building and explore spiritual pursuits. Standing like a monument on the coast of Portugal.

DRAWINGS

Floorplan

Site Masterplan

A-A Section

AXONOMETRIC DIAGRAM

NATURE

SKY

SKY

SEA

SEA

GROUND PLANTS

PLANTS

A perfect dialogue with different natural elements

When people enter the building, they are in close contact with the soil in the ground floor space, triggering tactile sensations. Upon reaching the second floor, people can see the surrounding plants and vegetation. The smell makes people feel the olfactory experience. Arriving on the third floor, talking with the sea, people can hear the waves’ sound and let people feel the existence of hearing. On the fourth floor, people communicate to the sky through the skylight and observe the stars at night. People have an excellent visual experience. The last floor is a meditation space surrounded by an aerial pool. People can touch all elements such as land, plants, sea, and sky. It contains all the five senses, such as Taste, Sight, Smell, Hearing, Touch, etc. Get the perfect meditation experience.

GROUND

Architecture is the memory of a city.

05 STEEL MEMORY

US STEEL RAILWAY LANDSCAPE IN CHICAGO Academic Studio Project (2019 Spring) Group Works (Work with Jiayu Zhang) Site: Chicago, Illinois, NA The site is located on the south side of Chicago. The railway is an important symbol of the site and a medium to arouse the emotional resonance of the surrounding residents. Therefore, this project’s design concept is to establish a unique railway landscape belonging to this site. These different flow systems provide different people with the opportunity to move and experience the site. The train system on the ground is mainly for tourists or residents to browse and feel the US STEEL landscape and history. The train system on the top of the wall extends from the site to the surrounding community, mainly to give the surrounding residents more convenient access to the site’s community functions. The walkway on the wall allows visitors to stroll around the site and see the Chicago skyline. We hope to provide all the people with an opportunity to feel the site and US STEEL history and see its future development.

DESIGN CONCEPT

Concept Collage The biggest impression of the venue on the field trip is the railway. Looking back at the history of the entire South Chicago, the railway’s significance to the site is enormous, so I hope to implement the concept of the railway throughout the design. Railways are not just a way of transporting vehicles; they can also be part of the landscape. They can give different images and meanings to the railway. They can become buildings, forming different appearances according to different functions. This collage shows all the railway’s possibilities, including the relationship with the wall, the relationship with history, and even the future.

Site Photos These four photos are real photos of the site. You can see that many steel sheets are on the ground, buried in the soil in various forms, or lying on the ground. This is the main source of concept and proof of the feasibility of the railway. It is hoped that continuous steel can be designed to divide different sites, and at the same time, it can be raised to form a vertical space, form a landscape, and connect the fields.

Railway Map in 1950s’ This is a map based on the US Steel Steel Plant’s railway map in South Chicago in the 1960s. The complex lines represent the railways and railways intertwined, forming an internal railway transportation system for the steel mills. The circle represents the yard. It is an open storage space for storing steel raw materials and steel products. The square pattern represents the buildings in the factory. The significance of drawing this map is to explore the importance of the railway to the history of the site, to discover the design principle of the railway, to more intuitively express the radiation range of the railway at the site, and to compare some of the railways still retained by the field trip experience. This map is the starting point of the concept and the core idea of ​​the design. Through the railway, the spatial relationship between the city and the site is connected in series. Simultaneously, the railway is used to connect the past industrial situation with the current life relationship, or through the railway. Let people who live in the community or those who come from afar conveniently and quickly enjoy the museums and living services in the venue and even enjoy the beautiful scenery of Lake Michigan.

CIRCULATION DIAGRAM

Masterplan

CONNECTION WITH SKYLINE

Section Perspective

AXO DIAGRAM

Flowerpot

Original Material

Original Material

Bush

Bush & Tree

Flowerpot

Gravel Paving

Grass

Train

Steel Bench

Platform

Lake Michigan

Grass

Train

Gravel Paving

Original Material

Grass

Grass

Steel Railway

Steel Railway

Grass Steel Railway Lake Michigan

Architecture is a work of art given a special philosophical meaning.

06 THE TRANSFORMATION ARCHITECTURAL DESIGN OF THE ART EXHIBITION CENTER Academic Studio Project (2018 Fall) Individual Works Site: Champaign, Illinois, NA The idea of the design plan is to design a set of initial models, and then use these initial models as prototypes, combine related concepts or ideas to form a collage model, which is the basic image of the building, and finally design the final model by deepening the collage model. This design method is different from general design ideas. It is more of a design method starting from design, which is different from modernist rationalism. The initial design stage does not come from the design of building functions. More design thinking is more inclined to the expression of architectural form. Still, in the final stage of deepening, the initial model is transformed into a building through rationality and the operability of actual construction.

DESIGN STRATERGY

Conversion concept Before the initial model design, first, think about how a piece of art was born. First of all, it can be divided into two situations. One is to create a brand new thing from a white paper piece, just like people directly create a mobile phone, without any experience for reference, completely recreated. The other method is different. It is a concept of conversion. This conversion can also be understood as an improvement. It means transforming based on the original things, replacing and upgrading the relevant parts, and creating new things. What is different from the first way is that he will make many references and find similar cases, just new things that are produced through the improvement of old things. These two concepts constitute the idea of designing the initial model, thus creating two different initial models. INITIAL MODELS CONCEPT

Option 1 : Transformation

Option 2 : Transformation

Option 3 : Pixel Decomposition

Option 4 : Growing

Option 5 : Connection

INITIAL MODELS DIAGRAM

Initial model The Initial model design attempts at another architectural design process that differs from traditional modernism in that it focuses on functional design. The initial model’s design is based on a 6×6×12 cuboid prototype, designed a set of models, can be different concepts or can be expressed in different forms of the same concept. After the design of a set of Initial models is completed, the final architectural design is prepared through the combination and development of the models.

The process of transforming the initial model into the building’s design is to put the characters into the model at a special scale, explore the relationship between people and space, and feel the relationship between space and function. Whether it is a solution with a concept of transformation or a solution with a concept of creation, there is the possibility of becoming a building display space. The concept of deformation can become the main space and shape of the building. The generated concept is more from a point so that it can be developed into a traffic space. The integration of these space concepts produces the main form of the building.

PLAN DRAWING

1st Floor Plan

2nd Floor Plan

ELEVATION DRAWING

North Elevation

West Elevation

3rd Floor Plan

East Elevation

4th Floor Plan

South Elevation

PLAN DRAWING

5th Floor Plan

6th Floor Plan

SECTION DRAWING

A-A Section

B-B Section

Architecture is a logo that can be constantly updated.

07 THE BUBBLES: RECONSTRUCTION DESIGN OF THE BOILER ROOM IN CUMT Academic Studio Project (2016) Individual works Site: Xuzhou, JiangSu, CN The project is the regeneration and transformation of the old CUMT boiler room building. The new building will become the innovation and entrepreneurship center of college students after the transformation. By redesigning the layout of the boiler’s internal space, its original structure and building materials are retained. Foams are the main source of inspiration. These foams cleaned the old boiler room. The preserved parts of the building can bring people to experience the old industrial age of burning coal pollution. At the same time, these bubbles will make the boiler room look new. Entrepreneurs and innovative entrepreneurs can inspire more inspiration. The old masonry structure inside the boiler room can be contrasted with the spherical cast concrete elements, resulting in different spatial changes. By interspersing the spherical space form in the old building, it brings a new spatial experience.

DESIGN CONCEPT

The Pollution BY Coil Heating Transformation of an old boiler building into a new innovation and Entrepreneurship Center.

Recleaning’s “Bubble” Transformation of an old boiler building into an innovation and Entrepreneurship Center. Naturally, think of the cleanup that must be done before remaking. Clean up the old machines, the old trusses, the old fences, the old armrest. Clean up the air pollution caused by heating the coal mine in the old industrial era. The “bubble” produced in the cleaning will become a special space—an aspherical space for students to create and display their innovative achievements. DIAGRAM OF PROJECTION’S CONCEPT

The relatively small depth of the room is transformed into an innovative research room.

Large space can be reformed to provide public space for users to communicate.

The south side with relatively good lighting can be transformed into a reading space by introducing light.

It can increase the space for consumer services such as stores, coffee bars, and so on.

It needs a lot of space to show innovative research results to mentors and customers.

High space can be transformed into a report hall.

The narrow passageway can set some tables and chairs for the project negotiation.

DESIGN STRATERGY DIAGRAM

Bubble location

According to statistical research, the bubble location, such as the three-floor office space for the exchange of the highest utilization rate, the communication space center placed on the third floor, to the position of the diffusion, finally each public space represented by the sphere in the old building internal set location.

The Simple Bubble Space

After the concept generally defines the bubble position, start by the manual way to try to model of spherical space design, the use of some table tennis, table tennis by different ways of cutting and splicing, the formation of different space form, each of the final form of the possibility of public space.

Exhibition Hall

The bubble space between the hall and the guest service part strengthens the guiding role. The east wall is broken to form an arc door, and the mountain landscape behind the building is introduced into the user’s sight.

Reading space

The big step of reading space, through the big step to solving the height difference problem. While the big step also can provide the user’s seat, they can enjoy their reading time in this part. And the combination of curved walls has also formed a unique space experience.

BUBBLE DRAWING

SECTION DRAWING

The retention of structure & the addition of new elements The transformation of the atrium space to the original building pillar based height change and re reinforcement, become the new bearing structures, supporting space building at the top of the ball hall, and connect to the spherical form in the structure, like a group of gradually floating bubble, become the new space in the construction of retaining device. Another part of the transformation, which still retains the original structure, is to add only part of the upper floor (Hall part) and the curved wall re-division of space, space through the combination of ball and ball manufacturing, both in the vertical and transverse direction through different combinations of relations to produce new effects.

PLAN DRAWING 1 2 3 4 5 6 7 8 9 10 11 12

Restroom Innovation Office Innovation conference room Teahouse Visitors’ reception room Visitors’ conference room Logistics Office Project consulting room Hall exhibition area Counselling station Doorman Office Exhibition Gallery

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3 12 2 4 7

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1 11

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1st Floor Plan

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Restroom Office Atrium Reporting Hall Equipment roo Office Negotiation space

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2nd Floor Plan

1 2 3 4 5

Reading room Restroom Office Media office Project share space

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3rd Floor Plan

ELEVATION DRAWING

East Elevation

North Elevation

SECTION RESEARCH DRAWING

Architecture is an art that blends with nature.

08 The Mountains

Design of Han-dynasty portrayal stone Museum Academic Studio Project (2016) Individual works Xuzhou, JiangSu, CN This temple collisions time and space and let people communicate with the land, vegetation, sea, and sky by cross-time dialogue. Each area has a starting and ending point suitable for meditation. The meditation pool on the top lets people feel live in nature and touch with the sky as the top, taking the sea as the bottom. This meditation area was allowing visitors to forget about time and pursuing the purest meditation space. The building’s main body is a concrete structure inserted diagonally above the ruins like a sculpture, with a strong visual impact. At the same time, exaggerated appearance also attracts people to enter the building and explore spiritual pursuits. Standing like a monument on the coast of Portugal.

BUILDING DIAGRAM

In order to make more green areas as the landscape, so the location of the building is chosen on the eastern side of the mountain.

Use the plan range from the building site analysis to extrude a building massing as a block with a height of three storeys.

The building massing block is taken into the ground, only the height of one layer is kept above the ground, to create the buried space.

The office part of the northeast side is slightly lifted because the office needs two layers, and it is best to have an adequate lighting effect.

The roof is gradually raised from the west to the East, while fits the spatial relationship of the mountain and water, let the building integrate into the environment.

Add a lecture hall to cut off the visitor entrance in the south side and the staff entrance in the north side, Simultaneously, it weakens the high northeast side of the building.

DESIGN STRATERGY

Enlightenment of Tomb on Design These two diagram on the left is the interior of the Tomb of the Tomb of Xuzhou. The long and thin corridors on both sides are the exit and entrance of the entire tomb, the middle room is the atrium of the tomb, and the atrium on either side of the room is the main space of the tomb. The other side of the tomb is an accessory function. When designing the museum, the atrium was designed as a place for visitors to rest and communicate. The tomb is defined as the exhibition hall, the auxiliary room such as the equipment room and the storage room is designed on one side of the exhibition hall, and “roadway” is connected to upper and lower space, such as a slope or a staircase.

Extraction of stone elements A few blocks from the form of an arc with landscape image of the Han Dynasty stone, part of the northeast side of the high office is the use of silhouettes of relatively steep, rhythm changes are extracted from Figure 1 the mountain shape, and the middle part of the building of the hall because most of the space in the underground and aboveground part is relatively flat, so the choice of curve design changes in Figure 2 soft, from the back, from the high to the ground, change is neat, and building on the southwest side, as in the building entrance. Hence, a part of the roof into the ground,

the other part of the “mountain uplift” open, as shown in Figure 3, this picture tells people the extraction of the metal story from the mountain, extracted the open curve, and the entrance to the inside of the building. Finally, the three parts of the curve elements are interlaced together, interlacing and changing. From high to low, from east to west, the mountain buildings are linked to the lake water. Meanwhile, the interlaced roof can be used as a skylight to bring sunlight into the underground space and enrich the visiting experience.

Section

PLAN DRAWING

3

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5 4

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7 1

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Exhibition hall Atrium Restroom Rest area Reading room Storage room Registration room Temporary storage Outdoor space

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Architecture is a conversation with nature.

09 GARDEN FOR CHILDREN DESIGN OF ZHANGZHUANG TOWN CENTRAL PRIMARY SCHAOOL Academic Studio Project (2018) Individual Works Xuzhou, JiangSu, CN This project is the central elementary school of Zhangzhuang Town, Xuzhou City. The campus’s overall design is divided into two parts; one is architectural design, and the other is the movable design of the building skin. This architectural and planning section and the skin section form the final design. The surrounding buildings are relatively flat, so we should use the building roof to create the undulating building’s shape. In terms of planning, different age groups are assigned to different buildings. A ribbon-like corridor is created to allow children to play on the ribbon and serve as a communication space. In the design stage of the classroom, a staggered layout is designed. The interlaced position between the classroom and the classroom became a space shared by the students.

CONCEPT

Puzzle Conception By directly disassembling the space, such as the plane classroom, the plane is fragmented, thereby generating a staggering space and creating a small and fragmentary activity space between the space and space, which can be read and played by the children.

CONCEPT

Building facade perspective image

PARAMETRIC FACADE DESIGN

Dynamic louver design The purpose of parametric lighting windowing is to more scientifically open the building facade’s windows and enrich the changes of the building facade. In this scheme, the main design idea of parametric lighting design is to use Grasshopper for solar radiation analysis, accurately analyze the window surface’s thermal radiation, find the window size of different window areas, and generate different sizes of inside. Opening the window creates a rich variation on a continuous surface to complete the building’s single facade. The first two plug-ins that are needed in Grasshopper are LadyBug and SkinDesigner. In this design, the plug-in only plays a supporting role in data correspondence of climate data analysis and window opening.

Ground Floor Plan of Grade 1 Building

Second Floor Plan of Grade 1 Building

Third Floor Plan of Grade 1 Building

Fourth Floor Plan of Grade 1 Building

Fifth Floor Plan of Grade 1 Building

Ground Floor Plan of Grade 2 Building

Floor Master Plan

Ground Floor Plan of Grade 3 Building

Ground Floor Plan of Grade 4 Building

Ground Floor Plan of Grade5 Building

Master Plan

Ground Floor Plan of Grade 6 Building

SECTION DRAWING

Architecture is a refuge for people when natural disasters occur.

10 THE CABINS

COLLAPSIBLE AIR DROP EMERGENCY RELIEF DEVICE DESIGN Academic Studio Project (2017) Individual Works Anywhere Worldwide This project is a future architectural practice. The main purpose of this project is disaster relief. In southwest China, earthquakes often occur due to geographic reasons. Once an earthquake occurs, the device will be put into use. In terms of design, its functions are not simplified, and the user experience is guaranteed. From the perspective of space folding, the design of building energy is changed from multiple angles. The equipment is equipped with some elements, such as a landing buffer system, folding support structure system, GPS positioning system, etc. This equipment can be completely self-sufficient in energy. Simultaneously, analyzing and arranging the layout and internal space can provide a warm shelter for the victims. The comfort level can completely replace the existing rescue tents.

DESIGN CONCEPTION

Conception model Living mode require a higher private space, the original structure to add a layer of space, this space is through a skylight, and the other is opaque wall space, greatly increasing the privacy, while at the same time lying on top of the rest of the day the victims can also see the window of the sun, at night they can see the stars in the sky, but also by the natural environment heal effect. Secondly, in order to facilitate folding, it did not add a square space similar to the next one. Instead, it adopted a slope roof structure that could be lapped directly on both sides. At the same time on both sides of the cabin has set a retractable plate, can provide a small open space, can be simple for people to have a rest. After this few improvements, the cabin has closed space, composed entirely of semi enclosed space and open space, enrich the function and user’s experience.

TECHNICAL DRAWINGS

Plan & Section & Elevation & Detail Drawing

Electrical Circulation

Air condition

Water circulation

The electrical through the wire throughout the cabin, to provide daily necessary lighting electricity and air conditioning power. In addition, the module also owns an improved power generation device for the domestic micro diesel mute generator, which produces extra electric power stored in the storage device.

Power generated by the power generation device is connected to the central air-conditioning, and connecting pipes will vent through the cabin until the upper sleeping area, so that the whole body is more comfortable by air conditioning.

The toilet has a water circulation system for living water. It can achieve the recycling of domestic water through the timely cleaning of the trash box. The toilet has spacious space, and it can enjoy hot water showers and improve comfort.

FUNCTION DIAGRAM

Medical mode

Food and beverage model

Classroom model

Cabin can be given medical function, it has a variety of medical equipment in the interior, recovery treatment can be made for people injured in the disaster.

It also can be processed as a cooking function of a variety of ingredients, to provide clean and sanitary food for the people in the disaster area.

The function of the classroom can solve the children ’s education problem in the disaster area.It can also provide disaster reconstruction guidance for the disaster victims

Entertainment model It can be defined as a chess room, reading room, so that the victims of entertainment can weaken the psychological pressure caused by the disaster.

Storage mode The cabin can provide a small storage space, The relief materials can be placed and it also can be prevented from dampness and exposure.

Living mode The cabin is divided into two parts, the space to sleep the rest of the upper part, the lower part is other living function, to solve the housing problem of the victims.

TECHNICAL ANALYSIS DIAGRAM Hydraulic support device 1 2 3 4

Pulley Supporting shaft Hydraulic rod Fixator

Isewage disposal system

Ignition charging device

1 2 3 4 5

1 2 3 4 5

Bilge tank Water pump Net water tank Scrap box Filter sterilizing box

Filter screen Igniter Combustion chamber Filter room Gasbag

AXO diagram

Architecture is a conversation with nature.

11 THE WATERFULL HIGH-RISE BUILDING COMPLEX Academic Studio Project (2017) Individual Works Xuzhou, JiangSu, CN The inspiration for the scheme comes from the waterfalls, the high, and the flow of water to the road around it. But in this plan, it is not the water but the green vegetation trees. There are not many green public spaces in the original hundreds of meters walk street. At the most, there are several street trees. The greening rate is shallow, and the environmental quality and experience are not ideal. So through such a form of building, the surroundings gradually began to start green, with the building as a starting point, a bit of diffusion. This is a new attempt and discussion, is a unique style of architecture really able to survive in the city? Or does it really affect a city? the significance of this scheme is the most to see an individual building from the city’s perspective, rather than focusing on the building itself.

PLAN DESIGN STRATERGY

This is a new attempt and discussion, is a unique style of architecture really able to survive in the city? Or does it really affect a city? Although in the process of scheme design, function layout and building code thinking is much more, but also solve the frequent problems in many commercial buildings, I think the significance of this scheme is the most I try to see an individual building from the perspective of the city, rather than focusing on the building itself.

SITE ANALYSIS

Urban function analysis The project site is located in Xuzhou three major commercial street intersection, at the same time there will be a commercial pedestrian street runs through the middle position, the surrounding functions: hospitals, hotels, shopping malls, office buildings, schools all have, but there was a little park for a class of a better environment to relax space will appear this is also the rapid development in the city, so we need to think, can through the architectural design, making the surrounding neighborhood is green.

Urban texture analysis The site plays an important role in the intersection of the main roads of the city. The building on the site can affect the future urban change from the texture.

Comprehensive economic & indicators Total land area: 14385 (Square meter Building area: 55623 (Square meter) Building density: 38.6% Floor area ratio: 3.85 Green area: 3120 (Square meter) Greening rate: 21% Parking: 585 Number of floors: 25

Function and axis analysis 1 Pedestrian entrance 2 Logistics entrance 3 Hotel entrance 4 Office entrance 5 Commercial entrance Entrance and exit analysis 1 Business 2 Office 3 Hotel 4 Restaurant

Office Typical Plan

Hotel Typical Plan

2nd Floor Plan

A-A Section

3nd Floor Plan

East Elevation

Underground Parking Plan

South Elevation

RENDERING

Sky garden The design of balcony to make office staff relax, also climbing plants placed in the planting groove on the outside of the building floor, after growth can form a clear delineation of a relationship between building internal and external, and make the air garden more sense of enclosure, but the balcony inside can be made the corresponding design according to different floors of corporate culture, make employees more comfortable, reduce the work pressure.

The atrium space A valley surrounded by vegetation, railings on each floor is covered with climbing plants. The atrium is stocked with a variety of plants, form a piece of the small space, which can provide customers with space to rest, but also provide child playground, the sun through the top of the grid structure, the irradiation commercial atrium provides ample sunshine for plant growth, and lighting effects produced in the sunshine and the grid under the action of raising the interest.

Other Selected works 2014-2020

THE LIGHT OF CITY CULTURE Sydney Central Railway Station Renovation Plan-Urban Cultural Education Exhibition Space Design Individual works (2020)

PROMISED LAND 120 Hours Compitition project Group works (2019) Work with Yueshen, Mei & Huangruoyi, Fang

THE RING Structure class Design assignment Individual works (2018)

MATERIALZED INTUITION Interim exhibition of Design studio Group works (2018)

THE RIBBON Perfessional Church Design Group works (2018) Work with HaiMeng

THE NATURE FIELDS The design of Xuzhou Edenbo International School Group works (2016) Work with Shenyan, Du

PEAK FOREST Xuzhou DiHao community design Group works (2016) Work with Shenyan, Du

THE WAVE Design of Architecture Department in CUMT Individual works (2015)

BACK TO HOMETOWN Design of community service center in the Quan Tai mining area Individual works (2015)

CUMT STUDY CENTER Design of Sino German exchange center in CUMT Individual works (2015)

GREEN WAVE Landscape Design Individual works (2015)

BUILDING BLOCK DESIGN COMPITITION Individual work (2016)

MODELING DESIGN Individual work (2014)

Project work in MAD Architect Group works (2017)

Project work in ZXD_Architect Group works (2019)