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Final collection of work from who-knows-how-many years of design / architecture / graphics / photography work
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NOT UST Y UR AV RAGE
designportfolio.by Joe McNeill
JO
E
admiring the fine work of Carlo Scarpa at the Brion Cemetery in San Vito DAltivole, Italy.
THIS IS ME.
03
my name is JOE MCNEILL.
my goal is to to expand my knowledge and passion for the built world as well as the design world.
while my ultimate goal is to work as an architect, i want this portfolio to represent my many areas of interest. i truly believe in a cross-disciplinary approach to all facets of architecture, that which draws ideas from art, people, music, graphic design, travel, history, language and even those built environments that never had an architect associated with them.
i hope to immerse myself in a professional experience that will foster my growth as an architect and a life-long student.
i intend to work diligently at becoming a better designer, while always remembering my self-initiated values which include:
+ understanding craft as a tool but also an end result+ minding context and the ever-changing societal patterns that drive design+ using words and creating words to enhance the intent of a project+ allowing the cross-disciplinary nature of architecture to infiltrate my life and the life of my work+ super-imposing a lens of simplicity and function over all of my designs.
HELLO!
mobile: + 001 727 452 8771
m c n e i l l . j o e @ g m a i l . c o m
j o e m c n e i l l w o r k . c o m
print design autocadpart
i
diag
ram
rhino
ideasustainable
site
study
coffee
urban
space
vectors
lovelive
family
local
craft
mat
eria
lity
tech
nolo
gy
desi
gn-b
uild
liste
nwor
ds
commitment runwood
interact
rese
arch
insp
iratio
n
language
private
intentionality dens
ity
transparency
naturepassion
architecture
quality
experiment
purpose
section
productpublic
people approach
sket
ch
conn
ectio
ns
city
do it
plan
data
revit
sketchup
adobe cs5.5 woodworking
graphicsgrowth
travelexperiencefree-hand drawingconcept
branding
skillsart
create
phenomenology
process
design
structure
typographywrit
e
recy
cle
deta
il
graphic design + logosmodel building semi-fluent in spanish
avid runner + ultimate player
c o l l e g e o f c h a r l e s t o n
undergraduate real world graduate [post-bac]
bachelor of arts in historic preservation + community planning.06
c l e m s o n u n i v e r s i t y master of architecture
*
.12learn.
experience.
refine.
engage.
partner of social activities graduate architecture student partnership [GASP] clemson university graduate assistant F.09 | S.10 + F.11 | S.12clemson university materials lab + woodshop
vc
annual publication of student work [BRANCH 2.0]everywhere all of the time
student publication designer clemson university
05 06 07 08 09
summer intern - CDs, historical research, model buildingdesign collective baltimore, md
carpenter for interior designer at macys HOME store.
macys washington d.c.
intern - basic cad work on CDs, feasibility studies, historical research, model building
goff-dantonio architecture associates charleston, sc
carpenter - custom woodwork + furniture, construction, millwork + cabinetry, design, installation + finishing
jmo woodworks charleston, sc
jan
ua
ry
ma
y
>>>
10 11 12
lang
uage
each represents ~ 1 month of work.
$1 Million in funding for the CAT system.
ACKNOWLEDGEMENTSKeith Moody, Clemson Transit SupervisorDina Battisto, Professor of Research + Design MethodsAll survey-takers
THE SYSTEM
0.....................................................26................................................28.......100%..........................100%.................................1.6 MILLION........61............................................19........33.....3............................5..................4.....................80%...........20%..................
FAREBUSES
AVERAGE CAPACITY [SEATED]ADA COMPLIANT
BIKE RACKSANNUAL RIDERSHIP
DRIVERSHRS/DAY AT FULL OPERATION
WEEKS/YR AT FULL OPERATIONCOUNTIES SERVED
MUNICIPALITIES SERVEDUNIVERSITIES SERVED
FEDERAL/STATE FUNDINGUNIVERSITY FUNDING
*BASED ON 2008-2009 FY DATA
LIMITATIONS OF STUDYWhile the study is successful in analyzing students within Lee Hall, its exclusive focus on that student population limits the generalizability of its findings. Future studies should conduct a similar survey on a different Clemson student population for comparison purposes.
IMPLICATIONS OF STUDYThis study hopes to make Lee Hall students aware of the advantages of riding the CAT Bus, and the infrequency with which they use it. The data also highlights shortcomings and offers suggestions for improvement to the system.
Clemson hires a transit administrator in response to increased congestion on campus and pressure from students, administration, and town.
CAT acquires 3 new state-of-the-art Opus buses, bringing their total to 11.
CAT receives the Best Transit System in South Carolina award from the SCDOT.CAT [Clemson Area
Transit] begins.It is a joint venture between Clemson University and the city of Clemson.
CAT becomes the first transit system in the country to use Google maps / trip planner as a resource to assist its riders in planning trips.
New routes are announced to help bring about positive change to on-campus ridership issues.
CAT expands to their 4-U routes [serving 4 universities in the area].
Budget cuts and poor economy force CAT to consolidate and retool routes on the Clemson Campus creating a sizeable drop in ridership.
The Clemson Continuity Council is started to help maintain the Clemson student/ CAT relationship and provide insight into ridership issues and concerns. Construction begins on the new CAT
Headquarters on West Lane.[Funded by American Recovery Act]
Five Proterra Electric buses are purchased in Seneca to replace older models in the CAT system.
The Federal Transit Administration commissions a report on transit programs serving university and college campuses. The CAT system is cited as a model for collaborative approaches to the issue.
The Appalachian Council of Government (ACOG) publishes a region-wide transit study that includes the CAT system.
1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011
New CAT Headquarters unveiling: November 2011.
EVOLUTION OF THE CAT BUS
CAT expands to10 routes
GO THE ROUTE
Architecture Research + Design Methods Dina Battisto / Fall 2011
*
1st place in Research Poster Design CompetitionFall 2011 // Research Methods + Strategies
Professor Dina Battisto
Cooper River Bridge Run Poster Design Competition EntrySummer 2011
45
GRAFFITI IN EUROPE
barcelona berlin
carrara
copenhagen
florence
granada
marseille milan
montpellier oslo paris
pavia stockholm
torino valencia venice
vienna
madrid
genoa
architectureTHERE ARE MANY LAYERS.
I have a passion for typography and print/layout design. While most of my work is non-professional, I always embrace the opportunity to design a layout or infographics for print.
print // posters
graphic design
charlestonc
coastg uard so uth of broadtt
batte
ry
hegc l a
ke
oon
i a l
l fr
mmanor
i l l sobe rt
q u a r rt er e n c h
ownea esrlh
harc
e
hakram
mc courtooper
ri ver
m a n o rsttr
eeee
ting
pc r o s
s ow n
the
t
p
tt e
er r a
co nhampp a r
kto n
l l iottann no
rad
c
b
b
o
oo
ou
u g hg hr
r
b o r o u g hl iffe
lestovi l l a
k
u p p e rw
w ra g bh om es
o oughr
g
ra g g
m
uconco
rd
pper
m c c o rr id o ra l h o u n
a aqri
uu
wt he
h a rfm
tt
s ree
mm
squareari o
n
a z
bo ough
r
y c k -
eeastbay
str
eet
abou g hr
onson
et ing
muw
w
s ma gi ol aini l l -lv
he
fmh i b e
r n i anli e
oosemo nt u rr
r
eastag
ee a c
e err rtn
et h
norc
f manor
k ia ah
h bm a n o r
aysideo mesw J. loyd
entra l
centra lthe
citadels sid e eass id et
te
nmoorrrison
thh port
term
inal
t
scarketst t w
ate
f park
rontr
reea
di
ic
st
t
r
ntiques
hs op p in g
d i st r i ct
ts
t
ree
ing
en charlestono gocougarsf
t hc
gga
rds
the
joe deee
nn
ol legee
b r ao ds t tr e e
Charleston Map project
47
Statement:
Charleston has a bit of an identity crisis. Having lived here for quite awhile now, I have bounced around to several different neighborhoods. As a CofC student, I was too busy running around to notice all of them. When I finally began to realize that there was small print above the street name on the signs, I began to think about it. The thing is, I never knew what those neighborhoods really meant. I wondered why they were so different from other cities I had visited. New York has 5 Boroughs [and all of the other awesome neighborhoods within those], so does D.C., so does San Fran, Chicago....etc. In my naive mind, Charleston was just one tiny peninsula with a bunch of stuff all lumped together in a high density urban area. But, that is simply not true. Maybe its a good thing that Charleston doesnt necessarily have dividing lines or subway stops that separate our neighborhoods. But it certainly does have invisible lines that most of us are unaware of.
Id like this map to help catalyze a shift in the downtown thinking....Where exactly DO I live, and why? How was this neighborhood formed? Where does it begin and where does it end? What amenities does it have? What doesnt it have? What could I do to make it better? What are my neighbors like? Are they college students or a young family? Are they an older family? What other areas of town or neighborhoods do I like to visit? Why?
What does it mean to live in Wraggborough versus Radcliffeborough?
Other cities take great PRIDE in their particular neighborhoods. Why cant Charleston? [And lets not blame it on size.]
So, where do YOU live?
print // charleston map poster
graphic design
Charleston Map project
bolted L-bracket
bolted L-bracket
2 layer of sandlayer of crushed stone
foundation footing below
EPDM membrane
1.5 corrugated metal decking w/1.5 concrete top
1.5 corrugated metal decking w/1.5 concrete top
foundation footing below
aluminum stud wall w/ spray insulation
5/8 gypsum board
high-density insulation
6 x 10 steel I-Beam
6 x 10 steel I-Beam
steel C-channel
steel C-channel
6 x 6 steel column
6 x 6 steel column
spray insulation (not shown)
steel base plate bolted to foundation
concrete slab on grade
metal flashing
earth
aluminum mullion
aluminum mullion
steel base plate bolted to foundation6 x 6 steel column
wood flooring1/2 cork subfloor
double glazing
double glazing
double glazing
bolted L-bracket
bolted L-bracket
2 layer of sandlayer of crushed stone
foundation footing below
1.5 corrugated metal decking w/1.5 concrete top
finish concrete flooring
foundation footing below
6 x 10 steel I-Beam
6 x 10 steel I-Beam
C-channel
6 x 6 steel column
6 x 6 steel column
spray insulation (not shown)
steel base plate bolted to foundation
concrete slab on grade
metal flashing
earth
aluminum mullion
aluminum mullionsteel base plate bolted to foundation6 x 6 steel beam
wood flooring1/2 cork subfloor
double glazing
double glazing
double glazing
1 thick high-density insulation
5/8 gypsum board
aluminum stud wall w/ spray insulation
finish concrete flooring
aluminum drop ceiling
EPDM membrane
1
1
2
2
3
3
4
5
6
7
8
4
5 7
8
6
w a l l s e c t i o n - c l a s s r o o m ss c a l e 1 / 4 = 1 d e t a i l s a t 1 = 1
office space
market space
courtyard
container stacks
water collection pond
HVAC bathroom
bathroom
green roof
courtyard
classroom 1
classroom 2
classroom 3
container stacks
water collection pond
HVACmechanical
bathroom
bathroom
portcityponics
get hooked on ponics.
Port City Ponics does not over-think the architecture of the existing space at 1056 King Street in Charleston, South Carolina. The existing Port City Paper warehouse building has had numerous uses over the years, the most recent being a roller skating rink on the second floor. The large, barrel-vaulted rectangular volume is now a prominent building in the neighborhood of North Central and is being considered the site for Charlestons first Vertical Farm. The design scheme for Port City Ponics is focused on preserving the existing building structure and making an intelligent use of the two rear parcels for a new auxiliary building and market space. The use of the large warehouse space is used strictly for farming. Keeping with the proposed backyard concept, this open-air farming space will be filled with retro-fitted and sealed shipping containers called GROWPODS used for indoor farming. The primary method of farming will be with aeroponic technology which uses tall, thin towers and a drip or mist irrigation to feed the roots of vegetables and plants. These towers will occupy each container [17 each], and will provide the surrounding community with farming space available by lease. This communal gardening aspect intertwines with the indoor farming technology and allows members of the community to farm year-round. Additionally, Port City Ponics imagines the potential for these stacked containers to exist in locations outside of the 1056 King site, making them a completely mobile and modular prototype. Each individual container is complete with an intake water line and tank, a wall-mounted conditioning unit, LED grow light technology, a recycling line for the nutrient-rich water, and 17 aeroponics towers. This modular system has the ability to stack vertically, and, using the standard shipping container connection, stairs and walkways can be connected to each growpod for vertical circulation.
Within the building itself, the growpods are glazed on their south elevation, and, as a system, all of the growpods are stepped in the north direction to allow for the maximum amount of natural sunlight to enter the pods. The plants are supported by a water collection pond on the south-side which collects rainwater, is then pumped into the building, filtered and mixed with nutrients for the plants, and is then pumped back to each individual pod.
3 shades of green
farming
sustainability
cost
poinsett
street
romney s
treet
athens c
ourt
grove str
eet
high
way
26
simons street
site plan
C O N C E P T
S I T E
M O D U L A R [ C O N TA I N E R ] P R O T O T Y P E F O R V E R T I C A L F A R M I N G
V E R T I C A L F A R M I N G G R O W P O D S F L O O R P L A N S
E L E VAT I O N S S E C T I O N S D E TA I L S
solar array
solar array 2 x 4 modules of 150 watts eachthese can generate ~ 20 kW hours/day
we approximate that each pod needs ~ 400 watts of power per day, which ~ 3000 Watts per month
~ 30,000 kW hours per year
water tank for storage [with nutrient mixing capability for farming]interior water line for drip irrigation
2 rows of aeroponics towers for vegetable farming [facing south for maximum sunlight exposure]Plant Cable Pulley PCP system [for hoisting materials and plants]water line out-flow
water line in-flow [behind, on right side of container]
back-up LED growing lightsLED Growmaster lighting [12 year life span]
overflow water tank
wall-mounted [localized] HVAC
water filtration
3 walkway
industrial steel frame stairs and walkway
adjustable height footings
south-facing glazing
a custom growpod
= S
a retrofitted shipping container.....
= S
south perspective
4 green roof traysGreenGrid systemgreen roof frame
1 gravel baseEPDM membrane
EPDM membrane
6 x 6 steel column
6 x 6 steel column steel base plate bolted to foundationsteel base plate bolted to foundation
aluminum mullion
double glazingsteel beam above
foundation footing belowfoundation footing below
corrugated metal sidingEPDM membrane
1 thick density insulation
corrugated metal sidingaluminum stud wall w/ spray insulation
welded wire fabric reinforcement2 layer of sandlayer of crushed stonefooting drain
foundation footing beyond
1.5 corrugated metal decking w/1.5 concrete top6 x 10 steel I-Beam
6 x 6 steel beam
metal flashing
metal flashing
bolted L-bracketspray insulation (not shown)aluminum mullion
aluminum mullion
double glazing
double glazing
double glazingsteel base plate bolted to foundationpoured in place concrete floor
green trays
metal handrail siding
metal L-bracket
EPDM membrane
EPDM membrane
EPDM membrane
EPDM membrane
EPDM membrane
welded wire fabric reinforcement
2 layer of sandearth
layer of crushed stone
foundation footing below
footing drain
1.5 corrugated metal decking w/1.5 concrete top
corrugated metal siding
corrugated metal sidingaluminum stud wall w/ spray insulation
corrugated metal sidingfoundation footing below
corrugated metal siding
6 x 10 steel I-Beam
6 x 6 steel beam
1 thick density insulation
1 thick density insulation
1 thick density insulation
spray insulation (not shown)
spray insulation (not shown)aluminum stud wall
aluminum stud wall
steel base plate bolted to foundation
steel base plate bolted to foundation
metal corner flashing
concrete slab on grade
grassconcrete
2 layer of sand
layer of crushed stone
foundation footing below
existing concrete columnoverflow drain
cross-bracing
EPDM membraneexcess water from containers
overflow drainwater line to pump
steel base plate bolted to floorpoured in place concrete slab floor
earth
welded wire fabric reinforcement
8.5 feet
20 feet 8 feet
40
29
chrisfelegie | joemcneill comprehensive studio ARCH 893
w a l l s e c t i o n - o f f i c es c a l e 1 / 2 = 1
d e t a i l s a t 1 = 1
p l a n d e t a i l - c o r r u g a t e d m e t a l a t c o l u m ns c a l e 1 = 1
p l a n d e t a i l - c o r r u g a t e d m e t a l a t c o r n e rs c a l e 1 = 1
p l a n d e t a i l - g l a s s c u r t i a n w a l l a t c o l u m ns c a l e 1 = 1
l o n g i t u d i n a l s e c t i o ns c a l e 1 / 8 = 1
c o l l e c t i o n p o o l d e t a i ls c a l e 1 / 2 = 1
t r a n v e r s e s e c t i o ns c a l e 3 / 1 6 = 1
s o u t h e l e v a t i o ns c a l e 1 / 8 = 1
n o r t h e l e v a t i o ns c a l e 1 / 8 = 1
e a s t [ r e a r ] e l e v a t i o ns c a l e 1 / 8 = 1
c o u r t y a r d + g r e e n r o o f
w e s t e l e v a t i o ns c a l e 1 / 8 = 1
s o u t h e l e v a t i o ns c a l e 1 / 4 = 1
g r o w p o d p l a ns c a l e 1 / 2 = 1
g r o u n d f l o o rs c a l e 1 / 8 = 1
2 n d f l o o r p l a ns c a l e 1 / 8 = 1
3 r d f l o o r p l a ns c a l e 1 / 8 = 1
e a s t e l e v a t i o ns c a l e 1 / 4 = 1
n o r t h e l e v a t i o ns c a l e 1 / 4 = 1
s t a c k e d c o n t a i n e r w / c l o s e d l o o p s y s t e m i n d i v i d u a l s p r e a d f o o t i n g
l o n g i t u d i n a l s e c t i o ns c a l e 1 / 4 = 1
s t a c k e d c o n t a i n e r w / o p e n l o o p s y s t e ms l a b f o u n d a t i o n
c r o s s s e c t i o n s c a l e 1 / 4 = 1
s t a c k e d c o n t a i n e r s i n s i d e t h e e x i s i t i n g b u i l d i n g s t r u c t u r e
s t a c k e d c o n t a i n e r s o u t s i d e
p l a n d e t a i lg l a s s c u r t a i n w a l l a t c o l u m n w / i n t e r i o r w a l ls c a l e 1 = 1
p l a n d e t a i lg l a s s c u r t a i n w a l l a t c o l u m ns c a l e 1 = 1
p l a n d e t a i lw a l l a t c o l u m n w / i n t e r i o r w a l ls c a l e 1 = 1
p l a n d e t a i lw a l l a t c o l u m ns c a l e 1 = 1
s u n sun sun sun sun sun sun
sun sun sun sun sun sun sun sun sun sun
sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun sun
sun sun sun sun sun sun sun sun sun sun sun
sun sun sun sun
sect
ion
ADMINISTRATIVE // AUDITORIUM
ACADEMIC
RESTAURANT
DEMONSTRATION LAB
UNDERGROUND PARKING
RECEIVING
TRASH
PROGRAM
THE GREENVILLE CULINARY ACADEMYa culinary arts college experience in downtown greenville // sc
Looking at the urban context of downtown Greenville, density is not a defining characteristic. The city is filled with public space, piazzas, wide sidewalks and tree-lined streets. Through an excercise of engaged and disengaged figure-ground study, it was discovered that a portion of the citys figure had been removed for what appeared to be a large, diagonal projection into the regularity of the city grid. It was, in fact, a void taken from the citys pattern. This slice of removed pattern was caused by the rail line which runs into the city from the northwest. Not only is the rail a gestural nod to the history of Greenville and its industrial buildings, but it also presents a meaningful glance toward the future. From this study of infrastructure and industry in Greenville, the Greenville Culinary Academy [GCA] was born. A culinary warehouse of sorts, built predominantly of steel, it recalls the country of industrial buildings associated with the rail line. At the threshold of dozens of nearby restaurants, the GCA provides culinary students with a truly back-of-house experience whilst also opening up the practices and spectacle of cooking and food culture to the public. This gentle, yet difficult marriage between public and private is made possible by a building within a building concept. This typology creates not only a place for the public to frequent if desired, but also an indoor micro-climate which can be passively heated and cooled and adeptly brings the outdoors in.
The six stacked educational kitchens are on the north side of the site [3 over 3] which allow the heavy and noisy mechanical equipment to occupy a particular space away from the administrative side. These rectangular kitchens maintain a sense of transparency with ample glazing on either 2 or 3 sides. The vertical chase wall between each kitchen exhausts the air from the hoods and also brings in fresh air. These chase walls act as a physical separation between the kitchens and are celebrated as they project through the roof, bringing a particular culinary warehouse identity to the city of Greenville and reflecting the interior functions of the GCA.
On the south side of the kitchens, there is a large public avenue within the exterior envelope between programmatic volumes. These volumes are connected by cross streets and bridge connections which help service the kitchens with cool/dry storage, facilities, freezers and elevator access to ground and below grade levels. This underground level acts as the delivery/receiving area for the school, as well as parking. A bake shop also fronts the South Main street side, the main thoroughfare for pedestrian traffic. Adjacent to the bake shop is the main student-run restaurant, SLICE, an homage to the design intent and a culinary term. At the termination of the avenue between the two programmatic volumes, the demonstration lab is put on display in a glass cube. This cube appears to float between the two buildings contained within the larger building envelope and acts as the knuckle between academic and administrative program, connecting them on the second floor. The transparency of this culinary cube allows for a visual interaction of the public and students, revealing culinary culture as the lynch pin of this architecture and the people who it inhabits.
JOE McNEILL
PROFESSOR // JULIE WILKERSON
ARCH 892 STUDIOSPRING // 2012
AISC / ACSA STEEL COMPETITION
SITE
SLICE RESTAURANT CROSS SECTIONSCALE // 1/4 = 1
DOWNTOWN GREENVILLE RAIL LINE
STRUCTURAL CONCEPT DIAGRAM
2ND FLOOR PLANSCALE // 1/32 = 1
BUILDING ENVELOPESTEEL FRAME + GLASS
VERTICAL CHASE WALLS
AISC TYPE 1 // RIGID FRAME
LOUVER DETAILSCALE // 1.5 = 1
GROUND FLOOR PLANSCALE // 1/32 = 1
LONGITUDINAL SECTIONSCALE // 1/32 = 1
EXHAUST + INTAKE FAN
INTERIOR AVENUE
COURTYARD // CUBE // AUDITORIUM
DWIN
wind
windwind
windwind
windwindwindwindwindwind
wind
windwind
windwind
windwind
wind
windwindwind
windwind
wind
wind
windwind
wind
wind
wind
wind
windwind
wind
wind
windwind
wind
wind
wind
wind
windwind
wind
windwind
wind
windwind
windwind
wind
windwindwind
windwind
windwind
wind
wind windwind
windwind
windwind
windwind
wind
windwindwind
windwind
windwind
wind
wind wind
windwind
wind
wind
wind
wind
wind
windwind
windwind
windwind
wind
windwindwind
windwind
windwind
wind
wind windwind
windwind
windwind
windwind
wind
windwindwind
windwind
wind
windwind
windwind
windwind
windwind
wind
windwindwind
windwindwind wind
windwind windwind
windwind
wind
windwindwind
windwind
windwind
wind
wind windwind
windwind
wi
nd
wind
wind
wind
wind
win
d
wind
wind
wind
windwind
wind
wind
wind
wind
wind
wind
wind
wind
wind
wind
wind
wind
windwind
wind
wind
wind
wind
wind
win
d
win
d
win
d
win
d
win
d
win
d
win
d
win
d
wind
wind
wind wind
restaurant
EAST BROAD STREET
SOUT
H M
AIN
STR
EET
FALL
S S
TREE
T
1 TEACHING KITCHENS2 BAKE SHOP3 RESTAURANT + ROOF DECK4 STUDENT LOUNGE5 DEMONSTRATION LABORATORY6 WINE ROOM7 ADMINISTRATIVE OFFICES8 LECTURE HALL9 LIBRARY10 CLASSROOMS11 PASTRY KITCHEN12 TRASH + RECEIVING13 PARKING14 OUTDOOR SPACE15 RESTROOMS16 CIRCULATION
1
1
1
3
4
1611
1612
12
13
14
14
7
8
9
65
2
10
N
FLO
OR
.01
FLO
OR.0
2
WINTER
SUMMER
PROGRAM
MERGE
EXTRUDE
ROTATE
COMBINE
+GALVANIZED
ALUMINUM ANGLE [IRON]
ADJUSTABLE LOUVER SCREEN
SYSTEMAERIAL VIEW
AERIAL VIEW
ENLARGED KITCHEN PLANSCALE // 1/8 = 1
FLASHING
LIGHTWEIGHT ALUMINUM ANGLE
LOUVERS[COLLAPSED]
CURTAIN WALL MULLION
3 x 3 INSULATED GLASS
3 ROWS OF ADJUSTABLE
LOUVERS [FROM INTERIOR]
LOUVERS [OPEN]
PATTERN REPEATS AT FLOOR PLATE
KITCHEN WALL SECTION
SCALE // 1/2 = 1
SLICE
REAR COURTYARD
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRO
DU
CED
BY
AN
AU
TOD
ESK
ED
UC
ATI
ON
AL
PRO
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joe mcneill justin miller ben wyszynski arch 353 | 600 u n i v e r s i t y o f g e n o a | s t u d e n t h o u s i n g
double-skin facadewall section
west longitudinal section
RISEhigher learning. higher living.
programmatic housing volume schemes
physical model photographs
street perspective
bridge perspective
floor 6 + 7 plan
east elevation
Port City Ponics Vertical Farm // Final Comprehensive Review Boards // Fall 2011
Greenville Culinary Academy // Final Presentation Boards // Spring 2012RISE - University of Genoa Student Housing // Final Presentation Boards // Spring 2011
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THE TEAM
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Clemson Universitygraduate school of architecture
4:00pmDesign Presentations
thursday december 15thSCHEDULE5:00 - 7:00pmDESIGN SOCIAL
+ gallery talk
CHARLESTON VERTICAL FARM Funded and sponsored by the Environmental Protection Agency, the Charleston Vertical Farm is a direct continuation of the research initiated by Dr. Gene Eidson and the Clemson Institute of Applied Ecology. The project acts as a feasibility study in collaboration with the Clemson Centers of Economic Excellence in Urban Ecology and Sustainable Development to retrofit an existing historic structure in the city of Charleston.
Through a series of community charrettes, members of a variety of disciplines in the Charleston community have the opportunity to share ideas about their expectations for the unprecedented vertical farm. In the first charrette, community members presented pros and cons for each of the three potential historical sites and voted on the most appropriate site for the feasibility study. In the second charrette, students presented project proposals for critique and community members presented a SWOT (Strengths, Weaknesses, Opportunities, and Threats) analysis for each of the projects. With these suggestions, students redeveloped their designs for a final public presentation.
CHALLENGE By the year 2050, nearly 80% of the earths population will reside in urban centers. According to conservative population estimates, the world population will increase by about 3 billion people during the interim. It is also estimated that about 80% of current farmable land throughout the world is in use. It is likely that there will not be enough farmable land in the future to feed the world population.
One potential solution is vertical farming in urban spaces. In Charleston, South Carolina, the EPA has sponsored a grant to explore the feasibility of this yvertical farming solution in a selected site on the downtown peninsula. The existing building must be retained, however, any new construction on or around the parcel is allowed. The height restriction for this neighborhood is a 50 maximum. The challenge for the students is as follows:
01. Provide a design scheme that meets the production needs of a vertical farm within the constraints of the program and existing building envelope on the site in downtown Charleston. This requires that at least 3 floors of the building are dedicated to production only farming.
02. Balance the aspects of a new production-oriented building with the needs of the surrounding community. This can be through public market space, community gardens, or educational opportunities within the building.
professorsDan HardingUlrike HeineBernhard Sill
students
Elissa BostainKelly Fehr
Joe McNeillChristopher Felegie
Jonghoon AhnHeather Zhang
Jared MooreChris Wilkins
Kristin KolowichJon Michael Williamson
Thomas JasperMeghan Welford
Megan CraigVictoria Wright
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Presentation skills have become key elements in architecture. In school, how I presented the design work I had done was as important as the work itself. I enjoy working in this medium and finding the right configuration for drawings and photographs so that the viewer can easily understand the intent.
layout // presentations
graphic design
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ed cow design co.
uinnc o f f e e
FARRELL real estate investors
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Identity branding is an interesting process. I find my architecture education to be the most helpful in this particular facet of graphic design. Design like this, on a small scale, has the opportunity to do great things. Simplicity, function, vibrance, and beauty all play major roles in the branding of a company or individual. These characteristics are very similar to the necessities of a well-designed building.
branding + identity //
graphic design
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designbuild+
Christopher Feleg iearchitect
AIA, LEED AP5Caitlin Ran son
design principal
AIA, LEED [email protected] [email protected]
designbuild+
designbuild+
designbuild+
designbuild+
5Thomas Jasper
licensed contractor
AIA, LEED AP5Ky ungsun Orr
landscape architect + planner
ASLA, LEED AP5Joe McNei l l
architect + interior designer
AIA, LEED AP 5
55 East Coffee Street8 6 4 555 5555
Greenville, SC29601
Suite E
55 East Coffee Street8 6 4 555 5555
Greenville, SC29601
Suite E
55 East Coffee Street8 6 4 555 5555
Greenville, SC29601
Suite E
55 East Coffee Street8 6 4 555 5555
Greenville, SC29601
Suite E
55 East Coffee Street8 6 4 555 5555
Greenville, SC29601
Suite E
53
i suppose most architects like to consider themselves photographers. i do not, however, have any training in photography, but i believe in the opportunity that film affords us to capture a significant moment - whether it is a person or building - it can only appear that way once. As a designer, it is important for me to be able to recognize these moments, angles or views and capture them. You never know when they might be used again.
photo //
photography
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THATS IT!
CARE TO TAKE A LEAP WITH ME?