tyler brant sells
a design portfolio 1
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Architecture
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Living Building Challenge Center for Sustainable Design Elyria, Ohio
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The Making of a Meaningful Place Studio Residence Sedona, Arizona
2011
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Ponte Urbano Gastronomy Center Florence, Italy
2010
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Winery at Debonne Vineyards Madison, Ohio
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Cleveland Waterfront Revival Ferry Terminal and Sports Park Cleveland, Ohio
2012
2012
2010 2010 2013
6-11
18-23
Film Center 6 Independent Kent, Ohio Multi-Modal Hub 36-51 7 Cleveland, Ohio
24-27
28-31
32-35
Professional 2014
U.S. Vetern Affairs Loma Linda, California
52-55
Foreign Studies Sketchbook Florence, Italy
Artwork Selected Works
12-17
56-62 62-65
Tyler Brant Sells • 106 Shady Lane, Barnesville OH 43713 • sellstb@mail.uc.edu • 740.296.3334 • www.tylerbrantsells.com
“For me, architecture is an art...the same as painting is an art or sculpture is an art. Yet, architecture moves a step beyond painting and sculpture because it is more than using materials. Architecture responds to functional outputs and environmental factors. Yet, fundamentally, it is important for me to stress the art in architecture to bring harmony.� -Santiago Calatrava 4
architecture
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01 The site in Elyria, Ohio is an example of a small, old industrial town that slipped into a state of economic famine after the closing of several major manufacturing plants.This lack of strength in the local economy led to more and more people leaving the area year after year. In order to reverse this trend, this new Center for Sustainable Design will perfrom as the catalyst for revamping this economically stricken region. The structure will be Living Building that harnesses the power of nature to become energy independent. This new living center will also become an educational hub that will create an informing dialogue among the community that will change the way they go about there lives. In an ideal case, this new Sustainability Center will become a pilot program that establishes a framework that influences other areas of the city. As more and more projects pop up, this neighborhood is transformed into a showcase area for adaptive sustainable technology. It is hoped to become a place that exhibits how we at one hand ensure the cities to future climate challenges, and moreover upgrade our urban spaces.
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Human activities often inflict harsh and irreversible damage to the environment. Balance needs to be maintained, and the fundamental relationship between humans and the natural world needs to be rethought. The structure will transform the current conditions of the site and assume the role of the negotiator between nature and man. The design in Elyria, Ohio becomes a dynamic threshold in the link between Ely Park and the Falls. The connection blurs the boundaries between nature and manmade, outside and inside. The end result will point Elyria in direction in revitalization of once a truly great place to live.
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Auditorium Circulation Urban Agriculture Education Business Vertical Circulation
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de gre es
73 de
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Restaurant
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rees
deg
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Solar Thermal
Greenhouse The rooftop greenhouse is designed to not only to collect solar energy during sunny days but also store heat for use at night or during periods when it is cloudy.
Solar thermal takes advantage of using radiant heat from the sun to directly warm the facilities’ water.
Conventional PV
Adds additional electricity gain. Location dependent on orientation and programs of high energy use.
Urban Agriculture Urban agriculture is an essential element into the urban and ecological system. One of the main qualities of a living building is that it does not consume more than it produces. This building will provide fresh fruits and vegetables to be sold directly to the local populous resulting in keeping the money that normally would be spent on imports, in the local economy. Program elements such as the Cafe and Restaurant will implement the fresh produce into their signature dishes.
Thin-film PV
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Converts solar radiation into electricity while maintaining flexibility and translucency. These are applied to the uppermost part of the energy shell. This automated system of PV panels adapts to the changing atmospheric conditions by choosing its degree of face orientation.
Roof Garden
The roof garden serves multiple functions including the regulation of the building’s temperature, creation of a new wildlife habitat, as well as filtering and cleansing of rainwater while maintaining storm runoff.
Rainwater Collection/Greywater Treatment The roof system relies on gravity flow to direct the water down into tanks where it is then filtered to provide potable water. Then the water used from the showers flows down into another storage tank where it then can be utilized once again for the toilet water. From there the water is filtered through the living machine which utilizes the natural cleansing function of the wetlands. Any extra runoff is designed with the landscape and gravity flow in mind. Pathways were opened up to allow the water an acceptable discharge to the falls.
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02 The Making of a Meaningful Place The client is an individual who is seeking healing. Not healing in the physical sense, but that of the soul. He is in search of answers. In search of liberation, he needs to get out of the city and into nature. Outside Sedona, a studio space is constructed. The cliff-side site is detached from the local population, the noisome cars, all of society. Temporarily isolated in nature’s wilderness, the client obtains residence in a newborn structure that blends seamlessly among the flowing contours of the red earth. The client finally obtains his place of peace, his place of reflection, his sanctuary. 13
The architecture is highly efficient in optimizing the natural elements through proper orientation, form, and material. In an attempt to lessen this structures impact on nature, design will be articulated through many passive strategies including: thermal mass, sun shading/ direct gain, as well as rainwater collection. Given the local materials of Sedona, rammed earth construction was integral to the design solution. Specific angle and depth of the roof overhang prevent unwanted gains in the summer while still allowing the low winter sun to penetrate. Implementation of a rainwater collection system takes advantage of the sloped terrain and becomes the life support for luscious vegetation.
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Thermal Mass Diagram
Site
Solar Optimization Diagram
1. Entry 2. Living Room 3. Kitchen 4. Studio
5. Bathroom 6. Guest BR 7. Master BR 8. Sanctuary
light wall lattice structural penetration bonsai tree rainwater optimization
Natural Ventilation
continuous bookcase thermal transition
Rainwater Collection
views
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West Elevation
East Elevation
South Elevation
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North Elevation
In the client’s new studio, there are directed views of both the vast valley and humbling red sculptures beyond. The spaces provoke a cleansing introspection.The combination of the open plan along with the architecture being nested into the side of the cliff creates the feeling of the space extending off into the infinity of the desert. The sanctuary doubles as a “community type space where wandering travelers can commune. Numerous bike paths near the site permits higher integration of this cool lush environment for the bike riders seeking a place of refuge to recover. 17
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03 Gastronomy and Cultural Center During my stay in Florence, ‘AND’ International Magazine hosted a design competition for the architecture and environmental design students at Kent State University. The goal was to redelevelop one of the most difficult and controversial places in Florence, a big empty space in Largo Annigoni, in the popular and historic district of Sant’Ambrogio.The competition proposed each student to submit an A0-sized board as a culmination of the semester’s studio works. Judging was based on layout, graphics and clarity of concept. The following project was chosen as one of the eight publication winners. 19
I proposed a NEW URBAN LANDSCAPE, to offer a fresh and diverse experience to the city of Florence. A structure that at the same time UNIFIES the city but also in a way gives back by raising up and preserving highly sought after open ground space. This URBAN BRIDGE performs as a social attractor as well as urban infrastructure. A bridge is an agent of connectivity, giving people the opportunity to move no only from point A to point B, but A to D, B to E. An URBAN bridge gives people choices and experiences. This Gastronomy Center at Piazza Annigoni bridges the gap between cultures and feeds the city with vibrant energy.
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Ponte Urbano has the ability to contribute more to the city than just a crossing or formal icon. It has a dual purpose beyond the function of transport when it becomes habitable. The bridge is thickened with program and layered with additional uses. The densification is exactly why people will be drawn and will travel this elevated street of urban life; creating a whole new series of connections between space and culture.
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04 The Winery at Debonne Vineyards The architecture at Debonne Vineyards achieves a synergy between the natural landscape and the built form. The design does not rest as a still life on an undifferentiated site, but its potency is realized when embedded within a setting. Programmatic schemes articulate a distinct dichotomy between work and play, production and entertainment. The production spaces are organized around performance and optimization of the wine-making process. Zones include grape receiving/crushing, pressing, fermenting, processing, storage, and bottling.
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The architecture is strongly influenced by the idea of transparency. The relay of information formed from visual connection between spaces allow for a heightened experience for the user. The tourist can view unobstructed moments of the production spaces before they physically arrive creating anticipation. Along the wine making path, spaces were created and revealed to cause moments of pause so that the visitor can learn the history of wine while sampling and tasting.
Visually colliding overhead, perpendicular to the production program, the architecture transforms into this seamlessly flowing form bending to the slope of the hill and extends into the vineyard. Most wineries contain only the production aspect. By integrating history, retail as well as entertainment, the generic topology of a winery is extended into an experience of wine beyond the winery itself. The architecture not only informs, but entertains.
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05 Cleveland Waterfront Revitalization The project objective was to redesign Dock 28 and provide Cleveland with a new and attractive Ferry Terminal. Unique to my project, I chose to include the development of a Sports Park as well as a string of retail along the main axis point to and from the city. Contextually Dock 28 is directly adjacent to Cleveland Browns Stadium. The huge scale difference led the need for sensitive site placement. At this moment, the site is nothing more than a concrete graveyard. However, with the right vision, this site has a huge potential and is a perfect location for waterfront revitalization. A site is not empty of meaning, but is embedded with possibility. In the early stages of design, there was emphasis placed on program elements of the Terminal itself. It was key to understand the many different active processes that were going on in concurrent fashion. We had to consider how the users would arrive, where they would park, how check-in and customs function, as well as how the users get on the ferry. At the same time we had to route how trucks load and get in and out of the area. 29
Cleveland Waterfront Revival: Ferry Terminal and Sports Park
physical connection Diagramming model
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Dock 28
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06 Independent Film Center Located downtown in Kent, Ohio, the site for the new Independent Film Center was chosen as an ideal spot in the urban fabric that would be able to spark the downtown expansion as well as serve the continuation of the esplanade. The program given was divided into three main sections: nonprofit filmaking organization, education, and shared public space. The Independent Film Center allows for a great opportunity to integrate new technology that lets the building interact with the public. There are endless possibilities, whether it is as simple as little nodes you can walk up to and watch previews of shows that are playing to something more entertaining, such as a big screen recording and playing back video feed from people dancing in the summertime.
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In solving the problems of the narrow site, the architecture is lifted up into multiple connecting forms. This not only reduces the buildings footprint but allows for more open green space interaction underneath. I became interested in film as a medium of transformation and how the architecture could compliment that transformation. I first explored routing and integration of various user paths as different people go to see a film. The main circulation route was viewed as a way to create a type of journey for the
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users. Along the path they are given the ability to explore, weaving in and out of the structure. The path is embedded with framed moments of pause. The cinema below ground proliferates the idea that the users are metaphorically transformed after they watch the inspiring film. As they leave the dark lower level the users find themselves at the end of their transformative journey. Out onto a viewing platform, opposite to where they began, they are rewarded with the awe inspiring views of the river.
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07 INTEGRATED DESIGN COMPETITION TYLER SELLS + DAVID SPARLING Spring 2013 - Professor Charles Harker
Building Total: 220,000 gsf Ground Floor: 25,000 Office: 180,000 Prime 140,000 Tenant 40,000
X-Factor-> Multi-Modality, relocation of Amtrak Station Building Efficiency (BOMA) 80% minimum efficiency for office space. Count 25% of sf of floor open multi-story spaces against efficiency. Living Building Challenge: it is to be a net zero project, thus energy efficiency is key with no sacrifice being made to the IAQ.
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APPLYING THE
MULTIMODAL EQUATION TO THE URBAN SCALE
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The goal of this project is to give APTA an office facility that also operates as a functioning multi-modal complex for the City of Cleveland. This pursuit will not only give APTA a relevant platform to test new theories and emerging technologies in public transit while at the same time becoming the solution for Cleveland’s linkage problem. This not only helps APTA in their current procedures but also promotes their public image for their future.
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URBAN CONTEXT: [FUTURE]Viewing the city as a Macrofunctional organism.
Cleveland presents a very unique oportunity for urban investigation and for trying the validity of high design and architecture in the present age. It stands at a time when many post industrialist urban centers are asking many important questions such as how to reapply themselves to the global economy while still supporting local and regonal economies and above all else the union of community. Cleveland is posing as center stage for much of these talks and supports a vast spread of reformation and rebirth. The urban scape of this city is very likly to make some dramatic changes and as a responsible designer it is essential to not only make note of these changes but anticipate them and allow them to mold how the microsite is used. This will alow for proper integration into the new urbanscape and allows for proper turnover in funtionality and updating. Urban centers will always exchange and restructure on a macro scale. The microsite can either contradict this, risking idleness or suffication or it can follow or push these shifts and take advantage of the fruits of being on this cusp of progress. Connecting to these tides of change mean more than design drivers for the client. They can push the tenants into greater lines of site or into larger market pools altimatly ending with higher profit margins.
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link to lakefront
e line of site along the main pedestrian pathway allows for framed views to and from the Rock and Roll Hall of Fame. e views are preserved even upon exiting the amtrak/rta station.
link to park link to parking deck
views to complex and rails
link to downtown
sky park
e ground oor allows for the efficient gathering a distribuation of people while creating varying areas of activity. Interesting ows are created by both high and low energy spaces such as the refecting pool and the main path to retail and amtrak.
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ground
PRESERVE GREEN LAKEFRONT AND VIEWS
CROSS THE HIGHWAY MULTIMODAL TRANSPORTATION HUB
OVERCOME THE BLUFF
BRING THE CITY TO THE LAKE 41
The combined use of hollow core concrete floor slabs, light frame steel members and supplemental tension cable will allow for gant building form that hovers 30’ above a street front green-space. This not only fulfills program and x-factor requirements while allow efficient mechanical systems, night flush, larger effective daylight elevations and a natural ventilation strategy. In concept the top and floor plates will be reinforced and x-braced to form a unified structural body that can be anchored to the vertical core elements and rei to reduce torsion and bending due to high wind loads.
Floors 3 and 9 are reinforced with x-bracing to deaden torsion an forces due to wind loads. Floor plates 4 through 8 are sandwiche tween acting as horizontal bracing for the structure body.
ELECTRICAL:
STRUCTURAL SYSTEM: ConCrete,
Steel & tention Cable
24’
USinG reneWable reSoUrCeS and SUpplinG mUtlimodal tranSportS 29’
72’
CORE
CORE
14’ 29’
17”x13” Columns are placed on a 24’ grid with 29’ & 14’ beam spans. These smaller bays align with the central core location as well as reduce the required depth of beam for an increased clear window height.
Tension cables are shown in red, anchoring the structure to the ridged core elements.
8’x 4’ Hollow core concrete precaste floor slabs were selected to in crease thermal mass, acoustic break, and ease of construction. They are designed to be 12” thick on edges of the floor plate but have been greatly oversized to 24” to allow for increased thermal mass and allow mechanical systems such as vrf piping, electrical, communications, and tributary ventilation distribution. This will leave a sleek and clean ceiling plan and an ideal platform to maximize night flush and natural daylighting strategies.
Core elements pierce through the form vertically and act as horizontal bracing as well as the main structure to receive compressive forces from the tower. These structures receive tension cables running diagonally to a connection between steel columns and steel beams to support the tower structure much like the horizontal spanning of a bridge. This will allow this large slender form to be lofted above the street and a community gathering space.
This increased mass provided by these oversized floor slabs should suppliment the VRF system by holding constant temperatures longer. If night flush systems flow through the hollow cores of the slab the massive member could be cooled much quicker than conventional methods and kept cool if natural ventilation is then closed off during outdoor overheating periods.
42 The combined use of hollow core concrete floor slabs, light frame steel members and supplemental tension cable will allow for an elegant building form that hovers 30’ above a street front green-space. This not only fulfills program and x-factor requirements while allowing for efficient mechanical systems, night flush, larger effective daylight elevations and a natural ventilation strategy. In concept the top and third
5.
4.
STRUCTURAL SYSTEM: ConCrete,
Steel & tention Cable This increased mass provided by these oversized floor slabs should suppliment the VRF system by holding constant temperatures longer. If night 24’ flush systems flow through the hollow cores of the slab the massive member could be cooled much quicker than conventional methods and kept cool if natural ventilation is then closed off during outdoor 29’ overheating periods. 72’ 14’
Tension cables are shown in red, anchoring the structure to the ridged core elements.
CORE
CORE
29’
an elewing for third inforced
17”x13” Columns are placed on a 24’ grid with 29’ & 14’ beam spans. These smaller bays align with the central core location as well as reduce the required depth of beam for an increased clear window height.
Core elements pierce through the form vertically and act as horizontal bracing as well as the main structure to receive compressive forces from the tower. These structures receive tension cables running diagonally to a connection between steel columns and steel beams to support the tower structure much like the horizontal spanning of North Cut a bridge. This will allow this large slender form to be lofted above the street and a community gathering space.
Tension cables are shown in red, anchoring the structure to the ridged core elements.
nd bending ed in be-
The combined use of hollow core concrete floor slabs, light frame steel members and supplemental tension cable will allow for an elegant building form that hovers 30’ above a street front green-space. This not only fulfills program and x-factor requirements while allowing for efficient mechanical systems, night flush, larger effective daylight elevations and a natural ventilation strategy. In concept the top and third floor plates will be reinforced and x-braced to form a unified structural body that can be anchored to the vertical core elements and reinforced to reduce torsion and bending due to high wind loads.
Floors 3 and 9 are reinforced with x-bracing to deaden torsion and bending forces due to wind loads. Floor plates 4 through 8 are sandwiched in between acting as horizontal bracing for the structure body.
ELECTRICAL:
USinG reneWable reSoUrCeS and SUpplinG mUtlimodal tranSportS
43 4.
Structure
8’x 4’ H
caste fl The combined use of hollow core concrete in creas The combined use of hollow core concrete floor slabs, light frame steel members and supplemen break, floor slabs, light frameThissteel members increased mass provided by these oversized floor slabs They ar should suppliment the VRF system by holding constant temperatures edg and supplemental tension cable will gant allow building form that hovers 30’ above a street front green-space. This not only fulfills program and onx-f have b longer. If night flush systems flow through the hollow cores of the slab the 24” to a for anelegant building that hovers massive memberform could be cooled much quicker than conventional methmass a efficient mechanical systems, night flush, larger effective daylight elevations and a natural ventilation str and kept coolgreen-space. if natural ventilation is then closed off during outdoor 30’ above aods street front This tems su commu overheating periods. not only fulfills program and x-factorfloor plates will be reinforced and x-braced to form a unified structural body that can be anchored to the ventila leave a requirements while allowing for efficient plan an to reduce torsion and bending due to high wind loads. maxim mechanical systems, night flush, larger dayligh effective daylight elevations and a natural ventilation strategy. In concept the top and third floor plates will be reinforced and Floors 3 and 9 are re x-braced to form a unified structural body forces due to wind l thatsteel can bemembers anchored to the vertical core frame and supplemental tension cable will allow for an eletween acting as hor elements and reinforced to reduce torsion e. This not only fulfills program and x-factor requirements while allowing for and bending due to high wind loads.
elevations and a natural ventilation strategy. In concept the top and third ural body that can be anchored toRoof theLoad vertical core elements and reinforced Roof Load Roof Load Roof Load Roof Load Roof Load
This increased mass provided by these oversized floor slabs should suppliment the VRF system by holding constant temperatures longer. If night flush systems flow through the hollow cores of the slab the massive member could be cooled much quicker than conventional methods and kept cool if natural ventilation is then closed off during outdoor overheating periods.
Roof Load Roof Load Roof Load
Floors 3 and 9 are reinforced with x-bracing to deaden use torsion and bending The combined of hollow core concrete floor slabs, light frame steel members and supplemental tension cable will allo forces due to wind loads. Floorgant platesbuilding 4 through 8 are sandwiched be- a street front green-space. This not only fulfills program and x-factor requirements while form that hovers 30’inabove tween acting as horizontal bracing for the structure body.
efficient mechanical systems, night flush, larger effective daylight elevations and a natural ventilation strategy. In concept the top floor plates will be reinforced and x-braced to form a unified structural body that can be anchored to the vertical core elements an to reduce torsion and bending due to high wind loads.
Floor Dead Loads and Live Loads
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Redistribution of the office tower loads onto pre-tensioned, high strength steel cables and then to the two massive concrete cores that direct the load into the ground.
PILES
Floor Dead Loads and Live Loads
Floor Dead Loads and Live Loads
PILES
Floor Dead Loads and
Floors 3 and 9 are reinforced with x-bracing to deaden to forces due to wind loads. Floor plates 4 through 8 are san tween acting as horizontal bracing for the structure body
HVAC Supply
Water Supply System:
Building Needs/ Rainwater Collection / Solar Hot Water Preheat System
Waste Water System:
Building Waste / Rainwater Collection / Living Machine
VRF w/ Geothermal Heat Pump
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High quality daylighting design has the potential to increase user satisfaction, create a healthier environment, and even increase productivity. In addition, when used in conjunction with energy-efficient lighting and controls, daylighting can reduce energy consumed by electric lighting by up to 70% as well as reduce overall building energy use. The narrow floorplate makes sure the vast majority of the floor area falls within a daylit zone. For effective daylighting, it is equally important to maintain an effective relationship between window head height and section depth. Program of Daylight Criteria: Open Office - Daylight and view desired, occupants have glare control Private Offices - Daylight and view desired, individual occupant glare control Support Spaces - Minimal daylight or view opportunities required Building Core - No daylight or view opportunities are necessary
Balancing artificial a Maximising the amo entering a building c consumption. But th generated by sunligh uncomfortable, parti south-facing aspect. OccuSwitch DALI, li maximise comfort an
Perimeter to Core Distance
Open office areas: Where daylight is present, utilize daylighting controls.
When there is little o blinds are raised to m the luminaires help t contrast and comfor the blinds are lowere and the use of artific Managed smartly the solar heating in the s air conditioning and associated costs, the solar heat in to reduc
Workstations: Use occupancy sensor controlled plug strips to control plug loads (computer monitors, task lights and personal items). Restroom/copy/storage: Install occupancy sensor controlled lighting. Private offices/conference rooms/break rooms: Install vacancy sensor (manual on, auto off ) controlled lighting.
Daylight Penetration
4k Plan
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High strength steel tension cables
PV Panels Rainwater cisterns
Solar Hot Water The outside membrane of the double facade is based around the technology of liquid crystal. Ourof the perforated The outside membrane double facadeversion opens and closes within specified viewis based around the technology a of liquid ing range for the occupants crystal. Our perforated version opensof and the office. Fromcloses a distance the office tower within a specified viewing range for will appear as a completely pure form and the occupants of the office. From a distance will create the most distinction the office tower will appear as a completelyfrom the landscape pure formbelow. and will create the most distinction from the landscape below.
Membrane Truss Vegetation Louvres
Within the office part of the project, we were required to design with 2k, 4k, 8k spaces in mind with the 4k Tenant space being detailed out. High quality daylighting design has the potential to increase user satisfaction, create a healthier environment, and even increase productivity. In addition, when used in conjunction with energy-efficient lighting and controls, daylighting can reduce energy consumed by electric lighting by up to 70% as well as reduce overall building energy use. The narrow floorplate makes sure the vast majority of the floor area falls within a daylit zone. For effective daylighting, it is equally important to maintain an effective relationship between window head height and section depth.
Pedestrian Bridge
SkyPARK
Massive Cores
Amtrak Terminal
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zgf architects professional work
Marketing Render* +Assisted in design development US DEPARTMENT OF VETERANS AFFAIRS HEALTH CARE CENTER | CENTRAL PUBLIC CORRIDORS and construction documents WI Loma Linda, LLC. LOMA LINDA, CALIFORNIA | CD1 SUBMITTAL | MARCH 3, 2014 | #VA-101-13-R-0026 phases of a design/bid/build healthcare facility for the US Vetern Affairs in Loma Linda, California. +Near 100% Revit Workflow +Revit Modeling, Rendering, Details, LEED, Schedules +Attended consultant meetings, site visits, education seminars +Coordinated and communicated daily as part of a 15-20 member project team.
Department of Veterans Affairs
Lobby Atrium
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THIN SET TERRAZZO FLOORING - RES-5 DIVIDER STRIP 1/4" CAULK JOINT
1'-1 5/8"
STEEL PLATE
6 1/4"
3/8"
1'-0"
BLACK EPOXY ABRASIVE STRIPS BLACK EPOXY ABRASIVE STRIPS PRECAST TERRAZZO TREAD / RISER UNITS
CAP WITH STAINLESS STEEL PLATE SIDE OF STAIR
EMBEDDED METAL ANCHORIDGE SYSTEM
6 7/8"
3/8" SETTING BED
3'-4 5/8"
1/8" CAULK JOINT
1/8"
1'-4 "
STEEL PLATE SPRINKER PIPE
A
2'-10"
A
SLIP JOIN THIN SET TERRAZZO FLOORING - RES-5
1'-0"
1'-6"
PRECAST TERRAZZO INTERMEDIATE LANDING
3"
1
WELD 1/4" STAINLESS STEEL PLATE TO EMBED
8"
12"X12" STEEL PLATE EMBED IN SLAB
8"
B
SECTION DETAIL AT LOBBY STAIR AT LEVEL 3
1 IA510
GYP. BD. SOFFIT
B
Railing Detail at Lobby Stair Level 1 1 1/2" = 1'-0"
2 1/2"
8"
1 1/2" = 1'-0"
3"
8"
6 IA510
1'-0"
8"
8"
3"
8"
three inches = one foot 6"
HANDRAIL 1 1/2" DIA
3/8" SETTING BED
1/8" CAULK JOINT
2
one and one half inches = one foot 6" 0
1'-0"
EMBEDDED METAL ANCHORIDGE SYSTEM
1/4"
7"
BLACK EPOXY ABRASIVE STRIPS
EMBEDDED METAL ANCHORIDGE SYSTEM
8"
one inch = one foot 6" 0
PRECAST TERRAZZO TREAD / RISER UNITS
THIN SET TERRAZZO FLOORING - RES-5 8"
3/8" SETTING BED
1/4" CAULK JOINT
3/8" SETTING BED
5 IA510
STEEL PLATE
1'-0" 1/8" CAULK JOINT
1 1/2" = 1'-0"
85
6 1/4"
three quarters inch = one foot 6" 0 2
1/8" CAULK JOINT
7 1/8"
SLIP JOINT
6" MIN.
1"
3/8"
1/2"
THIN SET TERRAZZO FLOORING - RES-5
2'-6 3/4"
GYP. BD. J TRIM
MOVEMENT JOINT
VARIES
EDGE OF FLOOR SLAB 1 1/4"
2"
1 1/4" ADDITIONAL FIRE RATED BLOCKING FOR HANDRAIL AS REQ.
one half inch = one foot 0
STAINLESS STEEL HANDRAIL
7 IA510
SECTION DETAIL AT LOBBY STAIR AT LEVEL 2
FACE OF VERTICAL MULLION BEYOND, WHERE OCCURS REF. PLAN
1 1/2" = 1'-0"
GL-13, 1/2" LAMINATED GLASS WHERE OCCURS REF. PLAN
FACE OF TILE WALL, WHERE OCCURS REF. PLAN EDGE OF STAIR TREAD
2"
REF GEOMETRY ON PLAN AA104-F
D
GYP BD SOFFIT
FACE OF TILE WALL, WHERE OCCURS REF. PLAN EDGE OF STAIR TREAD
3 IA510
SECTION DETAIL AT LOBBY STAIR AT LEVEL 2 1 1/2" = 1'-0"
2" 1 1/4"
TILE WALL AS SPECIFIED
4'-0"
GASKET FILLER FRICTION FIT
EMBEDDED METAL ANCHORIDGE SYSTEM
2"
1 1/4"
HANDRAIL BRACELET DRILLED THROUGH GLASS
2 3/4"
E
3'-6 1/4"
STEEL PLATE KICKER SEE STRUCTURAL 3'-4"
1"
3/4"
VARIES
STAINLESS STEEL HANDRAIL
EDGE OF STAIR TREAD
D
2"
3'-0"
4
11 1/2"
BLACK EPOXY ABRASIVE STRIPS
EDGE OF FLOOR SLAB
2'-6"
E
2'-6"
PRECAST TERRAZZO TREAD / RISER UNITS 3/8" SETTING BED STEEL PLATE
1 1/4" 3/4" 7" BLACK GASKET FRICTION FIT
CONTINUOUS STUD
2"
three eighths inch = one foot 0 4
C
/8"
3/8"
C
STEEL PLATE
8"
SECTION DETAIL AT LOBBY STAIR LANDING BETWEEN LEVEL2 AND 3
EMBEDDED METAL ANCHORIDGE SYSTEM
1/4"
7"
8"
DIVIDER STRIP
1 HR SOFFIT
FIRE BLOCK AS REQ.
1 1/4"
1 HR RATED GYP BD SOFFIT
one quarter inch = one foot 0 4 8
1 HR WALL
GYP BD SOFFIT
F 8 IA510
F
SECTION DETAIL AT LOBBY STAIR BETWEEN 1+2
LIGHT FIXTURE SPRINKLER HEAD
1 1/2" = 1'-0"
4 IA510
2 IA510
SECTION DETAIL AT LOBBY STAIR BETWEEN 1 + 2 1 1/2" = 1'-0"
100% CONSTRUCTION DOCUMENTS FULLYSPRINKLERED
SECTION DETAIL AT LOBBY STAIR BETWEEN 2+3 1 1/2" = 1'-0"
one eighth inch = one foot 0 4 8 16
Scale: 1 1/2" = 1'-0"
CONSULTANTS:
Revisions: VA FORM 08-6231
Date
DEVELOPER:
KIMLEY-HORN AND ASSOCIATES, INC. 765 THE CITY DRIVE, SUITE 200 ORANGE, CA 92868 TEL: 714-939-1030 FAX: 714-938-9488
WI Loma Linda, LLC.
520 SW Sixth Avenue, Suite 500 Portland, OR 97204 TEL: 503.620.3232 www.mazzetti.com
Drawing Title
ARCHITECT/ENGINEERS: 1223 SW Washington Street Suite 200 Portland, OR 97205 T 503 224 3860 www.zgf.com
DEGENKOLB ENGINEERS 600 University Street, Suite 720 Seattle, WA 98101 206.262.9240 PHONE 206.262.9346 FAX
PROJECT NUMBER: 135-081
LOBBY STAIR DETAILS
Approved: Project Director
Project Title
Project Number VA-101-13-R-0026
LOMA LINDA VA AMBULATORY CARE CENTER (ACC)
Building Number
Location
Drawing Number
26001 Redlands Blvd, Loma Linda. CA 93254
Date
Checked
APRIL 21ST, 2014
Checker
Drawn TS
IA510 Dwg.
of
4/16/2014 9:46:25 AM
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Office of Construction and Facilities Management Department of Veterans Affairs
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A Family Unknown Venice, Italy
photography travel
51
nightlife on the ponte vecchio Florence, Italy
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53
The Lookout Florence, Italy
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55
Iron Beauty Paris, France
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57
Weave Barcelona, Spain
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59
60
foreign studies travel sketches
Santissima Annunziata Pencil
Journey to Michalengelo
62
Pencil
Santa Maria del Fiore. Pencil
63
Kitchen Silverware
Black and White Charcoal
64
The Old Barn Charcoal
Train-wheel Ebony Pencil
At the Depot Ebony Pencil
65
The Colosseum Scratch-board
Venice
Ebony Pencil
66
Thanks for your time!
The Vatican Pencil
67
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tyler brant sells EMPLOYMENT ZGF Architects LLP (January 14’- May 14’) Shield Security, Summer Employment (2009-2012) Flower Gardens and Greenhouses, All-Year Employment (2002-2008)
VOLUNTEER SERVICE AND LEADERSHIP POSITIONS (APX) Alpha Rho Chi founding member. Professional fraternity for the college of architecture. (2010-present) (USGBC) U.S. Green Building Council Student Member (2012-present) Boy Scouts of America Community Service (120+ Hours) Varsity B Club (Basketball, Baseball, Track)
HONORS/AWARDS LEED Green Associate (2014) AIA Design Charrette, State Level (2013) AND International Magazine, Florence Design Competition Publication Winner (2012) National Honors Society Dean’s List National Guild of Piano Diploma Governor’s State Art
2013
2016M A S T E R
of ARCHITECTURE University of Cincinnati
BACHELOR of ARCHITECTURE
Kent State University
2009 H . S . D i p l o m a
Study Abroad
Florence Italy
Barnesville High
SOFTWARE PROFICIENCY
PASSIONS
Modeling
Adobe Suite
Rendering Engines
Environmental
Revit Sketchup Autocad Rhino
Photoshop Indesign Illustrator Lightroom
Kerkythea Render Maxwell Render Revit Cloud
Vasari Ecotect Analysis Green Building Studio
106 Shady Lane, Barnesville OH 43713
•
Piano Photography Basketball Fitness Everything Outdoors Sustainability
sellstb@mail.uc.edu • 740.296.3334 • www.tylerbrantsells.com
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Tyler Brant Sells • 106 Shady Lane, Barnesville OH 43713 • sellstb@mail.uc.edu • 740.296.3334