Joanna Oon - Architecture Portfolio (B.Arch.Sc.) by Joanna Oon

S E L E C T E D W O R K S // ARCHITECTURE & DESIGN

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PORTFOLIO

JOANNA OON

B.ARCH.SC.

JOANNA OON

B.Arch.Sc. T: +1 (416) 846-8088 E: jjoannaoon@gmail.com linkedin.com/in/joannaoon/

To whom it may concern, As a recent graduate of the Bachelor of Architectural Science at Ryerson University, I am adept at carrying out a wide variety of designs and development projects and can readily conceptualize new ideas as needed. My key value as a contributing team player within the firm is versatility. I brand myself through my skill-set of being able to get my hands in about everything we do as a team or individually. With that, I would like to bring my skills and talents to be considered for a full-time Architectural Designer position within your prestige of practice. For the past year, I have been involved with planning and designing a variety of corporate projects and private ones, as an Architectural Designer at SSG Architecture Inc., Toronto. I am adept at designing and carrying out all aspects of the design phases until tender. My experience ranges from working with clients and engineers to determine the needs of preparing design presentations and proposals, a comprehensive understanding of the Ontario By-Law and construction administration and documentation. With my bachelorâ&#x20AC;&#x2122;s degree in Architectural Science and with more than 5 years of analog and digital design, I have developed strong expertise in design fundamentals, design software, and the capacity of learning new skills. My portfolio contains specific examples that perfectly illustrates my architectural knowledge, technical qualifications, and design experience. My portfolio represents the skills of a keen designer with a pragmatic and technically-driven approach. Thank you for considering my application. I would be much obliged if I could discuss in greater detail how I can benefit your firm in a future interview. Best, Joanna Oon (https://www.linkedin.com/in/joannaoon/)

JOANNA OON

B.Arch.Sc. T: +1 (416) 846-8088 E: jjoannaoon@gmail.com linkedin.com/in/joannaoon/

EDUCATION 09/2015 - 04/2019

Bachelor of Architectural Science Ryerson University | Toronto, Canada. 09/2012 - 04/2014

GCE A-levels Diploma

RAK Academy | Ras Al Khaimah, United Arab Emirates. 09/2010 - 04/2012

GCE O-levels Diploma

Victoria English School | Sharjah, United Arab Emirates.

ACHIEVEMENTS 04/2019

Ryerson University Dean’s Honor List | 4th Year 05/2016

CANstruction | People’s Choice Award 09/2015

Reimagining O’Keefe Lane Design Competition | Honorable Mention 09/2015

Ryerson University Entrance Scholarship | 1st Year

INDEPENDENT PROJECTS & INSTALLATIONS 02/2017

Fabrication Team

Nuit Blanche Toronto | OCEAN by Philip Beesley Architects 06/2016

Design Team

Luminato Festival (Published in Urban Toronto) | Hearn Generating Station, Toronto. In collaboration with Omar Ghandi, the conceptual future design of the Hearn Generating Station being integrated with Toronto’s urban infrastructure. 05/2016

Design Team

CANstruction | Toronto, Ontario.

Design and assembly of charity art display comprising of food donated cans. 12/2015

Design Co-Lead

O’Keefe Lane Design Competition (Honorable Mention) | O’Keefe Lane, Toronto.

Redesigning the existing atmosphere O’Keefe Lane by integrating the history of Ryerson’s Kerr Hall and the urban fabric of downtown Toronto. 06/2015

Design Team

Sukkahville Competition | Toronto, Ontario.

Participated and design an innovative approach for 2015’s Sukkahville, utlizing poles and fabric. 04/2014

Logistic Coordinator

Night It Up | Markham, Ontario.

Coordinated the circulation and placements of food trucks, along with the distribution of engines and electrical cables through out the event.

PROFESSIONAL EXPERIENCE 10/2017 - 04/2018

Architectural Designer SSG Architecture Inc., Toronto

- Worked alongside Project Manager on basement renovations of Tennis Canada Aviva Centre - Design basement for water bath, locker rooms, office rooms, change rooms for athletes of Tennis Canada Aviva Centre - Update basement plan for Tennis Canada Aviva Centre (in construction phase) - Prepare Change Orders (CI) and Request for Information (RFI) - Floor plans, elevations, sections for George Brown College (in development phase) - Worked alongside JET Design Principal and Designer on 3450 Wolfedale renovation (in development phase) - Configured construction drawings for 3450 Wolfedale - Assisted in parking study for application of minor variance of 3450 Wolfedale

AFFILIATIONS 09/2015 - 04/2019

American Institute of Architectural Students | Student Associate 09/2017 - 04/2019

AIAS Mentorship Program | Mentor

Mentoring Ryerson Architectural Science Undergraduate candidates over the course of two school years with academic and technical support. 09/2017 - 04/2018

ARC.SOC | Marketing Associate

Managing, budgeting and scheduling arc.socâ&#x20AC;&#x2122;s finances accordingly over the course of a school year by funding student projects and other extracurricular projects.

SKILLS

BIM / 3D Modeling | Revit 2020, Sketchup Pro, Rhino 5/6 Render Engines | Vray for Rhino, Vray for Sketchup, Lumion 10 VR Render Engines | Autodesk Live, Enscape 8, Revit Walkthrough 2D / Drafting | AutoCAD 2019, Revit 2019 Graphic Enhancement | Adobe Photoshop CC2018, Adobe Illustrator CC2018, Adobe InDesign CC2018, Adobe Lightroom 5.6, Adobe Premier Pro, Adobe After Effects Technical Fabrication | Model-making, Wood working, Hand-sketching Digital Fabrication | Laser-cutting, CNC-fabrication, 3D-printing

REFERENCE

Yew-Thong Leong, OAA, FRAIC, FIIAS ytleong@ssgarch.com, 416 712-6498

Jean-Paul Guay, Project Manager @ SSG jeanpaulguay1@gmail.com, 905 809-1932

Veronica Madonna, OAA, MRAIC, M.Arch, B.E.D.S., B.Arch.Sc veronica.madonna@ryerson.ca, 416 937-8007

TABLE OF CONTENTS ACADEMIC PROJECTS

MARKET OF THE FUTURE COURSE: ASC720

Option Studio 09/2018 - 12/2018 LOCATION: 318 Borden St., Toronto. DATE:

08-15

TRINITY SPIRITS DISTILLERY COURSE: ASC520/620

Integrated Studio I+II 09/2017 - 04/2018 LOCATION: 18 Trinity St., Toronto. DATE:

16-29

INDEPENDENT / INSTALLATIONS

MICROCOSM

Luminato Festival 06/2016 LOCATION: Hearn Generating Station, Toronto. PROJECT: DATE :

TESSALIGHT

ASC 755 Digital Tools 12/2018

COURSE: DATE :

30-33

34-39

MARKET OF THE FUTURE

01 // COURSE: Option Studio DATE: 09/2018 - 12/2018 INSTRUCTOR: Dr. Leila Marie Farah LOCATION: 318 Borden St., Toronto PROGRAMS USED:

Revit 2019, AutoCAD 2019, Photoshop, Illustrator.

Proposing the Market of the Future introduces a system of urban farming through robotic automation. The process of food production utilizes the system hydroponics. Unlike conventional farmer’s market, hydroponics cultivates a variety of vegetables, fruits and herbs, in controlled temperature, moisture and minerals, to farm only the highest quality produce. Within a controlled environment, the production facility is able to bring the optimum freshness to the surrounding community, promoting better health within the bustling City of Toronto. The market is designed to house the functionality of the Food Production Facility right next to the market for selling.

“BotFarm”

â&#x20AC;&#x153;Marketing is manufacturing a desire for things that people would not otherwise wantâ&#x20AC;?

Les Halles

Paris, France (1600s) Les Halles is a market with spatial conditions expressing structure, circulation and verticality.

St. Lawrence Market

Toronto, Canada (1980s) St. Lawrence market is about its grand scale vs human scale perception along with the lighting filtered into the market through its heritage windows.

Mercat Municipal a Sant Adria de Besos

Barcelona, Spain (2016) Mercat Municipal is about permeability as an extended plaza in the central of the municipality space.

A study model made to analyze spatial qualities of three different markets located in three different cities from three different centuries. 01 / Market Of The Future

ᰠ䈀漀琀䘀愀爀洀ᴠ

Identifying a market consists of studying how markets “make”, “unmake”, and thus “remake” society.

PARTI The design proposal focuses on promoting permeability through the site while creating a horizontal and vertical suspense of the Food Production Facility and market to create a language for the market of the future.

Night render of BotFarm proposal

The design proposal aims to underline existing problems of the market of not having enough land for fresh produce due to urbanization, the growth of population and ultimately the scarcity of sustainable production. Hence, the proposal of the Food Production Facility is achieved through vertical farming using the agricultural system of hydroponics. It is a system that cultivates fresh produce vertically by new agricultural methods, which combines the design of building and farms all together in a high-rise building inside the cities. This system is sustainable as hydroponics agriculture only requires optimum light, humidity, and nutrients being controlled for maximum crop yield. This technology is manifested within both the agricultural technique and architectural tectonics.

1:1200 SITE PLAN

SITE GRID

The building mass is orientated to face directly to the south sun for maximum sunlight.

ACCENTUATING CURRENT AXIS

Through public realms and entrances that also introduces permeability while accentuating the current axis despite the site grid rotation. 01 / Market Of The Future

RESPONDING TO SURROUND STREETS E + W entrance are publicly accessible entrances while N entrance is to extend the public realm to the street, and S entrance is more private.

FOOD PRODUCTION FACILITY

The Food Production Facility is functioning by a completely automated operation using sensors and actuators â&#x20AC;&#x201C; interaction of systems without human interference. There is a database which covers every information about the crops and the probable diseases. Even in conditions where the crops grow inside buildings, there is a need for outdoor weather when the ventilation system is taken into account. Information about the weather is gained from weather forecast in real time and based on this information appropriate decisions can be made. Information about the context is required to make the right decisions about selecting the controller. Knowing about the amounts of crops to be produced as well as probable diseases significantly affect the creation of a healthy environment for growing food preventing diseases. Within each of the towers, there are sensors and actuators that will record and transfer data to the operating room regarding any technical difficulties from the robotic system or any germination deficiency such as an unhealthy or diseased plant that needs to be brought to attention.. Within each tower, there are pipings for water supply from water tanks above each hydroponic tower as well as UV lighting system. Building Integrated Agriculture

Sustainable Agriculture Methods Sustainable Architectural Methods

Vertical Farming

Sustainable City

4. WATER SUPPLY (WATER TANK + PUMPS)

The water system is a sustainable system within the Facility as the water supply is recyclable. The system of recycling water comes from the supply of rainwater, snow, grey water and used hydroponic water collection and is brought into the basement of the building through a piping system that will collect the waste water into a reservoir. Then, processes such as heat pasteurization of heating and cooling the water will kill the bacteria and disinfect the water to be reused. Another system within the building is a UV disinfection where the water is being treated to kill harmful microorganisms in the water before being supplied back into the food production facility. If the water quality is insufficient to be reused, the system will generate fertilizers to be sold. The water that is being supplied back into the Food Production Facility is funneled into a cistern and pumped to the water tank above each hydroponic towers from which the water will then slowly fall down and irrigate the crops through gravity force.

3. ARTIFICIAL LIGHT (UV LED BULBS)

Maximum daylight will be brought it from the south sun. Sensors on the tower will monitor the intensity of daylight concentration. However sunlight mostly gets reflected on the glass surfaces so during the times when the sun intensity is low, or during the night, artificial lighting using LED bulbs or HPS (High-Pressure Sodium) bulbs installed around the railing of these hydroponic systems will provide a range of light intensity to help the growth of vegetation.

2. RACKING

With each cell being automatically planted with seeds, a railing system will transport each hydroponic tubes into the towers and a racking system will allow for the stacking of each of these tubes into the tower.

1. SEEDING

Supplies such as seeds for planting are stored in the storage room, next to a robotic arm that will automatically plant seeds into the allocated spaces in the hydroponic cells.

5. GERMINATION

With each hydroponic tubes being filled with seed, the water (w nutrients) will be pumped accordingly to the type of produce and at an optimum rate as it circulates itself around the Food Production tower until it is full-grown.

6. HEALING

On the second floor, between both volumes of the Food Production Facility is an operations room. This is where all the monitoring of data happens. Within this room, there is also a railing system from both the east and the west facility to transport any hydroponic tube with plants that needs special care.

7. PACKAGING/SELLING

The railing system extends into the market space to transport hydroponic tubes with fresh produce that is ready to be arranged and package. This is done within the allocated spaces in the market. The railing system will continuously supply each stall with produce and return empty tubes to be stored on the storage rack. Stalls are arranged in a way for maximum public and vendors interaction while also being able to see the railing system transporting fresh produce from within the Food Production Facility.

01 / Market Of The Future

The atmosphere of BotFarm addresses the existing use of site as a farmerâ&#x20AC;&#x2122;s market while including the concept of living verRender of market atmosphere tically and producing vertically through the concept of horizontal and vertical suspense. The market celebrates the future of robotic farming and addresses the digital age of sustainability issues in terms of resources being used for production.

1:500 GROUND PLAN

The layout of the market responds to programmatic needs by activating the ground-level access and the public realm. The building mass and programs also responds to the surrounding urban fabric in terms of form, functionality and maximum views and sunlight. 14

We live vertically, so why canâ&#x20AC;&#x2122;t we grow vertically?

01 / Market Of The Future

TRINITY SPIRITS DISTILLERY

02 // INSTRUCTOR:

COURSE: Integrated Studio II DATE: 09/2017 - 04/2018

Veronica Madonna & Jenn McArthur PARTNER: Soroush Khodayari LOCATION: 18 Trinity St., Toronto PROGRAMS USED: Revit 2019, Rhino 6, AutoCAD 2019, Photoshop, Illustrator, InDesign, Lightroom.

Working under the Heritage Preservation Act of Ontario, Trinity Spirits has sentimental qualities along which acquires an integration of modern and heritage characters. The abandoned building along with its stretch of parking lot will then turn into a space for brewing, tasting and retailing Whiskey and Vodka. Taking apart the existing building, the remaining firewalls brings heritage qualities to the spaces created within and around. Trinity Spirits focuses on expressing and celebrating the notion of distilling alcohol. A feature stairs within the atrium wraps itself from the entrance, around the distillery and to the restaurant, surrounded by distilling artifacts. Allowing the “Trinity Experience” to be visually available through the perimeters of the atrium. The building also features a retail for products of the distillery, a bar in the heritage still tower, a restaurant and a rooftop patio.

“Trinity Spirits”

N RI

Intersection of Mill St. and Trinity St.

SITE ANALYSIS To accentuate the current site axis in correspondence to the highest node of circulation, introducing the south (secondary) and west entrances (primary).

PARTI DIAGRAM The concept of Trinity Spirits is about the â&#x20AC;&#x153;Trinity Experienceâ&#x20AC;? of distilling arts - to learn, to see and to taste. This experience happens in the core of the atrium that also mediates both heritage features and new addition (new construction).

02 / Trinity Spirits Distillery

A MECHANICAL SHAFT

GARBAGE 25sqm

STORAGE

JANITOR 10sqm

GARBAGE 12sqm

WET WALL

ELECTRICAL SHAFT

HVAC SHAFT

COAT ROOM

SECURITY ROOM

SHIPPING/RECEIVING 100sqm

DISTILLERY ARTIFACTS 150sqm

SERVICE ELEVATOR

STORAGE

RAW MATERIAL STORAGE 15sqm

ARTIFACTS DISPLAY

UP WEST ENTRANCE / LOBBY & INFO DESK 100sqm

SECURITY/ INFO DESK

C RAW MATERIAL STORAGE 10sqm WHISKEY & VODKA DISTILLERY

CONTROL LAB 10sqm

RETAIL WITH COUNTER 160sqm LOBBY/RECEPTION 120sqm

E F

GROUND PLAN 1

A FREEZER / COLD STORAGE

LONG-TERM STORAGE

ELECTRICAL ELECTRICAL CLOSET SHAFT

LIFT FOR BARRELS

HVAC SHAFT FOR GROUP F OCCUPANCIES

MECHANICAL SHAFT

KITCHEN STAFF CHANGEROOM

PRIVATE TASTING LAB RESTAURANT MANAGEMENT

PREPARATION KITCHEN & STORAGE

SERVICE ELEVATOR

ZONING BY-LAW ADJACENCIES This building does not have any superimposed major occupancies therefore each floor slab and roof slab will have a minimum of 45-min fire rating. The interconnected spaces (atrium) will have a 1 hour fire rating with sprinkled corridors.

KITCHEN

ATRIUM, OTA & OTB

BARREL STORAGE 220sqm

PUBLIC ELEVATOR

RESTAURANT RECEPTION

D UP TO BAR

DUMBWAITER

UP RESTAURANT 310sqm PRIVATE DINING LOUNGE 110sqm

BOTTLING 50sqm

FLOOR 2 PLAN

Mill St.

Proposed Park

ZONING BY-LAW SETBACK Abiding to the 7.5m setback from the lot line, the maximum allowable height limit, and easement path.

HERITAGE DESIGNATION Under the heritage preservation of Ontario, both facades on Mill St. (historic still tower) and Trinity St. (2 brick firewalls) have to be preserved within the refurbishment of 18 Trinity St. These wall are firewalls that house F1 and F2 occupancy of the building.

2. HERITAGE STILL TOWER 5. BAR STAIRCASE (INSIDE)

Looking

towards

the sou

th side

of the b u

ilding

DESIGN DECISIONS In order to better articulate the language of Trinity Spirits, 5 major design decisions were developed further to enhance the experience of Trinity Spirits.

1. ATRIUM STAIRCASE 3. METAL SCREEN 4. COPPER SOFFIT AND CEMENT CLADDING PANELS

02 / Trinity Spirits Distillery

Sectional Perspective

Looking to the south of the building 02 / Trinity Spirits Distillery

ATRIUM STAIRCASE The atrium staircase corresponds in accentuating the existing site axis into the building to address major circulation. The staircase is design in accordance to the Ontario Building Code of Section 3 and Section 9.

BAR STAIRCASE Similarly to the atrium stairs, the character of the stairs is designed to contrast the holistic heritage atmosphere in the still tower.

COPPER SOFFIT AND CEMENT CLADDING PANELS (WEST ENTRANCE) Cement cladding panels are used to highlight the new construction part of the building envelope. Both West and South entrances are cladded with copper panels to bring the essence of new light into the old building. Similarly the choice of materiality creates an identity for Trinity Spirits as it reflects the copper material of the distillers. 02 / Trinity Spirits Distillery

HERITAGE STILL TOWER The second feature developed for Trinity Spirits is the bar and restaurant that sits within the heritage still tower. This highlights the sentimental qualities of its heritage language and values in contrast to the contemporary design of staircase in the atrium and the adjacent restaurant. The lintels supporting the 1917 openings and main self-support system of the historical wall are the 4 pilasters (600x370mm) spaced at 4m. The pilasters create the transverse structural grid for the still tower, and the columns align with them. The two end pilasters are attached to the other load bearing historic walls on the east and west side of the old tower. Within the tower, a new system of beams and girders braces the historic wall. The wall itself does not carry any new load other than itself.

200mm Wide (20mm Thick) Aluminum Dop Ceiling Strips (with 20mm Acoustic Foam Adhered to top side) suspended from ceiling Usinc C2 Ceiling Support System by Maxmade (Connected with C-Channel to beam or Steel Deck)

BAR

3RD FLOOR BAR (DOUBLE HEIGHT)

- Sheet Metal Hood Flashing - Makarlay Metal Products - EPDM Roofing Membrane (60mm) - Air/Vapor Barrier Adhered to 12mm Plywood Sheathing - 3 Wythe Historic Brick Wall - HILTI CFS-C SL Firestop Sealant - 220mm (15mm) Steel Top Plate - 220mm W-Steel Beam Lintel (b-150mm) embedded in Concrete - Filling (as done by ERA) - 150x150x15mm Steel Shelf Angle Anchored in Masonry with HILTI KWIK BOLT 3 ss304 - 220mm Steel Bottom Plate - 12mm Tolerance Sealant (as done by ERA) - 32mm Window Wall Unit by Origin-Global (Customized for Historic Design) - Middle Rail by Origin-Global

- 250mm Rigid Insulation (R50) (FOAMULAR High-R CW Plus XPS R10/45mm) - Roofing Membrance (Air/Vapor Barrier) - Cant Strip - 200mm Concrete slab on Steel Decking (5% Drain Slope) - 500mm Deep W-Steel Girder - Insulated Drainage

- 32mm Window Wall Unit by Origin-Global (Customized for Historic Design with Self Drainage) - Metal Flashing - 150mm Steel Sill Plate - Backer Rod and Sealant - 220mm (15mm Thick) Steel Top Plate - 220mm W-Steel Beam Lintel (b-150mm) embedded in Concrete - Filling (as done by ERA) - 220mm Steel Bottom Plate - 12mm Tolerance Sealant (as done by ERA) - 32mm Window Wall Unit by Origin-Global (Customized for Historic Design) - Middle Rail by Origin-Global

- 150mm Deep W-Shape Beam for Intermediate Structural Bracing (for Double Height Floor) - 300mm Deep W-Shape Beam for Structural Bracing

- HILTI CFS-C SL Firestop Sealant - 32mm Window Wall Unit by Origin-Global (Customized for Historic Design with Self Drainage) - Metal Flashing - 150mm Steel Sill Plate - Backer Rod and Sealant - 220mm (15mm Thick) Steel Top Plate - 220mm W-Steel Beam Lintel (b-150mm) embedded in Concrete - Filling (as done by ERA) - 220mm Steel Bottom Plate - 12mm Tolerance Sealant (as done by ERA) - 32mm Window Wall Unit by Origin-Global (Customized for Historic Design) - Middle Rail by Origin-Global

- Hickory Wood Baseboard - Hickory Wood Floor on Fibre-Board Sub Flooring and Water Resistant Membrane

- 12mm Plywood Sheathing Beneath Structural Girders - Air/Vapor Barrier - 240mm Rigid Insulation (R25), FOAMULAR High-R Cw Plus XPS (R10/45mm) - 200mm Air Space - Unistrut and Threaded Rod for Metal Soffit Suspension System - 3.5mm Prefinished Copper Cladded Aluminum Soffit Panel - 200mm Steel Wall Studs bolted to Steel Grid with Deep 72mm Deep Track, with Metal Flashing - Blocking - 32mm Window Wall Unit by Origin-Global with Top Spandrel Panel (Customized for Historic Design with Self Drainage) - Bi-fold Custom Aluminum Door System by Origin-Global (Customized for Historic Design with within Window Wall Unitone piece)

- Unistrut and Threaded Rod for Metal Soffit Suspension System - 3.5mm Prefinished Copper Cladded Aluminum Soffit Panel - 200mm Steel Wall Studs bolted to Steel Grid with Deep 72mm Deep Track, with Metal Flashing - Blocking - 32mm Window Wall Unit by Origin-Global with Top Spandrel Panel (Customized for Historic Design with Self Drainage) - Bi-fold Custom Aluminum Door System by Origin-Global (Customized for Historic Design with within Window Wall Unitone piece)

6 5

STAIRS FROM FLOOR STAIRS FROM FLOOR 2 (RESTAURANT) TO FLOOR 3 (BAR) 2 (RESTAURANT) TO FLOOR 3 (BAR)

300mm W-shape Steel Columns, clad with 12mm Gypsum Fire Proofing and 2mm Black Finished Aluminum Cladding Riveted to Column

2ND FLOOR RESTAURANT

7 8 9

VESTIBULE VESTIBULE

- Flashing on Ground - Drainage Unit at threshold - Polythene Damp Proofing Membrane - Air/Vapor Barrier - Concrete Pavers on Packed Gravel (Sloped away from Building) - Drainage at Grade - Flashing

02 / Trinity Spirits Distillery

WALL SECTION OF HISTORIC BRICK WALL AND RELATION TO INTERIOR SPACE 27

3 ROOFTOP BAR

- 850x850x25mm Concrete Deck Pavers - ETERNO Adjustable Deck Pavers Pedestals - Mechanically Fastening Nails for Roof Membranes - Horizontal Vapor Barrier Overlap - Cant Strip - Insulation Fastener - Mechanically Fastened Continuous Steel Parapet Bottom Track - Cast-in Concrete Floor Slab - Mechanically Fastened Continuous Steel Shelf Angle - Steel Decking - Diagonal Steel Angle Bracing - W250x60 Beam Welded to Girder with 25mm Spray-on Fireproofing

- Prairie Grass - 150mm Green Roof Substrate - Filter Layer - Drainage/Reservoir - 80mm Kemperol 2K-Pur Waterproofing Membrane - 200mm Polyisocyanurate Insulation (R40) - 160mm App Cap Sheet - Roof Membrane - 20mm Plywood Sheathing - 200mm Concrete Slab on Steel Deck - Rigid Insulation - Steel Beam - Spray-on Fireproofing

- 5mm Formed Aluminum Cop Flashing, Color to Match Concrete Panels - 7.5mm Continuous Steel Splice Plate - Continuous Flashing Sealant - EPDM Single-Ply Roofing Membrane - Continuity of Vapor Barrier (Delta-Vent S Vapor Barrier) - Barbed Nail VB to Plywood Sheathing - TREMproof Waterproofing Drainage Later - 100mm XPS Rigid Insulation - 20mm Plywood Sheathing - Batt Insulation in Steel Parapet - Plywood Parapet Cap - Mechanically Fastened Continuous Steel Parapet Head Track - W250x45 Steel Stud Parapet Structure - Batt Insulation in Steel Stud in Parapet

- 2 Layers of 15.8mm Gypsum to provide 45mm F.R.R. on Metal Stud Framing - W250x45 Steel Stud - W560x140 Steel Girder for Cantilevering Soffit with 25mm Sprayon Fireproofing Welded to Column

- 8mm Concrete Cement Panel Cladding Riveted to Profile - AFC Aluminum “L” Vertical Profile - R-TEC Bracket - TREMproof Waterproofing Drainage Layer - 100mm XPS Rigid Insulation - Delta-Vent S Vapor Barrier - 20mm Plywood Sheathing - W250x45 Steel Stud - Batt Insulation in Steel Stud - 2 Layers of 15.8mm Gypsum to provide 45mm F.R.R. on Metal Stud Framing - Mechanically Fastened Continuous Steel Bottom Track

- 3.5mm Customized Prefinished Copper Cladded Aluminum Soffit Corner Cover - Bolts Ties Steel Shelf Angle and Soffit Panel - Steel Shelf Angle - Continuous Sealant - Continuous Cant Strip - Continuous Sealant Beads Below Steel Flashing - Prefinished Steel Flashing with Drip Edge

- Cast-in Concrete Floor Slab - Steel Angle Bearing Plate Embedded in Floor - Steel Angle Bearing Plate Tied to Vertical Steel Angle - Vertical Steel Angle - Steel Decking - Diagonal Steel Angle Bracing - Unistrut and Threaded Rod for Metal Soffit Suspension System - W560x140 Steel Girder for Cantilevering Soffit with 25mm Sprayon Fireproofing Welded to Column - Continuous Steel C-Channel - 3.5mm Prefinished Copper Cladded Aluminum Soffit Panel

- TREMproof Waterproofing Drainage Layer Adhered to Substrates - Continuous Sealant Beads Below Steel Flashing - Steel Shelf Angle - Prefinished Steel Flashing with Drip Edge - Continuous Sealant - Continuous Cant Strip - 80mm XPS Rigid Insulation - 25mm Pre-cast Concrete Base Perimeter

- Aluminum Grate on Aluminum Drainage Track - 850x850x25mm Concrete Pavers at Grade - Continuous Sealant Beads Below Steel Flashing - Gravel Fill in Aluminum Drainage

2ND FLOOR (RESTAURANT)

7 6

WEST ENTRANCE (SOFFIT CONDITION)

GROUND FLOOR (RETAIL)

- Flashing, Aluminum Coping (Black) - 60mm EPDM Roofing Membrane by Firestone Products - 240mm Rigid Insulation (R55) (FOAMULAR High-R CW PLUS XPS, R10/45mm) - Roofing Membrane (Air/Vapor Barrier) - Cant Strip - 200mm Concrete Slab on Decking (5% Drain Slope) - 500mm Deep Steel Beam

- Blocking - Flashing on Insulation - Horizontal Mullion with Weep/Drainage Holes in Mullion - 500mm Tapered Stainless Steel T-Section Beam (With Flat Plate End), Welded to Steel Weld Plate Anchored to Concrete Slab with HILTI Concrete Anchors - Galvanized Steel Flat Plate End Bolted To: - Anodized Aluminum Profile Attached To: - Anodized Aluminum Screen Panels, Welded to Profile (Custom Made, One piece, Pre-manufactured) - 12mm Steel Studs on 124mm Steel Tracks - Endurex Model 540 Panels: 6mm Spandrel Panels with Opaque 2mm Glass Finish on 4mm Corrugated Composite Cement Backing by Nudo, Fits in Mullion - 40mm Air Space - 120mm Rigid Insulation (R25) (FOAMULAR High-R CW Plus XPS, R10/45mm) - Air/Vapor Barrier - 12mm Plywood Sheathing - 50mm x 160mm x 5mm Steel Shelf Angle (Bolted to Stud Wall) to Hold Mullions - Flashing and Weep Holes in Mullion - HILTI CFS-C SL Firestop Sealant - HVAC Space, Diffusers - Interior Drywall Finish (Drop Panels Hung on Steel Cables) - 2 Pane Glass Glazing

- 500mm Catwalk Structure for Maintenance - 760mm Tapered Stainless Steel T-Section Beam (500mm Deep), (with Flat Plate End), Welded to Steel Weld Plate Anchored to Concrete Slab with HILTI Concrete Anchors, and Anchored to Steel Girder - Stainless Steel Flate Plate End Bolted to Anodized Aluminum Profile (Which is Welded to The Aluminum Screen Panels, in One Piece) - Stainless Steel Clip Angle for Mullion Wall Support and Lateral Support - Mineral Wool Insulation

- HILTI CFS-C SL Firestop Sealant - Hickory Wood Baseboard - Hickory Solid Hardwood Flooring Finish - Foam Underlay - Polyethelyne Sheet to Prevent Moisture From Concrete Curing

- Midrail Mullion - Anodized Aluminum Panel System, Attached At Base and Top (2ND FLOOR SLAB)

- Base Mullion with Built-in Weep Holes, Sealed With Baker Rod and Sealant - Flashing - Water-resistant Concrete Panel Veneer - Air-space - Gravel Drainage - Perforated Drainage Pipe at Grade - Exterior Concrete Pavers on Pressed Gravel - Ground Sloped Away From Wall

- 500mm W-Shape Beam - Polyethene Damp Proofing Membrane - 110mm Rigid Insulation (R25) (FOAMULAR High-R CW Plus XPS, R10/45mm) - Air/Vapor Barrier - 400mm Load Bearing Reinforced Concrete Foudation Wall

- 200mm Concrete Slab on Ground - 240mm Rigid Insulation (R55) (FOAMULAR High-R CW Plus XPS, R10/45mm) - Air/Vapor Barrier - Concrete Footing

MECHANICAL SPACE

INSULATED DRAINAGE

MECHANICAL SPACE MECHANICAL SPACE

THIRD FLOOR (OFFICE SPACE)

3RD FLOOR SPACE) THIRD FLOOR(OFFICE (OFFICE SPACE)

3 MECHANICAL SPACE

MECHANICAL SPACE MECHANICAL SPACE

SECOND FLOOR (RESTAURANT)

SECOND FLOOR (RESTAURANT) 2ND FLOOR (RESTAURANT)

Polished Concrete Floor Finish

MECHANICAL SPACE

MECHANICAL SPACE MECHANICAL SPACE

GROUND FLOOR (ATRIUM/ENTRANCE SPACE)

Anodized Aluminum Profile Attached To: Anodized Aluminum Screen Panels, Welded to Vertical Profile (Custom Made, One piece, Pre-manufactured)

GROUND FLOOR GROUND FLOOR (ATRIUM/ENTRANCE SPACE) (ATRIUM / ENTRANCE)

Horizontal Aluminum Profile (Welds Strips of Screen Panel Together) 500mm Tapered Stainless Steel T-Section Beam (with Flat Plate End), Welded to Steel Weld Plate Anchored to Concrete Slab with HILTI Concrete Anchors

Baker Rod and Water Proofing Sealant

Blocking

Aluminum Window Hall Mullions by NUDO Edurex Model 540 Panels: 6mm Spandrel Panels with Opaque 2mm Glass Finish on 4mm Corrugated Composite Cement Backing by NUDO, Fits in Mullion 40mm Air Space 120mm Rigid Insulation (R25) (FOAMULAR High-R CW PLUS XPS, R10/45mm) Air/Vapor Barrier 12mm Plywood Sheathing L-shape Steel Anchor Embedded in 200mm Concrete Slab 500mm Tapered Stainless Steel T-Section Beam (with Flat Plate End, Welded to Steel Weld Plate Anchored to Concrete Slab with HILTI Concrete Anchors) Anodized Aluminum Profile Attached To: Anodized Aluminum Screen Panels, Welded To: Vertical Profile (Custom Made, One piece, Pre-Manufactured)

6 BASEMENT

BASEMENT BASEMENT

Horizontal Aluminum Profile (Welds Strips of Screen Panel Together)

02 / Trinity Spirits Distillery

03 // FEATURED ON URBANTORONTO

LOCATION:

ARCHITECT LEADER: Omar Gandhi PROJECT: Luminato Festival DATE: 23/06/2016

Hearn Generating Station, Toronto

PROGRAMS USED:

Rhino 5, Photoshop, Illustrator, InDesign, Lightroom

LU M I NAT O FE S T I VAL Luminato is Toronto’s annual festival wholly dedicated to the celebration of the arts. For its 10th birthday in 2016, Luminato paired up with PARTISANS to convert the decommissioned Hearn Generating Station into a venue for the festival. This conversion would become the catalyst for creative thinking. Microcosm proposes to transform the Hearn Generating Station into a micro-city composed of modular multipurpose spaces. This conglomeration of spaces include artist and maker studios, live/work spaces and urban agriculture. With the integration of ‘hyper loops’ and transit tubes, the Hearn will become a cultural mega-structure that reconnects to the city of Toronto. This revitalization was imagined by students in collaboration with Partisans design firm for the 2016 Luminato Festival.

ᰠ䴀䤀䌀刀伀䌀伀 30

伀匀䴀ᴠ 31

The Hearn is envisioned acting as a hub on the outskirts of the metropolis.

HYPERLOOPS Hyperloops are the chosen method of transporting in and out of the Hearn, able to get from downtown Toronto to the station in less than a minute. 32

SECTION CUT Within the existing structure, these integrated purposes and atmosphere into the Hearn.

CYCLING TUBE

OFFICE TOWERS

LIVE/WORK

SHOPPING CENTER

LIVE / WORK ARTIST STUDIOS + RESIDENCE ARTIST START STUDIOSUP + RESIDENCES OFFICES START UPSPACES OFFICES MAKER MAKER SPACES

LIVE WORK MODEL RESIDENTIAL TRANSIT COMMERCIAL

CYCLING TUBE CYCLING TUBE

RESIDENTIAL TOWERS

CONNECTION TO CITY

SERVICES GREEN SPACE

OFFICE OFFICE TOWERS TOWERS

CYCLING TUBE LINEAR PARK

LIVE / WORK

SHOPPING SHOPPINGCENTER CENTER

ARTIST STUDIOS + RESIDENCES START UP OFFICES MAKER SPACES

TOWERS

HOPPING CENTER

RESIDENTIAL TOWERS RESIDENTIAL TOWERS

HYPER LOOP

COMMERCIAL MODEL CONNECTION TO CITY CONNECTION TO CITY

LIVE / WORK

LINEAR PARK LINEAR PARK

ARTIST STUDIOS + RESIDENCES START UP OFFICES MAKER SPACES

RESIDENTIAL TRANSIT COMMERCIAL SERVICES GREEN SPACE

d spaces are shown interacting to bring new 03 / microcosm

HYPERLOOP HYPER LOOP

RESIDENTIAL MODEL 33

04 // COURSE:

ASC755 Digital Tools DATE: 12/2018 INSTRUCTOR: Vincent Hui LOCATION: Hearn Generating Station, Toronto GROUP MEMBERS: Michael Plummer, John Benner, Abhishek Wagle, Katherine Swainson, Emma van der Staay, Andrew Lee PROGRAMS USED:

Rhino 6, Grasshopper, Illustrator, Photopshop, Indesign

TOOLS USED: CNC, Laser-Cutting, Woodworking , Arduino Programming

TESSALIGHT In our advanced digital age, social media dictates our communication on a daily basis. Its multifaceted functions, conveniences, and abstract motivations cause people, especially teenagers, to communicate with each other online rather than in person. This aspect diminishes any notion of the physical engagement in these relationships, and strictly converts into a static form of communication. With TessaLight, we envision a technique through installation that recreates an abstract representation of the language of contemporary communication. TessaLight allows people on each end of the installation to communicate with each other using their flashlight on their cellphones. With the structure eliminating any visual connections, thus virtually communicating through engaging in an activity. Much like how we engage through online relationships, a virtual engagement. The lack of direct communication and visual engagement between people is the main theme of the installation, which is explored through the use of light.

䐀䤀䜀䤀吀䄀䰀䴀伀䐀䔀䰀䰀䤀一䜀䤀吀䔀刀䄀吀䤀伀一匀吀唀䐀夀 A deeper critical analysis of the design was explored on grasshopper and rhinoceros 3-D modeling softwares. Design options were explored and critical details were resolved. Random distribution of points according to parabolic function, creating high-density in the middle. ITERATIONS STUDY

Perimeter

PERFORATION PATTERN STUDY

INSTALLATION COMPOSITIONS

/ MATERIAL TAKE-OFF

04 / Tessalight

INSTALLATION SYSTEM

1x1 FINAL MODEL

04 / Tessalight

thank you.

JOANNA OON

B.Arch.Sc.

T: +1 (416) 846-8088 E: jjoannaoon@gmail.com linkedin.com/in/joannaoon/