ARCHITECTURAL PORTFOLIO VAHID KHABBAZAN 2024
Vahid is a dedicated architectural technologist, bringing forth more than 3 years of experience. My expertise spans diverse design and execution phases, contributing to successful projects in locations such as Germany, Italy, Monaco, China and Saudi Arabia. He is committed to consistently discovering creative and optimized solutions for complex tasks, ensuring the delivery of high-quality and efficient designs. He believes “everything is possible if one has enough nerve.” [email protected] Toronto, Canada PROFILE Intern in R&D Team | Alum-glass Tehran Facade Consultancy Work-student | Moshaveran Iran (Technical and Engineering office) November 2021 - July 2022 Rome, Italy September 2020 - December 2020 Mashhad, Iran June 2016 - August 2019 Mashhad, Iran Feasibility study, schematic design and design of variety of international projects and competitions. Direct role in consulting with international clients. Algorithmic form finding. Generative designing. Optimization for fabrication. Active collaboration with BIM team. LOD 100 - LOD 200 - LOD 300 September 2022 - January 2024 Munch, Germany Architectural Designer | Kehrbaum Architekten Computational Designer | Studio Fuksas Development of detailed drawings and documentations based on building code with active coordination with engineering and collaborating offices for complex residential housing with 1000 units, discussion with products consultants to enhance project detailing and assuring alignment of client expectations. Management and optimization of BIM model. Performing environmental and energy simulations. LOD 350 - LOD 400 - LOD 500 Development of 2D and 3D models of details and connections. Optimization of curtain-wall panelling to minimize production waste. Performing environmental and energy simulations. LOD 300 - LOD 350 - LOD400 Design development and drafting of mainly residential apartments LOD 200 - LOD 300- LOD 350 EXPERIENCE EDUCATION 2019 - 2022 Milan, Italyt 2014 - 2019 Mashhad, Iran 2009 - 2013 Mashhad, Iran Master of Science in Architecture Bachelor’s of Science in Architecture Politecnico di Milano | Summa cum laude (GPA 110/110) Ferdowsi University of Mashhad Diploma in Mathematics and Physics National Organization for Developmental Exceptional Talents
COMPETITIONS SOFTWARE SKILLS LANGUAGE SKILLS WORKSHOPS Guangzhou Airport City | China | Studio Fuksas Team The line, NEOM| Saudi Arabia | Studio Fuksas Team Selected project South Resort, NEOM | Saudi Arabia | Studio Fuksas Team Selected project Montacchiello 2025 | Pisa, Italy | Studio Fuksas Team Selected project International VELUX competition | Individual 2022 2022 2022 2022 2020 Hybrid Futures: Skyscrapers for future mega-cities | Individual Honourable mention 2019 Swarm Intelligence: Generative form finding based on simulation of flocks’ behavioural strategies to generate complex skins and lightweight structures Craft Workshop: Digital fabrication project rooted in Geometry and Math, Rethinking Felix Candela’s research on Thin-shell structures and combining it with Computational Design Tools, and Robotic Fabrication 2022 - 2 Week Milan, Italy 2021 - 2 Week TU-Delft, Netherlands Digital Futures: Hybrid Intelligence computational design-to-prototyping workshop exploring multi-materiality in digital design and fabrication “Heteroduino” Workshop: Design and construction of an open-source graphity tool using Arduino, Rhino and Grasshopper 2018 - 4 Weeks Tehran, Iran 2018 - 4 Weeks Tehran, Iran PEER-REVIEWED PUBLICATIONS 2018 V. Khabbazan, M. Davoody: “Usage of computational methods for studying and renovation of Islamic patterns — Case study of 4-8-8 Star-Pattern”; International Congress on Avant-garde Contemporary Architecture and Urban Planning in Islamic countries. Rhinoceros 3D| Grasshopper GH-Python | SketchUp | AutoCad Archicad | Revit Midas Gen | Kangaroo | Karamba Lumion | Photoshop | InDesign Microsoft Office suite Ladybug & Honeybee | Velaux Pachyderm | Topos 3D Modeling BIM Structural Modeling Presentation & Documentation Energy Analysis / Simulation English : Fluent German : A2 Persian : Native HONOUR & AWARDS Outstanding Thesis Award :Selected as the best architecture thesis by a highly Competitive academic committee | 2023 Politecnico di Milano Merit Fund Recipient | 2019
TABLE OF CONTENT PROFESSIONAL ARECONSTRUCTION OF FONTEVIELLE NEOM - THE LINE THE LINE proposes a city that can house up to 9 million residents while utilizing only 2% of the land footprint of cities with a similar population. Role: Computational designer LOD: 100|200|300 Restructuring of the new site of Fontvieille, intended to reinvigorate the district and the port of Fontvieille in Monaco. Role: Computational designer LOD: 300|350|400 In the outskirts of Geretsried, a private investor is transforming an unused area into residential units. The project allocates 30% of rentals for state-subsidized, affordable housing, prioritizing low-wage earners. LOD: 300|350|400|500 2022 2023 17 32 43 24 53 23 2023 2022 2021 2021 URBAN NEIGHBORHOOD OPUS.G
CADEMIC COMPETITION HYBRID FUTURES The new Moscow Public Hub, situated alongside the Moscova River and nestled within a protected green zone adjacent to the Moscow Business Hub, stands as a social condenser blending public and communal spaces with private business towers. rigate is a hybrid responsive wearable system aiming to provide a democratic and decentralized social protection by analyzing signals as well as reading the proximity level of an individual. rigate is a hybrid responsive wearable system aiming to provide a democratic and decentralized social protection by analyzing signals as well as reading the proximity level of an individual. Space is consisting of multi-layers like transportation, working, living, and the Presence of every individual person. The project “Fluid Spaces” is an architectural response to all these dynamic interactions. The undertaking involves crafting a cuttingedge hockey arena for the impending Winter Olympics in 2026, set in the southeastern expanse of Milan amidst anticipated development. The undertaking involves crafting a cuttingedge hockey arena for the impending Winter Olympics in 2026, set in the southeastern expanse of Milan amidst anticipated development. 73 75 79 2020 2021 2016 DIGITAL FUTURES REIN-VISIONING OF FELIX CANDELA HOCKEY ARENA PUBLIC-HUB TOWER STUDENT HOUSING
RECONSTRUCTION OF FONTEVIELLE SITE STUDIO FUKSAS LOCATION: FONTVIEILLE, MONACO ROLE: COMPUTATIONAL DESIGNER STATUS: UNDER CONSTRUCTION The project steers the structure outward, extending its orientation towards the horizon, establishing fresh connections with the surrounding environment and the natural panorama encompassing everything from the island of Ranieri III to the sea. This trajectory traverses Canton Square, the Animal Garden, the cable car station, and avenue Albert II. The design draws inspiration from the natural elements prevalent in the vicinity: the sea on one side and the lush slopes of the Mediterranean hills on the other. The graceful curves within the architectural design evoke the rhythmic motion of the waves and the contours of the seabed. These curves not only reflect the geometry of the building but also conceptualize it as an extension of the Rock, seamlessly transitioning from the mountain to the sea. The structure features levels that gracefully overlay on terraces, providing outdoor spaces adorned with indigenous plant elements. The inspiration behind the concept is drawn from the observation of the natural elements inherent to the location: the sea and the verdant slopes of the Mediterranean hills. The sinuous lines evoke the undulating motion of the waves and the contours of the seabed, mirroring the distinctive features of the Monegasque landscape. These graceful curves gradually descend towards the sea, traversing Fontvieille, renowned for “The Rose Garden,” and harmonizing with the pastel hues of its buildings. MONACO . 2021
The distinction between interior and exterior blurs as the expansive hanging garden, situated at various levels, imparts a fresh architectural identity. Each floor features a substantial aperture that links the interior space with commercial terraces, offering panoramic views of the entire structure, extending from the highest point to the sea. The ecological dimension constitutes a pivotal element of the project, with its influence on the site fostering the creation of a “Green corridor” stretching between the Rock and the Exotic Garden. The incorporation of greenery into the building seamlessly integrates nature into the urban environment, establishing a novel landscape that extends all the way to the sea.
The structure spans five levels, each distinguished by a color associated with a natural element. The ground floor embraces a red hue, reminiscent of the tiles in Monaco’s historic center; the first floor adopts a blue shade, mirroring the color of the sea. Moving up, the second floor features a lavender tone, inspired by the flowers found in the south of France; the third floor showcases an ocher color, echoing the hues of surrounding facades. Finally, in the hanging garden, the gray evokes the cliffs of the Cote d’Azur. These colors permeate the floors, furnishings, and ceilings. Organically shaped drops of color, crafted from sandstone or marble, define each floor and are replicated on the ceiling, illuminated by colored LEDs. Furniture, also designed with organic lines, is constructed from fiberglass. The new Fontvieille site embodies a contemporary, fluid, and organic architectural design. Commercial spaces unfold along a covered area, seamlessly connecting with the outdoors. At every level, the central space opens onto a terrace facing the sea, establishing a harmonious dialogue with natural elements like views of Fort Fontvieille Rock and the infusion of natural light into the mall.
URBAN NEIGHBORHOOD BANATER STREET KEHRBAUM ARCHITEKTEN ROLE: ARCHITECTURAL DESGINER | BIM ARCHITECT STATUS: UNDER CONSTRUCTION At the crossroads of a commercial area and a smallscale settlement on the outskirts of Geretsried, a large area of land lay unused for many years. Since apartments were already scarce in Geretsried, an investor decided to build residential units at this location. The plan was to construct family and senior-friendly apartments and a high percentage of affordable, subsidized housing. The “Geretsried Model” was created especially for this neighborhood: 30% of all rental apartments are now state-subsidized and are available to low-wage earners. Key characteristics 770 Residential units 25 Commercial units 100 lodging units Kindergarten Total area:47000 m2 Total green area: 11,200 m2 with 650 trees TIME LINE MY INVOLVEMENT 2015 JAN. 2022 SEP. 2023 JUN. 2024 NOV. 2024 JAN. PROJECT START Zone 1&2: Design development Zone 3&4: Design development Zone 1&2: Constructional drawings Zone 1&2: Construction Zone 3&4: Constructional drawings Zone 5&6: Design Development GERMANY . 2023
SITE PLAN ZONE 1 ZONE 3 ZONE 5 ZONE 6 ZONE 4 ZONE 2
VIEW: ZONE 1 - INNER COURTYARD VIEW: ZONE 1&2 CONSTRUCTION VIEW: ZONE 1&2 - CONSTRUCTION VIEW: ZONE 6 - LODGING
ZONE 2 STREET FACADE - VEGETATION SYSTEM
NEW PUBLIC HUB FOR MOSCOW Thesis project Date: October 2023 Location: Moscow, Russia Selected as the best Architectural thesis of 2023 in Politecnico di milano The new Moscow Public Hub, situated alongside the Moscova River and nestled within a protected green zone adjacent to the Moscow Business Hub, stands as a social condenser blending public and communal spaces with private business towers that dominate the surroundings. Comprising 32 levels, this high-rise structure boasts two concert halls and serves a diverse range of purposes. The first two floors house a market, functioning as a public buffer zone seamlessly linking outdoor public areas to semi-public functions. The multi-functional art hub within the high-rise encompasses a variety of amenities, including a library, art gymnasium, recording studios, workshops, galleries, and more, spread across two towers.
CANTEEN Market as a buffer Vertical void Balconies CONFERENCE ROOMS GALLERIES MULTI MEDIA START -UP CENTERS TECHNICAL ROOMS STRUCTURAL BELT TECHNICAL ROOMS STRUCTURAL BELT TECHNICAL ROOMS STRUCTURAL BELT TECHNICAL ROOMS STRUCTURAL BELT DIGITAL ART WORKSHOPS MUSIC CENTER RECORDING STUDIOS MINISTRY OF CULTURE PUBLIC LIBRARY CO-WORKING SPACES SCULPTURE WORKSHOP MUSEUM CONCERT HALL CONCERT HALL PUBLIC OFFICES PUBLIC MARKET FUNCTION DIAGRAM 1) 2) 3) 4) Structural belts 4) Concert halls Moscow new public hub is aimed to play role of a “social condenser” in Moscow business center. Approaches to creating the built form of a “social condenser” include the intentional overlapping and intersection of programs within a space through circulation. In this example, shared circulation nodes create collision zones of varied constituencies. These collision areas are designed as points of confluence in which otherwise disperse communities are forced to interact.
Main cores and vertical accessibility for towers and podium Natural ventilations Panoramic views in concert halls Entrance to market | Path over the market Greenery in 3 main terraces of the building Horizontal accessibility A linearly extended market seamlessly links a train station to the Moscova river. The central atrium accommodates numerous flexible spaces and kiosks, providing local vendors with an opportunity to create and showcase their products, fostering a strong sense of community. PUBLIC MARKET PUBLIC MARKET TOWER ENTRANCE
MARKET PLACE | PARKING MARKET SECOND FLOOR MARKET FIRST FLOOR PARKING
CONCERT HALL 9TH FLOOR : CONCERT HALL SUPPORTING AREA - MULTI-FUNCTIONAL RECORDING STUDIOS 10TH FLOOR : CONCERT HALL - MULTI-FUNCTIONAL RECORDING STUDIOS 11TH FLOOR : CONCERT HALL SECOND FLOOR 10TH FLOOR : CONCERT HALL SECOND FLOOR 9TH FLOOR : CONCERT HALL BACKSTAGE
KERFONIC WALL PANELS POSITION CURVATURE OPTIMIZATION 0.2 0.5 0.85 Wooden battens HE360B Plywood Testing reverberation time to assure of correct range and optimizing wall panels curvatures in accordance. Typical values for reverberation time in Concert Halls are 1.7 to 2.3 sec CANTILEVERED SEATING AREA Steel balustrade ACOUSTIC GLASS WALL REVERBERATION TEST
STRUCTURAL DESIGN PROCESS LOAD PATH DIAGRAM EXPLODED DIAGRAM ISOMETRIC VIEW Given that the primary cores are not located at the center of the mass of each tower, each tower will face and enormous bending force. Four belts with the height of one level are added to connect the towers and create a unite structure SUNLIGHT CORE2 CORE1 BELT3 BELT1 CORES MASS BEAM UNDER COMPRESSION BEAM UNDER TENSION BELT STANDING ON BELT CORE MARKET AUDITORIUM HANGED FROM BELT
TOWERS STRUCTURAL ANALYSIS BEAMS LAYOUT BELT STRUCTURAL ANALYSIS BOUNDARY CONDITION INITIAL BEAM LAYOUT DISPLACEMENT OPTIMIZED BEAM LAYOUT DISPLACEMENT DISPLACEMENT BEAM BENDING AXIAL FORCE MAX ULS: 1.37 CM MAX SLS: 20.4 CM MAX SLS: 6.7 CM MAX ULS: 6.96 KN/CM MAX ULS: 4694 KN TOWERS CONCERT FIRST FLOOR CONCERT SECOND FLOOR
Cement board flooring Timber planks Kenauf fiber insulation - 4.3 cm Profile 150 Cement board Clay Water resistant thermo wood Cement board Screed 4cm Composite decking - 11 cm Metal deck Screed - 3 cm Composite decking Metal deck Double layer stone wool - 15 cm Double layer stone wool - 15 cm MEP MEP Base profile Base profile HEB 400 HEB 400 Anchoring Anchoring Anchoring Mullion Cement board Cement board Gravel Screed - 4cm Composite decking - 11 cm Metal deck Double layer stone wool - 15 cm HEB800 Steel plate - 45 mm Flanged connection HEB600 Kawneer curtain wall model 7550 - triple glass Kawneer curtain wall model 7550 - triple glass Kawneer curtain wall model 7550 - triple glass Kawneer curtain wall model 7550 - triple glass Blinding Blinding 7th FLOOR TECHNICAL FLOOR 9th FLOOR INTERIOR 10th FLOOR BALCONY 8th FLOOR INTERIOR Prefab belt corner joint Anchoring Epoxy finishing Screed - 55mm Composite decking - 11 cm Metal deck Stone wool double layer - 15 cm HEB800 Steel plate 45 mm Flanged connection HEB450 Prefab belt corner joint BELT | TECHNICAL FLOOR WALL SECTION BALCONY | GENERAL TOWER FLOOR WALL SECTION
Aqua panel cement board inside - 1.2cm Cement board inside - 1.2cm cement board inside - 1.2cm thermal insulation thermal insulation fixed window - MC Parilla cement board outdoor aqua panel render system PVC corner profile 90 77 104 75 104 79 113192 200 Cement board indoor floor - 1.2c m Heat conducting plate - 0.2 cm Heat pipes - 1.2 cm Screed - 2 cm Thermal Barrier - 2 cm Ribars Reinforced concrete Metal deck Insulating strips 0.6 cm Permanently flexible sealant 0.6 cm Aqua panel mineral fiber insulation - 4cm corner protection uw runner ua profile ua profile water barrier boxed profile Kenauf UD profile UW Profile Kenauf fixing INTERIOR INTERIOR EXTERIOR EXTERIOR EXTERIOR INTERIOR FACADE SYSTEM DRY WALL HVAC SYSTEM - VARIABLE REFRIGERANT FLOW FACADE SYSTEM CURTAIN WALL BELT PREFABRICATED JOINTS 8 Types of prefabricated joint with welded connections will be produced in factory. Belts will be assembled on site only with flanged connections between beams and joints.
HOCKEY ARENA Milano Winter Olympic - Cortina 2026 Project: Educational Date: January 2021 Location: Milan, Italy Softwares: Rhino - Grasshopper - Autocad - Photoshop The project involves constructing a new hockey arena for the upcoming Winter Olympics in 2026 in Milan. Positioned in the southeast of the city, the site is situated in a zone earmarked for future development, making the project a prospective central hub for the region. The challenge is to design a functional project that addresses current needs and objectives while establishing its significance over the next three decades. Additionally, careful consideration is given to its integration into the urban fabric of Milan.
LADY BUG ANALYSIS MASTER PLAN URBAN SECTION SUN-ROSE 1-1-D3/WIND-ROSE RADIATION
MASTER PLAN - 1:500 GROUND FLOOR FIRST FLOOR SECOND FLOOR FUNCTION DIAGRAM 0- COMMUNICATION PATH - RESIDENTIAL BLOCKS - EXISTING - RESIDENTIAL BLOCKS - DESIGNED /3A/3B- ARENA SQUARE
CIRCULATION DIAGRAM EXPLODED AXONOMETRIC 1 | GAME DAY 2 | EXHIBITION DAY 3 | ACCESS TO THE 2ND ROW OF TRIBUNE 3 | ACCESS TO THE 3RD ROW OF TRIBUNE On a game day arena levels is mostly used by stuff and athletes, therefore we have limited entrance usability of the level, while potentially we can use it for evacuating people during accidents using big flooding exits on short sides. However we can see most of the funs are using ground floor level as it provides access to the most of the parts of arena. Including also toilets, catering services and other important facilities. Flow of the people take place through big openings placed on the short sides of : arena, leading directly to the level and providing direct accessibility to all required facilities during events of such type. it also creates a unique flow of the people coming along the arena and creating additional attractors on field : level as well as on side squares. Access to the first floor provided by the exterior independent stairs, in this case we assume that tribunes can be used for a games as well as for some other type of social event like concerts, therefor logic of taking your seat is teams one we used on the ground floor. Exit strategy i to use stairs as additional way of fire escaping on the lower tribunes. Higher tribunes are only accessible by independent stairs and provide unique and fast way of reaching seats. Exit strategy as well to use those stairs as they directly lead out of inner part of the arena without interaction with inner facilities and blocking of the passages.
HVAC STRATEGIES Design strategy regarding heating and cooling for the purpose maximum energy efficiency is to create two different zones: Zone 1- hot zone for audiences Zone 2 - cold zone for hockey rink The Ideal Condition Is To Approach A Temperature Gradient Of 1 Degree C/M. To Do So, Creating Two Thermally Separated Virtual Zones Should Be Considered. This Means That Two Different Temperatures Are Maintained In Two Warmer And Cooler Zones. The Warmer Zone Is For The Spectators, And The Cooler Zone Is For The Players. Therefore, It Is Reasonable To Supply A More Customized And Localized Air Conditions To Each Zone, And Then Extract Them From The Same Zone. FRESH AIR FRESH AIR SUPPLY AIR SUPPLY AIR REC AIR AHU CAV CAV CAV PLENREXTRACT AIR EXTRACT AIR CC1 CC1 HX1 HX1 HC1 HC2 DA1 DA1 DA2 DA2 DA3 DA3 FA2 FA2 FA1 FA1 EXHAUST AIR EXHAUST AIR
ELECTRONIC WINDOW TO AHU UM REC AIR FRESH AIR MODULAR SEATS GLASS PARAPET CONCRETE SLABS LIGHTWEIGHT SLABS CURTAIN WALL REINFORCED CONCRETE ELEMENT FOUNDATION PLINTH LEAN CONCRETE CONNECTION BETWEEN PLINTH FOUNDATION PILE SOIL REINFORCED CONCRETE SLAB EGLOS/ CRUSHED STONE TUBE FOR AIR CIRCULATION SCREED WATERPROOFING CONCRETE SCREED WATERPROOFING FIREPROOF DOOR WITH GLASS PANEL CREATE NATURAL VENTILATION
MEP STRATEGIES SPACE HEATING: 67% WARM WATER: 17% MELTING SNOW: 16% To exhaust the air and creating natural ventilation electric windows has been utilized in top of the arena It is proposed to use transparent solar panels in our facade system to make advantage of solar energy as much as possible, The saved energy will be used in different parts like compressor, condenser, lighting, HVAC and etc .. Using technologies like LSC solar panels will make it possible to create the proper color temperature for each space using solar light during the day-time and also block ultraviolet light range. Compressor 47 % Brine pumps and condenser fans 14 % Ice-surface lighting 12 % Lighting 2 % HVAC appliances (pumps, fans, controllers,Other consumption (cafe, cleaning, outdooDehumidification 4 % Arena has a double-curved roof to lead rainstorm water to the corners and from there the water will be gathered in a tank in technical level, which will be eventually used for fire-protection and gardening of the surrounding park. Direct refrigeration system Is utilized, which is more energy-efficient compared to indirect system. Even though it is harder to implement this system and is more costly at the beginning, compared to arena large function it is more suitable. Putting the cooling pipe in along the longer span as is recommended by IHF guidelines and is more energy sufficient due to less number of turns.
WATERPROOFING MEMBRANE BASE PLATE BEAM ICE ELECTRICAL JUNCTION BOX REFRIGERATED SLAB DRAINAGE REFRIGERANT PIPE REFRIGERATED SLAB FITTED RUBBER GASKET POLYSLIP SHEET THERMAL INSULATION SLIP SHEET HEATING PIPE PROTECTED BOARD WATER PROOFING DRAINAGE CONCRETE TOPPING BEAM GASKET LEVELING CONCRETE L Profile IPE IPE - STEEL STAIR STEEL PARAPET IPE FINISHING OF STEPS FINISHING ALUMINUM PROFILE SCREED STEPS etc.) 9 % or lights, etc.)12 %
STUDENT HOUSING Scalo Farini Student Housing High-rise Project: Educational Date: July 2020 Location: Milan, Italy Softwares: Rhino - Grasshopper - VisualARQ / Revit Autocad - Lumion - Photoshop A 31 level student housing for the accommodation of 500 students has been proposed. The design is considered within the master plan of Scalo Falini. The high rise is directly connected to the Lancetti metro station in underground. The main objective of design was creating a vertical neighborhood. To achieved this important goal our approach was to focus on connections and conjunctions in vertical instead of horizontal. As result we designed modules stacked on top of each other and completing the whole Eco-system.
The tower is going to be connected to the new Linate metro station in the underground with some public shops, a car and bicycle parking. Then the building it self is divided into 4 different blocks. First block includes common areas as a small auditorium, library, restaurant and offices. Block B and C are for living areas and Block D is for common functions as gym and study rooms. BLOCK C STUDENTS ROOMS BLOCK D COMMON CORE A CORE B COLUMNS TRUSS & SUPPORT BEAM VOIDS COMBINATION VERTICAL VOID DIRECTED TO SOUTH EAST HORIZONTAL VOID B HORIZONTAL VOID A HORIZONTAL VOID C VERTICAL VOID BLOCK B STUDENTS ROOMS BLOCK A - PUBLIC
The central void directed to south-east which invites light inside, rooms and half of the balconies open to that, 3 horizontal voids are designed as gathering spaces.
1- Double Room 2- Communal Kitchen 3- Balcony 4- Bridge 5- Residential Vertical CircFloor Plan - Typical Floor Kitchen + Double Ro
culation oom (Level: -1.65) Floor Plan - Typical Floor Single Room (Level: +1.65) Floor Plan - Common Area - Floor Accessible Rooms 1- WC + Vending 2- Game Room 3- Residential Vertical Circulation 4- Fire Escape Hall 5- Fire Escape Staircase 6- Waste Management 1- Shared Room Terrace 2- Single Room 6- Fire Escape Hall 7- Fire Escape Staircase 8- Waste Management 9- Storage 7- Storage 8- Corridor 9- Common Kitchen 10- Accessible Room 11- Single Room
The main objective of the design was to creatwas to focus on vertical connections and conjstacked on top of each other, completing theAnother benefit of this approach was significTYPICAL HORIZONTAL DISTRIBROOMS AND MODULVERTICAL STACKING INTEGRATION BETWEDIFFERENT ROOMS
te a vertical neighborhood. To achieve this important goal, our approach junctions, rather than horizontal ones. As a result, we designed modules e entire ecosystem. cant space savings and an increase in the number of units. Elevation of a typical bay of modules Exterior Facade Elevation of a typical bay of modules Interior Facade BUTION OF LES GEN S3D - Room Module
DETAIL 1 DETAIDETAIL 2 DETAI
DETAIL 1 L 3 DETAIL 3 DETAIL 5 DETAIL 5 DETAIL 2 L 4 DETAIL 4 DETAIL 6 DETAIL 6
LOAD TRANSFER SCHEME STRUCTURAL DESIGN LOAD TRANSFER SCHEME CONNECTION BETWEEN TRUSS & PILLARS