Professional Work Payette TRO America Dural Inc. Steffian Bradley Architects Anshen & Allen
Student Work Thesis - Emotional Architecture Sumo Stadium Community Design Culinary School
Payette Project Designer / Job Captain 06.23.2017 - 05.24.2019 While at Payette I took on many roles such as Designer, BIM manager, Project Designer, mentor and Job Captain, all of which was spread out over 15 different projects ranging in sizes from 1,500 sf up to 140,000 sf. My time was spent exclusively on healthcare design, particularly on imaging and cancer treatment facilities throughout the New England area. I worked directly with Principals and Managers from the beginning of RFP’s and programing phases through construction administration, I met with clients, users and consultants and led project meetings.
-2 CT’s -1 SPECT -1 PET -5 Injection Therapy rooms
-Seating for over 50 Guests -6 Single Offices -11 Shared Offices -5 Conference Rooms -65 Open Desk stations
-2 Exam Rooms -5 Consultation Rooms -Support Spaces
Level 3 Overall Plan
-2 MRIs (1.5T & 3.0T) -2 Ultrasound Rooms -2 Mammographies Rooms -1 X-Ray Room
-8 Consultation Rooms -48 Exam Rooms -8 Vital Bays -80 Clinical Staff stations
-9 Hoods -42 Open Infusion Bays -14 Private Infusion Rooms -4 ISO Infusion Rooms -6 Cooling-Cap Stations
Level 4 Overall Plan
Level 4 Imaging Department
TRO Architectural Designer 05.15.2015 - 06.20.2017 At TRO I worked closely with Project Managers to create SD through CD packages for projects ranging from 4000 sf to 4.5 million sf healthcare environments. These projects included renovation for medical offices for Hospital medicine, renovation for cancer treatment infusion center and pharmacy, new construction of 800 and 1200 bed hospitals in Kuwait. The two larger projects, I worked on public spaces, imaging departments, women’s health and Emergency/ Trauma center. Of the smaller project I worked on, I was the lead designer, working only with a Project Manger to coordinate MEP and Interiors consultants.
Level 3 Podium
Typical Tower Floor Plan
B
-
C
D
---
E
F
G
North
A
6' - 0"
EQ
EQ
a healthcare de 4' - 0"
OPEN BAY 149
IV STAND
4' - 0"
---
OPEN BAY 148
IV STAND
OPEN BAY 13 147
8' - 5"
BLANKET WARMER
8' - 6 1/2"
15
HW 192
4
5' - 11"
NURSE STATION 195
208
4" 5
11
SOILED WORKROOM 194
OPEN BAY 191
HAZARDOUS STORAGE 153
PYXIS
13
0A6
UTILITY CART
1.
HOOD
2.
24"X36" SS WIRE RACK
9' - 7 1/2"
A802
7
10' - 3 1/2"
5' - 11"
8
-
-
A801
WAITING 7 210
5
9' - 11"
189 8
13
A801
16
3
534
101
DOOR REFERENC SEE SHEET A70X
1t
VIEW WINDOW SY SEE SHEET A70X SCHEDULE
X
PARTITION TYPE SEE SHEET A7XX
X
AXXX
INTERIOR ELEVAT X
FEC
10' - 0" 14
TYP TYP
REFERENCE SYMBOLS AS FOLLOWS
24"X42" SS WIRE RACK
3.
ALIGN
TYPICAL PARTITION TYPES ARE AS F OTHERWISE NOTED: INTERIOR PARTITIONS CORRIDOR PARTITIONS -
HAZARDOUS CLEAN ROOM 154
24"X36" SS WIRE RACK
IV STAND
CART 2
-
-
CLEAN SUPPLY 197
6
A802
6' - 0 1/2"
209
A804
10 14
A802 1 BLOOD DRAW 216 2
FRIDGE -
5' - 1"
4"
5' - 5 1/2"
8' - 7"
1' - 7 1/2"
0F0
TABLE, ST ST
IV STAND
206
GENERAL NOTES:
120
24"X18" SS WIRE RACK 149
METRO7 WIRE 8
24"X18" SS WIRE RACK
148
9
ANTE ROOM 155
BENCH
TR.01.C OPEN BAY 128
10 9' - 11 1/2"
200
8' - 2 1/2"
3
11
9' - 11 1/2"
1A3
4
2 1
2
IV STAND
TOILET 223
A804
A804
3
TR.01.C
SOAP DISPENSER
TOILET 196
0F3
UTILITY CART
4
A803
3 HW 206
5
6 1/2"
3' - 11 1/2"
2' - 6"
A803
1
12
179
123
TR.01.B
OPEN BAY 144
0A6
TELE/DATA 235
HOOD NON-HAZARDOUS CLEAN ROOM 157
OPEN BAY 239
1A3
WORKROOM 156
2' - 0"
2 A811
IV STAND 1A3
79
24"X36" SS WIRE RACK
4' - 7" 6
A803
186
PHARMACY STORAGE 215
4' - 2 1/2"
20' - 3 1/2"
3' - 0"
OPEN BAY 240
617.502.3400 | tro-design.com CONSULTANTS
HW 193
A803 2
IV STAND
2' - 6 1/2"
EQUIPMENT 212
1
IV STAND
8' - 5"
CART 2
A802 4' - 2 1/2"
STAIRS 135
IV9' - 3" STAND
OPEN BAY 145
IV STAND
CART 2
NOURISHMENT 185
FEC
EQUIPMENT 183
OPEN BAY 146
A803
0F3
100 High Street, Suite 1800 Boston, MA 02110
RATED PARTITIONS ARE AS FOLLOW
1' - 7 1/2"
1 HOUR FIRE RAT
ELEVATOR 133
LOBBY 132
4
2 HOUR FIRE RAT
NON-RATED SMO
15
1 HOUR SMOKE B
6
6 STAFF BREAK ROOM 231 6' - 11 1/2"
2 HOUR SMOKE B
1 A811
FRIDGE
5' - 0"
CIRCULATION
CLEAR 4
11
A801
HOUSEKEEPING 221
STORAGE 233
156 3' - 9 1/2"
3' - 6"
8
A803
Hospital and Medica
CIRCULATION 243
6 A803
11 12
A802
PROJECT NAME
7
WORK STATION 224
EXAM 159
SAINT FR
98
9
FEC
10
EXISTING BLOOD DRAW 177
9
A802
EXAM 158
De
CLIENT
EXISTING WAITING 172
10
2' - 10 1/2"
EXISTING BLOOD DRAW 176
95
188
A803
Date
REVISIONS
WORKROOM 237 12
6' - 9 1/2"
7' - 2"
Mark
PRINTER
175
12
5
171
ALCOVE 230 PATIENT TOILET 229
STAIRS 134
CLEAR
RECEPTION 203
6' - 7"
CONSULT/CONF 173
1
2
2' - 6"
176
A801
4' - 5 1/2"
-
-
3
LIMIT OF WORK
5' - 6"
8' - 11 1/2"
CHECK IN / OUT RECPTION 202
5' - 8 1/2"
-
-
0F3
7' - 6 1/2"
7' - 1"
- TOILET STAFF 234
0F3
3' - 5"
2' - 6 1/2"
0F0
EXISTING TOILET 171
EXISTING LAB 178
A803
Glastonbury In Center Project No. Date Issued Drawing Scale Copyright © 2017
EXISTING BREAK ROOM 179
9
DRAWING TITLE 15
A804 14
LEVEL 2 FLOOR P
13 EXAM 129
EXAM 130
-
NORM ELEC 169
1
ENLARGED LEVEL 2 FLOOR PLAN SCALE: 1/4" = 1'-0"
ALTERN ELEC 170
EXAM 131
7
-
SEALS
LIMIT OF WORK
16
EXAM 126
Built Conditions SHEET ID
Sche
A202
America Dural Inc. Architectural Designer 05.01.2013 - 05.15.2015 At America Dural Inc. I was a part of a small team of designers who worked on high end residential apartments and homes up and down the east coast. These projects would range from small custom millwork closets to a full gutted renovation homes of a 3000+ sf. I began as a drafter, drawing and correcting red lines while conducting existing site measurements. I was the sole modeler and render for all projects and presentations. Over the years I worked my way up to a sort of project manager status. Which included me having my own projects, meeting with clients, conducting construction administration while I also worked on a few projects with coworkers. My other responsibilities included building a new company website to showcase the all the new work and implement new drawings standards.
Existing Conditions
Built Conditions
Built Conditions
Front Elevation
Rear Elevation
62” Diameter well opening in floor 31”x31” platform with a 26” clear walking path
Column cap TBD* Stair entrance-designer style railing. Curved 36” tall railings with wood hand railing 1” round baluster to math below with custom tips
60” Diameter stair case
First Floor Landing Custom baluster tips CBT-C
62” Diameter well opening in floor
Code tread style CTS-1 Solid wood handrail style CH-4
60” Diameter stair case
3-4 1” Round baluster CB-1 per tread 4” max spacing Tread sleeves CTS-2. Cut to custom height and provide smooth center column
Ground Floor Landing
Tread covering CTC-2 solid wood
Elevation
330 degrees of rotation 11 treads and 12 risers
Footing 4’ MIN below grade
Shape soil to form gutter
6” min crushed stone 4” perforated PVC
Wood cant Filter fabric
Waterproof membrane, sprayed application of Grace Procor 75
Ship-Lap wood siding
Grace Vycor plus
Metal flashing
resistance strap @ every third stud End joints to be beveled & sealed
Simpson #LSTA high wind
over entire opening then use dupont flexwrap at sill & cladding anchors
door openings extend housewrap
Tyvek housewarp with Tyvek seam tape, at all window &
3/4” CDX plywood sheathing
R value-21
Icynene spray foam insulation
Random width board & batten siding, match existing
4” picture frame casing
connect to dry well
Lead coated copper gutter & downspouts, downspouts
Lead coated drip edge
1”x5” painted wood facia board
Grace Ice & water shield. For first 4’ from edge of roof 5/8” plywood sheathing with metal H-clips
rafter
Blocking in between ever
SPECIFIED BY ENGINEER
FOUNDATION TO BE
6 mil poly vapor barrier
Icynene spray foam insulation. R-value-25
3/4” Sturd-I-floor tongue and groove plywood flooring, glue and nail to floor
3/4” finished floor TBD
1”x8” baseboard, pre primed both sides
1” x 4” trim, pre primed both sides
5/8” plaster board w/1/8” skim coat of plaster veneer smooth finish
FLOOR JOISTS TO BE SIZED BY ENGINEER
Provide solid blocking at midpoint on walls greater then 8’-0”
6 mil poly vapor barrier
RAFTER TO BE SIZED BY ENGINEER Icynene spray foam insulation. R value-48
30 # felt paper
Architectural asphalt shingles to match existing
Steffian Bradley Architects Architectural Intern 09.01.2013 - 01.15.2014 At Steffian Bradley Architects I was a part of a team that worked on hospitals throughout Massachusetts. This type of work involved a lot of ADA, local building code and green code research. Through the application of this knowledge I assisted in the layout of existing and proposed bedrooms and bathrooms. I helped in assisting the project manager with patient bedroom and bathroom layouts in the new and existing rooms along with circulation. My other responsibilities included documenting existing conditions, site visits for conducting user questionnaires. I also participated in meetings with contractors and other designers. I used Revit, AutoCAD and Sketchup to create drawings, details and renderings for construction document sets and presentations. I also worked closely with the project manager and interior designers to create designs and color styles that would appeal visually to the client while still meet the client’s budget.
Typical Center Unit Head Board Elevation
Typical Center Unit Plan
Typical Center Unit Elevation
Typical Center Reflected Ceiling Plan
Typical Center Unit Foot Wall Elevation
Typical Edge Unit Floor Plan
Typical Edge Unit Reflected Ceiling Plan
In-room storage Documentation Station
Both curtain tracks utilized above in both states
Wall mounted TV
Documentation Station
Wardrobes
Bedside table
Wall mounted TV
Two Bed State
Single Bed State
Wall mounted over bed lighting Vertical Services
Over bed art Documentation Station
Two Bed State
Single hung wall panel to cover vertical services and wall bracket for demounted Documentation Station
Single Bed State
Anshen & Allen BIM Drafter 05.01.2007 - 11.15.2007 While at Anshen and Allen, I worked on a healthcare facility using AutoCAD and ArchiCAD. The outpatient pavilion referred to as Dixie Regional Medical Center was located in St. George, Utah. I worked with a team of designers over a two month period, to create a BID and CD set. My participation mostly consisted of doing red lines on 2D construction details of walls, stairs and built-ins and plans with some experience in 3D rendering of the exterior facade. I also worked on laying out a parking level and reviewed it with my project manager. I used the 2D and 3D functions in ArchiCAD while converting 2D AutoCAD drawings into the ArchiCAD program. I worked with the firm as a contract employee until they completed the BID package.
Operating Rooms Recovery Area Rehab Area Staff Support OT Hand Family Practice Executive Physicals
3’-10”
2’-6”
4’-8”
7”
6’-10”
1’-7”
Emotional Architecture Emotions effect the human body not only mentally with memories and thoughts, but physically. Each person has their own unique experience that makes no two people the same, making each of us very distinct and personal. Everyone struggles with negative emotions when it comes to death but through those emotions a progression from one to another accrues usually resulting in further negative emotions. A therapeutic hospice facility has the ability to impact a wide range of building users whom have all experienced different life events. Color and light within the hospice facility can help transform users from a negative mind set to a positive one. By strategically introducing color and light into architecture, it has the ability to be therapeutic and transform a users’ emotions to help relieve pain and suffering. When we see color we experience various emotions, memories and experiences on a subconscious level, however through research and experiments we now know that color effects the body through body temperature, blood pressure, heart rate and brain activity. The design of this hospice facility uses evidence-based research in color and light to influence the way users experience a space. The hospice facility will affect those who are going through an often avoided or uncomfortable state and create a more manageable and acceptable situation.
Spring
Summer
Autumn
Winter
SADNESS
RESENTMENT HEART RATE
BODY TEMP
HEART RATE
BODY TEMP
REMORSE
BLOOD PRESSURE
DEPRESSION HEART RATE
BLOOD PRESSURE
HEART RATE
BODY TEMP
BLOOD PRESSURE
BLOOD PRESSURE
BODY TEMP
ANXIETY
BODY TEMP
ANGER HEART RATE
BLOOD PRESSURE
BODY TEMP
HEART RATE
BLOOD PRESSURE
BODY TEMP
HEART RATE
BODY TEMP
BLOOD PRESSURE
BODY TEMP
HEART RATE
BLOOD PRESSURE
HEART RATE
BODY TEMP
BLOOD PRESSURE
BLOOD PRESSURE
BODY TEMP
HEART RATE
BLOOD PRESSURE
HEART RATE
BODY TEMP
HEART RATE
BLOOD PRESSURE
Reflecting Space Support Space Community Space Common Area Patient Room Court Yard
Views in & out
Program
Circulation
Light & darkness
Section A
Section B
First Floor Plan
Second Floor Plan
Japanese Sumo Stadium Sumo wrestling is an ageing past time that has begun to fade out of contemporary culture in Japan. My plan involved revitalization of the interest in the sport by using common and just as old Japanese principles of life which include Yugen, Jo-Ha-Kyu, Geido, and Ensou. The program is arranged in such a matter that it represents the idea of Yugen, creating a sense of mystery and curiosity. People from outside may hear sumo matches and see glimpses of what’s going on inside creating a need to explore and discover what is inside. Circulation is used to express the idea of Jo-Ha-Kyu, where one starts slowly, by ascending up, then accelerating down to their seats where, sumo bouts can be over in a matter of seconds, finally ending either at their seats or the end of the match. Next is the idea of Geido, where order, layers and ethics play an important part of sumo life and building. By using a system of transparent and translucent panels centered on the ring and expanding out the design begins to mimic this idea. The last concept is about the void (Ensou) in everything and nothing. The overall design of a stadium lends itself to this idea where there is a center point and things are open and expanding out away from that point creating a central void that opens up to the sky and ultimately the gods.
First Floor Plan
Second Floor Plan
Front Elevation
Rear Elevation
`Section A
Section B
Brewery Museum The design of a parcel near the new Jackson Square Plaza and T station was important to the overall success of the community design project because it is the one of the first things people will see when entering the new Boulevard. This required it to grab the attention of people entering the plaza while being settle and calm. In order to achieve this, the parcel would need to attract everyone coming to the site, not just through the architecture’s appearance but through the programing. This involved the incorporation of a wide range of program uses within the building which included civic, commercial, housing and public spaces. The overall building became a closed cycle where people the opportunity to live, work, play and visit. One of the main things that drove this concept started with my original idea of a network of public and semi-private courtyards which also became the foundation for the master plan. My concept included a constellation of interactions through vertical access. The vertical access connected different users and creates a condensed experience compared to one that a user may have on the entire Boulevard into a single building. Bridges, which span from what may appear from building to building connect them all to create a system of transfer.
Public Space Private Space
Site Networking
Building Networking
First Floor Plan
Third Floor Plan
East Elevation
West Elevation
South Elevation
Section A
Section B
Culinary Art School The Culinary School encompasses many new technologies and ideas seen in the industry of design and cooking. This design included a new system that used layers of exterior envelops to heat air then pump it into the building, this creates not only a sustainable enclosure but also a thermal barrier. A vegetative wall provided a natural insulation on select parts of the building, cooling it in the summer and warming it in the winter. A water collection system was used for watering crops and for toilet reuse. The wash rooms are all centralized which allowed for an easier, more compact system to be used. A percentage of energy will come from renewable resources, such as solar panels. An on site compost area will help with cutting down on waste and provide an organic soil for growing food. The idea is that each program element received some aspect of natural light. This created a relaxing and more efficient work environment. Light will be controlled through horizontal and vertical louvers along with light shelves. Down lighting on overhangs will provide enough electric light at night to illuminate and draw people into the restaurant and bake shop. The goal was to produce as little light pollution as possible on the site as this is mostly a residential area and would not like to disturb living in the area.
First Floor Plan
Second Floor Plan
Third Floor Plan
Fourth Floor Plan
Section A
Section B
Furring strip
with 1/4” gap
3-3/4” pantina bamboo plank
solar collecting steel
Transpired
Air cavity
Rigid insulation
24” intake fan for passive HVAC system
Damp proofing
Drain pipe
Sheet metal parapet cap sloped to drain
Railing
SECOND LEVEL
Concrete flooring on 5” metal decking
BATT insulation
ACT ceiling system
THIRD LEVEL
Metal stud
details for more info) Concrete
Green wall panel (see
Waterproofing
6” concrete with smooth surface
SS frame
2 Hour fire rated GWB
ACT ceiling system
4” thermal insulation Root barrier Protection layer Membrane layer Roof decking with vapor barrier and roof structure
ROOF LEVEL
Plant layer 7” soil layer 4” drainage layer
Erosion control blanket