Portfolio 2017 - Hrishikesh Tailor

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HCFWEI

H R I S H I K E S H [ R I S H I ] TA I LO R Ryerson University DAS B.Arch.Sci 2017 Architecture Portfolio 2017



CONTENTS

1. Resume

01

2. Remedium - Blue Clay Country Spa

04

3. Little Portugal Libary I

12

4. Little Portugal Libary II

20

5. Break in Nature

32

6. Kortright Centre

40

7. The Stargazer

46

8. Portlands Townhouse

50

9. Architecture Exchange

56

10. Professional Work - RAW Design

63


H R I S H I K E S H TA I LO R Mississauga, Ontario T: 647 716 7833

https://view.publitas.com/rishi_tailor E: hrishikesh.tailor@gmail.com

E D U C AT I O N 2012 - Present

Bachelor in Architectural Science, 2017 Candidate Fourth Year Ryerson University, Toronto

WORK EXPERIENCE 2015 - Present

RAW Design - Toronto, Ontario, Canada Architectural Intern

May 2015 - August 2015

Ryerson University - Toronto, Ontario, Canada Undergraduate Research Assistant - Professor Vincent Hui

May 2014 - August 2014

Design TWG - Mississauga, Ontario, Canada Architectural Intern

June 2013 - Aug 2013

TAES Architects Inc. - Toronto, Ontario, Canada Architectural Intern

P U B L I C AT I O N S 2016

Parametric Pedagogy: Adaptation in Industry and Adoption in the Classroom Presented at - ICERI (International Conference of Education, Research and Innovation) 2016, Seville; (Abstract ID: 951) Co Authors: V. Hui, S. Kumar, J. Brijraj, D. Luong, B. Bortuluzzi

2015

Innovation, Representation, and Commercialization - The Underpinnings of a Successfull Entrepreneurial Ecosystem ICERI (International Conference of Education, Research and Innovation) 2015, Seville; (Abstract ID: 182) Co Authors: V. Hui, A. Craigen, E. Boulatova, R. Thomson

2015

From Tables to Drones: Scaling the Adoption of 3D Scanning in Architectural Pedagogy ICERI (International Conference of Education, Research and Innovation) 2015, Seville; (Abstract ID: 180) Co Authors: V. Hui, T. Cheung, C. Truong, J. Chen

01


H R I S H I K E S H TA I LO R Mississauga, Ontario T: 647 716 7833

https://view.publitas.com/rishi_tailor E: hrishikesh.tailor@gmail.com

AWARD September 2014

Third Prize- Daegu International Architectural Competition UIA Approved International Competition - Daleseoung Citizen’s Gymnasium Daegu, South Korea A 4 persons team was awarded $5000 US. The team was invited to the Award Ceremony and the Architecture Biennale in Daegu, South Korea. Ryerson University funded the 5-day trip to receive the award and visit the site.

TECHNICAL SKILLS - AutoCAD - Revit Architecture - Rhinoceros - Sketchup - V-Ray - Adobe Suite: Photoshop, Illustrator, InDesign - MS Office and MS Project - Digital Fabrication: Laser Cutting - THERM & WUFI (moderate proficiency)

REFERENCE Kendra Schank Smith

Professor Department of Architectural Science, Ryerson University BA, M.Arch, Ph.D, MRAIC 350 Victoria Street, Toronto, Ontario T: 416 979 5000 ext. 6747 kssmith@ryerson.ca

VIincent Hui

Associate Chair and Experiential Learning Director Associate Professor Department of Architectural Science, Ryerson University B.E.S., C.U.T., M.Arch, M.B.A. LEED AP, MRAIC, Assoc. AIA 350 Victoria Street, Toronto, Ontario T: 416 979 5000 ext. 7962 E: vincent.hui@ryerson.ca

PORTFOLIO https://view.publitas.com/rishi_tailor/portfolio_2017 02


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REMEDIUM B L U E C L AY C O U N T R Y S PA

Ryerson University 2017 Winter ASC 820 - Competition Studio Instructor: Kendra Schank Smith Blue Clay Country Spa Competition - Latvia (Group Project)

Site: Kurzeme, Latvia

Situated on the site’s luscious berm, the resort and spa overlooks the

landscape and its significant elements such as the pond and the surrounding mature oak trees. As a spa resort which focuses on the health, beauty, and tranquility of the human body, the therapy rooms which support this natural therapy were approached by creating introverted spaces where the users’ tactile senses are exaggerated. A dichotomy was established between ‘remedy’ spaces which include: therapy rooms, sauna, relaxation room, and yoga studio and ‘active’ spaces which consist of: living quarters, dining hall, greenhouse, gymnasium, and service spaces. The remedy spaces were placed in the center of the building’s courtyard in autonomous forms of varying heights which are lit solely by overhead natural lighting. By doing so, the users of this space can look inward in self-reflection while they experience the intimacy of the blue clay therapy sessions. Furthermore, by placing the remedy spaces at the center of the courtyard, they sit on the highest level of the hill, establishing a hierarchy over the active spaces. To contrast these meditative spaces, the active spaces which surround the therapy courtyard are well-lit by windows which frame moments of the alluring context. To further emphasize their use as living spaces and contrast the therapy rooms, they were covered with gable roofs which also allude to rural Latvian vernacular architecture.

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1. FOOTPRINT EXTRUSION

2. PROGRAM SEPARATION

3. REMEDY SPACE MASSING

4. HEIGHT EXTRUSION

SITE PL AN

5. ACTIVE SPACE FRAMING VIEWS

6. ACTIVE SPACE MASSING

7. GREEN ROOF

8. COURTYARD SUBTRACTION

05

DINING HALL


C

9 8

11 10

7

12

6

B

16

A

17 5

18

15

14

13

4 1

3

2

FLOOR PLAN 1. Guest Living Room

7. Staff Bedroom 2

13. Therapy Room 1

2. Outdoor Hot Tub

8.Staff Living Room

14. Relaxation Room

3. Greenhouse

9. Blue Clay Storage

15. Therapy Room 2

4. Dining Hall - Kitchen

10. Storage

16. Sauna

5. Outdoor Dining Area

11. Mechanical/ Electrical

17. Yoga Studio

6. Staff Bedroom 1

12. Gym

18. Pool

14 13

SECTION - A

6

SECTION - B

15

16

17

06


6

2

RELAXATION ROOM

5

4

3

1

YOGA STUDIO

1.WOOD CLADDING

2. EXTERIOR COURTYARD

Cedar wood was used in three various treatments: charred sugi ban for identifying the exterior of the remedy spaces, raw cedar for the interior, and stained cedar for the exterior cladding.

Exterior courtyards were introduced to bring natural light into the circulation corridor surrounding the central remedy spaces. During the summer they act as a solar chimney to ventilate the space.

3. EXTE NSIVE GREEN ROOF

4. GREENHOUSE

The central ‘courtyard’ is covered by an extensive green roof which contains native plants to minimize the ecological footprint as well as to insulate the structure.

The southern greenhouse provides guests using the facility with fresh, organic, hydroponic vegetables in all seasons.

5. LOW - IMPACT STRUCTURE

6. SOLAR ROOF

The floor plates of the structure sit on a timber post-and-beam-system to respect the site and have a low-impact.

Gabled roofs are clad in hi-tech photoltaic panels to generate energy off-grid. The slopes of the gabled roof are also sufficient in redirecting water run-off to the underground cistern.

THERAPY ROOM 2

THERAPY ROOM 1

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SAUNA


PHYSICAL MODEL - N.E . PERSPECTIVE

PHYSICAL MODEL - S.W. PERSPECTIVE

EAST ELEVATION

SOUTH ELEVATION

OUTDOOR HOT TUB

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SECTION PERSPECTIVE - C 09


10


11


LITTLE PORTUGAL LIBRARY I

Ryerson University 2015 Winter ASC 620 - Integration Studio II Instructor: Vis Ramasubraniam Site: Dundas Ave. W & Sheridan St. Toronto, Canada

There are two major given programs- Library and Centre of Social Interaction (CSI) style office. The first step was to identify two volumes which would house the two programs. This division of mass was further applied vertically to create “floating” volumes. Such compartmentalization was carried further in plan by dividing porgrams into various rooms with interstitial space in between for collaboration. These compartments are brought together by a central “greenhouse” which acts as a focal point. The scale was brought down on the north side to associate it with the residential fabric of the site thereby helping, domesticating and otherwise a relatively a “large-scale” project.

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A

5

4

6

7

3

UP 8 2 9

UP

UP

10 12

B

11 1

A

LEVEL 1 1. Cafe

7. Break0out space

2. Reading Area

8. CSI Office Reception

3. Child drop-Day care

9. CSI Reception Office

4. Senior Centre

10. Librarian office

5. Loading

11. Computer-Self check out area

6. Storage

12. Library Reception

13

B


SECTION A-A

SECTION B -B 14


6

7

5

3

4

4

UP

UP 2

3

UP

UP

UP

UP

5 8 1 2

1

LEVEL 2

LEVEL 3

1. Reading Area

5. Seating Area

1. Reading Area with

2. Fiction stacks

6. Artist Studio

3. Stacks

7. Common Printer space

2. Stacks

4. Study Space

8. CSI Office

3. Seating Area

4. Kitchennete for Office

Stacks

5. CSI Office

3 DN

UP

UP

2 UP

UP

UP 4

1

2

5

LEVEL 4

1

LEVEL 5

1.Reading Area with

3. Digital Office

1. Reading Area with Stacks

Stacks

4. CSI Office

2. CSI Office

2. Stacks

5.Collaboration Space

15


SITE PLAN

PHYSICAL MODEL

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WINDOW HEAD DETAIL

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



  

 

 





  

     

 

    

SOFFIT CONDITION

FLOOR TO WALL DETAIL 



17

 

  

  

 

  

  


SOUTH ELEVATION

WEST ELEVATION

18


19


LITTLE PORTUGAL LIBRARY II

Ryerson University 2015 Winter ASC 620 - Integration Studio II Instructor: Vis Ramasubraniam Site: Dundas St. W & Sheridan St. Toronto, Canada (Group Project) A different version of the library project in Little Portugal was chosen to take the project from Schematic Design Phase to design developement. The main concept here is the division of two programs - Library and CSI Office is distinguished by the different orientation of structural grid and facade application. An Aluminum ring mesh acts as a screen for the two programs. Wrapping the building all over with strategically placed openings and punched out windows give a sculptural quality to an otherwise orthographic design. The Office part of the building is characterized by a simple curtain wall with a regular grid which supports a secondary steel structure on the exterior. This structure in turn holds the aluminum ring mesh. The library part of the building is characterized by a more complex facade with windows that punch out into the mesh acting as a “frame� to capture exterior views.

20


21


5

6

4 3

H

UP

2

1 G 5

4

E UP

6

3

D

eet n Str rida She

UP

OTB

8

2

UP

C

DN

B

7

1. Cafe 2. Storage for Cafe 3. Storage 4. Multipurpose space 5. Storage 6. Library Office 7. Library 8. Reception

1

A

Dundas Street Floor 1 - 1:100

N

LEVEL 1 5

6

4

H

3

8. Seating Area 10. CSI Office 11. Stacks 13. Periodical Stacks

2

1

8

G 11

E 11

UP

UP

D

13

C

UP 8

B 10

A

N

Floor 3 - 1:200

LEVEL 3

5

6 H

UP

10. CSI Office

G

E

UP

D

C B 10

A

N

LEVEL 5 Floor 5 - 1:200 22


5

6

4

H

3 2

1

8

8. Seating Area 10. CSI Office 11. Stacks 13. Periodical Stacks

G 11

E 11

UP

UP 13

D

C

UP 8

B 10

A

Floor 3 - 1:200

SECTION PERSPECTIVE

23

N


24


20

I

I

18

18

D1

D1

1

1

2

2

1

25

2 26

26

11 19

11 1911

12

1212

9

22

W

3 4

27 28

25 26 Roof +18.0m Level 4 +13.5m

Level 1 0

27 28 20

D3 21 23 22

Level 2 +4.5m

D4

29

29

29 Level 1 0

D5 D2

D2D2

13

13 13

14

24 20

14 14

15

15 15

16

16 Level 5 +18.0m Level 3 +9m

17

23 21

16

17 17

Level 5 +18.0m

22

Level 3 +9m

D4

Wall Section: Section W-W [Scale 1:20] I

191. Roof Assembly:

I

17. Lighting 18. Steel Columns 19. Metal Screen Ceiling 20. Horizontal Mullion 21. Drain 22. Sidewalk

Foliage Growth Medium Drainage Mat 18

Rigid Insulation (175mm) Vapor Barrier Concrete slab (190mm) Steel Deck

18

23. Foundation Wall Assembly: Drainage Frabric Drainage Layer

Parapet Wall: 182. Air Barrier

I

I

Level 4 +13.5m

19

Wall Section: Section W-W [Scale 1:20] 3. 190mm Floor Slab Level 4Steel Structure 4. Roof Catwalk on Secondary 1. Assembly: +13.5m 5. Ring Aluminum mesh holder D3Foliage 6. Ring Aluminum Mesh Growth Medium Level 2 7. Secondary Steel element Drainage Mat Vertical +4.5m 8. Aluminum Spandrel Panel with Glass Wool Insulation 9. Horizontal Steel Member Rigid Insulation (175mm) 10. Horizontal Vapor Barrier Mullion 11. Glazing Curtain Wall Concrete slab (190mm) 12.Vertical Steel Deck Mullion

D3

Level 2 +4.5m

19

13. Floor Assembly: 2. Parapet Wall: Raised hardwood Flooring Air Barrier Concrete Slab on Steel Deck (190) Rigid Insulation Fire proofed Steel I-Beams Plywood Sheathing

21

Wall Section: 3. 190mm FloorSection Slab W-W [Scale 1:20] 4. Catwalk on Secondary Steel Structure

21

Assembly: mesh holder 5. Roof Ring Aluminum 211. Foliage 6. Ring Aluminum Mesh 22 22 Growth Medium 7. Secondary Vertical Steel element

22 D4

D4

Drainage Mat Spandrel Panel with Glass Wool Insulation 8. Aluminum 9. Horizontal Steel Member

D4Rigid InsulationMullion (175mm) 10. Horizontal

Level 1 0 3 Level +9m

Vapor Barrier 11. Glazing Curtain Wall Concrete (190mm) 12.Verticalslab Mullion Steel Deck 13. Floor Assembly:Level 1 0 3 2. Parapet Wall: Raised hardwood Flooring Partial Elevation [1:200] Level Air BarrierSlab on Steel Concrete Deck (190) +9m Rigid Insulation Fire proofed Steel I-Beams Plywood Sheathing Mineral Wool 14. Supply AirInsulation 120mm Steel Studs Backer Wall 15. Horizontal Mullion Plywood Sheathing 16. Aluminum Steel Panel

Partial Elevation [1:200]

PARTIAL ELEVATION

I

I

3. 190mm Floor Slab

23

23

24

D3

D3 Level 2 +4.5m

25

Wall Section: Section W-W [Scale 1:20] 1. Roof Assembly: Foliage Growth Medium Drainage Mat

17. Lighting 18. Steel Columns 19. Metal Screen Ceiling 20. Horizontal Mullion 21. Drain 22. Sidewalk

30

16. Aluminum Steel Panel 35

36

WALL SECTION

on W-W [Scale 1:20]

30 234. Catwalk on Secondary Steel Structure

5. Ring Aluminum mesh holder 6. Ring Aluminum Mesh 7. Secondary Vertical Steel element 36 36 8. Aluminum Spandrel Panel with Glass Wool Insulation 9. Horizontal Steel Member 10. Horizontal Mullion 11. Glazing Curtain Wall 12.Vertical Mullion 31 31 32 32 13. Floor 33 Assembly: 33 D5 Raised hardwood Flooring Concrete Slab on Steel Deck (190) 24Fire proofed Steel I-Beams 24 34 34 14. Supply Air Partial Floor Plan [1:200] Partial Floor Plan [1:200] 15. Horizontal Mullion

D5

Cavity Insulation 120mm Steel Stud Wall 17. Lighting Cavity 18. Insulation Steel Columns 20 Vapor 19.Barrier Metal Screen Ceiling PLywood Sheathing 20. Horizontal Mullion Drywall 21. Drain 22. Sidewalk

Cavity Insulation 120mm Steel Stud Wall Cavity Insulation 20 Vapor Barrier PLywood Sheathing Drywall

Level 2 +4.5m

Level 1 0

31. Curtain Wall Glazing 32. Horizontal Steel Elements 33. Catwalk 34. 23 Ring Aluminum Mesh 35. Metal Screen Ceiling

24. Foundation Slab: Raised Flooring Rigid Insulation 17. Lighting Concrete 18. Steel Slab Columns Vapour Barrier 19. Metal Screen Ceiling Rigid InsulationMullion 20. Horizontal 21. Drain Gravel 22. Sidewalk 25. Foundation Flashing Wall Assembly: 23. 26. Aluminum Spandrel Panel Drainage Frabric 27. Catwalk Drainage Layer 28.Secondary Steel Horizontal Element 29. Curtain Wall Glazing Rigid Insulation

Cavity Insulation D5 Steel Stud Wall 120mm Cavity Insulation Vapor 24 Barrier PLywood Sheathing Drywall 31. Curtain Wall Glazing 32. Horizontal Steel Elements 33. Catwalk 34. Ring Aluminum Mesh 35. Metal Screen Ceiling

Vapor Barrier 30. Rainscreen Wall Cast in place ConcFourete Wall Aluminum Panel Rigid Insulation Air Space Drywall Air Barrier Rigid InsulationSlab: 24. Foundation Sheathing Raised Flooring

Mineral Wool Insulation 14. Supply AirStuds Backer Wall 20 Steel 20120mm 15. Horizontal Mullion Plywood Sheathing 16. Aluminum Steel Panel

20

Cavity D5Insulation 120mm Steel Stud Wall Cavity Insulation 24 Vapor Barrier PLywood Sheathing Drywall

Rigid Insulation Vapor Barrier Cast in place ConcFourete Wall Rigid Insulation Drywall

Rigid Insulation Plywood Sheathing Mineral Wool Insulation 120mm Steel Studs Backer Wall Plywood Sheathing D3

Level 2 +4.5m

D4 25

10

5 6 7 8

Roof +18.0m Level 4 +13.5m

W

D1

3 4 27 5 5 28 6 6 7 7 8 8 9 9 1010

3 4

D3 21

I

35

36

Rigid Insulation 17. Lighting Concrete Slab 18. Steel Columns Vapour Barrier 19. Screen Ceiling RigidMetal Insulation 20. Horizontal Mullion 21. Drain Gravel 22. Sidewalk 25. Flashing 23. Wall Assembly: 26. Foundation Aluminum Spandrel Panel Drainage Frabric 27. Catwalk Drainage LayerSteel Horizontal Element 28.Secondary 29. Curtain Wall Glazing Rigid Insulation Vapor Barrier WallW 30. Rainscreen Cast in place ConcFourete Wall Aluminum Panel Rigid Insulation Air Space Drywall Air Barrier Rigid Insulation 24. Foundation Slab: Sheathing Raised Flooring Rigid Insulation Concrete Slab Vapour Barrier Rigid Insulation Gravel 25. Flashing 26. Aluminum Spandrel Panel 27. Catwalk 28.Secondary Steel Horizontal Element 29. Curtain Wall Glazing 30. Rainscreen Wall Aluminum Panel Air Space Air Barrier Rigid Insulation Sheathing

Cavity Insulation 120mm Steel Stud Wall Cavity Insulation Vapor Barrier PLywood Sheathing Drywall 31. Curtain Wall Glazing 32. Horizontal Steel Elements 33. Catwalk 34. Ring Aluminum Mesh 35. Metal Screen Ceiling W


WALL SECTION W-W [Scale 1:20] Partial Elevation [1:200]

W

30

30

3636

31 31 32

32

33 Partial Elevation 33 [1:200]

W

34

1. Roof Assembly:

23. Foundation Wall

Foliage

Assembly:

Growth Medium

Drainage Frabric

Drainage Mat

Drainage Layer

Waterproofing membrane

Waterproofing Membrane

Rigid Insulation (175mm)

Rigid Insulation

Vapor Barrier

Vapor Barrier

Concrete slab (190mm)

Cast in place ConcFourete

Steel Deck

Wall

34

Rigid Insulation

Partial Floor Plan [1:200]

PART IAL FLOOR 30

PLAN

2. Parapet Wall:

35

Air Barrier

36

Rigid Insulation Plywood Sheathing Mineral Wool Insulation

36 31 32 33 Partial Elevation [1:200]

W

34 Partial Floor Plan [1:200] 34 Partial Reflected Ceiling Plan [1:200] 30 35 35

120mm Steel Studs Backer Wall Plywood Sheathing 3. 190mm Floor Slab

36

4. Catwalk on Secondary Steel

36 36 31 32 33

Structure

33

6. Ring Aluminum Mesh

34

5. Ring Aluminum mesh holder

Partial Floor Plan [1:200]

7. Secondary Vertical Steel

34 34 Partial Reflected Ceiling Plan [1:200]

element

35 PART IAL REFLECTED CEILING PLAN- TYPICAL

8. Aluminum Spandrel Panel with Glass Wool Insulation

36

9. Horizontal Steel Member 10. Horizontal Mullion

Partial Reflected interior Elevation [1:200]

11. Glazing Curtain Wall 12.Vertical Mullion

34 Partial Reflected Ceiling Plan [1:200]

13. Floor Assembly: Raised hardwood Flooring Concrete Slab on Steel Deck (190)

Partial Reflected interior Elevation [1:200]

Fire proofed Steel I-Beams

Drywall 24. Foundation Slab: Raised Flooring Rigid Insulation Concrete Slab Vapour Barrier Rigid Insulation Waterproofing Membrane Gravel 25. Flashing 26. Aluminum Spandrel Panel 27. Catwalk 28.Secondary Steel Horizontal Element 29. Curtain Wall Glazing 30. Rainscreen Wall Aluminum Panel Air Space Air Barrier Rigid Insulation Sheathing Cavity Insulation 120mm Steel Stud Wall Cavity Insulation Vapor Barrier

14. Supply Air

Plywood Sheathing

15. Horizontal Mullion

Drywall

16. Aluminum Steel Panel

Partial Reflected interior Elevation [1:200]

PART IAL INTERIOR ELEVATOIN - TYPICAL

17. Lighting

31. Curtain Wall Glazing

18. Steel Columns

32. Horizontal Steel Elements

19. Metal Screen Ceiling

33. Catwalk

20. Horizontal Mullion

34. Ring Aluminum Mesh

21. Drain

35. Metal Screen Ceiling

22. Sidewalk

36. Steel column

26


1

1

2 3

2 3

4

4

5 6

5 6

7

7

8

8

9

9

10 11

10 11

12

12

Parapet - D1 [1:10] - D1 PARA PETDetail DETAIL

1. Roof Assembly: Foliage Growth Medium Drainage Mat Waterproofing membrane Rigid Insulation

(175mm) Vapor Barrier Concrete slab (190mm) Steel Deck 2. Gravel 3. Aluminum Coping

4. Blocking 5.Compoite Aluminum Spandrel Panel 6.Parapet Wall Assembly: Aluminum Flashing

Waterproofing Membrane Air Barrier Rigid Insulation Plywood Sheathing Mineral Wool Insulation

120mm Steel Studs Backer Wall Plywood Sheathing 7. Spandrel Cavity Insulation 8. Vapor Barrier

9. Aluminum Grille Catwalk 10. Secondary Steel Element connection to I beam 12. Horizontal Mullion

1313 1414 1515 16 16 17 1718

1819 1920 21 2022 21 2223

23 24

24

Floor to Wall Connection - D2 [1:10]

FLOOR TO WALL - D2 13. Vertical Mullion 14. Horizontal Mullion 15. Supply Air 16. Raised Hardwood Flooring

27

17. Concrete topping on Steel Deck 18. Steel Deck 19. Ceiling Hanger 20. Steel I-Beam

21. Fire Proofed [Spray Foam] Ibeam 22. Fire Proofing Foam 23. Angle

Connections Connecting Vertical mullions of curtain wall to main structure 24. Steel Column

13. Ver 14. Ho 15. Sup 16. Ra 17. Co 18. Ste 19. Ce 20. Ste 21. Fire 22. Fire 23. An to main 24. Ste


2 2 2 2 2

25 26 27

25 26 27 28

28

29

29

Mesh Termination - D3 [1:10]

MESH TERMINATION - D3 25. Steel Secondary Structure- Vertical Element 26. Steel Secondary Structure- Horizontal Element 27. Aluminum Ring

Mesh 28. Pin connecting Mesh to the Secondary Structure 29. Terminating Connection Pin 1 2 2 3

3

4

4

5

5 6

6

7 26

7 26 1

8

8

25

25

9

9 24

24

10

10 11

11

Grade Condition - D3 [1:10] GRADE CONDITION - D4

1. Raised Hardwood Flooring 2. Curtain Wall Glazing 3. Supply air 4. Horizontal

Terminal Mullion 5. Aluminum Flashin 6. Foundation Wall 7. Aluminum Grille Catwalk 8. Earth

9. Spray foamed fire proof I - Beam 10. Aluminum Screen Suspended Ceiling 11. Foundation Wall

Assembly: Drainage Frabric Drainage Layer Concrete Face Waterproofing Membrane

Rigid Insulation [100mm] Vapor Barrier Cast in place Concrete Wall Rigid Insulation

[50mm] Drywall 24. 60 mm crushed stone 25. Concrete Retaining Wall 26. Sidewalk

28


Idea Store

-Nick Callies & Hrishikesh Tailor

29


30


31


B R E A K I N N AT U R E

UIA Approved Dalseong Citizen’s Gymnasium International Competition 2014 (Group Project) 3rd Prize Site: Dalseong-Gun, Daegu, South Korea With the construction of Techno-polis and Daegu National Industrial park, Dalseong-gun is recently going through a shift in identity from a quiet country district into an exciting cultural hub. In this context, we see an interesting potential in proposing a gymnasium that provides a break space, where the citizens relax and exercise alongside nature. In our proposal, people will be guided to interact with nature using all of their senses. They will feel the diffused green light, hear trees sway and birds chirp, smell flowers, and see green shadow seeping through the glazing. Break in Nature provides the current and the future citizens with exactly what its name suggests--a break from their daily hectic lives, engaging with peaceful nature of Dalseong-gun.

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     

      

EXERCISING WITH NATURE

     

      

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     

LAYERED VIEW


     



GREEN SHADOW

    

B

      

A

A

B

LEVEL 1 34


SITE PLAN

EAST ELEVATION

NORTH ELEVATION 35


WALL SECTION 36


SECTION A-A

SECTION B -B

37


38


39


KORTRIGHT CENTRE

Ryerson University 2014 Fall ASC 520 - Integration Studio I Instructor: Maria Denegri Site: Kortright Centre for Conservation, Vaughn, Ontario (Group Project)

The requirement for this project was to create a highly environmentally sustainable visitor centre for Korttright Centre for Conservation. The design was conceived by various passive strategies. First, the volume was stretched into the envornment to have a large south facade and then two double height spaces were added to provide a focal point.

40


SITE PLAN

LEVEL -1

A

B

LEVEL 1

LEVEL 2 41


42


SOUTH

ELEVATION

SECTION A-A

43


Cross Ventilation

EAST ELEVATION Summer Sun: Atrium

Stack Effect

SECTION B -B

PAS SIVE STRATEGIES Winter Sun: Atrium

44


45


T H E S TA R G A Z E R

Ryerson University 2016 Fall ASC 856 - The Small Building Instructor: Baruch Zone The program of this project is a portable observatory for star gazing and studying astronomy. Mankind has always been curious about the universe. Observatories are designed to fulfill the desires of such curious minds. The study of observational astronomy takes place is an observatory. It is a space where the cosmos is analyzed and enjoyed. However, an observatory should do more than just frame the cosmos. This project aims to create a space that will allow the stargazer to become fully immersed in the exercise of observation and studying the sky. Hence, this project is titled “StarGazer�

46


1. Wood panel - Roof (2x4 wood planks + (2)

50mm L steel frame)

(1)

2. Wood Panel system 3. Seating ( 25mm (4)

Plywood)

(3)

4. Stairs (2 x 4 wood planks) 5. Folding wood panel (9)

(6)

deck

(5)

6. Telescope

(8)

7. Structural Frame (76 (7)

mm HSS)

(14)

8. Wood Panel system

(15) (14)

- wall 9. Window (8)

(2) (11)

(9) (10)

(14)

10. Desk + Stool 11. Storage shutters 12. Wood Panel System - Floor 13. Car Trailer

(16)

14. Hinges

(12)

15. Wood Panel system - Door 16. Wood panel system Viewing Shutter (13)

17. 2 x 4 wood planks cladding 19. Handles 18. L steel frame

EXPLODED AXONOMETRIC

SIDE ELEVATION1 47

(50mm)

FRONT ELEVATION


UP

PLAN

SITE PLAN

SECTION

SIDE ELEVATION2

BACK ELEVATION

48


49


PORTLANDS TOWNHOUSE

Ryerson University 2014 Winter ASC 401 - Design Studio III Instructor: Olena Kobets-Singkh Site: Portlands, Toronto The intent is to design a live/work townhouse that separates the professional and private life of the client in a way that it facilitates both aspects of his life smoothly. The main issue was addressed with the help of a central courtyard. This courtyard separates the professional and private life of the architect. This duality is further reinforced by limiting access of the employees to the more private spaces. Similarly, archi-tectonic dualities are explored in the elevations of the townhouse. (Exterior and interior elevations). The architect’s preferred design sensibilities are used as an inspiration to achieve the aesthetic of the spaces and the townhouse overall. The work spaces have been designed in a way that future expansion is possible. This house provides essential spaces required to live and the luxury to work efficiently from the home-office eliminating the hassles of everyday commute.

50


Scale 0m

LEVEL -1

LEVEL 1

ZONING REQUIREMENTS

51

LEVEL 4

DESIGN RESPONSE

LEVEL 3

1:100 2m

4m


NORTH PERSPECTIVE

Living Work Courtyard

SCHEMATIC DESIGN

52


SECTION B -B

53

SECTION A-A


54


55


ARCHITECTURE EXCHANGE

Ryerson University 2016 Fall ASC 720 - Option Studio Instructor: Ivan Martinovic Site: McLaughlin Planeterium, Toronto Architecture Exchange is a place with spaces that are ultimately intended to create an exchange of architecture ideas. Architects from world over will be invited to create their interpretation of space, scale, tectonics and materiality . The building houses 6 exhibition “rooms� or spaces. These rooms differ in sizes and proportionality, and transparency. These rooms enable the architects to create various interpretation of space and scales - from micro to human to macro scale. These rooms are separated by a fluid interstitial space which is intended to promote social interaction, dialogues and conversations among the visitors. These interstitial spaces also become a space to view the exhbits from a different vantage point. Simply, put the building intends to create spaces for spaces.

56


DN DN

9

1

7 8 7

10 UP

2

DN

A 6

5

3 DN

7

4

DN

FLOOR 1 1. Reception

closet

2. Office +

13. Work Area

Security

14. Elevator

3. Lobby

Room

4. Cafe

15. Mech. Room

5. Exhibit Atrium

16. Classroom

6. Bookstore

17. Elec. Room

7. Storage

18. Sprinkler

8. Temporary

19. Exhibit Room

Storage

20. Exhibit Space

9. Garbage

21. Viewing

10. Loading Dock

Platform

11. Subway

22. Office Space

Entrance

23. Office Lounge

12. Janitor’s

24. Restaurant

57

PERSPECTIVE SECTION THROUGH EXHIBIT ROOM


14

7

7

15 7 7 DN

17 18

11

16 12 7 7

SITE PLAN

UP

13

15

BASEMENT

UP

UP

DN

19

20

UP

DN

19

19

19

FLOOR 3

UP

UP

DN

DN

19

22

23

21

22 22

FLOOR 4

FLOOR 5

24 DN

21

FLOOR 6

ROOF PLAN

58


PERSPECTIVE S ECTION - B

59


EXHIBIT ATRIUM

60


PERSPECTIVE SECTION - A 61


62


- Professional work at RAW Design (All drawings belong to RAW Design)

6000 BASEMENT BASEMENT

GROUND FLOOR

6 SINGLE FAMILY HOME - MIS SIS SAUGA

63

1000

1640

FAMILY ROOM

MIDRISE - KINGSTON RD, TORONTO

3500 1000

7176

1000

FAMILY ROOM

15046

15046

INDIAN GROVE MISSISSAUGA

INDIAN GROVE MISSISSAUGA

6000 GROUND FLOOR

6866

1640

1000

5100

SECOND SECOND CONCEPTUAL FLOOR FLOOR FLOOR

CONCEPTUAL FLOOR PLAN

PLAN

1:100

1:100

A201

A201

6957

MASTER BEDROOM

3790

GARAGE

4550

6000

GARAGE

7176

1000

4550

UNEXCAVATED

6000

UNEXCAVATED UNEXCAVATED

6976

6866

1000

1000

6976

2447 1000

5100 UNEXCAVATED

BEDROOM 2

3790

1821

1821

BEDROOM BEDROOM12

KITCHEN

2447 1000 1000

BEDROOM 1

4911

4911

3500

5119 3619

8366

8366

KITCHEN

2447

LIVING / DINING

6957

MASTER BEDROOM

15046 INDIAN GROVE MISSISSAUGA

1500

5179 2447

LIVING / DINING

1500

5179

4276

6771 4276

6771

5119 3619

UNEXCAVATED

1500

7776 1500

7776 UNEXCAVATED

THIRD FLOOR

THIRD FLOOR

CONCEPTUAL FLOOR PLAN 1:100

A202


TAB OO RESORTS - MUSKOKA

64


64



Hrishikesh [Rishi] Tailor hrishikesh.tailor@gmail.com


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