P O R T F O L I O RYAN CONNER
TABLE OF CONTENTS
2
DESIGN - BUILD
04
CONCEPT HOUSING
08
TORREY PINES GLIDER PORT
12
SUBURBAN HOUSING
16
ROMAN FORUM ENTRANCE
20
CASE STUDY MODELS
24
3
4
Design - Build Sukkot Harvest Festivalv
The final design for Sukkot Harvest Festival structure followed the natural lines of the letters within the Hebrew word “Sukkah.” The geometry of the structures footprint is simple and allows three separate areas within one integrated structure. Upon entrance of the Sukkah the first structure represents the Western Wall, Wailing Wall of Jerusalem. Here members of the community pass down their knowledge, memories, and experiences through colorful questionnaire boxes signifying the “past.” Moving towards the second area, the structure is the idea of the past and future coming together in an interactive space, allowing different generations both old and new coming together to celebrate the “present.” Continuing forward to the final structure representing the “future.” Here the structure holds actual seeds for the future of the community. People who visit this part of the Sukkah will be able to take part of it home at the end of the event. The seeds will be a powerful symbol for the cycle of renewal.
DESIGN - BUILD
5
16.75"
1
2
25.50"
7.75"
x2
16.75"
Plexiglass Dimensions
25.75"
15.25"
x8
x4
x2
16.75"
16.50"
3
4
SCALE: 1/4”=1’-0”
1
2 8'-0"
6'-3 1/2"
1'-6"
1'-6"
3"
6'-3 1/2"
8'-0"
5 9"
8'-6"
1'-6"
3
SHELVING CONNECTION DETAIL SCALE: 1/4”=1’-0”
2'-3"
5
3"
9"
4
1'-6"
1'-6"
1'-6"
1'-6"
6'-3 1/2" 8'-0"
4'-7"
8'-0"
*Note: Sections labeld as plexiglass should have 1/8”dadoed grooves on all sides to assure secure joinery.
PANEL - 2X6 CONSTRUCTION COLOR WALL
SCALE: 1/4”=1’-0”
A2
6
° 67
°
3 1/2"
67
1
45°
45°
3 1/2"
12'-0" 2
12'-0"
1
MITER DETAIL SCALE: 1/4”=1’-0”
12'-0"
5"
1 2
45°
1 1/2"
1 1/2"
8'-9"
5"
1 2
8'-9"
1'-11 1/4"1 1/2"
6'-4 3/4"
3 1/2"
1'-7 1/2"
PANEL - 3.2
SCALE: 1/4”=1’-0”
A8.2
DESIGN - BUILD
7
8
concept housing Passive Solar Housing
The home follows a simple division of space between private and public. The private functions become loosely broken into two separate towers, while the private space connects the structures. In an attempt to create a passive solar structure the design includes three basic elements that work together: Properly Oriented Windows: Operable windows placed at optimal heights within the main gathering quarters enables natural ventilation throughout the structure. Thermal Mass: Concrete blocks create a large thermal mass that helps absorb heat from sunlight during the heating season and absorbs heat from warm air in the house during the cooling season Control Strategies: Properly sized roof overhangs provide shade to vertical south windows during summer months. Other control applications include an exterior louver system.
CONCEPT HOUSING
9
51-1/2’ 15-1/2’
12-0’
13-0’
6-0’
6-1/2’
BEDROOM
RESTROOM
9-1/2’
ENTRY DECK
5-1/2’
DN
6-1/2’
UP
5-1/8’
DN
DN
BEDROOM
LIVING SPACE
13-0’
29-3/4’ REAR DECK
37-3/4’
ENTRY KITCHEN
32-1/2’ 43-3/4’
GROUND FLOOR PLAN
27-1/4’ 21-1/2’
17-0’ 11-1/8’
5-3/4’ UP
11-1/2’ RESTROOM
DN
7-1/4’
37-3/4’
MEZZANINE
18-1/4’
20-3/4’
BEDROOM
VOID
29-0’
16-1/2’ 51-3/4’
first floor plan 10
MATERIALS SELECTION THE GOAL FOR THE PROJECT IS TO REUSE AND REPURPOSE AS MANY MATERIALS AS POSSIBLE TO CREATE SUSTAINABLE STRUCTURES
CORRUGATED METAL ROOFING
GLUE LAMINATED BEAMS
REPURPOSED SHINGLES
EXTERIOR ADJUSTABLE LOUVER SYSTEM
TIMBER FRAMING CONSTRUCTION
RECYCLED CONCRETE FLOORING
CARMEL VALLEY REDESIGN RYAN CONNER NEWSCHOOL OF ARCHITECTURE + DESIGN AR802 WINTER 2015, MIDTERM REVIEW TATIANA BERGER, STUDIO CRITIC
CONCEPT HOUSING
11
torrey pines glider port Blending in the Landscape
The 6,000 square foot structure is located in Torrey Pines neighboring the Salk Institute, University of California San Diego, and the Torrey Pines golf course, specifically on a cliff facing the Pacific Ocean. The master plan for the structure is to full fill the required programmatic requirements for a glider port while protecting and preserving delicate landscape. The glider port as a environmentally sustainable as passive structure. The public space lands in a sensitive waterfront zone that requires conscious incorporation of program, usage, and environment. The preservation of the natural landscape and protection of the eroding cliff face are important goal for the project. For this reason the design of the redesigned glider port is less obtrusive to blend with the natural landscape.
12
TORREY PINES GLIDER PORT
13
Offices and Store Check-In and Store..................... 900 sq ft Public Restrooms........................ 600 sq ft Managers Office.......................... 150 sq ft Assistant Manager....................... 100 sq ft Break Room/Copy Room............ 150 sq ft Tele/Elect Closet..........................100 sq ft Battery Room...............................200 sq ft
Cafe Serving Counter...........................100 sq ft Kitchen.........................................200 sq ft Dry Storage..................................150 sq ft Cold Storage................................150 sq ft Indoor Dining............................... 500 sq ft
Education Center Display......................................... 600 sq ft Lecture.........................................400 sq ft
Parking Pilot Parking.................................1,152 sq ft Glider Drop-Off............................ 500 sq ft General Parking...........................9,000 sq ft
Additional
Outdoor Dining.............................900 sq ft Spectator Viewing Area................600 sq ft Pilot Viewing Area........................600 sq ft Solar Field....................................750 sq ft Glider Landing Strip.....................1,000 sq ft Remote Control Flyers.................300 sq ft Trash and Recycling.................... 40 sq ft
Total.................................................20,842 sq ft
GROUND FLOOR PLAN
first FLOOR PLAN 14
TORREY PINES GLIDER PORT
15
16
Suburban housing Single-Family Residence
The redevelopment of Carmel Valley focuses on issues of Integrated Architectural Solutions as explored through a small-scale, typologically based project. Each home is designed around a system integrated of prefabricated components is laid out in an 8’ x 8’ grid. The structure itself is broken down into three basic components: wall panels with different siding options, light weight steel beams that frame each wall component and a simple mono pitched metal roof. The structure is held together by simple bolts that tighten the wall panels with beam components.
SUBURBAN HOUSING
17
A
16-0’ 5-0’ 14-0’
17-0’
34-0’
34-0’
20-0’
8-6’
17-0’
B
32-6’
17-0’
GROUND FLOOR PLAN
section cut a
18
SUBURBAN HOUSING
19
DIVINE GEOMET
SAN CARLOS ALLE QUATTRO FOUNT 20
Roman Forum Entrance Divine Geometry
Located at the Roman Forum the proposed structure creates a new entryway into the ancient ruins of the Roman culture. The design holds true to the foundations of San Carols Alle Quattro Fontane by Francesco Borromini who masterfully played off the use of positive and negative space to form a system of hidden geometries aligned with Baroque architecture. The structure follows a gradually increasing slope offering vantage points at an elevated level providing the users with new and engaging viewpoints of the surrounding area. The elevated space provides a shaded area for the placement of the ticket booth, public restroom, and cafe. Threading the structure together is weaving travertine placed along a curtain wall to offer the use of natural light and local materials.
TRY
TANE ROMAN FORUM ENTRANCE
21
22
ROMAN FORUM ENTRANCE
23
24
case study models Drawings and Models
The purpose of case study models is required to research and thoroughly analyze a chosen building through a mimetic reconstruction and analysis of a significant “slice” of the building through both drawing and a large-scale detailed sectional model. “Intention is discovered in the act of making” ~ Nelson Goodman
Villa Mairea Staircase - Alvar Aalto
CASE STUDY MODELS
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Kolumba Museum -Peter Zumthor
26
Tjibaou Cultural Center - Renzo Piano
CASE STUDY MODELS
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