portfolio
EMMA SCHRANTZ LEED Green Associate
vatican museum | vatican city, 2014
table of contents 4 |
thesis work [ in progress ]
6 |
preservation studio
8 |
ledroit agricultural center
10 |
solar decathlon
16 |
gaston office building proposal
20 |
a project for omaha beach
22 |
poolhouse design
24 |
field sketching
26 |
misc. digital work
Thesis Work University of Maryland | 2019 [ Hand Drawings / Adobe CC / AutoCAD ]
Green Beer: Preserving Dayton’s Industrial Heritage through Sustainable Brewing Practices. Work in progress; expected completion May 2019. town
to down
ABSTRACT | This thesis creates a sustainable craft brewing collective in the Wright-Dunbar Village of Dayton, Ohio. The site includes a collection of historic industrial and commercial structures, including the Gem City Ice Cream Buildling and Mory’s Block [ca. 1880]. The establishment of new, informal social spaces will help provide spaces for both local residents and tourists of the Dayton Aviation Heritage National Historic Park. Inspiration for design elements and branding will draw from the legacy of Paul L Dunbar and the Wright Brothers, who all began their nationally impactful careers in this neighborhood. Wright-Dunbar Village | Dayton, Ohio
thesis site | south elevation
[4]
[ new construction ]
identifying opportunities in the brewing process
preliminary site plan
[ new construction ]
Preservation Studio LGBTQ Heritage Project
[ UMD + Preservation Maryland | 2018 ] Team Project This semester report was to aid the launch of a statewide initiative to preserve historic places of the LGBTQ community. We participated in community interviews and workshops to select the former Club Hippo in Baltimore as our case study. Club Hippo was closed in 2015 and remodeled as a CVS Pharmacy.
[6]
Main Responsibilities included archival work, building documentation, BIM conversion, and creation of presentation slides.
Building, Present Day
Street signs at Club Hippo’s location. Chuck Bowers was the longtime owner of the Hippo.
historic matchbook
BIM | Benefits and Accessibility Our final project included guides for other community members and students who will continue this statewide initiative. One portion we focused on was the accesibility of documentation strategies. BIM is a powerful tool for preservation, as visualization can revive the memory of lost or neglected places. Since Revit and other professional softwares can be cost-prohibitive to non-profit groups and freelance researchers, we experimented with free softwares like Sketchup [bottom right]. [ Model with assistance from Kelly Haley ]
nd street nw
4th street nw
elm street nw
3rd street nw
Ledroit Park Center
anna j. cooper circle
Integrated Design Studio
flo
rid
aa
ve.
hire
mps
ha new
ave.
existing to new site
AREA PLAN
1:200
[ UMD School of Architecture | 2016 ] Source: Esri, DigitalGlobe, GeoEye, Earthstar Geographics, CNES/Airbus DS, USDA, USGS, AEX, Getmapping, Aerogrid, IGN, IGP, swisstopo, and the GIS User Community
LeDroit Park is a historic neighborhood in the downtown area of Washington, D.C. The current site is one of a former public school, whose removal left a vacant hole in the fabric of the community.
Elm Street NW
The project brings fresh food options and creates a ‘front lawn’ for a historic community in the heart of D.C.
N
[8]
ARCH 600 + 611 Integrated Design Studio, Fall 2016 | Emma Schrantz | Professor Noonan + Professor Bovill
rear perspective
2nd Street NW
4th Street NW
The LeDroit Agricultural Center is a solution for this urban gap, filling the area with new housing developments as well as an agricultural center and a fully supported community garden space. A large event room comprises of the larger volume of the building, with smaller meeting and cafe spaces in the supporting wing. The building is designed with sustainability and energy efficiency in mind.
V Street NW
SITE PLAN
1/32” = 1’-0”
CONSTRUCTION DETAILS 7
PLANS
1
CODE AND EGRESS
2
3
MECHANICAL
chapter 3 - use and occupancy and classifcation
15,000 s.f. (45,000 s.f. w/ auto sprinklers) 3 stories 65 ft.
180 S.F. 12 occupants
OFFICE 1
OFFICE 2
125 S.F. 2 occupants
CLOSET
100 S.F. 1 occupant
125 S.F. 2 occupants
8
STAFF
9
120 S.F. 2 occupants
standing seam copper roof 10 ADA WC
A.7
LOADING 140 S.F. 1 occupant
JANITOR 50 S.F. 1 occupant
A.9 MENS RESTROOM
STORAGE
STORAGE
WOMENS RESTROOM
185 S.F. 3 occupants
CAFE + COFFEE BAR
B
265 S.F. 1 occupant
265 S.F. 1 occupant
185 S.F. 3 occupants
CAFE SERVICE
1,680 S.F. 110 occupants
IVb (glu-lam)*
7
CONFERENCE
500 S.F. 33 occupants
200 S.F. 3 occupants
KITCHEN
11
665 S.F. 3 occupants
chapter 6 - construction types construction type
2 3 4 5 6
12
85 S.F. 1 occupant
chapter 5 - general building heights and areas
max. stories: max. height:
400 S.F. 1 occupant
11
A
MEETING ROOM
700 S.F. 23 occupants
1,000 S.F. 65 occupants
A-2 (assembly)
max. gross area:
10
LOBBY
MEETING ROOM
1
9
6
5
A.2
according to 2012 international building code
building use:
4
8
12
translucent u-profile glass
C
C
chapter 10 - means of egress common path of egrees travel: exit access travel distance: Required Exits 1 exit 2 exits 3 exits 4 exits exit passageways:
13
75 ft.
CAFE TERRACE
250 ft.
14
EVENT ROOM
1,440 S.F.
5,790 S.F. 1,158 occupants
D
< 49 occupants 50-500 occupants 501- 1,000 occupants > 1,000 occupants
15 16 17
fiber cement wall panels
greater than 44 inches
18 E
19
*most restrictive construction type selected for this project
F
EVENT TERRACE
20
1,620 S.F.
gray brick
21
(on 1-story wing)
minimum width of egress path = 44 inches
22
G maximum common path of egress travel = 75 ft.
23
FLOOR PLAN
24
1/8” = 1’-0”
maximum exit access travel distance = 250 ft.
25 26 27
BUILDING ELEVATION
1” = 1’-0”
28 29
188' - 1"
71' - 7 3/16" 18' - 0"
7 1
2
3
4
5
6
8
9 10
11
12
1
A
A.2
15' - 0"
18' - 0"
STRUCTURAL SYSTEMS
7
40' - 8" 45' - 0"
8
1. glu-lam construction with steel moment framing 2 3 4 6 5 2. wide-flange steel construction
30
29' - 6"
9 10
11
12
A
secondary purlins W12 WF Steel
WALL ASSEMBLY @ EVENT ROOM
A.9
4” tounge and groove wood decking, continuous
A.7 B
C
D
156' - 0"
Columns W8 WF Steel
24' - 0"
C TYP.
C
14' - 8"
C
24' - 0"
26' - 11"
B
primary beams W18 WF Steel
D
secondary steel brace frame
24' - 0"
(concealed in column system)
E
F
F
cantilevered steel frame (expansion zone)
24' - 0"
24' - 0"
E
120' - 0"
A.9
55' - 7"
A.7
G
1/16” = 1’-0”
STRUCTURAL AXON
metal stud shear wall
glulam assembly G tied column systems 4” x 4” 6” x 24” continuous beam 4” x 18” purlins
FRAMING PLAN
= 1’-0” community front porch1/16” effect
ARCH 600 + 611 Integrated Design Studio, Fall 2016 | Emma Schrantz | Professor Noonan + Professor Bovill "
REFLECTED CEILING PLAN
4” tounge and groove wood decking, continuous
1.
standing seam copper roof self-adhesive membrane air + vapor barrier
2.
metal parapet assembly w/ steel angle support
3.
continuous roof sheathing
4.
4” tounge and groove wood roof decking
12' - 0"
28' - 8"
24' - 0"
A.2
18' - 0"
60' - 0"
5.
continuous rigid insulation
6.
3-1/2” x 12” glu-lam purlins
7.
6-3/4” x 24” glu-lam beams (x3)
1” = 1’-0” 16.
plywood substrate w/ waterproof membrane and air barrier
17.
plywood substrate with 5/8” gyp. board, painted
18.
10mm steel stud
19.
steel c-channel lateral bracing
20.
quad-column steel base plate
21.
c channel at floor slab
22.
flashing @ base of panel assembly
23.
4” concrete floor slab w/radiant heating system substrate + leveler porcelain
8.
structural steel connection hidden within beam assembly
9.
u-profile channel glass assembly, typ.
24.
gravel
10.
4” x 4” tied wood column system (see detail A)
25.
concrete foundation w/ epoxy caoted rebar
11.
column tie plate
26.
rigid insulation
12.
flashing and sealant at glazing frame, typ. changeable LED light fixture, cont.
27.
rigid insulation
28.
concrete footing w/ key
29.
3” drain pipe, sand surround
30.
concrete foundation + footing @ column beyond
13.
18” x 70” fiber cement facade panels, flush
14.
rigid insulation outboard of structure
15.
metal facade attachment frame
Solar Decathlon US Department of Energy [ University of Maryland |2nd Place, 2017 ] Team Project
Main Responsibilities included brand graphics, exhibit + team uniform design, photography, and communications.
[ 10 ]
Assisted with assembly of construction documents [Revit], client relations, house construction, and home life competitions.
reACT House, as exhibited in Denver, CO. | 2017 This photo was featured in Terp Magazineâ&#x20AC;&#x2122;s winter issue.
Logo Design M.C. Escherâ&#x20AC;&#x2122;s designs inspired the design of our team logo, which allows multiple readings of the same form. Half of the house in silhouette forms a cycle of five shapes, each representing the five systems of the reACT house. The central void represents the sun, which powers the reACT house. The turtle represents both our university mascot (the terrapin), and of our clients, the Nanticoke Tribe of Delaware.
DOORS TO REMA OPEN FOR DURATIO OF PUBLIC EXHIB
5 H
CD Sets [Revit]
[ 12 ]
I joined the architecture team to convert drawings and templates from AutoCAD to Revit. I was responsible for the generation of the G-series for our construction documents. These general drawings included sheet templates, sheet index, competition compliance, site plans, and exhibit plans.
1
3' - 0"
reACT house | front elevation
DOOR TO OP DURAT PUBLIC
TOUR STARTING POINT
1 TOUR LAYOUT PLAN 1/4" = 1'-0"
ACCESSIBILITY NOTES 1. THE ACCESSIBLE ROUTE INDICATED SHALL COMPLY WITH THE 2010 STANDARD FOR ACESSIBLE DESIGN. 2. THE RUNNING SLOPE OF ALL WALKING SUFACES SHALL NOT BE STEEPER THAN 1:20. 3. HANDRAILS COMPLIANT WITH ALL ADA REQUIREMENTS SHALL BE PROVIDED AT THE ENTRY RAMP. 4. RAILING CABLES SHALL BE INSTALLED SO AS TO PREVENT THE PASSAGE OF A 4 INCH DIAMETER SPHERE WITHIN 4 INCHES OF THE GROUND SURFACE. 5. HANDRAIL HEIGHT IS TO BE WITHIN 34 - 38 INCHES ABOVE WALKING SURFACE. HANDRAIL DIAMETER IS TO BE WITHIN 1-1/2 TO 2 INCHES, AND MOUNTED AT LEAST 1-1/2" INCHES AWAY FROM MAIN RAILING.
UNIVERSITY OF MARYLAND COLLEGE PARK, MD 20742
EXHIBIT NOTES 10
SOLAR ENVELOPE
3' - 0"
4
DECK FURNITURE TO BE MOVED ASIDE OF ACCESSIBLE TOUR PATH FOR DURATION OF PUBLIC EXHIBIT
1. ALL EXTERIOR SIGNS TO BE WEATHER RESISTANT. 2. EXTERIOR SIGNAGE TO INCLUDE GENERAL FACTS ABOUT WATER AND/OR ENERGY CONSERVATION, USAGE, AND OTHER HOUSEHOLD FACTS. 3. EXTERIOR DOORS TO REMAIN OPEN FOR DURATION OF PUBLIC EXHIBIT, WEATHER PERMISSABLE
UNIVERSITY OF MARYLAND, COLLEGE PARK SOLAR DECATHLON 2017 SUBMISSION
11
TOUR PLAN LEGEND
9
TOUR PATH OF TRAVEL
FD
E
FIRST AID KIT LOCATION - IN CABINET
D
reACT
REF.
ACCESSIBLE PATH CLEARANCE
FIRE EXTINGUISHER LOCATION - IN CABINET
3
TOUR GUIDE LOCATION
AIN ON BIT
DOOR BARRIER
C
EXTERIOR SIGNAGE
G
3' - 0"
F B
1
WELCOME SIGN
2
ARCHITECTURE
3
ENGINEERING
4
CONSTRUCTION
5
CULTURAL CONNECTIONS
6
PERMACULTURE
7
AGRICULTURAL USE
8
REGENERATIVE SYSTEMS
9
WALL MOCK-UP (3D EXHIBIT)
10
WATER SYSTEM
11
MECH/ELEC SYSTEMS
12
LAND STEWARDSHIP
A
2
7
6
3' - 0"
DECK FURNITURE TO BE MOVED ASIDE OF ACCESSIBLE TOUR PATH FOR DURATION OF PUBLIC EXHIBIT
8
1
REMAIN PEN FOR TION OF EXHIBIT
J 6
Date
Description
7
INTERIOR SIGNAGE 12
PROJECT NO.
5
A B C
2
3
4
ADA COMPLIANT HANDRAILS PROVIDED AT RAMP
H
CULTURAL CONNECTIONS
DESIGNED
ARCHITECTURE
CHECKED
001 Author Checker
RECONFIGURABLE FURNITURE
D
ENERGY
E
FOOD & COMPOST
F
ENERGY & WATER
G
ENERGY & ARCHITECTURE
J
COURTYARD
PUBLIC EXHIBIT LAYOUT AND TOUR PATH PLAN G-104
Regenerative Systems
reACT is greater than the sum of its parts - each contributes to the larger cycle.
The reACT Home is a carefully balanced set of systems, which all work together to achieve a positive impact on the environment. The goal is to create a home that gives back more resources than it consumes. Architectural Our disentangled structure means easier upgrades and maintenance of the home. It allows users to change specific elements without having to start from scratch, saving time, money and resources.
Exhibit Signage Design
Thermal Incorporation of low-value resources such as heat gain in the Greencourt, contributes to reACTâ&#x20AC;&#x2122;s energy systems, which redefines waste as a resource.
Our communications team created a series of signs which allowed our competition team to describe the inner workings of the reACT house. These designs described operation of the house, furniture, automated system, and other energy-saving features. They also illustrated broader educational components and tips for homeowners to incorporate into their own traditional systems.
Water Our net-zero balance system recycles greywater and rainwater, filtering and producing clean water for the home. Power The solar array generates clean energy through a self-regulated system - allowing for efficiency and energy independence.
[ base diagram by Greg Goldsten, photo below by Department of Energy ]
Living Systems Our reACT model introduces biodiversity on a small scale, and brings nutrient-rich foods back to the homeowner.
The result? An innovative building system designed to adapt to diverse ecosystems and communities. DID YOU KNOW?
[ 14 ]
Net Positive Living means reACT produces more energy than it uses - going above and beyond the principles of Net Zero living.
2017.solarteam.org/regenerative reACT
TEAM MARYLAND
Source: U.S. Environmental Protection Agency.
Architecture The reACT Home has living spaces oriented around a central courtyard. The glass-enclosed (glazed) courtyard provides a sense of spaciousness and light to the interior, and acts as a solar collector to preheat water and air. An iconic butterfly roofline provides slope for rain water collection and solar panel installation.
Solar Tubes + Skylights brings natural light into the house
Photovoltaic Array (Solar Panels)
Disentanglement
Finished interior panels are separate from the structure, and are removable to allow access to technical systems making maintenance and upgrades easier.
Natural Daylight & Ventilation
Fresh air and sunlight are vital to good health - by maximizing both, reACT promotes wellness through design.
Solar Appliances
Kit-of-Parts A modular kit of home elements allows for expansion and customization to suit your needs. Core + Spine Mechanical, electrical, and plumbing systems are integrated within a compact core to improve efficiency - moved through a spine wall to the rest of the home.
Cultural Connections
reACT is designed as a ‘kit of parts’ - a home which adapts to suit changing needs. Operable Greencourt Roof
Material Choices
Interior and exterior materials (finishes) are selected to be both beautiful and have a positive impact on the environment of the house and of Planet Earth.
Greencourt
Solar Appliances
Greencourt [Greenhouse +Courtyard] This innovative combination harvests solar heat for reACT’s mechanical systems, which eases heating loads and saves on energy usage.
Using solar heat from the Greencourt, attic space above the living area allows for food drying, clothes drying, and more.
Spine Wall
Today, there are over 500 federally recognized Native American tribes in the United States, and hundreds of state recognized tribes. Tribes are ethnically, culturally and linguistically diverse, and have their own cultural histories and stories. Shared principles of respect for the Earth and all its resources have guided the creation of the reACT system. Team Maryland hopes that these principles will become inspriring for all people in search of a more sustainable and productive lifestyle.
2017.solarteam.org/architecture
Creation Stories
Photovoltaic Array Gathers renewable energy from the sun’s light Solar Appliances Using the sun’s energy is a natural way to cook food and to dry clothes
Climate Comfort Systems (HVAC) Moving fresh air from the Greencourt into the attic allows reACT to breathe.
Indigenous Knowledge Systems
Also known as IKS, these systems are based upon learning derived from traditions, cultural practices, and rituals of everyday life. They have been the foundation of various knowledge systems for thousands of years.
Greencourt Increases circulation of fresh air and brings daylight into the home
Seven Generations Principle
Decisions we make today affect our future offspring, and the world those future relations will inhabit. The concept of making decisions with the seventh generation in mind steers us towards a more ecologically responsible lifestyle today. today
Core
reACT promotes cross-cultural pollination and balanced lifestyles.
Recycled Materials Sourcing materials like bamboo and re-using wood protects old forests from being cut down for wood, protecting habitats across the world.
As the last species created, humankind was to learn the value of each creation, the sacredness of all life, and their personal connection to it. Creation stories allow people to see all things as reflections of the Creator, to respect all life and to live in harmony with all of Creation. For indigenous people, sustainable living is a way of life that honors the Creator and all of Creation. reACT complements these principles through respect and interaction with the sun, wind, water, and earth.
+800 years
DID YOU KNOW?
THE NANTICOKE TRIBE
Design standards set by ratings systems like Living Building ChallengeTM and LEED® make building a sustainable home easier than ever!
Natural Bamboo Cladding fast-growing + renewable
Creation Stories connect people to places and to all of Creation.The creation of Father Sky, Mother Earth, and plants and animals are all intricately connected to the creation of humankind. Like the Biblical Creation story, in many Indigenous Creation stories, humankind is the last species to be created. This importance cannot be underscored.
2017.solarteam.org/culture
Source: U.S. Green Building Council; Living Futures Institute
reACT
Water Recycling Water is life - and respecting our limited water resources is critical to all species.
Living Systems Promotes user wellness and plant diversity
Like Team Maryland, The Nanticoke Tribe is located in the Chesapeake Bay region. We would like to thank their leaders for their support and advice in developing reACT’s story.
reACT
TEAM MARYLAND
TEAM MARYLAND
Future Impact The reACT system is not intended to end at the Solar Decathlon competition. Our innovative system is designed to anticipate future needs. Customizable Designs reACT’s prototype is built upon providing a common ‘DNA’ for a range of small building types - not just one home. The ‘kit of parts’ design allows for custom layouts and functions - whether it be a home, a community center, or even a self-sustainable neighborhood.
reACT is an building system that adapts to scale and density of need. Single Study (Competition Model)
Half-Levels
Multi-Story reACT Model
reACT Floor Plan
The reACT Home module presented here at the Solar Decathlon is a one-bedroom, one bathroom unit, with a flexible study that can be configured as a second bedroom. The system is designed to be rapidly mass-produced, increasing affordability.
Core Court
Spine Wall Duplex
West Wing
East Wing
Assembly reACT’s modules are assembled individually, then transported to the home site. Final assembly of the modular home is completed with local labor promoting local industry.
Complex
Greencourt
Market Potential reACT’s ability to adapt both to changes in the environment and community needs is unique, and can be a game-changer for the building industry. A reACT home can shrink and grow with the family. The system provides an appealing option for families concerned about ecological impacts and self-reliance. Team Maryland hopes that all Americans will ultimately embrace the reACT Lifestyle - healthy, innovative, sustainabile, and affordable.
West Wing
Construction
reACT’s modular design allows for streamlined assembly with local materials.
Greencourt
you are here
East Wing
Construction Sequence step six: greencourt
step five west wing
step four: east wing
(bed + study)
(living + dining)
step three: attic module
step two: core modules
+ Greencourt floor
(bathroom + kitchen)
step one: foundation
Materials Exterior walls are comprised of Structural Insulated Panels (SIPS) - insulation is sandwiched between plywood sheathing in standardized panels. These wall modules can be flat-packed for easy transporation. Customizable materials reflect local design tastes, and can make the house effortlessly adaptable to many regions and home sizes.
DID YOU KNOW? Mycelin Foam is a new insulation product that is made of biodegradable mushroom material. Mycelin Foam can be used as insulation in SIPs!
2017.solarteam.org/construction
Source: Eben Bayer (TED Talk)
reACT
TEAM MARYLAND
examples of various exhibit signs. [ Base renderings by Chris Courteney and Greg Goldstein. ]
BIRMINGHAM CIVIL RIGHTS NATIONAL MONUMENT
Birmingham Civil Rights Institute
Gaston Office Building
16th St. Baptist Church
Reuse Programming Proposal
Kelly Ingram Park
[ University of Maryland HISP635 | 2018 ] Team Project
Main responsibilities: Revit modeling, floor plans, graphics, sustainability metrics, and assembly of report.
[ 16 ]
Final semester for Preservation Economics with Professor Brent Leggs. Goal was to provide reuse opportunities for the historic Gaston Office Building in Birmingham, Alabama.
A.G. Gaston Motel
Gaston Office Building
BIM For Historic Buildings
from Google Maps
A challenge of utilizing BIM for visualization is the creation of accurate materials on historic facades. Here, the buildingâ&#x20AC;&#x2122;s auditorium boasts a unique concrete and tile mosaic, which was carefully reconstructed through digitally traced patterns. The final texture was loaded into Revit in two phases.
[ 18 ]
from Google Streetview
traced texture [ Photoshop ]
raw rendering from Autodesk Revit. Model was constructed using online streetviews, photographs, and historic building plans.
see the complete report on issuu.com
Seventy Years Later: A project for Omaha Beach Undergraduate Study Abroad [ Hand Drawings / Photoshop / SketchUp / Maxwell Render ] This simple shelter is to provide a commemorative shelter at Omaha Beach, at the approach from the Normandy American Cemetary. Currently, no such marker or structure exists to indicate any of the events of D-Day. The project incorporates â&#x20AC;&#x2DC;fire slabsâ&#x20AC;&#x2122; reminiscent of the eternal flame, and provides a place to gather and honor those who sacrificed their lives during WWII.
[ 20 ]
Materials are inspired by WWII-era naval and aircraft construction.
Shelter viewshed
exploded axonometric - Assembly of shelter
Site Plan
Fire Slabs
Shelter Rendering
Pool Complex Design
Undergraduate Studio Project [ Hand Drawings / Photoshop / SketchUp / Maxwell Render ] The purpose of the project was to study and excute a concept for the sequential pool complex. Located on a gently sloping area by a small river, the poolhouse is intended as a retreat from everyday life. In that way, the poohouse is separated from the road and parking lot via the main bridge.
[ 22 ]
The main organization element is the textured concrete wall which moves along the entire length of the site, maintaining a level top as the site slopes upward. Fuctions of the wall are explored in this project: cantilever, threshold, and support.
east and west elevations
bridge section
to parking
site plan
N
Field Sketches Study Abroad
[ Micron Pen / Staedler Pen / Photoshop Digitization]
University of Maryland - Greece | 2017 Study tour included visits to Athens, Corinth, Epidaurus, Nemea, Mycenae, Mistras, Palace Nestor, Pylos, Olympia, Delphi, Messenia, and Aegina.
[ 24 ]
athenian treasury at delphi | greece
folly at corinth | greece
philippeon at olympia | greece
conservation structure at the palace of nestor | greece
stadium at ancient messenia | greece
Miscellaneous Digital Work Educational + Work Experience
Retail Cetnter | Autodesk Revit K2M Design, Inc.
Pop Comic Portraits
[ 26 ]
Beauford Delaney
Mary Jackson
Norma Sklarek
Cathay Williams
Portraits created for HISP635 Final Report â&#x20AC;&#x2DC;Preserving African American Cultural Heritage in the 21st Centuryâ&#x20AC;&#x2DC;
King Guest Room Rendering | Furniture and Textures modeled in Autodesk Revit K2M Design, Inc.
emma.schrantz@gmail.com
[ 28 ]
[ XXX ] XXX-XXXX resume |
www.issuu.com/eschrantz