Architecture
PORT FOLIO Jenny Stallones
EDUCATION
JENNY STALLONES 916 WILLOW POND ST COLLEGE STATION, TX 77845 JSTALLONES@TAMU.EDU 210-912-0993
ABOUT I am a Masters of Architecture student with a passion for all things design. Throughout my academic career I have absorbed knowledge that can strive to solve contemporary needs and future issues. I believe a great design involves beli collaboration and innovative solutions. I am self-driven, curious, passionate, hard working and willing to go the extra mile to achieve a successful design solution.
PROFICIENCY Revit AutoCAD Sketchup Pro Adobe Photoshop Microsoft Publisher PowerPoint Word Excel Adobe InDesign 3d Printing Laser Cutting
Texas A&M Universi ty, Bachelor of Science in the College of Architecture, 2016 Minor in Business Minor in Art and Architecture History Study Abroad in Rome, Richmond University, Italy, Summer 2015 Texas A&M Universi ty, Masters of Architecture Graduate May 2019
DESIGN EXPERIENCE Architectural Intern at Corgan Summer 2018 Interned in the Commercial Department for 3 months assisting with various project groups in schematic design and construction documents using Revit, Sketch up Pro and Photoshop.
Consulted with FKP & Cannon Firm on Pediatric Children’s Hospital Fall 2017
ACSA/AISC Steel Design Competi tion, 2018 Designing a steel building that is innovative and sustainable
PAA Consultants, Design Assistant
San Antonio, TX, November 2011- July 2012
INVOLVEMENT Tau Sigma Delta National Honors Society of Architecture and the Applied Arts, 2016- current Vice President
TxA Convetion, Fort Worth, Fall 2018 Architecture-for -Health Lecture Series, Fall 2018 Hunger Busters, Summer 2018 Texas Food Bank, Summer 2018 Sigma AAlpha Lambda, College Station, Texas Texas A&M Vet School Event Volunteer Big Event, 2016 AIAS Member, 2015 Aggieland Camp Humane, College Station, Texas, 2014 Camp Counselor
Wounded Warriors, Oak Hills Church, San Antonio, Texas, 2014
SKILLS CNC Laser cutter Welding 3D Modeling Model Building Sketching
Creative Problem Solving Photography Graphic Design Drafting Communication
Photography Social Networking Woodshop Tools Time Management Acrylic Painting
4
CONTENT BALANCED WELLNESS CENTER Final Study Current Works
EASTOAKLAND SPORTS CENTER Precedent Study Fall 2018
ROUTH STREET UNDERPASS UNDER Corgan Internship Project Summer 2018
HOBOKEN PLACE
Mixed-Use Development Spring 2018
GLOBAL HOPE IN UGANDA Healthcare Project Healthca Fall 2017
THE CONNECTION AT LANGFORD Library Extension at TAMU Summer 2017
GREEN TO GO Mixed Use Unit Spring 2017
ABSTRACT & CREATIVE WORK
6
WELLNESS CENTER SUMMER 2018- CURRENT
This project directly looks at how to create quality architecture that can influence health and wellness. Architectural quality is a contestable key concept with a wide range of interpretations in both architecture and urban design. The quality of architecture in an urban environment is important for the designing in the future years to come. The urban population is expected to double over the next 40 years, bringing about a rapid, large-scale change in way people live and commute. This growth is having an the w impact on the functioning of cities and on quality of life. In preparation of this change, we must ensure that cities remain spaces for innovation, culture, and wellness.
8
BALANCED
URBAN WELLNESS CENTER On average people spend 90% of their day indoors this has a huge impact on our health and daily life. This is why the built environment plays a huge role in health and wellness.
BALANCED URBAN WELLNESS CENTER MY MISSION IS TO DEVELOP HIGH QUALITY ARCHITECTURE THAT PROMOTES A HEALTHY LIFESTYLE IN A DENSE-URBAN ENVIRONMENT. Concepts in architecture that influence wellness :
AIR
WATER
TEXAS DALLAS
NOURISHMENT
LIGHT
FITNESS
WEST DALLAS
TRINITY GROVES TRINITY GROVES
WEST DALLAS
MASTER PLAN
PHASE 1 10
COMFORT
PHASE 2
MIND
NOLI PLAN • •
ANAYLSIS
Density it emerging along Singleton Blvd Mostly Small single family housing
SUN & WIND ANALYSIS
NOLI PLAN
VEGETATION • •
ical
Green space along Trinity River Create more green spaces in the interior of West Dallas
VEGITATION
PROGRAM Single Family Housing Commercial Industrial Apartment Complex
• •
Important to provide shading in the summer heat
Mostly Single Family Housing Commercial Program Emerging along Singleton Blvd and Sylvan Ave
Provide indoor air conditioned physcial activities away from the heat Higher wind speed than the US average Enhance the summer wind
MAINROADS
Protect from winter winds
Singleton Blvd: Connects Uptown to West Dallas Main Commercial Development along this road as well as mixed use
About average for US Humidity Comfort temp from 68-75 degrees
Sylvan Avenue: Connects West Dallas to Design District Some Commercial and mixed used Development along this road Serves as a community collector road
SURROUNDING CONTEXT
Canada Dr: Along the perimeter of West Dallas, parallel with Trinity River Moderate traffic
MAJOR ROADS SUMMERSOLSTICE
• AllowsunNov-March • Block sunApril-October • Provideshade • Protect fromNorthern&Southern windNov-March • EnhancesouthernwindAprilOctober
WINTERSOLSTICE
SITE PARTI: AXIS Creating public spaces and pathways Atrium axis through building from parking
INITIAL BLOCK
BREAKING UP THE BLOCK BASED ON PROGRAMMATIC FUNCTION
CREATING HIERARCHY THROUGH ASYMMETRY
BREAKING THE BLOCKS
“FLOATING CUBES” FOR SUN EXPOSURE
DESIGN DISTRICT
UPTOWN
TE TA
SYLVAN AVE
ER IV
YR
DOWNTOWN DISTRICT
TRINITY GROVES
SINGLETON BLVD.
W COMMERCE ST.
12
RTH T WO FOR
35E
IT
IN TR
WEST DALLAS
NT
6I
36
S ER
AVE.
V TE 30 HO NTERSTA
GROUND FLOOR PLAN
ROOFTOP BALCONY
VIEWS IMPORTANT VIEWS • Continental Ave. Bridge & Uptown • Trinity Groves • Bataan Playground
BATAAN PLAYGROUND
14
LEGEND
Initial schematic sketch of monumental stair
16
PRECEDENT ANALYSIS FALL 2018 This was a 2 week building analysis study on a precdent that has similar program to our final study projects. During this project we were able to analyze the design decisions of the architect and programmatic relationships. Another goal for this study was to explore graphic representation to aquire visual skills for an effective presentation .
18
AXIS
The design concept shows the programmatic elements with transparent massing volumes. During the night, the natatorium glows and serves as a beacon of the community. This improves security, draws visitors and enables the users entering the lobby to see the variety of activities in the building. The lobby as entrances on both sides m so that users can move from one end of the street to the other.
HIERARCHY
Design Precedent Building Analysis:
EAST OAKLAND SPORTS CENTER Jenny Stallones
Location: Oakland, CA, USA Architects: ELS Architecture and Urban Design Project Year: 2011 Project Area: 25,000 sf
SOUTH ELEVATION
EAST ELEVATION
NORTH ELEVATION
20
WEST ELEVATION
TRANSVERSE SECTION FROM NATITORIUM, LOCKER ROOM,DANCE STUDIO & LOBBY
TAPERED RIGID INSULATION PARAPET FLASHING
CANT
FIBER GLASS BATT INSULTATION AIR BARRIER METAL STUD LAYER CURTAIN WALL GYPSUM WALL BOARD METAL DECKING STEEL BEAM
FULLY ADHERE ROOF MEMBRANE RIGID INSULATION
OPEN WEB JOIST SYSTEM
STEEL COLUMN X BRACING STEEL TUBES
CURTAIN WALL STEEL COLUMN PRESSURE TREATED SILL PLATE CONCRETE SLAB RIGID INSULATION CONCRETE STRIP FOOTING
TRANSVERSE SECTION FROM NATITORIUM
22
UNDERPASS DESIGN SUMMER 2018
. This project was a collaboration with the summer interns in the Commercial team at Corgan in Dallas, Texas. The primary goal of this development was to c create a gateway from the Arts District to Uptown. In doing so, we focused on creating a pedestrian pathway that was safe from vehicular traffic and acessible at night as well. We focused on the importance of pedestrian scale and experience. Because of budget limitations, we developed this project in Phase 1 and Phase 2. Phase 1 would be with the current budget and Phase 2 would be with further funding.
ROUTH STREET UNDERPASS DESIGN GROUP MEMBERS:
Reuben Joseph, Greg Schaub, Francisco Carillo, Jenny Stallones
PHASE 1
PEDESTRIAN PAVERS PROJECT DEVELOPMENT BIKE LANE 24
Some of the considerations while rennovating this underpass was the change of grade the pedestrian experiences. We choice to create a barrier from the traffic and add lighting along the pathway inorder to make the user feel safer while creating an inviting gateway to the public.
26
PHASE 1
28
In Phase 2 our solution was to create frame-like pillars that create a strong gateway from one destination to the other. These frames are emphasized with lighting around the interior perimeter. These can also be used as wayfinding with providing signage on each pillar along with the history of The Arts District and Uptown, Dallas.
PHASE 2
30
PHASE 2
32
STEEL MIXED-USE DEVELOPMENT SPRING 2018
. This project investigates the relationship between steel construction and afforable housing. Steel is an innovative material that inhibits construction to span longer with a thinner member. It also allows cantilevering in construction. I chose these fundamental principals as a solution for the concept design to cantilever part of the building in response to the large commerical program.
HOBOKEN PLACE This building is located in Hoboken, New Jersey by the Hudson River. It is located in a Dense urban context with surrounding apartments and a view to Manhattan.
34
AREA: 36,270 sq ft
7th-13th Floors
36
6th Floor 1/64 scale
5th Floor 1/64 scale
Residential Units 3 bedroom units 10@1,500sqft 2 bedroom units 15@ 1,000sqft 1 bedroom units 25 @600 sqft Live-Work Units 10@1,500sqft
15,000 sqft 15,000 sqft 15,000 sqft 15,000sqft
Additional Residential Spaces Lobby 15,000sqft Office 500 sqft Exercise Room 1,000 sqft Mail Room 300 sqft Loading Dock/Waste 700 sqft TOTAL sqft Residential:
3rd & 4th Floor
64,000sqft
Mixed-Use Large Retail Small Retail Live House Restaurant Recreation
1@ 16,000sqft 10@1,500 sqft 1@10,000sqft 2@5,000sqft 1@5,000sqft
16,000 sqft 15,000sqft 10,000sqft 10,000sqft 5,0000sqft
Total sqft for Mixed-Use
56,000sqft
Total square ft Plus 10% allowance
120,000 sqf
2nd floor 1/64 scale
GROUND FLOOR PLAN
38
CROSS SECTION
FRONT ELEVATION
SIDE ELEVATION
40
Steel framing provides structural support for the building. The steel supports the load and allows to cantilever the commercial floors to maximize the square footage and distinguish the interior program from the exterior.
42
GLOBAL HOPE IN UGANDA FALL 2017 This was a Healthcare project located in Uganda, Africa. We collaborated with FKP and Cannon in Houston throughout our design process. We began this project by each individually developing concept models based on the program and site conditions. Then at the midterm FKP and Cannon chose three concepts to develop further in groups. One of the three concepts to develop was my concept of two separated functions connected together through a main gathering space incorporating the rich culture of Uganda, keeping in mind this design was for the children of Uganda.
Only 10% of African’s survive cancer as apposed to the 80% of Americans that survive the disease. To help resolve this tragedy we have partnered with FKP-Cannon Design and Texas Children’s Hospital to design a Children’s Pediatric Cancer Hospital located in Uganda, Africa. Some important goals we wanted to achieve in our design were providing an environment that engages, calms, delights and heals the patients. Being that this design is for young children, our concept was to bring the outdoors inside, creating a playful environment. We achieved this by taking advantage of our sloped site, creating roof gardens and incorporating natural light and ventilation throughout the hospital.
44
Team Members: Logan Lebeda, Yiming Du, Jenny Stallones
AFRICA
UGANDA
KAMPALA
SITE VIEWS 46
PERMANENT SITE
Uganda Pediatric Cancer Hospital
Inpatient Pharmcy Research
Atrium Inpatient ICU
Education & Housing Office
OR Medi-sup
Outpatient Infusion Mech-sup Special Treatment Lab
Education & Housing Research Infusion Office Lab Special Treatment Mech-sup
Pharmcy
Atrium
Lab Outpatient
Pbulic Space Inpatient ICU OR
Inpatient Procedure ED
Medi-sup Imaging
Stacking Diagram
Emergency/Imaging Layout; Scale: 1/16”=1’-0”
Legend Admin./Public Emergency/ Imaging Inpatient Outpatient Housing/ Education Support Mechanical
48
Second Floor Plan; Scale: 1/32”=1’-0”
Legend Onstage Horizontal
ICU Storage
ICU
ICU
ICU
ICU
ICU
ICU
ICU Waiting
M
Isolation
Isolation
On Call Office
ICU Nursing
Onstage Vertical Offstage Vertical Gardens/ Balconies
ICU Storage
DN
Offstage Horizontal
W
UP
Kitchen supplies
Kitchen
Public Area/Food Service
ICU Layout; Scale: 1/16”=1’-0”
Building Circulation Legend Admin./Public Emergency/ Imaging Inpatient Outpatient Housing/ Education Support Mechanical
Third Floor Plan; Scale: 1/32”=1’-0” 82.00 64.00
48.00 32.00 16.00 ±0.00 -16.00
Longitudinal Section; Scale: 1/32”=1’-0”
82.00
Nursing Station
IP Support
64.00
On Call Office
IP Support
48.00
Men IP Ward
IP Ward
IP Ward
IP Ward
32.00 16.00 ±0.00
DN
UP
-16.00
Women
East Elevation; Scale 1/32”=1’-0” Typical Inpatient Ward Layout; Scale: 1/16”=1’-0”
Legend Admin./Public Emergency/ Imaging Inpatient Outpatient Housing/ Education Support Mechanical
Fourth Floor Plan; Scale: 1/32”=1’-0”
50 South Elevation; Scale 1/32”=1’-0”
82.00
The main public spaces, such 82.00
64.00
64.00 as the waiting area and atrium,
48.00
48.00 are open and utilize the views
32.00
32.00 in our site. The more private
16.00
16.00
±0.00
areas, which include the Inpa±0.00
-16.00
-16.00 tient wards and Labs, are on the
Cross Section; Scale 1/32”=1’-0”
upper floors to ensure more discretion.
Legend Admin./Public Emergency/ Imaging Inpatient Outpatient Housing/
Education Support Mechanical
82.00 64.00
48.00 32.00 16.00 ±0.00 -16.00
West Elevation; Scale 1/32”=1’-0”
52
MATERIAL INVESTIGATION SPRING 2018 This 2 week project investigated innovative uses for galvanized sheet metal in architectural design for a building exterior envelope. This was a hands on project where we were introduced and able to explore new machines such as the Water Jet. The solution I developed is a sunshading skin system that acts as a so secondary buildingenvelope. My design is structurally supported through a triangular folding concept. This project got us excited for the ASIC Steel Competition that we are entering this semester where we are to design an innovative steel building in a dense urban environment of our choice.
Material Investigation: Sheet Metal
Jenny Stallones Spring 2018
PROBLEM:
General Motor’s sheet metal left over from manufacturing automobiles is thrown out as waste
SOLUTION:
OFFAL #6
Design an innovative exterior envelope that utilizes at least 1 out of the 11 offal forms
INSPIRATION Fitting geometry into Offal
Solid & Void
3D Shadow
Left over material after cut out
8” x 8” square triangular designs based on 45 degree intersecting angles. The denser the pattern, the less sun exposure. Placement of pattern on exterior envelope depends on sun path, building orientation and location . 54
3D FACADE
CONNECTION Triangular element: attachment to structure Bolt connections at overlapping elements
3d facade creates dimension, shadows and a shading device.
4 pieces interlock to form a connection
STRUCTURAL SECTION
3 ft from glazing to secondary envelope: cleaning Sheet metal design ties back to structural steel column that hold the lateral load
Different shadows based on sun path
PROCESS OF BUILDING THE MODEL
I used the Water Jet to cut my sheet metal into the correct dimensions. Then I had to bend my material. Because of limitations, I had to think of innovative ways to bend the metal such as clamping the metal and hammering.
56
RESEARCH BUILDING PROPOSAL SPRING 2017 This project was a 1 week "warm up project� that was a research building proposal by George Bush Library in College Station, Texas. We worked with a client that gave us feed back through out the week. During this semester we attended the Architecture-for-Health lecture series that promotes the idea of how to make buildings more health conscious. This includes walkable environments and bringing natural light consci into a work place. Our concept encouraged people to walk and gather through a centralized courtyard. It also included circulation around that courtyard creating an interactive and dynamic environment.
Research Personnel Building PRoposal Transportation Institute
Main Axis Secondary Axis
Department of Political Science
Initial form
Our team designed a Research Personnel Building located at Texas A&M University on West campus. This site is located by the Transportation Institute and is adjacent to the George Bush Library Complex. There is an axis that continues throughout the campus that we respected in our design and suggest that would be a pedestrian dominant pathway. We are proposing a building that utilizes the dynamic views of campus, maximize natural night and an interior that is flexible and configurable. The form of our building came from our concepts of bringing in as much natural light as possible as well as invite people to come inside while creating an interactive environment. The 2 wings represent different programs.
Jenny Stallones Jace Bentle Zhengying Chen
Massing Bubble Diagram
Design Concept
Subtracting formCourtyard concept Carving the void for primary public space Connecting the geometries
58
+45'-6" 4 roof
Open space, Lounge, Gathering areas Private Offices, Work Stations and Conference Rooms Multipurpose Room, Storage, Warming Room Horizontal Circulation
+45'-6" 4 roof
Landscape Plan
Second Floor Plan
Open Office Space Conference Rooms Multipurpose Room Private Offices Faculty Lounge Stairs Building Support/ Storage
Ground Floor Plan
+45'-6" 4 roof
+32' 3 3rd
Third Floor Plan
60
LANGFORD EXTENSION SUMMER 2017
This was a 10 week project located on Texas A&M Universities Archirecture Quad. It was a building extension to the Architecture Building, Landford. This extension would function as a library, cafeteria and gathering space. Being that the context is located in the Historic Zone of campus, my concept was to preserve as much green space as possible and respect the axis of the campus master plan. cam I acheived this by designing a direct-connection to Langford’s basement underground. I created a inviting entrance by studying the desired path that students travel through campus and incorporating that in my design.
62
PHYSICAL MODEL: UNDERGROUND CONCEPT
64
66
SAN ANTONIO RIVERWALK URBAN PLANNING
San Antonio Riverwalk 3D model
Nolli Plan of San Antonio Tourist Loop at the Riverwalk. Measure the postive and negative space of this city and the growth of development.
In this project we evaluated the denseness of urban environments. We studied gris patterns, origins and urban development around water. Everyone in the class picked a dense urban city to model. We were to use a 3D printer to print these models and compare the results. This was my first time using the 3D printer and I will definitley be using it again to model future projects.
Comparing the various city densities
68
50k HOUSING PROJECT
SPRING 2017 This 4 week project was based on the 50k rural studio houses that come from shipping containers. We had to be conservative with our approach because it is afforabe housing with a budget of 50k. That is why the solution I chose was a simplistic, symmetrical plan and program in order to acheive privacy in such a small square footage.
AXIS HOUSE
SPRING 2017 PHILLOP TABB
This project is based in Serenbe, Georgia and is inspired by an innovative team of students that design low-income housing units called “Rural Studio.” We had a budget of 50k and only 650 total square feet to design a house. This project seeks to address the need for affordable housing and provide an alternative to the normal low-income housing that are small, affordable and efficient. I chose to have my plan symmetrical and on an axis, so that one he or she enters through the porch trellis one can see a clear view of the scenery. I picked a gable roof that is maximum 14’ high in the common areas such as the kitchen, living and dining room in order to make those areas more open and spacious. There is a minimum 9’ in the private areas such as the bedrooms, bathrooms and closet.
70
Shadow and shade provided from the trellis as a key feature to my design
Site Plan
72
GREEN TO GO SPRING 2017 This project is based in Serenbe, Georgia, which is a growing community. We were each required to design a live-work building in which the commercial function would benefit the community. During this project we had to work with our neighboring sites to make sure the designs related and fit into the context. This involved adding similar materials and design solutions through collaboration. As for the program we were able to be creative and create a utopian community for Serenbe that included wellness, recreation and restaurant developments.
74
GREEN TO GO LIVE-WORK UNIT
SPRING 2017
The chosen site was a 26’X26’ square, a total of 676 square feet. The lot is surrounded by other lots that were to be developed. The building is 4 stories tall, 1 commercial on the first floor and 3 residential. I designed the residential balconies so that the residences get a direct view to the plaza. The floor plan concept solution was to have an open floor plan to make the small spaces seem larger. I chose to have my commercial space function as a placewhere one can come and grab healthy food on the go. It was important to design a space that made the commercial floor very visiable and accessible to the public.
We started this project by doing a site analysis and creating “ideograms” from the conditions of our specific site. We combined some of these ideas to create our concepts.
A B
A
B
A
First Floor Plan
B
A
B
A
Second Floor Plan
B
A
B
A
Third Floor Plan
B
A
B
A
76
Fourth Floor Plan
PHYSICAL MODEL 1:32 SCALE
COUCH PROJECT: STRUCTURAL ANALYSIS
BUILDING THE MODEL
The requirements of the project included the sole use of recycled single-ply corrugated cardboard, cloth, rope and glue. The hanging structure we constructed was a couch-swing that was designed to support two people with a weight that varied from 100 bs-130 lbs. The couch was tested on January 31, 2017 where the couch successfully supported the two loads combined without collapsing. Part II of the project consists of analyzing and evaluating part I of the project by using structural principles learned over the course of the semester. Part II also consists of a report to document and evaluate model structural behavior, classify connection, and quantify capacity. With all these things kept in mind, the overall purpose is to improve the structure and document every improvement.
Inspired by the strength of trusses Interlocking Connection points Reinforcement and redundancy Investigating material properties MEASURING
TESTING THE LOAD
78
FINAL PRODUCT
We learned that the strongest structural support on our couch project was the truss support. If we replaced the L’shaped middle component with a truss similar to the ones we made on each side, it would prevent the sagging of the top beam when pressure is applied to it as well as the buckling of the middle beam. To reduce the deflection in the beam, we could either add more beams which creates redundancy and distributes loads equally, or we could make the cross section larger to increase strength in each beam.
POINT LOAD ANALYSIS We created our cardboard couch design in Multiframe with Point loads for the loads to see the worst possible outcomes.
PLAN
FRONT ELEVATION
DISTRIBUTED LOAD ANALYSIS For this Analysis we changed how the cloth was attached to the structural members because we believed that the load that the cloth faces from being sat upon contributed to the bending we saw in the horizontal pieces. However, according to the multiframe simulation the distribution of the load on cloth is not the source of the issue.
SIDE ELEVATION
Received “TOP KNOTCH AWARD” for the best structural design in the class
80
DESIGN FUNDAMENTALS 2016
This year I learned the basic design principals such as hierachy, promenade and spatial conditions. We studied how buildings should directly relate to context and surroundings. Graphic representation including lineweight, use of color and shading was utilized to enhance the building design.
ABSTRACT
CUBE Design was based on the asic design principals of extraction and repitition. By extracting and repeating it created a variety of different spacial conditions and hierarchy.
Hand Sketch of Cube Design
RECTANGLE This was a concept like the cube. PIcking design terms and then design a structure from it. My words were subtraction, addition and repetition.
PIANO The ascending long rectangular cubes interlocking with ascending square cubes represent the black and white keys of the piano. The diagonal wooden sticks represent what happens behind the piano when a key is strung. The horizontal sticks represent the strings inside the piano that produce the sound when struck by the hammer. As the pitch gets higher to produce the treble pitch, the strings get longer. The sticks representsenting the bass pitch are shown to the shorter . The curvature of the side opposite the keys represents the body of a typical grand piano. 82
I was inspired by the flow of a river for this project. This project is a riverwalk proposal for a community center in San Antonio. It has an open central courtyard that is the hierarchy of this project. The curves in the form respond to the topography. Overlapping elements create a creative form of shade.
RIVERWALK DESIGN
Overhang over balconies to provide shading
Overlapping Fluid Elements
Inner Courtyard Concept
84
CREATIVE WORK
This includes a collection of hand sketches and acylic paintings. Painting and sketching are some of the hobbies that helped me get interested in finding a career whereI could be creative. It also taught me proportion of peopleand spaces, the use of light and shadow and the impact of color.
86
ACRYLIC PAINTINGS
88
HAND SKETCHES
JENNY STALLONES 90