2016
CONNOR HYMES Architecture + Design University of Cincinnati SAID Master of Architecture 2017
01
RESUME
02
COLUMBUS ANTHEANUM
03
NATIONAL SAILING HALL OF FAME
04
LEAF
05
CONGRESSIONAL CEMETERY
06
CASA DA MUSICA
07
7 HILLS NEIGHBORHOOD HOUSING
08
PROFESSIONAL WORK
Education/Professional Work 2016
University of Cincinnati SAID Graduate Studio Work 2014
Catholic University of America Foreign Studies Competition Finalist 2013
University of Cincinnati SAID COTE Top Ten Competition 2016
Catholic University of America Comprehensive Building Design Studio 2014
University of Cincinnati SAID Integrated Technologies 2014
University of Cincinnati MetroLAB Graduate Design Build 2015
2015 - BCJ, RTKL 2014 - SYAA 2013 - KADCON
Resume
CONNOR HYMES Architecture + Design connorhymes@gmail.com 6453 Old Chesterbook Rd McLean, VA 22101
EDUCATION University of Cincinnati Cincinnati, Ohio
Master of Architecture 2017
The Catholic University of America Washington, D.C.
PRACTICE Bohlin Cywinski Jackson
2015
San Francisco, California
2105 Fall Co-op/Internship + Projects 595 Market Street Martis Camp Residence Expedia Campus Expansion
Bachelor of Architecture 2014
RTKL Associates
2015
Washington D.C.
SKILLS/RECOGNITION Autodesk 3ds Max, Autocad, Revit Adobe Illustrator, Photoshop, Indesign Other Rhinoceros, Vray, Keyshot, Ecotect, Digital Project Laser cutting, Woodworking, Metal Fabrication
2015 Spring Co-op/Internship
+ Projects Prince Sultan Cultural Center Medical Park Cairo Childrens Healthcare Outpatient Center
Sutton Yantis Associates Architects 2014 Architectural Intern
+ Projects Wentworth Green Community Center Grayson Gulick Group
2016 2016 2015 2014 2013 2013 2013
Dencity/2016 Competition COTE Top Ten Architecture Student Competition Seven Hills Community Design Build Recognition Comprehensive Building Design Studio (SOM) Cardinal O’Boyle Studio Competition Finalist Barcelona Study Abroad (Makers of Barcelona) Ghost Town Competition - Karosta, Latvia
2014
Vienna, Virginia
KADCON Corporation Georgetown, Washington DC
2013 Assistant Project Manager
+ Projects Saint Elizabeths Gateway Pavilion 2015 AIA DC Excellence In Architecture 2014 AIA New York State Citation for Design 2014 Architecture Magazine Annual Design Review Honorable Mention
2013
02 COLUMBUS ATHENAEUM Columbus, Indiana Graduate Works 2014 University of Cincinnati SAID
Taking a look at the city fabric, the most beneficial strategy to enhance the city and activate this site as a public center was to bring the people into the building through a straightforward public connection. The building systems integrate through the idea of lifting and blending into the building. This site as a public center brings the people into the building through a straightforward public connection. Moving north to south along the main publicly activated street the building is elevated above the ground. The auditorium becomes true to its’ function and exposes its’ shape to the public creating an even more drastic entrance alongside the street. As you move through the building, A light atrium bring you through the building allowing for circulation and natural light to penetrate the main programmatic functions off the building. The building systems integrate through the idea of lifting and blend into the building. Two concrete cores run vertically through the building creating centralized areas for emergency egress, mechanical, electrical, and plumbing functions.
Columbus, Indiana UPTOWN
DOWNTOWN
Coulombs Athenaeum
Current Street Typology
Proposed Street Typology
The current street typology is comprised of different commercial buildings on the west and an unused parking lot on the east. There is a connection through the space but nothing on the site itself. The proposed street typology allows for a continuation of the connection through the site. It also creates the opportunity for a new public concentration of space for arts. The site is located almost at the intersection of these two spaces making it an important cultural location in Coulombs for locals living in the area and tourists visiting the area.
SITE ACTIVATION
The connection/passage between uptown and downtown Columbus, Indiana is an important part to the success and flow between the spaces. Uptown has more residential buildings and offices while downtown has mostly retail and shops on the ground level. Washington street serves as the main connection between these two areas. The site is located almost at the intersection of these two spaces making it an important cultural location for Coulombs for locals living in the area and tourists visiting the area.
Coulombs Athenaeum
PROGRAM
arranging the program according to spatial hierarchy in correlation to the public/private relationship to the street.
RAISE
connection to the public through raising the privatized elements above the ground. ground level becomes a public level alongside the publicly activated the street
LIGHT
a light atrium penetrates the public and private programmatic elements and also becomes the main vertical connection to the gallery spaces
CONNECT a connection is created through the use of movement through
the street into the building becoming a more integrated interpretation of a connection.
Coulombs Athenaeum
CIRCULATION Emergency Egress Main Entrance Gallery Circulation
M.E.P SYSTEMS AIR TREATMENT EXTRACTMENT INTAKE HYDRAULIC CIRCUIT COLD WATER HOT WATER
STRUCTURE Wide Flange Beam W24x104 Wide Flange Beam W16x45 Structural Concrete Cores
Vertical Cores
The Atheneum contains three vertical cores circulating people from the public level to the more private gallery / library area. There are two concrete cores and one central glass core / atrium. The glass atrium is the main proposed circulation and the concrete cores are meant for emergency egress. The two concrete cores located at the north and south ends of the building are the main structural, mechanical, and emergency egress elements of the building. This allows for open circulation and exhibition spaces around these cores. Creating a public/private relationship that is relatable to the materiality of concrete is more private and wood is more public and welcoming.
Coulombs Athenaeum
Cafe
Light Atrium
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Gallery
Auditorium
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Longitudinal Section 1 2 3 4 5 6 7 8
Visitor Center Bookstore Cafe Light Atrium Library Gallery Auditorium Living Spaces
PROGRAMMATIC DISTRIBUTION
Public
Coulombs Athenaeum
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Private
creating a spatial hierarchy through programmatic public/private relationships creates naturally connecting/disconnecting spaces allowing for this building to be harmonious with the nature of human circulation in relation to gallery circulation
Light
PUBLIC SPACES
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Dark
SEMI-PUBLIC SPACES
bookstore
1500sf
library
1500sf
visitor center
2000sf
permanent gallery
4000sf
cafe
1500sf
reception
2500sf
auditorium
3000sf
PRIVATE SPACES living permanent visitor
1500sf
archives
3000sf
sculpture garden
3000sf
1500sf
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Third Level +38’- 0”
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Second Level +28’ - 0”
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Gallery Level +20 - 0”
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Visitor Center Bookstore Cafe Main Atrium Library Conference Room Permanent Gallery Archives Reception Auditorium Artist Living
Public Level +10’- 0”
2 1
Below Ground Level -16’- 0”
2
03 NATIONAL SAILING HALL OF FAME Annapolis, Maryland Competition Studio Finalist Catholic University of America 2013
My proposal for the National Sailing Hall of Fame was a combination of my passion for sailing and architecture. Combining the three main aspects of sailing (wind, water, and craft) with architectural movements (connect, shift, and separate), I was able to ‘capture the sail’ from my experiences and relate them to architecture, space, and experiences. The collage depicts the chaos of the sail moving towards a moment and the dock emerges , extending into the beyond. The parti development takes the architectural movements and merges them with the collage wind, water, and craft become not only sailing terms but terms that relate to the architectural movements of this building. The materiality of the programmatic exhibition buildings are developed from their relationship to the water. the water takes on dark and light aspects throughout the sea and the material mimics that allowing for more public and private exhibition elements.
National Sailing Hall of Fame
a
b a 1/8� scale model, view is from on the Chesapeake Bay b I created this collage to embody my experiences in sailing. The chaotic aspects of sails ropes and masts, a moment occurs and a dock extrudes into the open. This collage helped me visualize an image for my building, through process of interpretation of aspects of sailing and nature.
National Sailing Hall of Fame
Downtown Annapolis
PROCESS
EXPAND
vary the programmatic language of both blocks by creating hierarchy
SHIFT
mimicking the movements of water shifting alongside the boat
Chesapeake Bay
SEPARATE
create a connection to the public by separating the galleries
SHIFT
movement between spaces creating diverse exhibition spaces
CONNECT
connect the exhibition spaces to circulate throughout
Outdoor Exhibition
Classroom
Visitor Center
Exhibition #1
Outdoor Teaching Area
National Sailing Hall of Fame
Memorial Dock
Historic Sailboat Exhibition
Docking Station
GROUND LEVEL + 5’-0”
a
b
a The central dock connects programmatic elements and leads people from the city dock onto the Chesapeake Bay. Hanging on the sides of the dock on the wooden structure hangs national sailing hall of fame inductees. b The education portion of the program is adaptable allowing for indoor and outdoor education. The front of the facade swings down becoming a ramp to move kids to the waterside for hands on learning
National Sailing Hall of Fame
5
Thecentral centraldock dock seperates the The thatthat separates the museum museum in two is constructed of drift 2x4 in two is constructed of 2x4 pieces of peicesThis of drift wood.the This willdocks mimic wood. will mimic other in the other docks annapolis and it age Annapolis and in help it age with thehelp historic city with the historic city of Annapolis of Annapolis
The Future
future inductees into the national sailing hall of fame will be placed here. This dock will continue into the Chesapeake bay as it grows
1
2
3
4
1 Roof deck 2 Auditorium/viewing area 3 Main Gallery 4 Admin/Class 5 Central viewing dock
The Present connecting to current sailing exhibitions
The Past
connecting to the historic aspect of Annapolis. This displays the past inductees into the national sailing hall of fame
Form must have a content, and that content must be linked with nature
-- Alvar Alto
// transform the modern architecture mentality of columbus IN to be Sustainable and Vernacular rediscover the Connection between human and earth (post-industrialization) // expressing and celerabrating Structure instead of hiding // Served vs. Servant spaces ..... spaicial organization // Void vs Devoid .... Above ground vs Underground // Free oriented, unpredicted, circular space within Rigid structure grids - five points of architecture by Le corbusier
EAST ELEVATION | 1/8”=1’-0”
N-E SECTION | 1/8”=1’-0”
I. create an intersection
II. tie up with pre-drilled Hex bolts
III. stacking with more beams
IV. upside down pyramid structure
V. 2x6 horizontal substructure for flooring
VI. added blocks between beams with L cable
VII. Done
SITE PLAN | 1/150” = 1’-0” Location:
COLUMBUS. IN
County:
BARTHOLOMEW
Elevation:
630 ft
Population:
45,429 (2012)
Coordinates:
39°12′50″N 85°54′40″W
04 LEAF Columbus, Indiana COTE Top Ten Stainability Competition 2016 In collaboration with Ghislaine Garcia and Jason Wu
The Design for the Columbus Athenaeum (LEAF) combines architectural design and museum-specific requirements within an overall framework of environmental stainability. The museum seeks to become a threshold of nature and culture. The building itself embodies the concept of a museum while integrating natural and urban elements through the outward expression of structure and nature. Our aim is to create an inviting, vibrant, and unique space that celebrates local materials, wildlife, and community connections. Our proposal combines the existing culture and built environment with the abundance of natural wildlife creating a public learning environment for art, culture, and nature. The built environment and nature are often seen as two separate aspects that we seek to combine and accentuate through integrated greenspaces and unique construction methods with local materials. With all the flourishing contemporary architecture already located at the heart of Columbus, Indiana, the design intent of LEAF is to not only continue the legendary work but to set an example for generations to come. LEAF proposes photovoltaic solar power energy, scholar living spaces, grey water recycling for the two green roof spaces and facilitation of black water uses. LEAF would be insourcing all of its wooden structure from Indiana’s very own local Maple – Beech wood. Because LEAF would be at the heart of the architectural walking tour, it promotes walking and the use of bikes. LEAF, provides a temporary bike storage and a recommended bike path to see all of the contemporary works of art.
PARKING STRUCTURE
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// SEPARATE PUBLIC AND PRIVATE SPACE BASED ON PROGRAM
// EXTERIOR STAIR CONNECTS PARKING AND PLAZA, WHICH FRAMES AN ENCLOSED
WIND SPEED & DIRECTION
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////MAXIMIZE MAXIMIZETHE THESPACE SPACE&&SOLAR SOLARCONTACT CONTACTSURFACE SURFACE
////CREATE CREATEA ASOUTH SOUTHORINATED ORINATEDCOURTYARD COURTYARD ////CREATE CREATEEAST EASTORINATED ORINATEDGREEN GREENWALL WALL
////SEPARATE PUBLIC AND PRIVATE SEPARATE PUBLIC AND PRIVATE SPACE BASED ON PROGRAM SPACE BASED ON PROGRAM
//// EXTERIOR STAIR CONNECTS PARKING AND EXTERIOR STAIR CONNECTS PARKING AND PLAZA, WHICH FRAMES AN ENCLOSED PLAZA, WHICH FRAMES AN ENCLOSED
12 10
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ENERGY USAGE Heating and insulation is the key factor columbia IN. Therefore, we chose to use solar thermal system to heat up the space. Its efficiency is about twice higher than PV Panels. Below is our Estimate Result.
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8 ENERGY CONSUMPTION
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MUSEUM AVERAGE ENERGY CONSUMPTION MUSEUM AVERAGE ENERGY CONSUMPTION 108.12 (kBtu per sq ft)ft) kBtu 108.12 kBtu (kBtu per sq
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5 99
6 3
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1
SOLAR THERMAL SYSTEM SOLAR THERMAL SYSTEM && PVPV PANELS SYSTEM. PANELS SYSTEM. HIGH RR VALUE FOR HIGH VALUE FOR INSULATIONS INSULATIONS
ENERGY CONSUMPTION ENERGY CONSUMPTION (kBtu per sqsq ft)ft) (kBtu per
OUR ESTIMATEOUR ESTIMATE 92.12 kBtu 92.12 kBtu
4 33
ENERGY CONSUMPTION
MUSEUM AVERAGE MUSEUM AVERAGE 108.12 kBtu 108.12 kBtu
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2
55
SOLAR THERMAL SYSTEM
ENERGY CONSUMPTION SOLAR THERMAL SYSTEM ENERGY CONSUMPTION Heating and insulation is is the key factor columbia IN. Therefore, we chose to use solar (kBtu per sq ft) & PV PANELS SYSTEM. (kBtu Heating and insulation the key factor columbia IN. Therefore, we chose use solar per sq ft) (kBtu per sq ft)system & space. PV PANELS SYSTEM. (kBtu perthan sqto ft) thermal toto heat upup the ItsIts efficiency is is twice higher PVPV Panels. HIGH Rabout VALUE FOR thermal system heat the space. efficiency about twice higher than Panels. HIGH R VALUE FOR Below is is our Estimate Result. INSULATIONS Below our Estimate Result. INSULATIONS
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OUR ESTIMATE OUR ESTIMATE 92.12 kBtu 92.12 kBtu
22
OUR ESTIMATE OUR ESTIMATE 60.02 kBtu OUR ESTIMATE 60.02 kBtu OUR ESTIMATE 32.10 kBtu SAVE 44.5% ENERGY 32.10 kBtu
SAVE 44.5% ENERGY
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OUR ESTIMATE OUR ESTIMATE 60.02 kBtu 60.02 kBtu
OUR ESTIMATE OUR ESTIMATE 32.10 kBtu 32.10 kBtu
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SAVE 44.5% ENERGY SAVE 44.5% ENERGY
WATER USAGE
60% of rain water stored in grey water basin to facilitate black water uses.
33% of water used for hydration of green roofs.
0” -0”
33% ofof water used for 33% water used for hydration ofof green roofs. hydration green roofs.
em & PV Panels Indiana has over 85 local By using passive strategies, of of this building. LEAF integrates design and the tree types Maple ermal System Indiana has over 8585local passive strategies, temporary Beech, being the most hermal System&&PVPVPanels Panels Indiana has over local stackingByeffect for natural Byusing using passive strategies, d the tree Maple - LEAF integrates design and the ndon onthe theroof roofofofthis thisbuilding. building. treetypes types Maple LEAF integrates design and the zing building abundant. LEAF proposventilation throughout the pose a acontemporary Beech, being the stacking effect for natural opose contemporary being themost most 000 Btu/hr-sq ft es to Beech, use local resources building. stacking effect for natural hchininenergizing the abundant. LEAF energizing thebuilding building ventilation abundant. LEAFproposventilationthroughout throughoutthe the 14,000 Sq. Ft Btu/hr-sq suchesas the Maple - proposrarpower. use building. power.1000 1000 Btu/hr-sqftft esto uselocal localresources resources building. Beech astothe main strucor such forarea areaofof14,000 14,000Sq. Sq.FtFt suchasasthe theMaple Maple- tureBeech of theasbuilding. the main struc-
LEAF promotes the usage of 33% of rain water is used to biking in the city by providing hydrate plant life on the two the 33% ofofrain water isisused toto aLEAF secure temporary bike LEAFpromotes promotes theusage usageofof green roofs located on the 33% rain water used biking bybyproviding life bikinginstorage inthe thecity city providing hydrate hydrate plant lifeononthe thetwo two lock-up room. northplant and south ends of a asecure temporary bike green roofs located on the secure temporary bike green the is LEAF.roofs 60% located of rain on water lock-up north and ends ofof lock-upstorage storageroom. room. north andsouth south collected in theends greyiswater LEAF. 60% rain LEAF. 60%ofof rainwater water is retention basin to facilitate collected collectedininthe thegrey greywater water black water uses. retention Beech as the main strucretentionbasin basintotofacilitate facilitate
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60% ofof rain water stored inin grey water 60% rain water stored grey water basin toto facilitate black water uses. basin facilitate black water uses.
CLIMATE ANALYSIS & STRATEGY SELECTED DESIGN STRATEGIES: JAN - DEC SELECTED DESIGN STRATEGIES: JAN - DEC SELECTED DESIGN STRATEGIES: JAN - DEC 12.8% Sun Shading of Windows
13.1% Natural Ventilation Cooling 12.8% Shading ofof Windows 12.8%Sun Sun Shading Windows 20.3% Internal Heat Gain 13.1% Ventilation Cooling 13.1%Natural Natural Ventilation Cooling 47.8% Heating, add Humidification if needed 20.3% Heat Gain 20.3%Internal Internal Heat Gain 6% Dehumidification ififneeded 47.8% add Humidification needed 47.8%Heating, Heating, add Humidification if needed 6% if if needed 6% Dehumidification Dehumidification needed 100% TOTAL
5
1 26 37 48
Stacking Effect for 9 DC System Controller and 13 Sectional Bay Model (E-W) Natural Ventilition 5 Dimmer 14 and Sectional Bay Model (W-E) AC Receptacle Stacking EffectWireless for 9 DC System Controller 11 AC 5 5 Stacking Effect for 9 9 DC System Controller and ACReceptacle Receptacle Stacking Effect for DC System Controller AC DC Converter DC Lighting 10 Summer Solar Noon Position Program / Structure Models Natural Ventilition Wireless Dimmer 15 and 22 30v. AC Natural Wireless AC- DC - DCConverter Converter NaturalVentilition Ventilition WirelessDimmer Dimmer AC Mech. Device 6 DC 30v. Lighting 10 Summer Solar Noon Position Photovoltaics 11 Parking Garage 16 Facade Study 33 AC 6 6 DC 10 ACMech. Mech.Device Device DC30v. 30v.Lighting Lighting 10 Summer SummerSolar SolarNoon NoonPosition Position Electrical Distrbition 7 Photovoltaics 11 Parking Garage 44 Electrical Distrbition 7 Photovoltaics 11 Parking Garage Views to Sky and Dynamic 12 Green Roof 17 Detail Study Electrical Distrbition 7 Photovoltaics 11 Parking Garage 8
100% 100%TOTAL TOTAL
to Sky and Dynamic 8Views totoSky Dynamic 12 Green Roof 8 Views Views Skyand and Dynamic 12 12 Green GreenRoof Roof 14
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LEAF
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LEAF
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Photovoltaics are found on the roof of this building. They propose a contemporary approach in energizing the building with solar power. 16W / Ft.Sq. 14,000 Sq. Ft
1 2 3 4
By using passive strategies, LEAF integrates design and the stacking effect for natural ventilation throughout the building.
AC Receptacle AC - DC Converter AC Mech. Device Electrical Distrbition
5 6 7 8
Indiana has over 85 local tree types Maple Beech, being the most abundant. LEAF proposes to use local resources such as the Maple Beech as the main structure of the building.
Stacking Effect for Natural Ventilition DC 30v. Lighting Photovoltaics Views to Sky and Dynamic
9 10 11 12
LEAF promotes the usage of biking in the city by providing a secure temporary bike lock-up storage room.
33% of rain water is used to hydrate plant life on the two green roofs located on the north and south ends of LEAF. 60% of rain water is collected in the grey water retention basin to facilitate black water uses.
DC System Controller and Wireless Dimmer Summer Solar Noon Position Parking Garage Green Roof
1 Entrance
2 View From Stair
LOCAL PLANTS FOR EX
Andropogon gerardii
3 Second Floor Exhibition
4
Asclepia tuberosa
05 CONGRESSIONAL CEMETERY Washington, D.C. Comprehensive Building Design Studio [SOM] The Catholic University of America CUArch
Located In southeast Washington DC, we were given two buildings to design on the historic Congressional Cemetery. The House of Death(400sf) is located on the southern part of the site, it serves as a place to hold funerals and mourn. The house of memory(1500sf) is located on the eastern side of the site, it holds program that conserves the cemetery, with a conservation lab, gallery,and classroom spaces. Progression through Congressional Cemetery would take you past the church to the house of death where the funeral is held then to the House of memory where receptions are held to remember and commemorate those who have passed away. Our proposal for the House of Death was for the building to unfold, releasing the tension that is associated with death. In the House of Memory the building folds into the ground in capturing those programmatic elements that conserve the cemetery. This single operation of folding and unfolding become a distinct dynamic between both buildings.
Unfold/Release
UNFOLDING
HOUSE OF DEATH
RELEASE HOUSE OF DEATH
Congressional Cemetery
UNFOLDING
3
RELEASE HOUSE OF DEATH
SILVER SNAKES CONGRESSIONAL CEMETARY BOZEL - HYMES - O’LOUGHLIN
SILVER SNAKES CONGRESSIONAL CEMETARY BOZEL - HYMES - O’LOUGHLIN
FOLDING
4
CONTAIN HOUSE OF MEMORY
Fold/Contain FOLDING
HOUSE OF MEMORY CONTAIN HOUSE OF MEMORY
Single Operation
Single Operation
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1801 E St SE Washington, DC 20003
1 Main Entrance 2 Chapel 3 House of Death 4 House of Memory 5 Anacostia River
Congressional Cemetery - House of Death
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1 EMERGE FROM THE GROUND
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2 CREATE COVERING
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3 UNFOLD AROUND PEOPLE
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4 UNFOLDS TO CASKET
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5 RELEASE TO THE BEYOND
The House of death uses a very subtle entrance by slightly unfolding allowing for a continuous shell that compliments the concept. This mourning area is open to the elements, the casket will experience the elements as they are. The expression of unfolding and releasing into what is after death is open to interpretation to the mourners as they watch from the covered area.
Congressional Cemetery - House of Death
The House of death uses a very subtle entrance by slightly unfolding allowing for a continous shell that compliments the concept. Ths mouning area is open to the elements, the casket will experience the elements as they are. The expression of unfolding and releasing into what is after death is open to interpretation to the mourners as they watch from the covered area.
R SNAKES RESSIONAL CEMETARY - HYMES - O’LOUGHLIN
Ground Plan
Ground Plan
House of Death
House of Death
Roof Plan
Roof Plan
Roof Plan
Ground Plan
Congressional Cemetery - House of Memory
1
HOUSE OF MEMORY
2
3
The House of Memory is Located on the eastern area of the cemetery and contains programmatic elements that help preserve memories of mourners and the cemetery itself. Conservation Lab, Memorial Hall, Gallery, Administration, and a Cafe. The most frequently used elements are actively conditioned while the other spaces use the limestone panels. The immense scale of the building gives the impression of being held within(contained) a space. This unique space gives the visitors an immediate sense of place throughout the building. The limestone panels 1 fold around the programmatic spaces to create 2 openings for entrances, 3 to allow sunlight, and 4 allow for wind circulation.
4
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Materiality and Structure
Congressional Cemetery - House of Memory
1. interior folding plate 2.tubular steel beams 3. horizontal joints 4. exterior folding plate 5. 8’x10’ honeycomb panels
Front Elevation
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Creating a relationship with the contextual materials of the cemetary was important to the house of memory. In order to begin to “capture” the memories limestone panels were used to mimic the most typical limestone headstone type found in the cemetary. The limestone panels are attached to the secondary steel structure on the interior and exterior giving the interior the sense of moving into the earth.
a unrolled structural panel system
SECONDARY FOLD passivly conditioned limestone panels
Congressional Cemetery - House of Memory
PRIMARY FOLD actively conditioned glass
FLOOR PLATES cast in place concrete
Ad
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fe/
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nge
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ati
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Memorial Hall
This space captures the essence of the house of memory. It is located at the deepest point of the building where one can reflect on their memories
Congressional Cemetery - House of Memory
Primary folds begin to fold into inhabitable spaces, making the folds not just a “wrap� but apart of the system of folds. Folds open and allow light to penetrate the structure allowing for more comfortable public spaces
2 Classroom Gallery
The limestone plates penetrate the ground creating a sense of movement into the earth.
A Ground Level 0' - 0"
2
- 6� limestone panels - wire mesh - vapor barrier - rectangular beam - welded bolt connection - rigid insulation - welded steel clips - limestone panels - 1ply glass
FOLDING PLATES 36' - 0"
A2 Lower Level 1 -6' - 0"
SECONDARY FOLD
PASSIVELY CONDITIONED 2
Callout (3) of CROSS SECTION 2 1 1/2" = 1'-0"
Conservatory Labratory
Memorial Hall
The sense of memory and reflection occurs through the passage into the ground into memorial hall, the deepest part of the building.
PRIMARY FOLD
ACTIVELY CONDITIONED
17' - 8 5/16"
4 3/8" / 1'-0"
"/ 3/8
1'-6 7/8" / 1'-0"
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20' - 8 19/32"
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A-202 2
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52' - 8 13/16"
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26' - 6 21/32"
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A-302 37' - 2 3/4"
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35' - 10 27/32"
45' - 0 17/32"
" 1'-0 1/2 "/ 8
42' - 7 11/32"
10
"
-0' - 11 5/32"
4 3/8
4 3/8" / 1'-0"
/ 1'-0" 4 7/8"
/ 1' -0
12' - 7 21/32"
42' - 0 1/32"
47' - 9 7/8"
" " / 1'-0 3'-2 3/4"
E
32' - 7 5/32" 1'-6
2 1
M-201 A-301
/ 1'-0"
"
2' - 4 7/8"
" / 1'-0
3' - 0 3/16"
5 9
10 6
11 7
12 8
13
2
A-302
A-202 1
14
4
A-302
15 6' - 11 5/16"
16
17
3
A-302
18
19
20
21
22 F
2 7/8
/ 1'0"
1
3 1/4"
7/8"
A-301
"
1
/ 1'
6"
/ 1' -0
A-201
/ 1'-0"
D
3 1/4"
C
2" 5 1/
Roof Plan
A-202 1
22
21
20
19
18
17
16
15
14
13
12 8
11 7
10 6
5 9
4
3
2
1
F
E
2 1 M-201 A-301
D
OPEN TO BELOW
A-301
No.
Congressional Cemetery
Congressional Cemetery 1801 E St SE washington DC, 20003
House of Memory
SILVER SNAKES
Completion %
Date
ROOF PLAN
Maddison Bozel - Connor Hymes - Emily O'Loughlin
Project number Date Drawn by Checked by
B
Project Number Issue Date Author Checker
A-111 Scale 1/8" = 1'-0"
A
2 A-202
3
4
A-302
1
A-302
2
1
A-302
A-302
Level 1
FURNITURE of A Level 2 1/8" = 1'-0"
A-202
A-202 1 1
22 22
21 21
20 20
19 19
18 18
17 17
16 16
15 15
22
21
20
19
18
17
16
15
A-202 1
14 14
13 13
12 8 12 8
11 7 11 7
10 6 10 6
9 5 5 9
4 4
3 3
2 2
1 1
14
13
12 8
11 7
10 6
5 9
4
3
2
1
F
F
FE E
UP UP
2 1 M-201 A-301
2 1 M-201 A-301
A-201 1
A-201 1
ED D
M-201 A-301
DC C
A-301
2 1
OPEN TO BELOW OPEN TO BELOW
2
A-201
OPEN TO BELOW
2
A-201
UP 1" / 1'-0"
1" / 1'-0"
A-201 1
1 A-301
1
1" / 1'-0"
UP 1" / 1'-0"
CB B
1 A-301
BA A
A 2 A-202 2
A-202
2 A-202 3 3 A-302 A-302
FURNITURE of A Ground Level 1/8" = 1'-0"
44 A-302 A-302
3
1
FURNITURE of A2 Lower Level 1 1/8" = 1'-0"
1
FURNITURE of A2 Lower Level 1 1/8" = 1'-0"
Congressional Cemetery
A-302
22 A-302 A-302
4
2
A-302
A-302
Congressional Cemetery 1801 E St SE washington DC, 20003
House of Memory
11 A-302 A-302
1
No.
Completion %
Ground Level
Date
FFE SECOND LEVEL & GROUND LEVEL
A-302
SILVER SNAKES
Maddison Bozel - Connor Hymes - Emily O'Loughlin
Project number Date Drawn by Checked by
Project Number Issue Date Author Checker
A-106 Scale 1/8" = 1'-0"
7/30/2014 11:08:00 PM
2
A-202 1
A-202
22
21
20
19
18
17
16
15
22
21
20
19
18
17
16
15
1
14
13
12 8
11 7
10 6
5 9
4
3
2
1
14
13
12 8
11 7
10 6
5 9
4
3
2
1
F
F E
UP UP
2 1 M-201 A-301
A-201 1
A-201 1
E D
D C
C B
2 1 M-201 A-301
1 A-301
2
A-201
2
A-201
1" / 1'-0"
1 A-301
1" / 1'-0"
B A
A 2 A-202 3
4
A-302
A-302
2
2
1
A-302
A-302
A-202
2
3
4
2
1
A-302
A-302
A-302
A-302
Below Ground Level
FURNITURE of A1 Lower Level 2 1/8" = 1'-0"
No.
Completion %
Date
M
Congressional Cemetery - House of Memory
OPEN TO BELOW
1
C
9/8/2014 11:25:49 AM
A-201 1
Primary folds begin to fold into inhabitable spaces, making the folds not just a “wrap� but apart of the system of folds. Folds open and allow light to penetrate the structure allowing for more comfortable public spaces
EXPLODED MODEL ELEMENTS
06 CASA DA MUSICA Porto, Portugal Graduate Works 2014 University of Cincinnati SAID
This case study attempts to analyze Rem Koolhaas’s Casa da Musica in Porto, Portugal as an integrated structure. As a group of graduate students, we have tried to understand the building on multiple systematic levels by looking at the designer’s architectural intent, the building program, and the engineered systems. Understanding the context, historical and local, are integral parts to understanding the design of the structure itself. After looking at Porto as a city and OMA as a firm, we broke down the building into five systems: program, structure, code, infrastructure, and environment. We quickly learned that form took precedent over everything else, which then lead to structure as the main driving design element. All of the other systems then needed to follow the structure’s formal actions. Egress found its way into the main cores, and the infrastructure followed the large auditorium walls. The environment was played on in many ways within Casa da Musica, but overall the structure acts as a buffer zone for the auditorium, acoustically and environmentally (mechanical and temperature needs). After diagramming the systems individually and overlaying them, it became inherently clear that three of the five systems lie within each other, and use each other for support. The other two systems fall between the systems that are strongly connected.
THEORETICAL PROCESS BOOK
MDF FORMWORK
VACUUM FORM
CARVED FROM A BOX
BOX IN A BOX
EXTERIOR FOLDS
WOOD AUDITORIUM
1 structural walls/cores
2 sequence of exterior shell
3 isolated auditorium
These structural diagrams are a part of the many produced to understand and explain the complicated structure of the Casa Da Musica. These diagrams give part of the basic conceptual structural overview
44 section cut through auditorium
07 SEVEN HILLS NEIGHBORHOOD HOUSING Cincinnati, Ohio Design Build 2015 University of Cincinnati MetroLAB
Seven Hills Neighborhood Housing is a community center for kids and teens, it’s located in the West End of Cincinnati, Ohio. After the 1959 urban renewal programs and the construction of the I-75 almost 1,000 structures were demolished and about 30,000 people were displaced from their homes. The area is still recovering from the intervention. We were asked to design the lobby area, the main hallway, and the conference room. Creating meaningful furniture that is flexible for different functions. Myself and a team of graduate students mainly focused on the lobby area, we found this area to be the most wanting and we believed that work done here would be the most beneficial to the community. The scope of work for this area included an information wall, a kiosk, fixed seating, bread desk and bread shelves. Throughout our process of understanding the way of life of the people involved in the community center this area became the most important space, as a public communal cultivation space where people can relax, receive information about the community, and where the bread distribution occurs. Schematic design, design development, and construction all happened in a four month period during the summer semester. Material choices were kept consistent between the groups; Baltic birtch, homasote, and metal. These materials were easy to come by and worked harmoniously together.
7 Hills
3
C 1 2
2
H 1
CONFERENCE ROOM
1 4
L 2 3 LOBBY
CINCINNATI
WEST END [SEVEN HILLS]
KENTUCKY
EMBRACING THE WEST END The west end district occupies land that was originally used by small farmers. As the city grew, wealthy residents built country houses within the district’s boundaries, beginning around 1840 and continuing until the Civil War era. Typical buildings erected during this time are multi-story Italianate residences constructed of brick or stone. At the neighborhood’s height, the residents were wealthy businessmen, most of whom were active in the city’s meat packing and brewing industries, and many of these men were careful to beautify their homes with elements such as stone retaining walls and fences of cast iron; while much of the stonework and ironwork has been lost, large amounts of both remain in place throughout this area. These materials are an important connection from the past that we bring into the building as a look back and celebration of the past.
7 Hills - Flexible Shelving
Flexible shelving units are anchored to a brick wall in the lobby. These shelves function as a bread giveaway system in the morning and storage later in the day. The ability to open and close makes these shelves adaptable to the space. The shelves act independently and mimic the rhythm of other elements in the hallway by their staggered shifted placement. Reveals mimic those on the information wall
SINGLE SHELF EXPLODED AXON
a b c d
(7) 3/4” baltic birtch plywood (12) 6mmx20mmx40mm domino joint (3) 3/8”x 3” wall anchor(moarter) (2) 3/4” hinge
b
a
b
c
d
7 Hills - Flexible Shelving
The subtle reveal on the backside of the shelf creates a continuous cut throughout the shelf from the sides to the back. Even though this is one solid box made together it shows its’ true nature in the exterior appearance. The interior faces of the shelves were given extra applications of finish. This gives them more of a seal and protection for their daily use and a darker color that emphasizes the unfolding closed and open perceptions
Domino connection joint
Unfolding alignment
Routed rubber bumper
7 Hills - Fixed Seating
FIXED SEATING 60% Design 50% Construction
Fixed seating was created for versatile usage, simplistic open benches with seating arrangements for kids and adults. Separation of seat arrangement helps to organize the space. Baltic birtch plywood is oriented horizontally creating a rhythmic flow which follows the details of the information wall. Structure is created through slots and then becomes space for storage and planting. The hierarchy created from this bench allows for a horizontal read and a perforated movement throughout the space.
INFORMATION WALL 60% Design 50% Construction
The Information Wall is located by the entrance and serves as a way for people to see whats going on in the community center. The wall is composed of strips of baltic birtch, treated homasote, and white painted baltic birch. The variety of materials and and offset creates a lively and interesting addition to the community center. The homosoate is arranged so that there is space to pin up flyers and information. Openings in the wall are for the intended use of a television and greenery.
FOLDED CEILING
PERMEABLE FINS
S
G
DIN
OL
FF CA
F
CFM
TED
N PAI
D PPE
O
DR
ITE
WH
P
GY
YP
WG
GP
LIN CEI
ING
OR
LO EF
N
S VAL
STO
TED
Z
ON
BR
AIN EP
F
MD
F
CFM
C
YP
WG
GP
IN EIL
F
CFM
LOBBY MOCK UP EXPLODED AXON DIAGRAM
08 PROFESSIONAL WORK: BOHLIN CYWINSKI JACKSON San Francisco, California Architectural Design Intern Fall 2015
During my internship I worked on schematic design, design development, and construction documents during my internship. I was required to create plans, sections, elevations, renderings, digital presentations, and models. I used programs such as revit, rhinocerous, vray, illustrator, indesign, and photoshop to produce work. Work for the Lobby design (595 Market St) was done in the schematic design phase. For this projects the clients wanted to make a prescence on Market Street, one of San Francisco’s major street engaging all of downtown and the financial district. The ceiling height was restriced because of the existing structure, but the clients wanted to create a sense of height that most other lobbys in the downtown area are able to acheive. Our stragety was to create a subtle datum using fins as a way to create a peremable rythmic plane. Above the fins, a folded ceiling was created un uniformly so it was not formally restricted by the existing structure. Bronze was used on the main interior wall as a feature element subtly hinting towards the bronze trim on the existing exterior of the building. This design was also carried out into the plaza, The clients wanted an inviting parklet type (permant) exterior that would make the building more of a landmark along Market St. Bronze was used again to create the folded feature wall while Ipe is used for the seating area creating a raised area that helped compensate with the uneven slope of the existing pavement.
Bohlin Cywinski Jackson
595 MARKET STREET - San Francisco, CA
a
b
595 Market Street Option 1 - Pleated Ceiling Rendering
a Folded paper ceiling iterations to be placed above fins for an in house design charrette b Interior main lobby rendering with a feature bronze wall, stone flooring, back painted glass, and white aluminum fins up lighting the folded ceiling
Bohlin Cywinski Jackson October 23, 2015
Ceiling 1 1 Ceiling
Ceiling 22 Ceiling
Ceiling 33 Ceiling
12 Inch Fin
Bohlin Cywinski Jackson
595 Market Street Ceiling Types
October 23, 2015
c c Axonometric view of the lobby with folded ceiling options focusing on the folded ceiling creating a sense of height.
Bohlin Cywinski Jackson
MARTIS CAMP RESIDENCE
Assisted with a team of architects and designers to complete a schematic design model for client presentation with Peter Bohlin. The model is removable to its full buildable extents allowing for other iterations to be inserted while showing the untouched portion of sorrunding land. Materials: basswood, chipboard, acrylic
08 PROFESSIONAL WORK: RTKL ASSOCIATES Washington, D.C. Architectural Design Intern Spring 2015
At RTKL I worked in the healthcare studio, projects I worked on consisted of large scale hospitals located in the Middle East: Cairo Childrens Hospital Center and Prince Sultan Community Center) For these projects I assisted architects and interior designers with the Schematic Design and Design Development phase of these projects. Most of the work was done in Revit for these paticular projects. I am showing views and drawings of both projects I worked on, during my time at RTKL. The renderings were produced by the firm, they help give the project a sense of scale and context.
PRINCE SULTAN MEDICAL PARK - Jeddah, Saudi Arabia PROJECT:
9.2
9
8.7
8
7
6
5
4
3
2
1.5
1
1 / AE-106-B
10
E
E DN
STAIR 2 06-B-S04
Prince Sultan Cultural Centre Medical Park Tertiary Care Hospital
SRVC ELEV 7 06-A-E07
SRVC ELEV 8 06-A-E08
UP
Jeddah, Kingdom of Saudi Arabia CLIENT:
Prince Sultan Cultural Centre Company, LTD
ELEV. LOBBY 06-A-133 CR0031
ELEV. LOBBY 06-B-123 CR0029
FHC
F
F PTNT ELEV 10 06-B-E10
SRVC ELEV 6 06-A-E06
PTNT ELEV 9 06-B-E09
SRVC ELEV 5 06-A-E05 CONSULTANT:
J4
J4
J4 ON-CALL 06-A-124 MS0311
TLT 06-A-125 SA0455
A4R
J4 ON-CALL 06-A-135 MS0311
STAFF LOUNGE 06-B-122 MD0229
J4R
INPATIENT PM&R EQUIPMENT STORAGE 06-A-121 MD0271
P3R A4R
G PATIENT ROOM 06-B-001 NU0337
TLT 06-A-136 SA0455
J4
P3
A4
PATIENT ROOM 06-A-001 NU0337
CENTRAL MONITOR 06-A-123 NU0795
A4 RESIDENT WORKROOM 06-B-121 CE0046
A4
RA
STAFF TLT 06-A-137 SA0454
STAFF TLT 06-A-122 SA0454
A-502
A4
A4
P3
A-502
A4
A4
A4
PAT TLT 06-A-001A MD0280
PATIENT ROOM 06-A-002 NU0337
PATIENT ROOM 06-A-003 NU0337
A4
A4
PAT TLT 06-A-003A MD0280
PAT TLT 06-A-002A MD0280
P3
PATIENT ROOM 06-A-004 NU0337
PATIENT ROOM 06-A-005 NU0337
A4 A4
PAT TLT 06-A-004A MD0280
PAT TLT 06-A-005A MD0280
RA
CONSULTANT:
PAT TLT 06-A-010A MD0280
A4
PATIENT ROOM - ISO (AII) 06-A-007 NU0338
A4
P3
PATIENT ROOM 06-A-006 NU0337
A4
P3
PATIENT ROOM - ISO (AII) 06-A-008 NU0338
A4
PAT TLT 06-A-006A MD0280
ANTE 06-A-007B NU0353
ANTE PAT TLT 06-A-008A 06-A-008B NU0353 MD0280
PAT TLT 06-A-007A MD0280
P3
PATIENT ROOM - SP 06-A-010 NU0830
P3
G
A4 PATIENT ROOM 06-A-009 NU0337
VIP FAMILY LOUNGE 06-A-011B NU0788
P3 P3
PATIENT ROOM - VIP 06-A-011 NU0345
PAT TLT 06-A-011A DD-06
PAT TLT 06-A-009A MD0280
A4 CHARTING 06-B-032 MD0656
CORR. PUBLIC/STAFF 06-A-110 CR0024
A4
A4
A4
CHARTING 06-A-032 MD0656
A4R
A4
CHARTING 06-A-033 MD0656
A4
A4
A4
A4
CHARTING 06-A-035 MD0656
A4
A4
A4
CORRIDOR 06-A-030 CR0024
D4R
CHARTING 06-A-039 MD0656
A4
A4
A4R
CHARTING 06-A-043 MD0656
A4
CORRIDOR 06-A-040 CR0024
FM-200 CLOSETS B4R
FHC
A4
A4
A4
MAT/VIP ELEV 16 06-A-E16
PUB. ELEV 2 06-A-E02
PUB. ELEV 4 06-B-E04
UNIT CLERK 06-B-031 MD0281
SHAFT OPENING
D4R
EQUIPMENT STORAGE 06-A-034 MD0271
D6R UNIT CLERK 06-A-031 MD0281
ELEV. LOBBY 06-A-101 CR0030
ELEC 06-A-036 BM0034
CLEAN UTILITY 06-A-038 MD0283
DATA 06-A-037 BM0035
NURSE STATION 06-A-041 NU0683
NOURISH 06-A-057 MD0236
CORRIDOR PUBLIC/STAFF 06-A-102 CR0024
A4 PATIENT ROOM 06-B-022 NU0337
CHARTING 06-A-064 MD0656
A4
A4
CHARTING 06-A-063 MD0656
A4
A4
PAT TLT 06-A-022A MD0280
A4
WAITING 06-B-103 MD0294
PATIENT ROOM 06-A-022 NU0337
WAITING 06-A-103 MD0294
A4
CHARTING 06-A-048 MD0656
A4
A4
A4R
CHARTING 06-A-062 MD0656
A4
A4
CORRIDOR 06-A-060 CR0024
A4
A4
CHARTING 06-A-061 MD0656
A4
A4
A4
H CORRIDOR 06-A-050 CR0024
STAFF TLT 06-A-052 SA0454
A4R
TLT - F 06-A-105 PA0372
A4
PAT TLT 06-A-021A MD0280
P3
A4
PAT TLT 06-A-020A MD0280
PATIENT ROOM 06-A-020 NU0337
PATIENT ROOM 06-A-021 NU0337
A4
PAT TLT 06-A-018A MD0280
PAT TLT 06-A-019A MD0280
P3
PAT TLT 06-A-017A MD0280
PATIENT ROOM 06-A-017 NU0337
PATIENT ROOM 06-A-018 NU0337
PATIENT ROOM 06-A-019 NU0337 A4
A4
P3
PAT TLT 06-A-016A MD0280
A4
CHARTING 06-A-056 MD0656
A4
PAT TLT 06-A-015A MD0280
A4
A4 PATIENT ROOM 06-A-014 NU0337
PATIENT ROOM 06-A-015 NU0337
PATIENT ROOM 06-A-016 NU0337
A4
STAIR 1 06-A-S01
FHC
D4R A4
A4
A4
CHARTING 06-A-054 MD0656
A4
P3
A4
PIPE UTILITY 06-A-051 BM0034
A4
B4R
OFFICE 06-A-053 MD0242
PAT TLT 06-A-014A MD0280
TLT 06-A-012C PF0787 A4
A4 A4
SEAL:
PATIENT ROOM - VIP A4 06-A-012 NU0345
A4 P3
D4R
B4R
PATIENT ROOM -SP 06-A-013 NU0830
PAT TLT 06-A-012A MD0280
A4
A4
A4
A4
A4 A4
J.2
J
VIP FAMILY LOUNGE 06-A-012B NU0788
A4 A4
WWW.RTKL.COM TEL. 202.833.4400 FAX. 202.887.5168 PROJECT NUMBER:56-14008.00
DN UP
A4
D4R
J4 G4
A4 A4
TLT - M 06-B-105 MD0280
J
B4R
D4R
CHARTING 06-B-065 MD0656
D4R
RTKL INTERNATIONAL LTD. 2101 L STREET NW SUITE 200 WASHINGTON, DC 20037
A4
SOCIAL WORK 06-A-046 MD0243
A4
J4 CONSULT 06-A-104 MD0211
A4
SHAFT OPENING
SOILED UTILITY 06-A-044 MD0284
TLT 06-A-011C PF0787
A4
D4R
A4R
A4 HK 06-A-055 ES0142
SHAFT ACCESS DOOR PUB. ELEV 1 06-A-E01
PUB. ELEV 3 06-B-E03
CHARTING 06-A-045 MD0656
A4
A4R
MEDS 06-A-042 MD0232
A4
H
A4
A4
J.2
P3 PAT TLT 06-A-013A MD0280
A4 J4
1 / AE-106-B
RTKL Associates
D4R
ISSUE DRAWING LOG ISSUED:
● ●
a
10
9.2
9
8.7
8
7
6
5
4
3
2
1.5
DESCRIPTION: SD-01 - 100% SCHEMATIC DESIGN SUBMISSION - 01/01/2015 DD-01 - EXTERIOR DESIGN DEVELOPMENT SUBMISSION - 01/16/2015 DD-02 - DESIGN DEVELOPMENT SUBMISSION - 03/05/2015 DD-03 - DESIGN DEVELOPMENT SUBMISSION - 05/07/2015
1 REVISION LOG REV NO.:
DATE:
DESCRIPTION:
KEY PLAN
D
C
B
A
D.1
SHEET IDENTIFICATION PLOT:
B.1
GENERAL HOSPITAL PLOT M-A-02-i
TERTIARY CARE HOSPITAL TITLE:
LEVEL 06 FLOOR PLAN SEGMENT A DRAWING SCALE: 1 : 100
N
NOT FOR CONSTRUCTION 1:100
NUMBER
AE-106-A
M 0
1
5
10
© 2015 RTKL ASSOCIATES INC.
b a RCP of a patient floor level, STC is an important factor to keep patients comfortable with heavy medical machinery close b Interior lobby rendering
56-14008.00
4.5 M
Two Integrated Horizontal Shading Devices Reduce Direct Solar Radiation Into The Patient Room By 72% Over A Standard Curtainwall
4.5 M
Building Integrated Photovoltaics (BIPV) Applied to Upward-Facing Spandrel Panels
4.5 M
Low-E Coated High Efficiency Glazing Panels Face Downward to Avoid Direct Solar Radiation and Remain Shaded
PROJECT:
Spacious Evidence-Based Design Patient Room Layout with Family Seating Space
1550
EXTERIOR MATERIAL SCHEDULE
RF2
ROOF 51.90 m
4500
4500
ROOF 51.90 m
CW1
CURTAIN WALL SYSTEM W/ VERTICAL AND HORIZONTAL MULLION CAPS
CW2
CURTAIN WALL SYSTEM W/ VERTICAL MULLION CAPS AND SILICONE SEALED HORIZONTAL JOINTS
CW3
STRUCTURALLY GLAZED CURTAIN WALL SYSTEM W/ STEEL AND TENSION CABLE VERTICAL STRUCTURE AND STAINLESS STEEL FITTINGS
CW4
CURTAIN WALL SYSTEM W/ HORIZONTAL MULLION CAPS AND SILICONE SEALED VERTICAL JOINTS
CW5
ENGINEERED CURTAIN WALL SYSTEM WITH HORIZONTAL MULLIONS AND INTEGRATED PHOTOVOLTAICS
CW6
CURTAIN WALL SYSTEM W/ VERTICAL AND HORIZONTAL MULLION CAPS. SYSTEM TO ACCOMODATE EJ
CW7
CURTAIN WALL SYSTEM W/ HORIZONTAL MULLION CAPS
SF1
STOREFRONT SYSTEM
W1
PUNCHED WINDOW
LV1
MECHANICAL LOUVER
BIPV PANELS LEVEL 09
TOPPING SLAB
c
LEVEL 09
4500
BIPV PANELS
TOPPING SLAB
LEVEL 08
FIRE STOPPING
Prince Sultan Cultural Centre Tertiary Care Hospital
1500 750
SHADOWBOX - SEE 3/AE-501; TYP
BIPV PANELS 15.00°
CW5
TOPPING SLAB
SEE PLAN FOR LOCATION OF CURVED CURTAIN WALL
ARCHITECTURAL LOUVER
MP1
METAL PANEL
MP2
METAL PANEL
MP3
METAL PANEL
MP4
METAL PANEL
38.40 m
SEE ELEVATION FOR GLASS TYPE. TYP. BIPV PANELS
4500
4500
d
RF1
ROOF - BALLAST ON EPDM
RF2
ROOF - ADHERED EPDM
RF3
ROOF - VEGETATED ROOF
RF4
ROOF - PLAZA WITH ROOF PAVER ASSEMBLY
SC1
SCREEN WALL - METAL AIRFOIL GRILLE
SC2
SCREEN WALL - METAL MESH SYSTEM
SK1
SKYLIGHT
ST1
STONE VENEER
e
ST2
STONE VENEER
ST3
TOPPING SLAB
33.90 m
BIPV PANELS
4500
4500
WWW.RTKL.COM TEL. 202.833.4400 FAX. 202.887.5168 PROJECT NUMBER:20-14007.01
STONE VENEER
STONE VENEER
ST5
STONE VENEER
GL1
VISION GLAZING (IGU)
GL5
VISION GLAZING (LGU)
GL2
VISION GLAZING (IGU)
GL6
STRUCTURALLY LAMINATED HORIZONTAL GLASS W/ FRIT PATTERN (LGU)
GL3
VISION GLAZING WITH FRIT PATTERN (IGU)
GL7
STRUCTURALLY LAMINATED HORIZONTAL GLASS W/ FRIT PATTERN (LGU)
GL4
PHOTOVOLTAIC PANEL (IGU/LGU)
GL8
SKYLIGHT - STRUCTURALLY LAMINATED HORIZONTAL GLASS W/ FRIT PATTERN (IGU/LGU)
EXTERIOR GLAZING SCHEDULE
LEVEL 06
33.90 m
RTKL INTERNATIONAL LTD. 2101 L STREET NW SUITE 200 WASHINGTON, DC 20037
c Section perspective focusing on the impact of the facade on the outpatient rooms (produced by firm) d Facade axon detail e solar analysis of the facade ST4
LEVEL 06
CONSULTANT:
LEVEL 07
50
38.40 m
MECHANICAL LOUVER ON INSULATED BACKUP PANEL
LV3
CONSULTANT:
2250
3000
DETAILS OF CURTAIN WALL TO BE COORDINATED WITH CURTAIN WALL MANUFACTURER
LEVEL 07
LV2
42.90 m
TYP LEVEL
1500
BIPV IGU PANEL
4500
Jeddah, Kingdom of Saudi Arabia
CLIENT:
4500
LEVEL 08 42.90 m
TYP LEVEL
Prince Sultan Cultural Center Medical
Park,Through Tertiary CareBedtower Hospital Section Facade
47.40 m
4500
47.40 m
SEAL:
EXTERIOR GLAZING LEGEND
TYPICAL VISION GLAZING CONDITION BIPV PANELS LEVEL 05
TOPPING SLAB
29.40 m
SHADOW BOX CONDITION (SEE EXTERIOR DETAILS)
OPERABLE WINDOW
GENERAL GLAZING NOTES
LEVEL 05
1. 60% COVERAGE CIRCULAR FRIT PATTERN ON ALL HORIZONTAL GLASS INCLUDING CANOPY GLASS, SKYLIGHTS, AND GLASS LOUVERS FOR SOLAR SHADING.
29.40 m
GENERAL SECTION AND ELEVATION NOTES
4500
4500
BIPV PANELS
LEVEL 04
TOPPING SLAB
LEVEL 04
24.90 m
24.90 m
1550
50
J
High-Efficiency Mechanical Systems in Plenum Space
1. ALL EXPOSED INTERIOR STRUCTURAL STEEL TO BE PAINTED WITH INTUMESCENT PAINT (TYP) 2. ALL FLOOR SLAB ELEVATIONS AND DIMENSION STRINGS AT FLOOR LEVELS ARE TO THE TOP OF FINISHED FLOOR 3. ALL BUILDING DIMENSIONS ARE TO FACE OF EXTERIOR MATERIAL OR FACE OF GLASS AT CURTAIN WALL CONDITIONS 4. SLAB EDGES ARE INDICATED IN SECTION BUT NOT DIMENSIONED TO AVOID DISCREPANCIES BETWEEN LOCAL MEANS AND METHODS AND SELECTED BUILDING SYSTEMS COMBINED WITH BUILDING DIMENSIONS INDICATED ON THE ARCHITECTURAL PLANS 5. COLUMNS ARE TYPICALLY, BUT NOT ALWAYS, LOCATED CENTERED ON COLUMN GRID LINES. REFER TO ARCHITECTURAL PLANS FOR SPECIFIC VARIATIONS, INCLUDING, BUT NOT LIMITED TO COLUMNS AT EXPANSION JOINTS OR NEAR THE BUILDING PERIMETER 6. UNLESS OTHERWISE NOTED, REFERENCE 9/AE-501 FOR TYPICAL SHADE POCKET DETAIL AT PATIENT ROOMS OF TOWER. 7. CEILINGS ARE INDICATED IN SECTIONS FOR REFERENCE ONLY. REFER TO REFLECTED CEILING PLANS FOR CEILING HEIGHTS AND OTHER CONDITIONS. 8. GLASS DOORS TO MATCH ADJACENT GLAZING TYPE. TYPICAL 9. PROVIDE ADEQUATE VENTS WITH INSECT SCREEN AT BOTTOM AND TOP OF UNOCCUPIED CLOSED SPACE. THE SIZE OF VENTS ARE TO BE DETERMINED BY RESPONSIBLE ENGINEER. 10. TRENCH DRAINS TO BE LOCATED AT PARKING GARAGE ACCESS POINTS AND AT BOTTOM AND TOP OF GARAGE RAMPS. 11. REFERENCE PUBLIC GARAGE EAST WALL SECTIONS FOR PUBLIC GARAGE WEST 12. SAFETY GLASS TO BE AT EXTERIOR GLAZING PANELS WITHIN 457MM OF GROUND PLANE AND WITHIN 610MM ARC OF EDGE OF ADJACENT GLASS DOORS.
ISSUE DRAWING LOG ISSUED: DESCRIPTION: ● SD-01 - 100% SCHEMATIC DESIGN SUBMISSION - 01/01/2015 ● DD-01 - EXTERIOR DESIGN DEVELOPMENT SUBMISSION - 01/16/2015 ● DD-02 - DESIGN DEVELOPMENT SUBMISSION - 03/05/2015 ● DD-03 - DESIGN DEVELOPMENT SUBMISSION - 05/07/2015
REVISION LOG REV NO.:
DATE:
DESCRIPTION:
CHILDREN’S CANCER HOSPITAL - Cairo, Egypt A
B
C
D
E PROJECT:
X
Y
Y.2
Z
W V
Children’s Cancer Hospital Egypt 57357 Expansion and Renovation Project
1.1 1
Cairo, Egypt CLIENT:
CHILDREN'S CANCER HOSPITAL EGYPT 57357 2.1
1 UP
1.2
MENT EQUIP
PROGRAM MANAGER:
3.1
MRI ROL CONT
MRI
2
2 HOLD
MEP ENGINEER:
E NURS STATION
4.1 NT PATIE ULT. CONS
ARCHITECT:
D
D DRESS PAT TLT HOT LAB
3
PREP/REC
HSKP
RTKL INTERNATIONAL LTD. 2101 L STREET, NW SUITE 200 WASHINGTON, DC 20037 WWW.RTKL.COM TEL. 202.833.4400 FAX. 202.887.5168 PROJECT NUMBER: 20-1400.00
CLEAN SUPPLY
PET QUIET
ANES WK RM
5.1
PET PAT TLT
SEAL:
4 3
HOLD
WAITING
MRI
PET MRI
6.1
4.5
ISSUE DRAWING LOG ISSUED: DESCRIPTION: ● SCHEMATIC DESIGN 01: OUTPATIENT BUILDING - 26 FEBRUARY 2015
a
SCHEMATIC EXTERIOR DESIGN CONCEPTS
MENT EQUIP
PT/ RECE REGIST
5
KEY PLAN THERPIST WORK ROOM
REVISION LOG
MENT EQUIP
REV NO.:
DATE:
DESCRIPTION:
CT
MED DIR OFFICE CT
7.1
LEAD THERPIST OFFICE
. EQUIP
CT CONT
D.
PET CT
OPTION 1
ROL
6
PAT TLT ROL CONT
C
ANES WK RM PAT TLT
4
SHEET IDENTIFICATION PAT TLT PET QUIET ROOM D
D
UP
D
TITLE:
CLEAN
LEVEL 03 FLOOR PLAN SEGMENT C
PREP/REC
TECH WORK
F
GG.2
G.8H
V
W
X
Y
Y.2
NOT FOR CONSTRUCTION
Z
DRAWING SCALE: 1 : 100
N NUMBER
1
LEVEL 04 - FLOOR PLAN - SEGMENT C
1:100
1 : 100
FILE NAME: C:\Users\jmaytum\Documents\CCHE_OC_Interior_Central_jmaytum.rvt
0
TIME: 3/2/2015 10:57:56 AM
1
5
10
2014 RTKL ASSOCIATES INC.
b a Floor plan showing the extent of sound with heavy machinery b Exterior rendering showing the building relationship to the ground.
AE-104-C 20-1400.00
EXTERIOR DESIGN – OUTPATIENT CENTER
RTKL Associates
RECEPT.
A
B
C
N11
D
N12
N11
Z
N12 Y Y.2 X W B
C
D
E
F
GG.2
V
G.8H 1.1 DN
DN
2.1 1 1.2
UP DN
3.1 (13 WAIT.
2
IENT T PAT PATIEN CONSULT IENT NSULT T PATNSULT CO PATIEN CO ULT CONS
)
ING ADMITT
E LOUNG STAFF
CAFE SEATING
TLT
CASHIER
PRINT ROOM
4.1
GE STORA
3 E COFFE SHOP
5.1 ORIUM AUDIT
4 DN WAITING / PLAY / PUBLIC TOILETS SIMULATION/ POSITIONING SUITE
4.5
6.1 RECEPT./ REGISTRATION
G (30) SEATIN
5
TLT. (M)
UP
DN
LE VESTIBU
MED. RECORDS/ CLERK
ELEVATOR LOBBY
6
TLT. (F)
Y LOBB
PROTON THERAPY CLINIC
CHAIR WHEEL GE STORA
TELECOM RM
TREATMENT PLANNING
UP
7.1
JANITORS CLOSET
DN
ELEC RM
8.1
UP
7 PHYSICS LAB G (7) WAITIN
PRE/POST IMAGING & PROCEDURE AREA
CONF.
ACCESS UNDER STAIR TO CYCLOTRON
TELECOM RM
PANTRY
STAFF ELEVATORS
ELEC RM
CYCLOTRON CONTROL
8
TELLER FOYER
PROTON THERAPY CONTROL
9
GER MANA
NT PATIE REP.
BANK
. SECUR DIR.
GE STORA
PROTON THERAPY CONTROL
CASHIER
. SECUR MGR.
SAFETY MGR.
SAFETY D. COOR
Y SECURIT CENTER CH DISPAT
c
VAULTS FOR CYCLOTRON, BEAM LINE, AND TWO PROTON THERAPY GANTRY ROOMS ARE SHOWN AS PLACEHOLDERS ONLY. EQUIPMENT SELECTION IS REQUIREDTO ESTABLISH THE BUILDING CONFIGURATION IN THIS AREA.
LOADING DOCK STORAGE
9.1
NS RELATIO ON PUBLIC RECEPTI
ON ULTATI CONS
ROOM ATM CASH
FIRE CTRL
AND COMM RM
10.1
R VISITO AND T PATIEN STRG
LOADING DOCK STORAGE
KEY PLAN CYCLOTRON VAULT
PROTON THERAPY GANTRY
PROTON THERAPY GANTRY
PROTON THERAPY GANTRY
9.8 10
UP DN COGEN EXHAUST STACK
GARAGE VENTILATION SHAFT
WATER PUMP RM
10.2 BATTERY RM
LOADING DOCK DRIVE-IN
FIRE PUMP RM MEDIUM VOLTAGE SWITCHGEAR RM
Z
11
Y Y.2 X W V
B
d 1
LEVEL 0G - FLOOR PLAN 1 : 200
C:\Users\jmaytum\Documents\CCHE_OC_Interior_Central_jmaytum.rvt
C
D
E
F
GG.2
G.8H
J
K
L
M
N
e c Floor plan focusing on the ground level d Stairwell/lounge for nurses with different options e Axonometric floor plan showing public vs private spaces
TIME: 3/2/2015 10:53:13 AM
NOT FOR 1:200 0
1
5
08 PROFESSIONAL WORK: SUTTON YANTIS ARCHITECTS Vienna, Virginia Architectural Design Intern Summer 2014
During my internship at SYAA, I worked with architects on a variety of high end residential projects on the east coast, more specifically the northern Virginia area . The work done here ranged from schematic design measure ups to final construction documentation. I gained a range of experience in residential architecture for all phases of the process. The project drawings I am showing are for a small scale community center that I helped document during my time at SYAA.
Sutton Yantis Associates Architects
a
b a Ground floor plan b Framing plan
c
d c Cross section d Front elevation
08 PROFESSIONAL WORK: KADCON CORPERATION Georgetown, Washington, D.C. Project Manager Assistant Summer 2013
This was my first architecture related job and it is also one of my favorite projects that I have worked on. I assisted the project manager in the construction phase of the Saint Elizabeth’s Gateway Pavilion (Davis Brody Bonds) located in Southwest Washington D.C.. Hands on learning about the construction phases and sequencing while seeing drawings interpreted into real life projects was some of the most useful and impactful information I took away from working at KADCON. I worked on this project from the very begining of construction right up until the completion. “The pavilion focuses on the seamless integration of the structure and the land. This “of the land” approach takes its cues from the architectural program which is centered on the provision of fresh produce, locally made crafts and a variety of food truck vendors to serve the local population. Sustainability is integral to the project, informing the design from the outset. The pavilion employs rainwater harvesting (i.e. an on-site cistern captures runoff and supplies the entire site’s irrigation demand); the landscape design provides for drought resistant plantings; the roof plantings reduce the heat island effect which reduce demand on mechanical systems in the enclosed portion; and, the mechanical systems rely heavily on natural ventilation.”
2015 AIA DC Excellence In Architecture 2014 AIA New York State Citation for Design 2014 Architecture Magizine Annual Design Review Honorable Mention
KADCON
SAINT ELIZABETH’S GATEWAY PAVILION - Southeast,Washington D.C.
a
b a Ultra high performance concrete panels make up the outer part of the roof b Underneath wood is used on the ceiling on this uncovered area to create a softer relationship towards the public.
c
d
e c Structural beams and columns set into place d Rendering showing the public using the green roof e Cross section showing ceiling folds and stair configuration