Architecture Portfolio 2020 - Young Eun (Emily) Park

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YOUNG EUN (EMILY) PARK


YOUNG EUN (EMILY) PARK Selected Works 2018-2020 Ryerson University

e c t u r e o l i o 0 .


c o n t e n t s

01 02 03 04 05

CervĂŠlo Bicycle Museum

p. 4 - 13

Grange Park Pavilion

p. 14 - 19

Martin Road Winery

p. 20 - 27

Silent Meditation Cabin

p. 28 - 37

Undersea Volcano Research Lab

p. 38 - 45


CervĂŠlo Bicycle Museum

01


Bloor St. E. & Church St., Toronto ASC401 Design Studio III | Winter 2020 Mixed-use | Individual Work Revit • Rhino • AutoCAD • Lumion • Photoshop • Illustrator 5


2

5

Ground Floor 1 2 3 4 5 6

Lobby Cafe Gift Shop Auditorium Main Exhibition Shipping & Receiving

6

3

1

4


1

3 2

Second Floor 1 Gallery Space 2 Temporary Exhibition 3 Offices

Cadence The Cervélo Museum reveals a high cadence of forms achieved by dynamic volumes that twist and rotate. This is to reflect the essence and main goal of the company, Cervélo, as they strive to design the world’s most innovative and fastest bikes. The public will experience a fast rhythm and pattern, a gradation and progression of volumes as they advance vertically into the different floors.

1

3

2

Third Floor 1 Small Exhibition 2 Permanent Exhibition 3 Offices

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The Rotating Skin The outer skin featured by perforated corrugated copper adds a sophisticated illusion of twisting and dynamic movement, accomplished by the reflection and illumination of copper as it continues the twisting motion. The perforation allows subtle light to get into the interior without harming the material of the bicycles on display.

East Elevation

Subtle Emission of Light


Perforated Corrugated Copper Panels Copper is chosen as the material of the twisting outer skin. The corrugation is added to add an undulating, rhythmic quality, and the perforation is to keep the gallery spaces uninterrupted from the city, with light and noise.

Glass Fibre Reinforced Concrete (GFRC) GFRC is used to replace reinforced concrete while having much thinner and lighter exterior.

Exploded Axonometric 9


a. Skylight Detail

b c

b. Roof - Wall Detail

c. Wall - Window Detail


a

East Section 11


Third Floor

Second Floor

Ground Floor

Rotation in Axonometric

Basement


Skylight Shaft as Central Axis A central skylight shaft runs vertically from the first to the third floor; to emphasize the importance of rotational movement to create a pattern of cadence. It also softly illuminates the center of the building on all floors.

North Elevation 13


Grange Park Pavilion

02


Beverley St. & McCaul St, Toronto ASC301 Design Studio II | Fall 2019 Recreational-use | Individual Work Rhino • Grasshopper • AutoCAD • Lumion • Photoshop • Illustrator 15


Hear the Grange A SONIC PAVILION Sound is everywhere among us. It becomes so natural to the point where the beauty of sound gets disregarded. Much of today’s architecture is about blocking and controlling sound rather than appreciating the essence of it. This sonic pavilion allows for the public to participate in the celebration of sound. It provides the public with the sense of harmony of the sound from Grange Park. Placed in the center, it captures and reflects the flow of sound coming from all around the park with the use of one continuous metal sheet for maximum reflection and vibration of sound, enhancing one’s auditory perception.

Parti: Sound waves

A o c s p f i s o


At the Grange, there is a uniqueness to the quality of sound, especially in the middle of an urban setting. This harmony includes the sounds of people talking and laughing, children playing, water trickling from the water features, birds chirping, leaves skidding across the ground, bikes ticking, and much more. The organic flow of the pavilion imitates the dynamic, yet calm and natural flow of soundwaves generated from the park. The use of white reflective metal creates a visual reflectivity which is a representation of sound reflecting. The sonic pavilion indicates that sound is a spatial element, as it takes up volume. Soundwaves essentially create volumes of space. The integration of sound, space and volume is expressed in this pavilion.

Isometric View of Grange Park

17 17


a. Water Fountain and Seating

b. Children’s Playground Where Sounds Come From At Grange Park, there is a harmony of sounds that is different from the typical sounds of the city. In the open space, there are sounds of the people talking and laughing while lounging on the grass or seatings, children playing, water trickling from the fountains, bikes ticking, leaves skidding across the ground. The organic flow of the pavilion imitates the dynamic yet calm flow of the sound waves generated from Grange Park. Sound is a special element, as it takes up and creates volumes of space around us. The pavilion embraces the sounds created. c. Water Feature


Monocoque External Shell

Cold-formed Steel Framing

Monocoque Inner Shell

A Sound Amplifier

Monocoque Steel Panels The monocoque structure allows for a freely formed, continuous curve throughout the pavilion, fulfilling the expression of the flow of sound waves. The internal structure is composed of cold-formed steel frames, welded on site with the monocoque shells. These materials give the pavilion a light and airy touch, just like the lightness of sound waves.

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12 Martin Road, Niagara-on-the-Lake

Martin Road Winery

ASC301 Design Studio II | Fall 2019 Mixed-use | Individual Work Rhino • AutoCAD • Photoshop • Illustrator

03


21


Site Plan

Stretched The longevity, twisting and the crossing of the vines are expressed in this winery, through the convergence of two distinct forms; a straight line for the linearity of the vineyards and the landscape, and a curved line that stretches over the straight line. The intersecting volume acts as circulation space, where the people can experience the curvature of the building.

West Elevation


1

2 5

6 3

4

Ground Floor 1 2 3 4 5 6

Lobby Retail Offices Bottling, Shipping, Receiving Fermentation Cellar Loading Dock

4

3 1

Second Floor 1 2 3 4

Tasting Bar Private Tasting Room Event Space Outdoor Terrace

2

South Elevation 23



East Section

25


c d b

Assembly

a. 1/2” Stee

b. 8” Harde

c. 12” Hard

d. 4” Polyis

e. Reinforc

f. 4” Grave

g. 4” XPS I

h. 4” Conc

a

h g f

e

South Section

Ramm

The lowe earth as of the gro the earth the grou is the ma consisten provide t fermenta that inter cladded w homage


y

el Rebar

ened Rammed Earth

dened Rammed Earth

socyanurate Insulation

ced Concrete Footing

el

Insulation

crete Slab

Event Space

med Earth Wall Detail

er form of the winery uses rammed a material to express the intent ound emerging from underneath h to make a new horizon line of und and the sky. Rammed earth aterial choice because it keeps a nt temperature all year round, to the perfect environment for the ation process. The second form rlocks with the rammed earth is with vertical wood veneer to pay to the grape vine trees on-site. Circulation to Second Floor

Wine Library 27


Silent Meditation Cabin

ASC101 Communications Studio | Fall 2018 Recreational-use | Individual Work Rhino • AutoCAD • Lumion • Photoshop • Illustrator

04


29


172m

171m

170m

Site Plan

Cubes of Serenity

Singular

Division

Lift

Final Form

The Silent Meditation Cabin is a getaway from the busy life of the city; a place where one can come for self-reflection, deep thoughts, meditation and concentration. Located in a forested environment, the visitor will have the full potential to relax and ponder without the distraction of the world. There are two separate cubes that interlock with each other. The lower cube is the everyday living space, and the higher cube is the meditation space. The two different spaces are expressed with different clad materials. The interlocking cubes provide a space of rational concentration of oneself in the middle of the natural environment.


2

1

Plan 1 2

Everyday Living Space Meditation Space

31


West Section

South Section


The Meditation Space With light coming in to illuminate the space, the visitor can meditate and feel at peace with the views to the forest and the abundance of light that quietly enhances one’s tranquil state.

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The Transition of Cubes The Silent Meditation Cabin was built with wood construction for minimal footprint and preservation of the land. Cedar wood was used for cladding, and the change of colour between the cladding of the cubes is a transition from one space to another, a separation of program and purpose. A simple palette of materials is for the complete tranquility and calmness of the cabin. The exterior skin of the meditation corridor is burnt cedar timber cladding, which expresses a comforting, warm and calm feeling of meditation.

North Elevation


Cabin in the Winter

East Elevation 35


Roof Assembly

Wall

a. Gypsum Ceiling Board

a. 1/2

b. Timber Rafters

b. 2x

c. Timber Firring

e

d. 1/2� Plywood Decking

d

c. 1/2

d. Bu

e. Flat Roof

e. Ce c

Furnishings a. Fire Stove b. 5 Small Storage Cabinets

b a

c. Large Storage Cabinet e

d. Wall Mounted Table d c b a

d c

b a

Wood Construction Assembly Exploded Axonometric


l Assembly

2” Gypsum Wall Board

x4 Framing

2” Plywood Sheathing

uilding Paper

edar Wood Cladding

Meditation Space

Living Space

Lake View 37


Undersea Volcano Research Laboratory

05


Mozambique Channel, Mozambique Space and Ocean Competition | Summer 2020 Mixed-use | Partner: Eric Hong Rhino • Grasshopper • AutoCAD • Lumion • Photoshop • Illustrator 39


Investigating Undersea Volcanoes Located near the Volcanic Province of the Mozambique Channel in Africa, the Undersea Volcano Research Laboratory Centre is designed for researchers to effectively and safely research underwater volcanoes and their surrounding environment and marine life. Even in the current society, science has yet to discover much more about the mystery and unknown of the environment of the underwater volcanoes. This research centre allows for a focused study of volcanoes and the underwater aquaculture, while respecting and having a minimal impact on the site. The site of the research center, the Mozambique Channel, is one of the most active hotspots for undersea volcanoes on earth. Scientists from across the globe will be able to join in on the research.

Igneous Rock Basalt is the most common igneous rock type at the ocean flo when lava from a volcano make gas bubbles upon cooling d form and materiality is an homage to the surrounding enviro which is mostly made up of basalt.


oor. The holes are formed down. The Research Lab’s onment of the ocean floor

Safe Distance The minimum safe zone of a volcano is 5km, but to ensure maximum safety, the research laboratories are situated outside of the 15 km radius of active undersea volcanoes.

5km 10km 15km

Promoting Biodiversity It has been proven that the ocean water near underwater volcanoes is high in minerals and nutrients, which is an ideal condition for the marine ecosystem. To stretch this advantage further, there is a limestone surface where algal plants can grow, expand and provide habitat for the aquaculture near the volcanoes. This promotes biodiversity as well as maintaining it, and is also very beneficial to the research where scientists will be able to harvest and gather resources.

41


Convenience of Volcanic Research Each research laboratory building accommodates for 50 scientists and researchers. With submarines being the main mode of underwater transportation, there are 24 submarine storage spots for the ease of the researchers to travel to go mineral hunting, researching and extracting near the volcanoes. These programs are catered towards providing a convenient and efficient environment for volcanic researchers and scientists. The research lab floor is just above the submarine parking, for the ease of delivering resources from the ocean.

Harvest / Investigation

Research


1B-3B 1F-2F 3F 4F 5F-8F 9F

Mechanical / Storage Submarine Parking Research Labs Community Amenities Space Residential Units Observatory Deck

Sectional Perspective 43


Residential Units


Observatory Deck

45



YOUNG EUN (EMILY) PARK

c u r r i c u l u m v i t a e

416-554-2323 youngeun.park@ryerson.ca Toronto & Oakville, ON

EDUCATION Ryerson University

2018 - Present

B. Architectural Science • Dean’s List honour • Recipient of undergraduate entrance scholarship

AWARDS Dean’s List

2019 - 2020

Shad Ryerson Scholarship

Nov. 2018

Ryerson University • Department of Architectural Science

Faculty of Engineering and Architectural Science • Selected winner from Ryerson University’s FEAS.

LEADERSHIP

SKILLS Technical Programs • Autodesk

AutoCAD Revit • Rhinoceros 6.0 • Adobe Photoshop • Adobe Illustrator • Adobe InDesign • Lumion Pro • Vray for Rhino • Grasshopper • Microsoft Office • Autodesk

Physical • Hand

Sketching • Drafting • Physical Model Making

Language Proficiencies • English • Korean

Youth Art Council Executive

2017 - 2018

Shad Leadership Program

July 2017

Oakville Gallery • Organized and planned Art Council events weekly; • Designed, set up and displayed artworks at local events; • Weekly meetings and activities to raise the profile of youth artists in Oakville.

Ryerson University Campus • Best Business Award for project; • Designed product’s logo and organized team’s Pitch presentation; • Recognized for logo designs and product design.

EXPERIENCE Ballet Instructor

2015 - 2017

Green Team Leader

July - Aug. 2016

Vienna School of Music and Dance • Designed and implemented choreography and performances; • Prepared age-appropriate lessons and exercises to optimize results.

Highland Springs Resort • Eco-friendly client services: recycling, re-purposing, and renewal of local services; • Team-oriented, leadership, organization skills, scheduling, and teaching environmental awareness. 47


YOUNG EUN (EMILY) PARK PORTFOLIO 2020


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