YINONG XUE SELECTED WORKS
ARCHITECTURE
PORTFOLIO 2021
2023
CONTENTS
01
THE COLLEGE
Sep, 2021-Dec, 2021
Explore how architecture defines the site, and explore the construction design.
The bridge does not just connect banks that are already there. The banks emerge as banks only as the bridge crosses the stream.
02
THE NEW AGRICULTURAL COMPOUND May, 2022-Oct, 2022 Explore how to use architecture to address the urban-rural conflicts in China.
03
THERMAL POWER PLANT REVITALIZATION
Feb, 2023-Jun, 2023
Explore how to revitalize industrial relics and awaken historical memories.
04
URBAN LOUNGE
Mar, 2022-Jun, 2022
Exploring the relationship between architecture, environment, and materials.
Prototype Research
Piazza Modena
THE COLLEGE
SITE: BEIJING,CHINA Individual Acedemic Sep 1st,2021-Dec 19th,2021 Instructor : Yu Dao, Ren Zhongqi, Jiang Wei
Piazza San Marco
The college system is an educational management system that combines general education with professional education. A college refers to a comprehensive space for student dormitories based on this system. In recent years, the implementation of the college system has become an active exploration and effective attempt in the reform of higher education in China, and the specific form of the college also needs to be discussed. This design is located on the original site of the student dormitory building at Beijing University of Architecture, at the junction of the school's teaching area and living area, adjacent to the student cafeteria. My design intention is to create a college building that focuses on student dormitories and is supplemented by facilities for student and faculty study, work, and living, in order to create a hub that can inspire discussions and creativity among students and faculty. I started my design from the analysis of the site. Through observation, I found that the northeast sides of the site are the teaching area, while the southwest sides are the living area. There are two gardens on the south side and west of the site, but the original building divided the site into two sides, forcing students and faculty to go around the original building from both sides to reach the living area. Based on my observation and analysis of the site, my design starts from the site and uses architectural elements to define the courtyards on the south and west sides of the site, with the central part of the building elevated to connect the north and south squares, making it convenient for students and faculty to pass through. The next step is to design the interior of the building. I utilize three basic architectural elements: slabs, columns, and masses. The masses serve as private spaces such as student dormitories, slabs act as enclosed defining elements, and columns serve as both structural and relatively open defining elements. Through the spatial organization of functions and circulation, I have employed appropriate spatial forms, structural systems, architectural materials, and construction designs to achieve a rational architectural form.
Piazza Parma
Through the study of squares, I have concluded that the design approach in ancient times involved enclosing the square nd integrating buildings around the square. The premise of a square is the enclosure of space, and buildings should not stand independently above the square.The architecture needs to define the surrounding site.
Location Analysis
Living area Teaching area Residential area
Generate Analysis
The site is located at the intersection of the living area and the teaching area. I aim to connect the north and south of the site.
The massing of the building defines two courtyards on the west and south sides of the site.
I have completed the volume of the original cafeteria on the west side and used a "bridge" to connect the new and the existing buildings.
The volume of the "bridge" extends towards the east, enhancing the sense of mass and connecting the two sides (east and west).
This design redefines the boundaries of the courtyards surrounding the site and enhances the connection between the north and south sides.
Living area Public area Book shop Dormitory
I integrated the dormitory within the volume of the new building, while placing the remaining supporting functions in other locations.
Through this collage, I have expressed the delineation of the courtyard on the west side of the site and continued the original facade, introducing pedestrian flow by elevating the building volume in the middle of the site.
Exploded Drawing
Living area Teaching area Residential area
Ground Floor Plan
View of Public Area
Third Floor Plan
Construction 1
30mm mortar protective layer 20mm rolled waterproofing layer 60mm mineral wool insulation layer 10mm rolled waterproofing layer 100mm reinforced concrete roof 50mm mineral wool insulation layer 15mm precast concrete hanging panel
2
5mm metal cover plate 15mm rolled waterproofing layer 150mm reinforced concrete parapet wall
3
25mm precast concrete hanging panel 50mm mineral wool insulation layer 400mm reinforced concrete beam· 50mm mineral wool insulation layer 25mm precast concrete hanging panel
4
15mm precast concrete hanging panel 15mm rolled waterproofing layer 150mm reinforced concrete wall 15mm rolled waterproofing layer 15mm precast concrete hanging panel
5
20mm plain concrete floor tiles 20mm mortar leveling layer 15mm rolled waterproofing layer 60mm mineral wool insulation layer 100mm reinforced concrete roof 15mm precast concrete hanging panel
6 Aluminum alloy window frame
7
15mm precast concrete hanging panel 15mm rolled waterproofing layer 200mm mineral wool insulation layer 100mm reinforced concrete wall 15mm precast concrete hanging panel
8 20mm plain concrete floor tiles 40mm underfloor heating 10mm gypsum fiberboard 50mm raised floor 100mm reinforced concrete floor slab 15mm precast concrete hanging panel 9 15mm precast concrete hanging panel 10 Metal curtain track Triple-glazed Metal aluminum frame: 8mm tempered glass + 14mm air gap + 6mm float glass + 14mm air gap + 8mm tempered glass Ug=0.6 W/m^2K 11 15mm precast concrete hanging panel 15mm rolled waterproofing layer 200mm mineral wool insulation layer 100mm reinforced concrete wall 15mm precast concrete hanging panel 12 20mm plain concrete floor tiles 40mm underfloor heating 10mm gypsum fiberboard 50mm raised floor 170mm reinforced concrete floor slab 15mm rolled waterproofing layer 90mm mineral wool insulation layer Compacted subsoil 13 Three-layer floor tiles 150mm150mm60mm Compacted subsoil
View of West Courtyard
RESEARCH
INDUSTRIAL AREA
VERTICAL FARMING
DINING HALL
WAREHOUSE
THE NEW AGRICULTURAL COMPOUND
SITE: HEBEI,CHINA Individual Acedemic May 22nd, 2022-Oct 7th, 2022 Instructor : Ren Zhongqi
After the establishment of the People's Republic of China, the country made several attempts to address the issue of increasing agricultural productivity. China successfully increased agricultural productivity but this led to an increase in surplus labor in rural areas, and the rural population gradually moved to cities. The emergence of an urban-rural dual structure created significant disparities between urban and rural areas. The demand for land in cities grew, continually expanding into rural areas, encroaching on farmland, increasing food miles, and damaging the rural ecological environment, while the status of rural areas gradually declined. Therefore, I propose the concept of the 'New Agricultural Compound' to address the above-mentioned issues, seeking a prototype that can 'fold' urban and rural areas together. The prototype is located at the boundary between the city and the countryside, with the intention of stitching together the boundaries of urban and rural areas. The New Agricultural Compound adopts a system similar to the people's communes, concentrating agricultural research, agricultural production, and agricultural product processing within the compound. A transportation system connects the compound, using drones to enhance transportation efficiency. New agricultural technologies are employed to increase crop yields per acre. Crop planting schedules are planned rationally to improve land utilization efficiency. Crops are processed or sold directly, reducing food miles. The crops produced by the compound can meet the needs of the surrounding residents, and both urban and rural residents can dine in the compound. Farmers can come to the compound to disseminate agricultural knowledge, and urban residents can visit exhibitions and attend lectures. The new agricultural technologies developed by the compound can be provided to rural areas, and high-tech talents from urban areas can engage in technological research and development within the compound.
Social background
Urban-Rural Folded Space Compound
Reasearch
Vertical Farming
Utilizing advanced technology to enhance agricultural productivity , increase crop yields, and improve cultivation techniques.
Utilizing robotic arms for tasks such as planting and harvesting crops, with the crops being directly packaged and transported to various locations.
Dining Hall
Industrial Area
Utilizing the products produced within the prototype to centrally supply food. Surrounding residents can visit the dining hall for meals.
Processing agricultural products, producing agricultural byproducts, and transporting them to dining hall and supermarkets.
Warehouse
Transportation
Utilizing robotic arms to package, categorize, and transport the factory-processed goods.
The prototypes are connected by railways to enhance transport efficiency , allowing residents to reach different prototypes by train.
Dining Hall: 9000 m², serving 7500 people Research: 18000 m², serving 3000 people Exhibition: 4500 m², serving 600 people Supermarket: 4500 m², serving 1500 people Vertical Farming: 18000 m², serving 30000 people Industrial Area: 12000 m², serving 6000 people
The prototype consists of two interconnected buildings, with transportation facilities linking each unit. Functional areas for both daily living and production are situated on either side. The vertical farming serves as a self-sustaining food source for the surrounding residents, while agricultural and byproducts are automatically harvested, packaged, and transported to the dining Hall and supermarket via machinery.
Compound Axonometric Sectional Drawing
Possible prototype site selection
CHINA
compound
urban
HEBEI
rural
The compound is divided into two buildings, connected in the middle by a covered bridge to enhance production efficiency. There is a green space and a central plaza in the middle of the buildings.
The service radius of the prototype is 3km and 5km respectively . Each prototype is connected by transportation facilities and is situated in the transitional zone between urban and rural areas.
Location Analysis Although the site is located at the intersection of a major road in the center of Beijing, the overall area is in a low vitality state. There is a lack of resident activity spaces within the site and its vicinity. The site is enclosed, and the Tianning Temple is enclosed by residential buildings, resulting in low accessibility.
BEIJING
CHINA XICHENG DISTRICT
Road Analysis
Surrounding Business Analysis HARDWARE STORES CLINIC
CAFÉ
THERMAL POWER PLANT REVITALIZATION
SUPERMARKET
SITE: BEIJING,CHINA Individual Acedemic
CORNER STORE
Feb 26th,2023-Jun 18th ,2023 Instructor : Shang Qian
RESTAURANT
The site is located in the central part of Beijing, China, and is a historical district where historical relics, industrial heritage, and residential areas coexist. The Tianning Temple Pagoda was built a thousand years ago and gradually declined a hundred years ago. In the past forty
RESTAURANT
MAIN ROAD
SECONDARY ROAD
PRIVATE ROAD
SHOPPING MALL PUBLIC FUNCTIONS
HOSPITAL
BANK PRAVITE FUNCTIONS
years, to meet the heating needs, the government built a thermal power plant. The Tianning Temple Pagoda was buried in a chaotic residential area and industrial buildings, and the large chimney of the thermal power plant directly weakened the visual aesthetics of the ancient pagoda. However, with the shutdown of the thermal power plant, the factory buildings were idle, the functions of the area were
Nolli map
Functional Analysis
relocated, and the area was in a semi-abandoned state. The three urgent issues that need improvement are the low quality of residents' lives, the low visibility of historical relics, and the low vitality of industrial heritage. Due to the good performance of the existing structure, I hope to retain the original structure of the factory buildings. Combining the original functions of the thermal power plant and record factory in the area, I integrate industrial heritage museum, community activity center, and performing arts space, incorporating outdoor activity spaces to improve the quality of life and vitality of the area. I choose to place the heritage museum in the boiler room, and the performing arts space and activity center in the main factory building. I use corridors to connect the originally independent six boiler rooms into a whole. For the main factory building, I convert the original double-height space into two levels, dividing the space with a line of sight to the Tianning Temple Pagoda, creating an interactive spatial experience between the upper and lower levels. For the site design, I designate the west square adjacent to the main road and railway as a more vibrant square that can accommodate more activities. Performances, markets, sports, and other activities can take place in this square. As for the east square, it is adjacent to the quieter Tianning Temple, so I design it as a square with a higher proportion of landscaping, providing a place for residents to stay and relax, distinguishing between the two squares with different dynamics.
INACCESSIBLE
ACCESSIBLE SCHOOL
OFFICE SCHOOL TEMPLE RENOVATAED PLANT UNRENOVATAED PLANT DAILY LIFE RECORD PLANT
Site History
Site Strategy
The western side of the site is adjacent to railway tracks and a residential area, but the site is enclosed by factory buildings, making it very closed-off. Therefore, the factory buildings on the western side of the site are removed to open up the interface and introduce pedestrian flow.
This design primarily revitalizes and updates the main factory building and boiler room. Part of the buildings on the eastern side of the site were demolished to allow for a closer connection between the residential area on the south side of the site and the Second Ring Road.
In order to create a landscape where the chimney and Tianning Temple Pagoda stand side by side, the two boiler rooms in the line of sight were updated with structures that minimize obstruction, allowing pedestrians on the west side to have a direct view of the landscape.
The division of the square is also based on the line of sight. The west side of the square serves as a space for resident activities and markets, while the east side is primarily designed for landscaping, distinguishing the functions between the two sides of the square.
Axonometric Drawing
Structural Analysis
Due to the favorable structural performance of the original boiler room, the concrete frame and steel roof are retained. The added corridor is fixed to the original frame structure of the boiler room.
Current Status of Boiler Room
Proposed Design
Retaining the original structure of the factory building, removing the original walls, and adding shear walls to support the second-floor slab, with beams adapting to the direction of the shear walls.
Current Status of Factory Room
Proposed Design
On the first floor, at the gray space, one can directly access the residential activity space or public spaces such as the cafe, with the volumes of the first and second floors interlocking and stacking.
In the square on the west side of the building, there are markets, recreational facilities, and other functions for residents to use. In addition, daily performance information is also announced on the facade.
Extracting the imagery of ancient thatched cottages, which were often located in the midst of natural forests, blending harmoniously with nature.
WOOD
+
RAW EARTH
+ the on-site raw earth for rammed earth construction
URBAN LOUNGE
SITE: ANHUI,CHINA Individual Acedemic Mar 1st,2022-Jun 24th ,2022 Instructor : Mu Jun, Jiang Wei
Urban lounge starts from imitating the architectural form of ancient thatched houses, extracting two building elements: wooden frame and rammed earth. I chose the wooden frame as the structural system, and the rammed earth as the enclosing system. Considering the prevailing wood processing methods, I hope to use a standardized construction system to restore the thatched house. So, I used 150*150mm wooden components and later applied them in locations like pillars and beams. The project is located at the northwest corner of a park in Qianshan, Anhui Province. The original land condition was relatively hard, so I chose a shallow foundation as the foundation. I analyzed and designed the connection methods between the wooden columns and the foundation, as well as between the wooden columns and the wooden roof frame. The north side of the site faces the urban area, and the west side is adjacent to the old city. I divided different functions into five small volumes, connected from the southwest to the northeast of the site. Facing different street attributes, I incorporated corresponding functions. The volume on the far west side, near the old city lacking spaces for resident activities, includes resident activity rooms and bathrooms. The volume on the far east side faces the new urban area and is close to the main entrance of the park. Therefore, I placed a cultural and creative shop here. The multipurpose hall is located in the most important position, and the two volumes facing the lake are used as a tea house and a cafe. Finally, I chose the most important multi-functional hall for detailed design, analyzed the characteristics of raw earth as a material, coordinated with the wooden frame, and completed the structural design.
150mm*150mm wooden components
Extracting two materials from thatched cottages: wood and raw earth. I hope that through these two materials, the building can better blend into the natural environment.
residential activity space
Roof Structure
cafe cafe
multipurpose hall
tea house
cultural and creative shop
Enclosure Structure
Support Structure
Multipurpose Hall
Multipurpose Hall Roof (including side windows) 1:50
1 20mm anti-corrosion wood board 2 30mm metal sheet 3 Waterproof layer 4 20mm laminated wood plank 5 100mm insulation layer 6 20mm laminated wood plank 7 300*150mm wood purlin 8 50mm wood board 9 Aluminum alloy window frame 10 Double-layer glass Metal aluminum frame: 8mm tempered glass + 14mm air gap + 8mm tempered glass 11 150mm high reinforced concrete ring beam 12 450mm thick rammed earth wall 13 150mm*600mm wood beam 14 40mm angle steel 15 Reinforced concrete floor beam 16 150*150mm laminated wood column 17 30mm anti-corrosion wood board, slope 3% 18 75*50mm steel beam 19 75*50mm steel beam 20 20mm wood ceiling
Canopy and Multipurpose Hall Roof 1:50
Canopy and Multipurpose Hall Foundation 1:50
21 120*120 wood column 22 Anti-corrosion wood floor 23 Concrete leveling layer, slope 3% 24 50mm plain concrete 25 250mm compacted loess 26 300mm*180mm drainage ditch 27 Compacted loess
ARCHITECTURE
PORTFOLIO 2021
2023