G
i
C reating
a
an
n
C
U rban N ode
a
r
l
o
G
r
e
c
o
2
C ulinary I nstitute
4
A rtist R esidency
12
P recedent S tudy
17
K awit B irthing C enter D esign B uild
19
G raphic D esign
20
P roduct D esign
21
P hotography
22
7 Oak Ridge Rd. Littleton MA. 01460
giancarlogreco11@gmail.com
978-501-1602
Metro Lines
FLOOR 9
10 40 20
160
80
Main Roads
a ppr o a c h
FLOOR 2
10 40 20
80
160
Public Spaces
FLOOR 1
10 40 20
80
160
A nalysis
o f how the site c onnects to the city revealed a primary axis on the west e dg e . T h e fo r m d r aw s i n t h e pat h , a l l o wi n g pe o p l e t h e o ppor tunity to move throu g h or into the buildin g . C irc ulation surrounds the atri um , c r eat i n g a pl a z a o n l o w er fl o o rs a n d c o nn e c t i ng d i sparate elements . P ubli c s pac es weave into throu gh the business and residential el e m e n ts , fu r t he r i n g a cce ss i b i l i t y a n d e qu i t y .
Creating
an
Urban Node
2
F a l l 2016 AP311 L u t z
n atrium
3,400,000
1’ CLT FLOOR PANEL
KBTU/YEAR
800 KW GRID 60,000 FT2
ANGLE BRACKET
2500 W + 191,000 K
Daylighting Percentage
Summer Shadows
Daylighting Overlit / Underlit
Diffuse Light in Offices
FT2
NET ZERO
Winter Shadows
1’X4’ CLT BEAM 4’X4’ CLT COLLUMN
13
43% overlit
1’ CLT WALL PANEL
11% underlit
RIGID INSULATION WITH WEATHER BARRIER 2” FURRING STRIP / AIR GAP
KBTU/FT2
46% well lit
CLADDING / LOUVER
10,860,000 ANNUAL ENERGY CONSUMPTION
DAYLIGHTING Corner Residential Unit
Facade Generation
1 Draw Elevations
2 Create Curves
Rainscreen Folds at Walls
42 N
Dec 21 3:00 W (10)
Jun 21 4:00 W (35)
Dec 21 9:00 Jun 21 8:00 E (40) E (15)
Dec 21 12 S (-18)
Jun 21 12 S (+28)
3 Loft Geometry
sun angle at 12 on summer solstice
stack effect draws hot air out of atrium
sun angle at 12 on winter solstice
solar thermal collector reheats water, which is recirculated
green roofs minimize heat island effect louvers allow direct solar gain to heat spaces
louvers minimize direct solar gain
offices sheltered from direct sunlight to prevent overheating
heat from occupants, computers, and light manufacturing evacuated into atrium, drawing in air from the outside
operable windows allow cross ventilation
air cooled by passing over vegetation in park
electricity generated from photovoltaics
fac a d e s t u d ie s
Summer Cooling
800 kW grid 3,400,000 kBTU
cooling distributed with water
cogeneration using absorption chiller
Winter Heating
waste heat exchanged to water fresh air brought below grade and then heated
Heat evacuated from greenhouse
Heat builds up in greenhouse and is circulated through the building
F oc usin g
Rainwater collected
Initial ďŹ ltration
on the cy cles within cookin g and learnin g hel p ed connect the various pa r t s o f t h e pr o g r a m . A gr e en h o u se a n d wa s t e wate r Holding tank t r eat ment syste m generated a flow of matter and ener gy . A cur vilinear form visual ly l i nk e d spa ce s , a s w e l l a s a l l o wi n g fo r c e i li n g h ei gh t va riation based on diverse needs and spatial ty pes .
Culinary Institute Direct Sunlight
4
Direct Sunlight
To greenhouse irrigation
S pr i ng 2016 AP211 S c h a l le r , H o ffma n Water circulated back to main pipe after further ďŹ ltration from plants
Intake brings in cool air
Summer
Winter
To use as greywater
Primary tank
126 Rue St. Anne Culinary Institute
0
W e s t
16
0
S e c t i o n
16
N o r t h
S e c t i o n
126 Rue St. Anne Culinary Institute
0
16
F l o o r
0
126 Rue St. Anne Culinary Institute
0
16
F l o o r
1
0
16
S o u t h
0
126 Rue St. Anne Culinary Institute
E l e v a t i o n
16
N o r t h
0
16
W e s t
0 126 Rue St. Anne Culinary Institute
E l e v a t i o n
Heat evacuated from greenhouse
Heat builds up in greenhouse and is circulated through the building
126 Rue St. Anne Culinary Institute
E l e v a t i o n
16
E a s t
126 Rue St. Anne Culinary Institute
E l e v a t i o n
Rainwater collected
Initial ďŹ ltration Holding tank
Direct Sunlight
Direct Sunlight
To greenhouse irrigation
Water circulated back to main pipe after further ďŹ ltration from plants
Intake brings in cool air
Summer
P a s s i v e Waste from Toilets
Winter
V e n t i l a t i o n
R a i n w a t e r
To use as greywater
C o l l e c t i o n
Primary tank
P a s s i v e
V e n t i
Waste from Toilets Heat evacuated from greenhouse
Heat builds up in greenhouse and is circulated through the building
Waste from Restaurant Direct Sunlight
Direct Sunlight
Used in greenhouse
Intake brings in cool air
Compost
Summer
P a s s i v e
Winter
V e n t Ei al ar tt ih o n
Waste from Toilets
Vegetables, fruits, and herbs used in restaurant
Waste from Restaurant
Used in greenhouse
Compost
E a r t h
Fresh Produce
N
Site Plan/Section
100FT
Artist Residency
12
F a l l 2015 AP211 S t o no r o v , C o x
South Elevation East Elevation
East Elevation 100FT
N
North Elevation
First Floor Plan Second Floor Plan
Second Floor Plan 100FT
N
100FT
100FT
Road New Civilization Modern Public Static Geometric Stone
Forest
River Old Nature Ancient Private Movement Organic Wood
Site
r e se a r ch
and
a
p r o gr a mmi ng
s e s si o n
with
s e ve r a l a r t is t s , i nf o r me d t h e d e s ig n o f a n a r t is t r e si d e n c y . s pa c e ,
The
s e ve r a l
r ec o r d in g , pa i n t in g ),
main
b u i l di n g
k i nd s
of
m e ta lw or k i n g , p e rf o r ma n ce
c o n tai n s s t u d io s
e x h ib i t i o n
( i nc l u d i ng
w o o dw o r k i n g ,
s pa c e ,
and
a
and
r e sta u r a n t ,
a l l o f w h ic h a r e w o ve n t o g e t h er b y a s e ri e s o f i n t er s t i t i al s pa c e s .
Transition
L i v in g
p o d s a r e s i t uat e d a mo n g
t h e t r e es f o r a s e n se o f p r i vac y a n d r e t re at .
Design Strategy
pli
wa ve te Acoustic Panel Design Process ca
sti
c P1 Transform 3 Low-frequency sound wave an TransformTra 33 Transform 3 quency sound wave l DLow-frequency sound wave 1 esound Transform uency wave ns es fo ign Dr rm ap Pr oc e 3 es s 2 Duplicate 4 e 2 Duplicate Drape 4 e 44 Drape Drape Drape 4 Acoustic Panel Design Process 5 Acoustic Panel Design Process Panel Design Design Process 5 Panel Process 55 5
Exterior of Recording Studios
Interior of Recording Studio
Direct Sunlight Diffuse Daylight
Operable Vents Along Roof
Diffuse Daylight
Wind from Southwest
Lighting (Studio) East Section
Lighting (Studio) East Section
Direct Sunlight Insulated Reflective Glass
Insulated Glass
Light Reflected Heat Absorbed by Concrete
Heating (Corridor)
0
2 ft 1 ft
W all S ection
Lighting (Studio) Direct Sunlight
Thermal Curtain Prevents Heat Loss at Night
Insulated Reflective Glass
East Section
Lig
Direct Sunlight As Corridor Heats up, Heat can be Released into Studio via Vents
Insulated
Ventilation Prevents Heat Buildup in Concrete Insulated Reflective Glass
Heat Absorbed by Concrete Acoustic Panel Glass Light Reflected Heating (Corridor) Heating (Studio) Cooling (Corridor) East Section South Section 1Winter x 2 Studs Summer East Section Heat Absorbed by Concrete Direct Sunlight Heating (Corridor) He Felt Composite East Section Winter Daylight Operable Vents 1/2 “ SDiffuse heetrock Along Roof Fiberglass Insulation from Southwest 1/2 “ Gypsum Board w/Wind taped joints
Diffuse Daylight
6 in
Along Roo
Summer
Light Reflected
Winter
Through Corridor
Coooling (Studio) Lighting (Studio) East Section South Section
Direct Sunlight
Insulated Glass
Diffuse Daylight Through Corridor
Reflected Light
East Section
Resonant Absorber Through Corridor Fiberglass Insulation Coooling (Studio) Lighting1/2 (Studio) “ GSection ypsum Board w/ taped joints East Section South Summer 1 x 2 Studs Reflected Light
Weathered Thermal Curtain Prevents Heat Plywood Loss at Night
Direct Sunlight Wood Panels
2 x 8 Sillplate As Corridor Heats Steel Bolt up, Heat can be
Ventilation Prevents Heat Buildup in Concrete
Released into Studio via Vents
Heating (Studio) Cooling (Corridor) South Section
Summer
East Section
Through Corridor Along Roof
I n itial
work f oc used on studyin g T he L eeper S tudio C omplex by T ho mpson and o verall c omposition o f the ar chite ctural work culminated in a model .
Precedent Study
R os e A r c h i t ec t s . E xp l o r at i o n
o f t h e spat i a l q u a li t i e s a n d
17
F a l l 2015 AP211 S t o no r o v , C o x Team: Shema, Keech
A
B
1.00 m
C
4.00 m 1.25 m
4.00 m
1.20 m
1
2.65 m
1.20 m
1.10 m
1
5
0.40 m
1.00 m 0.35 m
0.65 m
2.60 m
Fixed Glass
0.35 m
0.12 m
1.91 m
0.18 m
7.40 m
0.30 m
2.60 m 0.95 m 0.10 m
1.20 m
1.18 m
0.12 m 0.10 m
2.60 m
3
5
1.20 m
1.00 m
5 1.91 m
1.00 m
Solar Shade @ 0.08m Thick
A.C.
0.56 m
3
Norwich University 2017
1.80 m
6.90 m
0.55 m
1.18 m
5
1.21 m
6
1.80 m
0.12 m
2
0.40 m
1.00 m 2.60 m
0.40 m
0.12 m
1.80 m 0.12 m
0.40 m
1.24 m
1.80 m
2.31 m
1.80 m
0.56 m
0.35 m
1.20 m
4.00 m
1.24 m
4
3
0.74 m 0.40 m
1.44 m
8.00 m
4
MULTI-PURPOSE SPACE/ EVACUATION CENTER
0.40 m 0.74 m
5
3
2
Downspout
4.00 m
0.56 m
5
2.31 m
1.78 m
3
1.20 m
3.25 m
0.56 m
5
8.00 m
A
B
A7
C
001
A4
001
A7
002
scale: 1mm=100mm
:: E a s t E l e v a t i o n scale: 1mm=100mm
scale: 1mm=100mm
Second Floor Plan A4
Kawit Birthing Center Schematic Design
:: S o u t h E l e v a t i o n
Second Floor Plan
1 June 2016 A
B
Elevations A7
Kawit Birthing Center Schematic Design
1 June 2016
C
8.00 m 1.00 m
3.65 m 0.44 m
3.65 m
1.80 m
1
1.41 m
1.20 m
2
2.22 m
1 0.57 m 1
0.79 m
1.83 m
0.24 m
DOWN
4.15 m
001
Kawit Birthing Center Schematic Design
1 June 2016
N
2.60 m
2.00 m
0.18 m 0.30 m
DOWN
2.85 m
B
A9
C
001
A3
0.40 m
1.00 m
0.12 m
1.20 m
1.68 m
1.00 m
0.10 m 0.90 m
3
1 0.60 m
3.00 m
A
1.20 m 0.60 m
BUSINESS AREA 1
2 1.80 m
2.60 m
001
1
1.80 m
WAITING AREA
1.20 m 0.60 m
1.80 m
CONSULT/TREATMENT FOR PRENATAL CARE
0.35 m
1.20 m
3.00 m
A5
3
0.60 m
2.40 m
0.35 m
STERILIZING/ CLEAN UP AREA
2
3
1
3
4.00 m
0.63 m 0.52 m
3
3
J.C.
1.80 m
4
SCRUB-UP AREA
2.40 m
4
3
EQUIPMENT STORAGE/ SUPPLY
4.00 m
1.20 m 0.50 m 0.40 m
8.00 m
1.30 m
BIRTHING ROOM
NEWBORN RESUSCITATION COUNTER
2
2
1.20 m
OB WARD/ FAMILY ROOM
3
0.99 m
2
8.00 m
A.C. UNIT
1
2.30 m
3.00 m
0.44 m
3
:: N o r t h E l e v a t i o n
A9
002
scale: 1mm=100mm
:: We s t E l e v a t i o n scale: 1mm=100mm
First Floor Plan scale: 1mm=100mm
First Floor Plan A3
Kawit Birthing Center
Kawit Birthing Center Schematic Design
1 June 2016
Elevations A9
19
S u mme r 2016 NUVA P h i l ippi n es T eam : H a gge r ty , L u t z , L o o m a n , P at t e rs o n , S e ve r s o n , G e n er a l
158 Harmon Drive Northfield, VT
Erik Sommerfeld 4:00pm Dec 2 nd C HAPLIN H A L L G ALLERY
A s s i s t a n t Pro f e s s o r o f Architecture
Director of Colorado Building Workshop
16 Sep. 12-5
Student Art Auction
19 Sep. 12-1
Julia Doucet
30 Sep. 4:00
Student Research Fellowships + Philippines Service Trip
21 Oct. 4:00
Mareike Lee
11 Nov. 4:00
Erik Sommerfeld
27 Jan. 4:00
Steve Badanes
24 Feb. 4:00
Frano Violich
24 Mar. 4:00
Dan Rockhill
14 Apr. 3:00
Design B u i l d Symposium
Proceeds benefit the SoA+A Endowment
El viaje mas caro/The Most Costly Journey Comic Strips as Community Story Telling
Norwich University City Lab, Berlin
U of Colorado Design Build Bluff
Neighborhood Design/Build Studio Jersey Devil
Kennedy Violich Architecture
Rockhill and Associates Studio 804 U of Kansas
Emilie Taylor Tulane City Center
SinĂŠad McNamara Syracuse University
Larry Bowne
Larry Bowne Architects Kansas State University
JosĂŠ Galarza
U of Utah Design Build Bluff
Norwich University School of
Architecture Art
Lecture Series 2016-2017
supported by the Jack and Dorothy Byrne Foundation
Lecture series supported by the Jack and Dorothy Byrne Foundation
Graphic Design
Lectures and events free and open to the public Location: Chaplin Hall Gallery, Norwich University, 158 Harmon Drive, Northfield, Vermont, 802.484.2620
20
Product Design
21
Photography
22
