Vincenzo Stagnitta 2012 Portfolio
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Transcript of Vincenzo Stagnitta 2012 Portfolio
2012
Vincenzo StagnittaBFA - MArch
Vincenzo Stagnitta MArch6474 des Angevinsville d’Anjou, Montreal QuebecH1K-3R5, Canada
email: [email protected]
tel:(438) 990-7443
notebook- thesis sketches/diagrams
August -2012
4
CV
Urban NatatoriumUniversity of Toronto2011- Joint studio with faculty of engineering.2010-2011
R.E.D2nd place international competition finalists with Janet Rosenberg Landscape Arch.2010
P2P EnergiaInstallation for the 2010 Venice Bienale of Archi-tecture .2010
Harbour Front SchoolInstallation for the 2010 Venice Bienale of Archi-tecture .2010
Lava & Methods of Least ResistenceInstallation for the 2010 Venice Bienale of Archi-tecture .2010
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11
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41
55
aerial view of channel type lava mitigating building
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CV
Profile
Skills/ Tools/ Proficencies
I am applying for a full-time internship, starting as soon as there are availabilities.
Graduate from University of Toronto Masters in Arch. MARCH. completed Dec 2011
Vincenzo Stagnitta MArch 6474 des Angevinsville d’Anjou, Montreal QuebecH1K-3R5, Canada
tel:(438) 990-7443
email: [email protected]
Languages/Proficient in English, Francais and Italian
Software/Proficient in CAD , Revit, Rhino 3-d, Adobe Master Suite, ( Photoshop - Illustrator- In-Design ) etc...
Skilled in competition / Schematic /workshop design with excellent visualization skillsGood communicator and capable of working with different disciplines.
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Credentials
*Awarded the John H. Daniels Fellowship award in 2009University of Toronto for the Masters in Architecture Program
Concordia University, BFA Bachelors in Fine-Arts Major in Studio Arts / minor in Art History, Completed April
University of Toronto Masters in Architecture MArchArchitectural thesis presented December 12 - 2011Approved by the CACB ( Canadian Arch. Certification Board )
Attestation. Cours Santé et sécurité générale sur les chantiers de construction recu
2009-2011
2009
2006-2008
2009
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Work Experience
VS-AD ( Vincenzo Stagnitta - Architecture & Design ) Director / Founderwww.vs-ad.com
Janet Rosenberg Landscape Architects, Toronto Ontario www.jrala.ca
Student Intern
Studio Nowa, Architetti. in Catania, Italy www.studionowa.com
Student Intern
David Lieberman Architect. Toronto, OntarioArchitectural Assistant
2012
2011
2010
2009-2011
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"P2P" installation / in the arsenale
Venezia 2010 International Bienale of Architecture
in Venice
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Related Work and Accomplishments
Philanthropic work done for the Mother Teresa Foundation in Porte au Prince Haiti with the design of a transition home for Haitians affected by the earthquake of 2010. The project and model of the home was delivered to Porte au Prince in March 2011.
Founder of VS-AD ( Vincenzo Stagnitta - Architecture & Design. VS-AD is a multi-disciplinary architectural studio involved in a variety of projects from office / residential design to graphic design. VS-AD is active since January 2012
Research published with Studio Nowa for the remediation of Giampillieri, Messi-na Italy on the future of neighbourhoods affected by the earthquakes of 2009.
Performed research with National Spelunking Society of Southern Italy
Awarded the John H. Daniels Faculty of Architecture Entry Scholarship
Architectural Video : “The Alchemist’s Garden” screened at Toronto’s Harbour Front Gallery for David Lieberman Architect.
Participated in the 2010 Architectural Biennale di Venezia with Studio Nowa.with the installation “P2P Energia” in the exhibition Italia/ailati 2050, in the Arse-nale of Venice
2012
2011
2011
2010
2010
2010
2009
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Interests etc
My interests lie in : sports / art / culture / movies & music . Francis Ford Coppola movies / Seeing Italy win many more world cups / One day bike riding up mount Etna.Food and conversation as well as long hours learning how to make things.
Assisted Karmen Frankovich, founder of ZERO-TH for the construction and fab-rication of the exhibition “Hinge Dimension” which was exhibited in Cambridge, UK
Participated in art exhibitions at Eva-B / Ctl-Lab in Montreal for installation titled “M.M.M” (Mattri-Mastru-Macchina)
Composed 3 musical tracks w/ the Urban Element for the compilation “ Future Sound of Montreal “ volume 1. Mix 96 Records / Electronic Music
2009
2009
2006
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The goal of the Natatorium designed for Christie Pitts Park was to have a public building that disappeared into the park yet was visually stunning. The project was therefore explained in a series of models and
renderings.
International Finalists / 2nd place
Urban Natatorium
team /
Max Berg - Vincenzo Stagnitta - with faculty Engineering UofT
above/diagrid model of Natatorium-the diagrid i-beam structure offered the possibility to for many apertures to allow for a pleasant light from the interior as well as a reflective quality from the exterior
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previous/roof plan of diagrid
above/3d printed model in resin-
mdf base 12''x12''
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above/view onto roof deck
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sectional model ( short section ) displaying
3 programs : 1.bath house
2.lounge3.olympic + diving pools
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Roof Construction Patternupper glazing layer
lower kalwall layer
structural diagrid layer
EXTERIOR GLAZING
INTERIOR GLAZING
1.
1.
EXTERIOR GLAZING : SOLAR PROTECTIVE GLAZING. 8mmTOUGHENED GLASS 15mmCAVITY 11 mm SAFETY GLASS
DIAGRID CELL (HARDWARE)
2. 2.1 _ W 1000
2.2_ HSS 4.3 X 4.8
2.3_ 3/4 ROD WITH CONNECTION
3.
3.
TRANSLUCENT GLAZING W/ GLASS FIBRE INTERLAY 12 mm OF TOUGHENED GKASS+ 4mm FLOAT GLASS + 16mm SAFETY GLASS
2.1
2.2
2.3
Roof Construction Patternupper glazing layer
lower kalwall layer
structural diagrid layer
EXTERIOR GLAZING
INTERIOR GLAZING
1.
1.
EXTERIOR GLAZING : SOLAR PROTECTIVE GLAZING. 8mmTOUGHENED GLASS 15mmCAVITY 11 mm SAFETY GLASS
DIAGRID CELL (HARDWARE)
2. 2.1 _ W 1000
2.2_ HSS 4.3 X 4.8
2.3_ 3/4 ROD WITH CONNECTION
3.
3.
TRANSLUCENT GLAZING W/ GLASS FIBRE INTERLAY 12 mm OF TOUGHENED GKASS+ 4mm FLOAT GLASS + 16mm SAFETY GLASS
2.1
2.2
2.3
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above/ roof assembly i-beam layout
below /model photo ( detail of roof
deck )
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view from park/As the building mimics and channels roof run-off water to the surrounding newly planted landscape composed of local trees and plants which are disappearing in the city of Toronto because of massive densification and massive -concretezation- new types of public spaces are created inside the park.
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view from bath house-showing water-wall ( water recycling process made visible to the users next/ architectural elevations alongside faculty of engineering drawings
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DISPLACED SHAPE UNDER HYDROSTATIC WATER PRESSURE LOADS
WATER WALL / WATER STORAGE TANK
DISPLACED SHAPE UNDER HYDROSTATIC WATER PRESSURE LOADS
WATER WALL / WATER STORAGE TANK
DISPLACED SHAPE UNDER HYDROSTATIC WATER PRESSURE LOADS
WATER WALL / WATER STORAGE TANK
DISPLACED SHAPE UNDER HYDROSTATIC WATER PRESSURE LOADS
WATER WALL / WATER STORAGE TANK
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27
28
view from park-endangered local plants now occupy the park -the plants and trees grown in the park are re-distributed to selected city sites
29
International Finalists / 2nd place
R.E.D Research Evolution Design
ARC ( Animal Road Crossing ) was an international design competition aimed to find solutions that would
repair animal migratory paths that have been severed from highways that cut
though natural landscapes.The project was submitted by Janet
Rosenberg and an architectural team of 6 members
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current/presentation box / book
delivered to Colorado Jury next/
diagrams explaining bridge design
/section of bridge with
planting
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UV
UV
UV
ANCESTRAL REPTILE
ANCESTRAL MAMMAL
UV
BIRD
UV
MODERN MAMMAL
UV
MODERN HUMAN
ANCESTRAL PRIMATE
COLOR VISION: OTHER MAMMALS DON’T SEE RED
UV
UV
UV
ANCESTRAL REPTILE
ANCESTRAL MAMMAL
UV
BIRD
UV
MODERN MAMMAL
UV
MODERN HUMAN
ANCESTRAL PRIMATE
COLOR VISION: OTHER MAMMALS DON’T SEE RED
6 CONTACTS = 18 ROUTES2 CONTACTS = 2 ROUTES
ACCELERATED SCIENCE: Motion-triggered cameras at each entrance will capture data about 18 different choices of path, allowing researchersto glean more detailed information about species-specific route preferences.
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WHY RED?We propose a red bridge. Red is a colour seen by humans but not seen by many mammals, including our target species, who instead perceive a grayish tone when looking at a red object. A red bridge has the striking potential to become an important icon in the Colorado landscape. It alludes too in form and color to the reddish iron ores that cover the surface of many hills in the state, including Red Hills. The color red is evocative, symbolic, and emotional. A red wildlife crossing will be relevant to the people that drive by, help them to feel more connected with the surroundings, and spark their curiosity. It will be a recognizable landmark, set hovering above the road against the layered folds of Vail Pass, reminding us that we do not walk alone, that we share the landscape with other living
beings.
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current/aerial view of A.R.C in
chosen location
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Venezia Oct, 2050
Venezia Oct, 2050
“The continued heating of the atmosphere had begun to melt the polar ice-caps. The entrained ice-seas
of the Antarctic plateau broke and dissolved,[…]The Mediterranean contracted into a system of inland lakes, the British Isles was linked again with northern France.
The Middle West of the United States, filled by the Mississippi as it drained the Rocky Mountains, became
an enormous gulf opening into the Hudson Bay, while the Caribbean Sea was transformed into a desert of silt
and salt flats. Europe became a system of giant lagoons, centred on the principal low-lying cities, inundated by the
silt carried southwards by the expanding rivers.”(Ballard, James Graham, The drowned world, Berkley Publishing Corp., New
York (NY) 1962, p. 26)
36
During the summer of 2010 Studio Nowa was invited to participate in the Venice Bienale of Architecture.
P2P Energia exhibited in the
Arsenale of Venezia for the Ailati 2050 / envisioning Italy 2050 exhibition
previous/presentation image
delivered to Curators for 1st phase of exhibition
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In 2050, the human body and algae reveal themselves to be the last unexplored resource for energy. Extending their reach like a network of energy, redefining the minimal measurement through architecture across a new synthesis between the artificial and natural...
Each individual will store the surplus of energy produced by his or her body in a liquid network where luminous algae will distribute energy as well as purify air of excess CO2.Rivers and artificial canals will form new landscapes infiltrating territories with a form of free energy.
next/cut sheet Type (A)Plexi-glass / laser cutimage/luminous algae. 55X actual size
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a1 a2
a3 a4
taglio: nero ( A4 ) 29.7cm x 21cm
incedere: griggio
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interior view of installation
detail view of cut plexi-glass
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a
b c
da
b c
d
a
b c
d
above/installation axonometric
drawingsnext/P2P exterior view
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a
b c
d
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team /
Stacie Drost - Vincenzo Stagnitta - 2010
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The Toronto waterfront is on a path of revitilization.
The 10-acre site was set to host a new Urban Elementary
School
The Slips Elementary School
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STRUCTURE
PRIVATE
zone 4 zone 3 zone 2 zone 1
PAR
TI
PUBLIC
RETAIL
E W
20 dB406080100 20dB 40 60 80 100
24h
12h
6h18h
24h
12h
6h18h
exterior site - public boardwalkexterior site - residential woonerf
12 month occupancy9 month occupancy
gross building area = 6702 m²site area = 3468 m²
PRIVATE PUBLICE W
W1100 Flange Beam200 HSS
W530 Flange Beam100 HSS
enclosed open
FRAMING EXTERIOR SPACE
SUN SHADING &WRAPPING
DAYLIGHT PENETRATION
2 31
MATERIALITY
SLICE SLIPPAGE PARK QUEENS QUAY
0m
4
-4
8
12
16
PROGRAMME
MASSING
SLIC
ES
SITE
SUMM
ERstack effect ventilation
WINTER
HRVHRV
in-floor radiant heatglass lightwell
SUSTAINABLE DESIGN STRATEGY
2
1
N
GREEN ROOFinhabit space
reduce stormwater runoff, increase insulation value
TROMBE WALLcapture heat in areas of maximum sun exposure (south west)
3
NATURAL VENTILATIONutilize westerly winds to create a stack effect chimney in the lightwells, provide operable windows in every space uniquely placed to maximize the ventilation path
4
SUN SHADINGretractable shade atop the lightwells, exterior facades provide shade to fully glazed walls
5
DAYLIGHTINGentirely glazed lightwells provide deeper daylight penetration
6
EXTERIOR CLADDINGprovision of a thick wrapping with a double layer of insulation
7
ZONESorganizing services and programme into zones, therefore able to shut off each independently when appropriate in an occupancy that is constantly in flux
8
zone 1
zone 2
zone 3
zone 4
SLIC
ING
THE
SLIP
SS
tacie Drost &
Vincenzo Stagnitta
STRUCTURE
PRIVATE
zone 4 zone 3 zone 2 zone 1
PAR
TI
PUBLIC
RETAIL
E W
20 dB406080100 20dB 40 60 80 100
24h
12h
6h18h
24h
12h
6h18h
exterior site - public boardwalkexterior site - residential woonerf
12 month occupancy9 month occupancy
gross building area = 6702 m²site area = 3468 m²
PRIVATE PUBLICE W
W1100 Flange Beam200 HSS
W530 Flange Beam100 HSS
enclosed open
FRAMING EXTERIOR SPACE
SUN SHADING &WRAPPING
DAYLIGHT PENETRATION
2 31
MATERIALITY
SLICE SLIPPAGE PARK QUEENS QUAY
0m
4
-4
8
12
16
PROGRAMME
MASSING
SLIC
ES
SITE
SUMM
ERstack effect ventilation
WINTER
HRVHRV
in-floor radiant heatglass lightwell
SUSTAINABLE DESIGN STRATEGY
2
1
N
GREEN ROOFinhabit space
reduce stormwater runoff, increase insulation value
TROMBE WALLcapture heat in areas of maximum sun exposure (south west)
3
NATURAL VENTILATIONutilize westerly winds to create a stack effect chimney in the lightwells, provide operable windows in every space uniquely placed to maximize the ventilation path
4
SUN SHADINGretractable shade atop the lightwells, exterior facades provide shade to fully glazed walls
5
DAYLIGHTINGentirely glazed lightwells provide deeper daylight penetration
6
EXTERIOR CLADDINGprovision of a thick wrapping with a double layer of insulation
7
ZONESorganizing services and programme into zones, therefore able to shut off each independently when appropriate in an occupancy that is constantly in flux
8
zone 1
zone 2
zone 3
zone 4
SLIC
ING
THE
SLIP
SS
tacie Drost &
Vincenzo Stagnitta
previous/idea drawing for school showing structural density current/diagrams showing building function
46
STRUCTURE
PRIVATE
zone 4 zone 3 zone 2 zone 1
PAR
TI
PUBLIC
RETAIL
E W
20 dB406080100 20dB 40 60 80 100
24h
12h
6h18h
24h
12h
6h18h
exterior site - public boardwalkexterior site - residential woonerf
12 month occupancy9 month occupancy
gross building area = 6702 m²site area = 3468 m²
PRIVATE PUBLICE W
W1100 Flange Beam200 HSS
W530 Flange Beam100 HSS
enclosed open
FRAMING EXTERIOR SPACE
SUN SHADING &WRAPPING
DAYLIGHT PENETRATION
2 31M
ATERIALITY
SLICE SLIPPAGE PARK QUEENS QUAY
0m
4
-4
8
12
16
PROGRAMME
MASSING
SLIC
ES
SITE
SUMM
ERstack effect ventilation
WINTER
HRVHRV
in-floor radiant heatglass lightwell
SUSTAINABLE DESIGN STRATEGY
2
1
N
GREEN ROOFinhabit space
reduce stormwater runoff, increase insulation value
TROMBE WALLcapture heat in areas of maximum sun exposure (south west)
3
NATURAL VENTILATIONutilize westerly winds to create a stack effect chimney in the lightwells, provide operable windows in every space uniquely placed to maximize the ventilation path
4
SUN SHADINGretractable shade atop the lightwells, exterior facades provide shade to fully glazed walls
5
DAYLIGHTINGentirely glazed lightwells provide deeper daylight penetration
6
EXTERIOR CLADDINGprovision of a thick wrapping with a double layer of insulation
7
ZONESorganizing services and programme into zones, therefore able to shut off each independently when appropriate in an occupancy that is constantly in flux
8
zone 1
zone 2
zone 3
zone 4
SLIC
ING
THE
SLIP
SS
tacie Drost &
Vincenzo Stagnitta
STRUCTURE
PRIVATE
zone 4 zone 3 zone 2 zone 1
PAR
TI
PUBLIC
RETAIL
E W
20 dB406080100 20dB 40 60 80 100
24h
12h
6h18h
24h
12h
6h18h
exterior site - public boardwalkexterior site - residential woonerf
12 month occupancy9 month occupancy
gross building area = 6702 m²site area = 3468 m²
PRIVATE PUBLICE W
W1100 Flange Beam200 HSS
W530 Flange Beam100 HSS
enclosed open
FRAMING EXTERIOR SPACE
SUN SHADING &WRAPPING
DAYLIGHT PENETRATION
2 31
MATERIALITY
SLICE SLIPPAGE PARK QUEENS QUAY
0m
4
-4
8
12
16
PROGRAMME
MASSING
SLIC
ES
SITE
SUMM
ERstack effect ventilation
WINTER
HRVHRV
in-floor radiant heatglass lightwell
SUSTAINABLE DESIGN STRATEGY
2
1
N
GREEN ROOFinhabit space
reduce stormwater runoff, increase insulation value
TROMBE WALLcapture heat in areas of maximum sun exposure (south west)
3
NATURAL VENTILATIONutilize westerly winds to create a stack effect chimney in the lightwells, provide operable windows in every space uniquely placed to maximize the ventilation path
4
SUN SHADINGretractable shade atop the lightwells, exterior facades provide shade to fully glazed walls
5
DAYLIGHTINGentirely glazed lightwells provide deeper daylight penetration
6
EXTERIOR CLADDINGprovision of a thick wrapping with a double layer of insulation
7
ZONESorganizing services and programme into zones, therefore able to shut off each independently when appropriate in an occupancy that is constantly in flux
8
zone 1
zone 2
zone 3
zone 4
SLIC
ING
THE
SLIP
SS
tacie Drost &
Vincenzo Stagnitta
47
view from inside lightwell
48
DN
DN
UP
DN
DN
UP
UP
DN
ATHLSTORGYMNASIUM
GENERAL PURPOSE KITCHEN
STAGE
CHANGE RM
CHANGE RM
WC
WC
WC
OFFICE & ACADEMIC STORAGE
STAFF RM
W/C JAN
HEALTH
GUIDANCE
VICE PRINCIPAL
PRINCIPAL
STORAGE
PARENTING CENTER
KINDERGARDEN
KINDERGARDEN
KINDERGARDEN
KINDERGARDEN
EXTERIOR KINDERGARDEN PLAYSPACE
UP
UP
UP DN UP DN
UPDN
UP
DN
UP
DN
UP
DN PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
ARTSCIENCE
LIBRARY
SEMINARSEMINAR
JAN
WC
WC
MECHANICAL
JUNIOR
JUNIOR
JUNIOR
JUNIOR
JUNIOR
JUNIOR
RESOURCE RM
SPECIAL ED
WC
WCSUPPLIES
JAN
MUSIC
COMPUTER LOUNGE
INTERMEDIATEINTERMEDIATE INTERMEDIATE
DN DN
DN DN
A A
B1:50
B1:50
A A
B1:50
B1:50
A A
B1:50
B1:50
A A
B1:50
B1:50
A A
B1:50
B1:50
current/1st floor plannext/2nd floor plan
50
DN
DN
UP
DN
DN
UP
UP
DN
ATHLSTORGYMNASIUM
GENERAL PURPOSE KITCHEN
STAGE
CHANGE RM
CHANGE RM
WC
WC
WC
OFFICE & ACADEMIC STORAGE
STAFF RM
W/C JAN
HEALTH
GUIDANCE
VICE PRINCIPAL
PRINCIPAL
STORAGE
PARENTING CENTER
KINDERGARDEN
KINDERGARDEN
KINDERGARDEN
KINDERGARDEN
EXTERIOR KINDERGARDEN PLAYSPACE
UP
UP
UP DN UP DN
UPDN
UP
DN
UP
DN
UP
DN PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
PRIMARY
ARTSCIENCE
LIBRARY
SEMINARSEMINAR
JAN
WC
WC
MECHANICAL
JUNIOR
JUNIOR
JUNIOR
JUNIOR
JUNIOR
JUNIOR
RESOURCE RM
SPECIAL ED
WC
WCSUPPLIES
JAN
MUSIC
COMPUTER LOUNGE
INTERMEDIATEINTERMEDIATE INTERMEDIATE
DN DN
DN DN
A A
B1:50
B1:50
A A
B1:50
B1:50
A A
B1:50
B1:50
A A
B1:50
B1:50
A A
B1:50
B1:50
51
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previous/east-west elevation / north-south elevation
next/south elevation / north elevation
The purpose for the light wells (slips) were to conceptually divide different concentrations of program as well as offer bright North-South Hall ways which act as solar-chimneys releasing heat at the top of the glass structures while aerating congested corridors with cool air from the Toronto Harbour
54
previous/detail of lightwell
current/full detail of lightwell
next/1:50 section through
school
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59
60
March 8, 1669:
Mount Etna rumbles. Diego de Pappalardo a resident of Catania city leads fifty men up Europe’s largest and most active volcano wearing cowhide soaked in water, with iron rods, picks and shovels to divert the oncoming lava. Pappalardo’s brave efforts succeed; ... Mount Etna continuedto erupt for twenty days and eventually oncoming lava destroyed 14 villages and towns, swallowed parts of Catania, left 20,000 people homeless and killed 17,000 people...¹_
Lava &Methods of Least
Resistance
1_http://www.history.com/this-day-in-history/mount-etna-erupts
1594
1879
2001 2004 2006 2009
1604
1892 1910 1923 1928
1942 1949 1950 1964 1971
1976 1981 1983 1986 1987
1614 1634 1654
1699 1753 1764 1776 1792
1809 1832 1843 1853 1862
previous/ composite map composed of historical lava flows with satelite imagery taken from Nasa Satelitesnext/catalogue of most significant lava flows (1500's-2004)
61
next/Lava from Mount Etna nearly covering an entire residence from 2001 Eruption
Resistance
The notion of resisting the forces of nature is at the core of lava mitigation, perhaps we should look to how to make our landscapes embrace these types of catastrophes.
62
63
64
un-PredictabilityToday with the help of modern sciences volcanic activity is somewhat more predictable yet always remains an impossibility to specify exactly when or for how long eruptions may occur. These forecasts performed by highly talented teams of scientists like the IINGV ( Istituto Nazionale di Geofisica e Vulconologia) help prepare settlements on
and around the volcano for the worst case scenario.
previous/composite map composed from INGV data and topographic material
65
This realization calls for new methods of defensive systems in hazardous volcanic zones...
I propose the concept of ‘Least Resistance’Methods which do not try to resist the next eruption, or out-engineer the forces of nature. Instead invent methods which may embrace the next catastrophe... which may provide a new vocabulary for the study of landscape and the built form in vulnerable volcanic zones.
next/lava mitigation deflecting type before and during lava eruption
66
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$
$
$
$
$
$
$
$
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farming + harvesting lavaPreparing the landscape with pockets of earth which will anticipate lava would help agriculturers with an altermnative harvest. A slow landscape such as this would offer farmers an insurance and free natural resource that could be re-distributed or used on-site.
next/landscape with mold ready to receive and cast lava
existing landscape found in hazardous areas
landscape built to accomodate existing crop types
the arrival of lava fills the landscape pockets - cooks earth below
lava from moulds are removed - cooked earth can be removed and sold to local as well as international markets
once resources are extracted / stored/ sold , landscape can be cleared and process can be repated again.
68
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current/lava channelling type into
prepared landscape
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current/sectional perspective
through typical unit showing construction / with local material
assembled in MSW-s
73
current/5 meter long section showing / program and activity in typical lava mitigating village
74
Thank-You, Merci,
Grazie,Sincerely,
Vincenzo Stagnitta
email: [email protected]
tel:(438) 990-7443
75