PORTFOLIO of WANG ZIRUI
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Zirui Wang has an eye for aesthetics, is hard-working and keeps pushing for challenges. After gradutaing from RMIT University with distinction, he continued to advance his professional knowledge at the University of Melbourne, and is expected to finish his post-graduate degree in June, 2022. Zirui has mastered a number of major CAD tools. He started to develop Rhino skills since 2015, and has a five-year experience in using both grasshopper and Revit. In addition to this, he constantly tries to learn new skills and emerging softwares and further applies them to his projects, which shows his fast-learning quality and the ability to come up with novel solutions. Zirui is also great at teamworks. The past internship experiences has been fruitful and the achievements has proved his capabilities. Now he is seeking to contribute and grow with an innovative, professional and progressive organization in the architecture industry.
889 Collins Street, Docklands, VIC. 3008 wangzirui919@gmail.com
Skills
Education
RMIT UNIVERSITY, SCHOOL OF ARCHITECTURE DESIGN Bachelor of Architecture Design
Working Experience
UNITED DESIGN U10 ATELIER CO., LTD Project: Expansion Project for Hulunbuir Hailar Airport Performed project design, drawing, model making and physical model making.
DRAWING ARCHITECTURE STUDIO CO., LTD Project: Old Town of Xinchang Performed site research, project design, model making and drawing.
Melbourne, Australia Feb 2017 - Jun 2020
Beijing, China Nov 2019 - Feb 2020
Beijing, China Sep 2016 - Oct 2016
Project: Rail Station in Xiong An District Performed project design, drawing, model making and text making.
Project: Hotel Deisgn for Jining Taibaihu District TTB-06-2 Performed project design, drawing, model making and text making Generated the promotional show panel to show the whole design to client
DESIGN
Photoshop. Illustration, Indesign, Premiere Pro, Lightroom), MS office
RENDER
OctaneRender, Enscape, Vray, Twinmotion
ENVIRONMENTAL ANALYSIS Ladybug, Honeybee, Butterflt
OTHER
Hand drafting/modeling
Project: Graphic Interviews, Yung Ho Chang, Architect Performed model making and drawing.
CHINA ARCHITECTURE DESIGN & RESEARCH GROUP CO., LTD
3D MODELING/BIM
Rhinoceros, Revit, Grasshopper, AutoCAD, Sketchup
Beijing, China Feb 2016 - March 2016
Others
LANGUAGE
English, Chinese
INTERESTS
Analog Photography, Painting, Reading
1
C O N T E N T
OSAKA : Resisting Alienation 5-12
I
II
GYMHAUS
13-18
CSIRO ANTI-CARBON LABORATORY PROJECT 19-26
III
IV
VERTICAL BACKYARD
27-32
THE NEW DESIGN HUB
33-38
V
VI
Internship & Peronal work 39-42
2
I
OSA Resisting URBAN
DATE: AUTUMN, 202 TUTOR: JUSTYNA CONTACT: JUSTYNAK LOCATION GROUP
The over-abundance of urban life has led to a grow and connection with those around us. Such alien population
In rural society, human relationships take on a co knit community, the influence of individuals on
In this project, we have envisioned a se In response to the alienation of the city, we ch hands of the individual. We attempt to introduce demographic issues in the form of small villages, back to their sensi
1.1 A typological study of rural habitats:
Genre exploration by 2d to 3d progression. Evolving the original new construction of the community with the totem of the traditional Japanese family crest.
1.2
I
AKA: Alienation DESIGN
20 (MASTER YEAR 1) A KARAKIEWICZ K@UNIMELB.EDU.AU N: OSAKA WORK
wing numbness to sensuality and a loss of self-identity nation is a common phenomenon in our current high n density cities.
ollective structure of network. Benefiting from a tightn one another promotes the affirmation of self-worth.
ensual future for the ever-expanding Osaka. hoose to put the power to return to sensuality in the a slow pace of life to the citizens while addressing the awaking people's enthusiasm for life, and brings them ibility and sense of self.
1.3
1.1. 2d modular study exploring the potential for growth in a multidirectional way 1.2. Computer random generation of combinations to explore typological possibilities 1.3. 3d modular generation and re-decomposition
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1.4
1.5
1.7
1.8
1.6
Using computational simulations of the complex natural organizing, we explore the possibilities of community structure. By local intelligence, self organization and behavioral patterns, the urban expansion system will generate new space potential and community opportunities.
1.4 1.5 1.6 1.7 1.8
Residential - Theatre Hybrid Community Residential – Office Hybrid Community Terrace Community Hot Spring Community Alley Way Community
1.9
A Bottom-up approach investigating part-to-whole relationships to the city.
1.9 Spatial allocation of small independent community types based on simulated vertical urban expansion routes. The gray, white, blue and orange sectors represent community typologies based on office, commercial, recreational and natural districts respectively. Adequate connectivity is ensured between different communities by regulating the rated distance between different types of districts.
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The structure of the urban growth system will be parasitically connected to the original city's infrastructure.
A complete transportation system has been designed into the project. The entrance to the new Osaka rural space will be placed at the point where the density of pedestrian traffic is highest, serving as a turning point between the fast and slow lifestyle of the metropolis. Escalators are designed in a special modular form. Seats and tables are included to make the whole journey easy and tranquil. In order to give Osaka's office workers a quicker relief from the stressful pace of work, some entrances to new zones are connected to the elevators of the city's major office buildings as an alternative means of access.
1.10 Detail section of the main entrance elevator 1.11 Section showing the parasitic relationship of the new area with the original city infrastructure.
1.10
1.12
1.15
Booth
2m Wide Fast Track
Table
Plant-growing Areas
Escalator
1.13 1.16
Type I
1.14
Type V
Type L
1.12 1.13 1.14 1.15 1.16
Special escalator design Three types of escalator modules Detail section of escalator Continued splitting of the 2d modular pattern Exploded view showing the concept design of an Izakaya 1.17 Section of an Izakaya 1.18 Section of an Izakaya
1.11
1.17
1.18
In addition to the macroscopic design, we continued to explore the possibility of splitting the same modules in a smaller scale. This design allows for a higher self-build potential compared to the neighborhood's buildings.
5
1.19
1.20
1.19, 1.20 The drawing shows the journey of pedestrians moving up the escalator. There are two rows of seats beside the steps, where people who want to relax can sit and enjoy the views on either side, or the view of the old city from the rising tracks. Tables are also provided at the front of the seats to place belongings. If needed, visitors could call a waiter to bring in your food and drink. People feel as if they are in nature, enjoying a leisurely picnic under the trees. The steps in the middle is for those prefer to stand or walk up. As users ascend the escalator, the new look of the city comes into view. 1.21
1.21, 1.22 The drawings show the conceptual design of the Hot Spring Community. Inspired by Peter Cook's Plug-in City, this project is an attempt to bring tranquility to the fast-paced Osaka based on the modular future of vertical urbanism. The city gives residents the right to choose their lifestyles in a more inclusive way, slowing down the social problems caused by alienation. 1.22
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II
GYMHAUS EDUCATION & LEARNING
DATE: AUTUMN, 2019 (YEAR 3) TUTOR: CAREY LYON, ADAM PUSTOLA CONTACT: ADAM.PUSTOLA@LYONSARCH.COM.AU LOCATION: MELBOURNE MCG GROUP WORK (As a Group Leader)
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Sport
Professional Sporting Field Community Sporting Field 1 Community Sporting Field 2 Sport Club 1 Sport Club 2 Changing Room Public Stadium Dietary Institute Nutritionist Cafeteria Sports Ethics Council Sports Offices Rock Climbing
Media
Melbourne self-identifies as a sporting capital and has developed an urban precinct that hosts most major sports as well as entertainment. The precinct is a valency within the city, occasionally occupied by high-energy activities, most often remaining vacant and buffered from the city by parkland and rail infrastructure. This project combines researches into the transformation of urban 'monoprecincts' with current STEM projects being undertaken by Lyons Studio. Our tutor, Adam Pustola, guided us to come up with designs so that we actively thought about the relationship between athletics and academics. Tracing back to Athens thousands years ago, we discussed possible new forms of future schools.
Editing Suite Live Rooms News Conference Rooms
Eductation
Lecture Room Lecture Theatre Student Union Hall Public Library Study Room
(2.3)
CONCEPT Three categories are treated as atoms—athletics, media and education. All the possible combinations of the spaces are listed by randomly putting the atoms together.
(2.1)
The concept is about the fusion of the two functions. Although the fusion is thorough, it is not mandatory for people to participate in both the athletics and education part of the building. It is about encouraging them to make use of both and promoting the communication between two groups of people. It has made it possible for different people to meet and exchange ideas. By creating such combinations, new cultures are born.
2.1 Concept generation design: Prior to the final design, an argument was rasied to start off. Athletics and academics are combined so that an equilibrium is reached in this design, where there is no absolute “more democartic”. Through the design practise above, I found out that fusion of ideas is the key to future schools.
(2.2)
(2.4) 2.4 MCG is surrounded by unoccupied spaces and natural spaces. To utilize and rearrange these spaces, we learned from Manhattan Grid and Collage City by Colin Rowe.
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(2.5)
(2.6) (2.7)
2.3 & 2.5 A fusion of student union and swimming pool 2.6 A fusion of MCG staduim and student gallery 2.7 21 different new function spaces for new cultures
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10
(2.9)
(2.10)
(2.11)
(2.12)
(2.22)
Ancient Greeks used to build gymnasiums for both debates and athletics. This fusion is a perfect model which inspired us to take an alternative approach to study. And we call this new concept Gymhaus. “Haus” represents an ambition. It comes from “Bauhaus”, a design school which spread its progressive aesthetics around the globe. And we wish to do the same, influence the world. (2.13)
(2.14)
(2.15)
2.19 & 2.5 The student union pool. Student union is an inclusive and active collective. They have rules and serious meetings, as well as parties. It’s great for socializing. This design is a hybrid of student union and a swimming pool. People are only allowed to go in with their swimsuits. Small pools replace the small discussion tables we have in traditional student unions. Bigger pools are for meetings. This fusion encourages "bathing while socializing" culture which can be truly fun and interesting. 2.9 & 2.20 The astronomical tower is combined with a staircase competition. Many people nowadays are too used to taking elevators that they have missed a great casual opportunity of doing a bit of exercise. In this design, people need to climb the stairs to the top and there is a rest station every 500 steps. Their achievements are scored and even will be ranked which helps them to keep track of their exercises, encouraging them to do more. 2.15 Badminton court with a media centre
2.12 & 2.17 A library where you need to climb for knowledge 2.18 Lecture rooms in a basketball court
2.1O & 2.21 A library and a corridor for both reading and biking (2.16)
(2.17)
(2.18)
(2.19)
(2.20)
(2.21)
2.11 Movable gymnastics centre and performing centre
The goal of the project is to turn back from the common design process, create fusion spaces to combine the academics with athletics. The final design is called Gymhaus, a university that is established with MCG by its side. It is hoped that people will change their unhealthy way of studying.
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III
CSIRO ANTI-CARBON LABORATOR EDUCATION COMPLEX
RY PROJECT
DATE: AUTUMN, 2021 (YEAR 2) TUTOR: TOBY REED CONTACT: TOBY@NERVEGNA-REED.COM.AU LOCATION: CALYTON, MELBOURNE INDIVIDUAL WORK
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Viewed as industrial and highly fuctiondriven buildings, the design aspect of laboratories, such as energy performance and sustaianability, are often given a lower priority. This project designed for CSIRO will feature a sustainable, Level 3 laboratory building at Monash University's Calyton campus.
CSIRO as the client and five architects from DESIGNINC and ATELIER TEN as consultants continued to advise on the project during the design process.
The final product attempts to meet the functional and spatial needs of the laboratory while experimenting aesthetically with locally relevant architectural philosophical ideas and making the building perform better with appropriate sustainable design techniques.
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As the building is three meters below ground level, the earth will act as a thermal mass, and will maintained at a constant temperature of around 14°C in the context of Victoria. As the lab space do not require that much amount of natural light and have the biggest energy consumpion than other part of the building, it is suitable to bring all the lab space down below the ground level.
BASEMENT LEVEL 1
In terms of passive sustainable technologies, the main practice of this design is the application of earth sheltered building strategy.
BASEMENT LEVEL 2
The other benefits of the underground building include sound insulation and protection of the surrounding native flora and fauna. Moreover, In a global context of increased natural disasters, sinking building type could provide protection against natural element, which is worth to be considered in the passive design of a safe laboratory building.
GROUND FLOOR
In terms of design concept, this project is a tribute to John Hejduk's theory of a study on the primitive form. Hejduk introduced the poetry of conflict that set up an element of the building into something else which could amplify people's feelings of the different space. This design attempts to subvert the sense of hejduk 的 idea 要给我解释一下 Platonic geometric space and resonate with the user 需要解释吗。。 with particular functionality. In terms of design aesthetics, the project is inspired by the architectural languages of local Melbourne architects such as Peter Corrigan and local studios such as ARM and Lyons. The project aims to subvert the stereotypes of traditional laboratory buildings with vibrant colors and patterns, bringing vitality to the surrounding community.
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3.1 East Plaza 3.2 Cone-write up with gentle natural light 3.3 West entrance/the path to the roof garden 3.4 Natural light can access the ground floor laboratory on the east 3.5 North entrance to the basement level 3.6 East plaza with courtyard 3.7 South View 3.8 South - East View
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9 Illustrates the main sustainable design methods utilized in this project.
3.9
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IV
A VERTICAL BACKYARD COMPACT RESIDENTIAL
DATE: SPRING, 2018 (YEAR 2) TUTOR: MELISSA BRIGHT TODD DE HOOG CONTACT:+61 3 9853 4730 INFO@STUDIOBRIGHT.COM.AU LOCATION: COLLINGWOOD INDIVIDUAL WORK
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The design is a small residential project completed with the assistance of Studio Bright.
1
This project investigates housing, green space and density. How do we have a dense urban environment and still maintain a large amount of green space? This project aimes to find alternative solutions to the current housing model of the big house on a block with an oversized entertainment room, the front yard, the backyard, air-conditioning, to provide the ‘Australian dream’ but reduce the footprint.
(4,5)
(4.1)
(1.4)
(4.4)
4.1 South West Axonometric view 4.2 Central platform generation
4.3 The sinking garden of the Featherston House system 4.4 The interior view of final design. 4.5 Northeast axonometric Drawing
(4.2)
The site of this project is a tiny block at the intersection of the Vere Street and Hoddle Street in Collingwood. In an attempt to address the issue of even tighter residential space in the future, this project presents the hypothesis of cooperative housing that elevates the common height of residential buildings to fulfill more different needs of various residents.
This project aspires to provide collaborative model without sacrificing the comfort and nature quality of the interior space.
(4.3)
2
The spatial design of the project was inspired by Featherston House which is located in Ivanhoe, Victoria, designed by Robin Boyd in 1969. The design combines inspiration from a warehouse and a loft and is famed for the design of its indoor garden below and four ‘floating’ platforms above the garden.
(4.6) (4.7)
In the future when there may be a high population density, a residential building like this may need to allow three or more families to inhabit in it. It can be divided into several different elements.
4
This design aims to ensure the privacy of the individual residents, as well as bringing the backyard indoor. People can feel the presence of a vertical backyard in their dining rooms and living rooms. The sharing spaces between residents can potentially help people to feel less alienated and encourage interactions so as to form a more positive and healthier future living space.
(4.13)
(4.14)
(4.15)
(4.9)
4.6 4.7 4.8
4.9
(4.16)
The main body is a transparent “glass box” North East perspective Drawing
Below the main body, an open garden is located on the ground floor. The main entrance is the spiral staircase that leads to the semi-open indoor.
A multifunction central column is connected to eight platforms.
4.10 By careful arrangement of the staircase and platforms, different families can still have their privacy while sharing the same space.
(4.10)
4.12 Four independent indoor spaces surround the box. Bedrooms and washrooms are put there for absolute privacy.
(4.17)
4.13 The physical model of the final design
4.14 The physical model of the four independent indoor blocks. (4.8)
4.15 Ground floor plan drawing
4.16 Typical floor plan of the second floor 4.17 South setion drawing
4.18 West section drawing
(4.12)
(4.18)
3
V V
THE NEW RMIT DESIGN HUB REVIT PROJECT DATE: SPRING, 2020 (YEAR 3) TUTOR: NATALIE RUSHIDI STEPHANIE LANCUBA CONTACT: NATALIE.RUSHIDI@RMIT.EDU.AU LOCATION: QUEENSBERRY ST, MELBOURNE CBD INDIVIDUAL WORK
IST
COMPANY NAME: ZR
COMPANY MEMBER: WANG ZIRUI
SCHEDULE(DOOR) TYPE(DOOR)
DOOR SCHEDUAL
D.XX
D.01
M_Single-Flush: 0813 x 2134mm
D.02
M_Single-Flush: 1000 x 2134mm
D.03
Double - Offset: 1600 x 2100mm
D.04
M_Single-Flush: 0762 x 2134mm
D.05
Double - Offset(4) (AUS): 1200 x 2143mm
D.06
Double-Panel 1: 1830 x 1981 mm Double-Panel 1: 1830 x 1981 mm
D.07
SCHEDULE(WALL) CATEGORY(WALL) TYPE(WALL)
WALL SCHEDUAL
W.XX.XX
W.CW.01
CURTAIN WALL
W.GW.01
GLASS EXTERIOR WAR: 200mm
W.PC.01
PRECAST CONCRETE: 100mm
W.PC.02
PRECAST CONCRETE: 200mm
W.PC.02
PRECAST CONCRETE: 300mm
W.PC.04
PRECAST CONCRETE: 150mm
W.GP.01
GYPSUM BOARD
SCHEDULE(FLOOR) CATEGORY(FLOOR) TYPE(FLOOR)
FLOOR SCHEDUAL
F.XX.XX
F.RS.01
RESIN SYSTEM FLOOR FINISH
F.TM.01
TIMBER FLOOR FINISH
F.TM.02
TIMBER FLOOR FINISH
F.CM.01
CEMENT FLOOR FINISH
F.CC.01
CONCRETE FLOOR FINISH
F.CE.01
CERAMIC TILE
F.DP.01
DECK PAVEMENT
RMIT NEW DESIGN HUB 83 Bouverie St, Carlton VIC 3053
Perspective Drawing 2 No.1
Project number Date
19/04/2020
Drawn by
WANG ZIRUI
Checked by
WANG ZIRUI
A505 Scale
:100
1:100
16
COMPANY NAME: ZR
COMPANY MEMBER: WANG ZIRUI
A000 Title Sheet A001 Site Plan 1:200 A100 Basement Floor Plan 1:50 A101 Ground Floor Plan 1:50 A102 Floor Plan Level 1 1:50 A103 Floor Plan Level 2 1:50 A104 Floor Plan Level 3 1:50 A105 Floor Plan Level 4 1:50 A106 Floor Plan Level 5 1:50 A107 Floor Plan Level 6 1:50 A108 Floor Plan Level 7 1:50 A109 Floor Plan Level 8 1:50 A110 Floor Plan Level 9 1:50 A111 Roof Plan 1:50 A112 Ground Floor Cilling reflextion A200 Elevations – North and East 1:100 A201 Elevations – South and West1:100 A300 Section A-A 1:100 A301 Section B-B 1:50 A400 Typical Façade Details 1 A401 Typical Façade Details 2 A401 Precast Wall and Roof Details A402 Balcony Edge Railing Detail A500 Facade System Panel 1 A501 Facade System Panel 2 A601 Perspective Drawing 1 A602 Perspective Drawing 2
RMIT NEW DESIGN HUB 83 Bouverie St, Carlton VIC 3053
Title Sheet No.1
Project number Date
19/04/2020
Drawn by
WANG ZIRUI WANG ZIRUI
Checked by
A000 Scale
(5.1)
THIS DESIGN IS A REVIT EXERCISE PROJECT The original RMIT Design Hub is where RMIT architecture department is located. It is one of the landmarks of Melbourne. The building provided students with a convenient study space, however, as one of its users, I found the scarcity of windows and outdoor spaces evidently can easily make the students and teachers inside feel a bit down or depressed. This project aims to design a second, relatively small Design Hub for RMIT's Department of Architecture and Design to alleviate the burden of more students in the original building, while bringing a more open, inclusive approach to the design language to provide a more conducive learning environment for students.
(5.2)
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(5.7)
The main mass of the building is composed of three rectangular blocks stacked on top of each other, the intermediate area of which will serve as balconies to increase the outdoor space of the building.
(5.3)
(5.5)
(5.4)
10
(5.6)
The building's facade design was inspired by Frank Gehry's Louis Vuitton Foundation. The space frame used is light and three-dimensionally adjustable. It is fixed onto the slab to support seven semi-transparent panels that are different in sizes and made of PTFE. This type of facade helps create a desirable balcony space by reducing UV rays. Rooftops and balconies of the building are also designed to offer the possibility of greenery.
5.1 5.2 5.3 5.4 5.5 5.6 5.7
Final North West perspective drawing East section drawing Typical floor plan Basement Typical floor plan Ground floor Typical floor plan Level 1 Typical floor plan Level 3 North section drawing
(5.7)
(5.8)
(5.9)
(5.10)
COMPANY NAME: ZR
COMPANY MEMBER: WANG ZIRUI
5.7 5.8 5.9
Glazing wall section and facade panel connection details Glazing balcony edge detail Typical precast wall section
SCHEDULE(DOOR) TYPE(DOOR)
5.10 5.11 5.12 D.XX
M_Single-Flush: 0813 x 2134mm
D.01
(5.11)
DOOR SCHEDUAL
Typical precast wall water proof roof detail Nineth floor balcony perspective view Ground floor perspective view
D.02
M_Single-Flush: 1000 x 2134mm
D.03
Double - Offset: 1600 x 2100mm
D.04
M_Single-Flush: 0762 x 2134mm
D.05
Double - Offset(4) (AUS): 1200 x 2143mm
D.06
Double-Panel 1: 1830 x 1981 mm
D.07
Double-Panel 1: 1830 x 1981 mm SCHEDULE(WALL) CATEGORY(WALL) TYPE(WALL)
WALL SCHEDUAL
W.XX.XX
W.CW.01
CURTAIN WALL
W.GW.01
GLASS EXTERIOR WAR: 200mm
W.PC.01
PRECAST CONCRETE: 100mm
W.PC.02
PRECAST CONCRETE: 200mm
W.PC.02
PRECAST CONCRETE: 300mm
W.PC.04
PRECAST CONCRETE: 150mm
W.GP.01
GYPSUM BOARD
SCHEDULE(FLOOR) CATEGORY(FLOOR) TYPE(FLOOR)
FLOOR SCHEDUAL
F.XX.XX
F.RS.01
RESIN SYSTEM FLOOR FINISH
F.TM.01
TIMBER FLOOR FINISH
F.TM.02
TIMBER FLOOR FINISH
F.CM.01
CEMENT FLOOR FINISH
F.CC.01
CONCRETE FLOOR FINISH
F.CE.01
CERAMIC TILE
F.DP.01
DECK PAVEMENT
RMIT NEW DESIGN HUB 83 Bouverie St, Carlton VIC 3053
11
Perspective Drawing 2 Project number
No.1
(5.12)
5.13 5.14 5.15 5.16 5.17
(5.13)
(3.15)
Level 5 section detail Space frame with PTFE panel joint detail Glazing detail Space frame joint detail Final North West perspective drawing
(5.14)
(5.16)
(5.17)
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IV
OTHER WORKS
Internship
HOTEL DEISGN FOR JINING TAIBAIHU DISTRICT
Office
Central Core
Roof top Garden balcony
Office
Central Core
Roof top Garden balcony
Compound office Transportation
Compound office Shops
Transportation
DATE: AUTUMN, 2019 COMPANY: CHINA ARCHITECTURE DESIGN & RESEARCH GROUP CONTACT:A10CADG@163.COM LOCATION: JINING, CHINA INTERNSHIP PROJECT
This hotel project is located in Jining Taibaihu, Shandong province, China. I participated in project design, drawing, model making and text making with three other colleagues. 这里又不是 italics 了
Shared corridor Atrium
Compound office
Office
Central Core
Row office
High grade office
Office
Transportation
Roof top Garden balcony
We did research on the traditions of Shandong Province, and made the design look like a mountain. Confucianism is the idea that human and nature are one, so we tried to blend our building in the environment surrounding it so that it would look like a Chinese landscape painting when it is presented.
During the model making process, we took the advice from the client. Through planting greens on the rooftops and platforms, the architecture becomes a scenery itself. We also put multi-floor sharing platforms in the design. At last, I drew the plan for the office buildings on the west, compound office building, soho; and I also attended the bidding meeting for our design.
SOHO Hotel
Transportation
Compound office
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Internship DRAWING ARCHITECTURE STUDIO CO., LTD GROUP WORK
CONTACT@D-A-S.CN
Project: Old Town of Xinchang Performed site research, project design, model making and drawing.
Internship DRAWING ARCHITECTURE STUDIO CO., LTD GROUP WORK
CONTACT@D-A-S.CN
Project: Old Town of Xinchang Performed site research, project design, model making and drawing.
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