Scirè Davide
The project explores the theme of the Aghori, an ascetic sect of Hinduism that lives in close contact with death.
The site chosen is located in Varanasi, India, one of the holiest cities for Hindus, known as the "city of light" and "city of Shiva".
The project proposes the construction of an Aghori ashram on the banks of the Ganges, with the aim of hosting ascetics and pilgrims.
The complex is organized around an internal courtyard and consists of:
- Accommodation cells for ascetics
- Guest rooms for pilgrims
- Common spaces
- Funeral rites area
- Meditation pavilions
2. Veiled Tower
Veiled Tower
INDEX
INDEX
Curriculim Vitae 03
Aghorà 05
Home Dora 09
Veiled Tower 11
Ruin as Project 15
The new Urbantank 19
Introspection déformée 23
PéréGr(a)iner 25
Precollinar Park 29
Professional experience 31
05
09
11
15
19
23
25
29
3. Education
EMILIO GRECO NATIONAL SCHOOL OF ART
Catania, Italy
Field: Architecture and Environment
2011 - 2016
POLYTECHNIC OF TURIN
Turin, Italy
Bachelor: Architectural Science
2016 - 2020
ECOLE NATIONALE SUPERIEURE D’ARCHITECTURE
Lyon, France
Erasmus 10 mo.
2020 - 2021
RWTH AACHEN UNIVERSITY
Aachen, Germany
Summer school - Smart cities
13-19 june 2022
POLYTECHNIC OF TURIN
Turin, Italy
Master: Architecture for Sustainable Design
2019 - Currently
Experiences
Certificate of participation in the course:
ECDL CAD Versione 1.5
Catania, Italy
2014
Hours: 30
MIUR National Competition:
“NewDesignduemilaquindici – New Italian Food”
“NewDesignduemilasedici – #Insieme per”
Venezia, Italy
2015-16
Agence “PICCO ARCHITETTI”
Turin, Italy
2019
Stage hours: 300
Agence “ISOLA ARCHITETTI”
Turin, Italy
2021
Stage hours: 250
Studio PICCO ARCHITETTI
Turin, Italy
Freelance collab.: 2019-2021
Junior architect:2021-actually
Torinostratosferica
Volunteer: Actually
Languages
Italian: madrelingua
English: B1 - IELTS 5.0
French: C1- OLS Test
Birth 6 mai 1997
Nationality Italian
Contacts
Mobile +39 3208041163
e-mail davide.scire97@gmail.com
Adress Via Valdieri 8 - Torino, Italy
Davide Scirè
Skills
Knowledge of software:
LUMION
BLENDER
ADOBE PREMIERE PRO
ADOBE AFTER EFFECTS
For rendering and
video animations.
3DS MAX
AUTOCAD
REVIT
GOOGLE SKETCHUP
RHINO+GRASSOPPHER
For technical drawing, 3D modeling.
Axonometrics, 3D cutting, parametric
modeling
ADOBE PHOTOSHOP
ADOBE LIGHTROOM
For image editing and processing
ADOBE INDESIGN
ADOBE ILLUSTRATOR
For graphic design, posters, brochures
and monographs.
Formative
Formative
Experience
Experience
Since my high school, I took the path of “architecture
and environment,” a choice that allowed me to master
the design method, refine my critical thinking skills in
solving architectural composition problems, and improve
my proficiency in technical drawing and 3D modeling
programs. I took the opportunity to participate in several
national competitions organized by the Italian Ministry of
Education, where I had the chance to present my projects
to the scrutiny of experts in the field.
During my graduate studies in Architectural Science
at Polytechnic of Turin, I acquired extensive scientific
and technical knowledge, as well as a wealth of design
experience. My bachelor’s degree further ignited my
passion for the subject, fueling my desire to explore
cutting-edge technological and environmental solutions
in architecture. This led me to pursue a Master’s degree in
“Architecture for Sustainable Projects.”
In my second year of the Master’s program, I searched to
push the boundaries of my experience by studying abroad
in Europe, attending the Ecole Nationale Superieure
D’architecture de Lyon for a year. This experience proved to
be a turning point in my career, as it exposed me to a wide
range of architectural concepts and design techniques
and gave me the opportunity to work with colleagues
from different cultural and linguistic backgrounds, greatly
expanding my knowledge.
I further refined my skills through an internship at the
esteemed firm “Picco Architects,” a firm where I have
been working since January 2019. This experience gave
me the opportunity to work in a professional environment,
interacting closely with a team of experts, and to gain a
comprehensive understanding of the various phases and
timelines of a project, as well as the bureaucratic and
administrative aspects involved.
Very enriching was another work experience at the
renowned Italian firm “Isolarchitetti” gave me the
opportunity to interface with a broader and more complex
work reality. In June 2022, I was selected for a week-long
summer school at RWTH Aachen University in Aachen,
where I had the chance to immerse myself in a highly
technical environment, broadening my cultural horizons
and interacting with professionals from all over Europe.
Through a series of multidisciplinary experiences, I
had the privilege of working alongside engineers from
different backgrounds, further enhancing my ability to
collaborate in interdisciplinary teams. Finally, since April
2022, I have been actively involved as a volunteer in the
Torinostratosferica project, a nonprofit organization that
designs and revitalizes abandoned areas in the city of
Turin.
3
4. Education
EMILIO GRECO NATIONAL SCHOOL OF ART
Catania, Italy
Field: Architecture and Environment
2011 - 2016
POLYTECHNIC OF TURIN
Turin, Italy
Bachelor: Architectural Science
2016 - 2020
ECOLE NATIONALE SUPERIEURE D’ARCHITECTURE
Lyon, France
Erasmus 10 mo.
2020 - 2021
RWTH AACHEN UNIVERSITY
Aachen, Germany
Summer school - Smart cities
13-19 june 2022
POLYTECHNIC OF TURIN
Turin, Italy
Master: Architecture for Sustainable Design
2019 - Currently
Experiences
Certificate of participation in the course:
ECDL CAD Versione 1.5
Catania, Italy
2014
Hours: 30
MIUR National Competition:
“NewDesignduemilaquindici – New Italian Food”
“NewDesignduemilasedici – #Insieme per”
Venezia, Italy
2015-16
Agence “PICCO ARCHITETTI”
Turin, Italy
2019
Stage hours: 300
Agence “ISOLA ARCHITETTI”
Turin, Italy
2021
Stage hours: 250
Studio PICCO ARCHITETTI
Turin, Italy
Birth 6 mai 1997
Nationality Italian
Contacts
Mobile +39 3208041163
e-mail davide.scire97@gmail.com
Adress Via Valdieri 8 - Torino, Italy
Davide Scirè
Skills
Knowledge of software:
LUMION
BLENDER
ADOBE PREMIERE PRO
ADOBE AFTER EFFECTS
For rendering and
video animations.
3DS MAX
AUTOCAD
REVIT
GOOGLE SKETCHUP
RHINO+GRASSOPPHER
For technical drawing, 3D modeling.
Axonometrics, 3D cutting, parametric
modeling
Educa
EMILIO G
Catania,
Field: Arc
2011 - 20
POLYTEC
Turin, Ita
Bachelor
2016 - 20
ECOLE N
Lyon, Fra
Erasmus
2020 - 2
RWTH AA
Aachen,
Summer
13-19 jun
POLYTEC
Turin, Ita
Master: A
2019 - Cu
Exper
Certificat
ECDL CA
Catania,
2014
Hours: 30
MIUR Na
“NewDes
“NewDes
Venezia,
2015-16
Agence “
Turin, Ita
2019
Stage ho
Agence “
Turin, Ita
2021
Stage ho
Studio PI
Turin, Ita
Freelanc
Junior ar
Torinostr
Voluntee
Langu
Italian: m
English: B
French: C
Interes
Contemp
Art and p
Design a
Technolo
Birth 6 mai 1997
Nationality Italian
Contacts
Mobile +39 3208041163
e-mail davide.scire97@gmail.com
Adress Via Valdieri 8 - Torino, Italy
Davide Scirè
Skills
Knowledge of software:
LUMION
BLENDER
ADOBE PREMIERE PRO
ADOBE AFTER EFFECTS
For rendering and
video animations.
3DS MAX
AUTOCAD
REVIT
GOOGLE SKETCHUP
RHINO+GRASSOPPHER
For technical drawing, 3D modeling.
Axonometrics, 3D cutting, parametric
modeling
ADOBE PHOTOSHOP
ADOBE LIGHTROOM
For image editing and processing
ADOBE INDESIGN
ADOBE ILLUSTRATOR
For graphic design, posters, brochures
and monographs.
ECHO 6
ECOTECT
TERMOLOG EPIX
For energy, lighting, thermal and acoustic
analyses
Education
EMILIO GRECO NATIONAL SCHOOL OF ART
Catania, Italy
Field: Architecture and Environment
2011 - 2016
POLYTECHNIC OF TURIN
Turin, Italy
Bachelor: Architectural Science
2016 - 2020
ECOLE NATIONALE SUPERIEURE D’ARCHITECTURE
Lyon, France
Erasmus 10 mo.
2020 - 2021
RWTH AACHEN UNIVERSITY
Aachen, Germany
Summer school - Smart cities
13-19 june 2022
POLYTECHNIC OF TURIN
Turin, Italy
Master: Architecture for Sustainable Design
2019 - Currently
Experiences
Certificate of participation in the course:
ECDL CAD Versione 1.5
Catania, Italy
2014
Hours: 30
MIUR National Competition:
“NewDesignduemilaquindici – New Italian Food”
“NewDesignduemilasedici – #Insieme per”
Venezia, Italy
2015-16
Agence “PICCO ARCHITETTI”
Turin, Italy
2019
Stage hours: 300
Agence “ISOLA ARCHITETTI”
Turin, Italy
2021
Stage hours: 250
Studio PICCO ARCHITETTI
Turin, Italy
Freelance collab.: 2019-2021
Junior architect:2021-actually
Torinostratosferica
Volunteer: Actually
Languages
Italian: madrelingua
English: B1 - IELTS 5.0
French: C1- OLS Test
Interests
Contemporary architecture
Art and photography
Design and fashion
Technology and sustainability
Birth 6 mai 1997
Nationality Italian
Contacts
Mobile +39 3208041163
e-mail davide.scire97@gmail.com
Adress Via Valdieri 8 - Torino, Italy
Davide Scirè
Skills
Knowledge of software:
LUMION
BLENDER
ADOBE PREMIERE PRO
ADOBE AFTER EFFECTS
For rendering and
video animations.
3DS MAX
AUTOCAD
REVIT
GOOGLE SKETCHUP
RHINO+GRASSOPPHER
For technical drawing, 3D modeling.
Axonometrics, 3D cutting, parametric
modeling
ADOBE PHOTOSHOP
ADOBE LIGHTROOM
For image editing and processing
ADOBE INDESIGN
ADOBE ILLUSTRATOR
For graphic design, posters, brochures
and monographs.
ECHO 6
ECOTECT
TERMOLOG EPIX
For energy, lighting, thermal and acoustic
analyses
Education
EMILIO GRECO NATIONAL SCHOOL OF ART
Catania, Italy
Field: Architecture and Environment
2011 - 2016
POLYTECHNIC OF TURIN
Turin, Italy
Bachelor: Architectural Science
2016 - 2020
ECOLE NATIONALE SUPERIEURE D’ARCHITECTURE
Lyon, France
Erasmus 10 mo.
2020 - 2021
RWTH AACHEN UNIVERSITY
Aachen, Germany
Summer school - Smart cities
13-19 june 2022
POLYTECHNIC OF TURIN
Turin, Italy
Master: Architecture for Sustainable Design
2019 - Currently
Experiences
Certificate of participation in the course:
ECDL CAD Versione 1.5
Catania, Italy
2014
Hours: 30
MIUR National Competition:
“NewDesignduemilaquindici – New Italian Food”
“NewDesignduemilasedici – #Insieme per”
Venezia, Italy
2015-16
Agence “PICCO ARCHITETTI”
Turin, Italy
2019
Stage hours: 300
Agence “ISOLA ARCHITETTI”
Turin, Italy
2021
Stage hours: 250
Studio PICCO ARCHITETTI
Turin, Italy
Freelance collab.: 2019-2021
Junior architect:2021-actually
Torinostratosferica
Volunteer: Actually
Languages
Birth 6 mai 1997
Nationality Italian
Contacts
Mobile +39 3208041163
e-mail davide.scire97@gmail.com
Adress Via Valdieri 8 - Torino, Italy
Davide Scirè
Skills
Knowledge of software:
LUMION
BLENDER
ADOBE PREMIERE PRO
ADOBE AFTER EFFECTS
For rendering and
video animations.
3DS MAX
AUTOCAD
REVIT
GOOGLE SKETCHUP
RHINO+GRASSOPPHER
For technical drawing, 3D modeling.
Axonometrics, 3D cutting, parametric
modeling
ADOBE PHOTOSHOP
ADOBE LIGHTROOM
For image editing and processing
ADOBE INDESIGN
ADOBE ILLUSTRATOR
OTHER EXPERIENCES
_04/2022 - Current
VOLUNTEER ARCHITECT / URBAN
DESIGNER
TORINO STRATOSFERICA
Design of urban solutions and placemaking projects,
with the aim of re-evaluating the identity of the place.
_10/2022
MICROSOFT EXCEL
ABEA FORM
In-depth knowledge of Microsoft Excel software; 80 h
_05/2022
IREN RENEWABLES CONTEST
IREN GROUP
Project work, teamworking and role play for the design
of a photovoltaic system
_2021
CERTIFICAZIONE ENERGETICA APE
POLYTECHNIC UNIVERSITY OF TURIN
_2014
ECDL CAD 1.5
Certificate of participation in the technical drawing and
3D modelling course; 30 h
WORK EXPERIENCES
_2019 - Current
ARCHITECT
PICCO ARCHITETTI
Design assistance, architectural design, economic
evaluation and design of technical and economic
feasibility studies.
_10/2021 - 12/2021
ARCHITECT, TRAINEESHIP
ISOLA ARCHITETTI
Assistance with planning, drafting building procedures
and building permits.
_06/2021 - 08/2021
ENGINEER ASSISTANT
MAUGERI COSTRUZIONI
Architectural project, survey of the dwelling,
assessments of the state of conservation of the
property. Site inspection to verify the works and
their compliance with current regulations. Energy
assessment and building energy adaptation.
_05/2019- 07/2019
TECHNICAL DRAWER, TRAINEESHIP
PICCO ARCHITETTI
Cad drawer, building’s technology nodes solutions
drawer.
EDUCATION
_Current
MASTER DEGREE
SCIENCE IN ARCHITECTURE SUSTAINABLE
POLYTECHNIC UNIVERSITY OF TURIN
Thesis: “Use and analysis of cool materials and NBS
techniques for urban heat island mitigation”
_06/2022
SUMMER SCHOOL
RHEINISCH-WESTFÄLISCHE TECHNISCHE
HOCHSCHULE AACHEN UNIVERSITY
Course in “Smart cities - the next step in city evolution”,
an introduction of what smart cities are. Explore
ways in which the cities of today can become more
sustainable and efficient.
_2020 - 2021
10 MO. ERASMUS
ÉCOLE NATIONALE SUPÉRIEURE
D’ARCHITECTURE DE LYON
_2016-2019
BACHELOR’S DEGREE
SCIENCE OF ARCHITECTURE
POLYTECHNIC UNIVERSITY OF TURIN
7. +1
+1
0
0
Living
modules
18 mq
Expansible
modules
18 mq
F.+2
F.+1
F.0 0 1 5m
The project is based on the analysis of the existing project,
QuintaMonroy, by Aleandro Aravena in Iquique, Chile. The design
approach is motivated by the city’s political and economic context,
with an emphasis on economic considerations.
The solution proposed by Aravena is to expand the surface area of the
housing units in a locally-sourced manner, in order to increase their
commercial value.
The project involves the use of duplex housing modules that can
be combined and repeated on a large scale. The new development
is integrated with the existing project through an urban pathway
that connects two main city streets, which is transformed into a
local market, with the goal of promoting economic growth and
attractiveness of the area.
The project aims to provide economic recovery through the sale of
land outside the housing units and the opportunity for expansions,
which will increase their market value.
In terms of climate, the housing units have thick walls and utilize
passive systems such as porches, vegetation, and shading to regulate
2017 | Atelier - PoliTO, Turin | Aghorà
Aghorà
7
9. 2018 | Atelier - PoliTO, Turin | Home Dora
Home Dora
9
2018
Polytechnic of Turin _ Italy
Prof: Peretti Gabriella
Picco Cristiano
Equipe: Mantuano Giuseppe
Pullara Simone
Scirè Davide
Home Dora
Software
Revit - AutoCAD - Lumion - Photoshop
The design of the building is shaped by its location, with a focus on the view
of the Dora river. This influences the building’s form and its relationship to
sunlight and ventilation. The project prioritizes energy efficiency, utilizing
large windows on the south side to maximize passive solar gain. The use of a
frame structure allows for flexibility in the building’s envelope. The building’s
thermal functional element became a component of its architectural
language. The empty space in the middle of building promote natural
ventilation and improve air exchange within the building.
13. RIFERIMENTI E CONTESTO
Divisione maglia
per sottostruttura
Superficie
ricavata
Curve
generatrici
Stato di fatto
RIFERIMENTI E CONTESTO
Mo
Divisione maglia
per sottostruttura
Puntone regolabile che spinge la
superficie per creare il movimento di
facciata
Superficie
ricavata
Curve
generatrici
Stato di fatto
structural di-
vision surface
adjustable strut
for exposure
Facade sur-
face
shape genera-
ting curves
Existing buil-
ding
-Roman Theatre of Aosta 25 a.C.
This project examines ways to enhance the energy efficiency
and architectural design of heritage buildings through the use of
innovative building envelope technologies.
It takes into account the unique climate and environmental conditions
of the site, and aims to create a sustainable, bioclimatic approach.
The process begins by surveying the existing structure using data
extrapolation and definition of interoperability procedures between
Rhino Grasshopper and BIM environment. Then using that data to
design complex, eco-friendly systems that can be dry-assembled
onto the existing structure.
These systems must meet performance requirements set by
bioclimatic strategies and thermal-energy efficiency standards. In
order to optimize solar exposure, the project also analyses incident
solar radiation at different times of the year, and creates shadow
masks to control the shading on the building
13
2019 | Course - PoliTO, Turin | Veiled Tower
Veiled Tower
14. ROSSI RUOTOLO SALOMONE SCIRÈ
16/04/2020
CONCEPT
T1
Analisi obreggiamento Sud-Ovest con schermatu-
re orizzontale di 40° e verticale di 30°
21/06
21/12, radiazione solare
21/09
Analisi obreggiamento Sud-est con schermature
30° orizzontale e verticale
Analisi obreggiamento nord-ovest con schermatu-
re di 30° verticale e orizzontale
Total radiation, uffici Total radiation, residenza
a
ROSSI RUOTOLO SALOMONE SCIRÈ
16/04/2020
CONCEPT
T1
AA 2019-20 | Modellazione paramentrica avanzata dell’involucro edilizio
Docenti | Massimiliano Lo Turco, Michele Calvano, Francesca Thiébat,
Paolo Scoglio, Fabio Favoino
Collaboratori | Luigi Giovannini, Andrea Tomalini
Riscaldamento e raffrescamento annuale, ufficio
Radiazione solare.
21/09
Analisi obreggiamento nord-ovest con schermatu-
re di 30° verticale e orizzontale
Total radiation, uffici Total radiation, residenza
n questi schemi il tipo residenziale e alberghie-
e accomunate per praticità e corrispondenza di
n una temperatura di baseline di 20° in inverno
te; mentre per gli uffici sono stati adottate base-
amente di 18° e 12°.
no state analizzate la radiazione solare inci-
rispondenza degli equinozzi e dei solstizzi per
nche la corretta rotazione del sole attorno all’e-
to di studio.
tate realizzate delle maschere d’ombra per
à una corretta inclinazione e profondità delle
in maniera da ottiminare e sfruttare la radiazio-
alizzata in precenza.
ROSSI RUOTOLO SALOMONE SCIRÈ
16/04/2020
CONCEPT
T1
AA 2019-20 | Modellazione paramentrica avanzata dell’involucro edilizio
Docenti | Massimiliano Lo Turco, Michele Calvano, Francesca Thiébat,
Paolo Scoglio, Fabio Favoino
Collaboratori | Luigi Giovannini, Andrea Tomalini
Riscaldamento e raffrescamento annuale, ufficio
Radiazione solare.
Analisi obreggiamento Sud-Ovest con schermatu-
re orizzontale di 40° e verticale di 30°
21/06
21/09
Analisi obreggiamento nord-ovest con schermatu-
re di 30° verticale e orizzontale
Total radiation, uffici Total radiation, residenza
minari è stato possibile eviden-
elle 3 diverse funzioni inserite
lberghiero e terziario (uffici). In
il tipo residenziale e alberghie-
er praticità e corrispondenza di
ura di baseline di 20° in inverno
li uffici sono stati adottate base-
12°.
zate la radiazione solare inci-
gli equinozzi e dei solstizzi per
rotazione del sole attorno all’e-
delle maschere d’ombra per
nclinazione e profondità delle
ottiminare e sfruttare la radiazio-
nza.
Riscaldamento e raffrescamento annuale, residenza
Radiazione solare.
Analisi obreggiamento Sud-Ovest con schermatu-
re orizzontale di 40° e verticale di 30°
21/06
21/12, radiazione solare
annual radiation on surface
21/09
Analisi obreggiamento Sud-est con schermature
30° orizzontale e verticale
Analisi obreggiamento nord-ovest con schermatu-
re di 30° verticale e orizzontale
ibile eviden-
ioni inserite
rio (uffici). In
e e alberghie-
pondenza di
0° in inverno
adottate base-
Riscaldamento e raffrescamento annuale, residenza
Radiazione solare.
ROSSI RUO
16/04/2020
AA 2019-20 | Modellazione paramentrica avanzata dell’involucro edilizio
Docenti | Massimiliano Lo Turco, Michele Calvano, Francesca Thiébat,
Paolo Scoglio, Fabio Favoino
Collaboratori | Luigi Giovannini, Andrea Tomalini
Riscaldamento e raffrescamento annuale, ufficio
Radiazione solare.
21/09
Total radiation, uffic
Grazie a queste analisi preliminari è stato possibile eviden-
ziare le differenti esigenze delle 3 diverse funzioni inserite
nel progetto: residenziale, alberghiero e terziario (uffici). In
particolare in questi schemi il tipo residenziale e alberghie-
ro sono state accomunate per praticità e corrispondenza di
esigenze con una temperatura di baseline di 20° in inverno
e 26° in estate; mentre per gli uffici sono stati adottate base-
line rispettivamente di 18° e 12°.
in seguito sono state analizzate la radiazione solare inci-
dente in corrispondenza degli equinozzi e dei solstizzi per
analizzare anche la corretta rotazione del sole attorno all’e-
dificio oggetto di studio.
Infine sono state realizzate delle maschere d’ombra per
ipotizzare già una corretta inclinazione e profondità delle
schermaturein maniera da ottiminare e sfruttare la radiazio-
ne solare analizzata in precenza.
Riscaldamento e raffrescamento annuale, residenza
Radiazione solare.
ANALISI SOLARE
AA 2019-20 | Modellazione paramentrica avanzata dell’involucro edilizio
Docenti | Massimiliano Lo Turco, Michele Calvano, Francesca Thiébat,
Roma
EuR
ToRRE
C
Riscaldamento e raffrescamento annuale, ufficio
Radiazione solare.
21/06
21/12, radiazione s
annual radiation on surface
21/09
Total radiation, uffici
Grazie a queste analisi preliminari è stato possibile eviden-
ziare le differenti esigenze delle 3 diverse funzioni inserite
nel progetto: residenziale, alberghiero e terziario (uffici). In
particolare in questi schemi il tipo residenziale e alberghie-
ro sono state accomunate per praticità e corrispondenza di
esigenze con una temperatura di baseline di 20° in inverno
e 26° in estate; mentre per gli uffici sono stati adottate base-
line rispettivamente di 18° e 12°.
in seguito sono state analizzate la radiazione solare inci-
dente in corrispondenza degli equinozzi e dei solstizzi per
analizzare anche la corretta rotazione del sole attorno all’e-
dificio oggetto di studio.
Infine sono state realizzate delle maschere d’ombra per
ipotizzare già una corretta inclinazione e profondità delle
schermaturein maniera da ottiminare e sfruttare la radiazio-
ne solare analizzata in precenza.
Riscaldamento e raffrescamento annuale, residenza
Radiazione solare.
Solar radiation simulation Southeast shading simulation with hori-
zontal and vertical shading at 30°
Total radiation and energy consumption. Office function
Total radiation and energy consumption. Residential function
4
5
6
7
8
9
10
1 2
3
1 Serramento doppia camera in legno
2 Tenda oscurante a rullo
3 Isolante in lana di vetro 12cm
4 Grigliato metallico per manutenzione
5 Staffa di giunzione al solaio in acciaio
6 Tirante in acciaio
7 Pistone regolabile
8 Tirante in acciaio
9 Telaio con tubolari in acciaio
10 Pannello polimerico in ETFE
1 Wooden double glazing
2 Shade roller blind
3 12 cm glass wool insulation
4 Metal grating for maintenance
5 Steel ceiling joint bracket
6 Steel tie rod
7 Adjustable piston
8 Steel tie rod
9 Steel tubular frame
10 Polymeric ETFE panel
1 2
4
5
6
8
9 10
7
3
15. 2019 | Atelier - PoliTO, Turin | R
Ruin as a project
uin as a project
15
2019
Polytechnic of Turin _ Italy
Prof: Giachino Davide
Lo Verso Valerio
Ravagnati Carlo
Equipe: Bulzoni Francesco
Scirè Davide
Ruinasproject
Software
Revit - AutoCAD - Thermolog - Echo - Ecotect - Photoshop
16.
17. Axonometric section detail 1:20
Structural scheme
The project aims to combine technical innovation and compositional
research. The construction characteristics of the innovative
technologies concern the use of a “light” construction in Xlam and
steel, specifically studying the environmental comfort aspects of
the interior spaces (visual, thermal and acoustic) and the energy
performance for air conditioning, lighting and heating.
The project is located in an urban structure now consolidated by the
railway and the proximity of the river Stura di Lanzo. The area has
a destination for accommodation activities, so the project foresees a
hotel establishment.
The compositional process of the project is based on the reasoning of
different compositional problems solved through the use of historical
architecture .
The compositional experiment concerns the exercise of repetition and
the production of difference in relation to given historic architectures;
The typological problem will concern the transformation of a plan of a
given building in order to use it in the design of the plan of a building
or part of a building
17
2019 | Atelier - PoliTO, Turin | R
Ruin as project
uin as project
18. PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
-Roman Theatre of Aosta 25 a.C.
Facade and floor studies
North South 0 1 5m
2K)
0.14 W/(m2K)
ie : 0.012 W/(m
1-
2-
3-
4-
5-
6-
Pannello di cartongesso
Rookwool acoustic 225
Pannello X-Lam
Rookwool Frontrock
Intonaco in calce
Trasmittanza termica U :
Trasmittanza termica periodica Y
Sfasamento φ : 12,87 h
Chiusura Orizzontale
1- Pannello di cartongesso
2- Barriera al vapore
3- Rookwool acoustic 225
4- Pannello X-Lam
5- Rookwool hardrock max
6- Guaina impermeabilizzante traspirante
7- Soletta in cls
8- Guaina impermeabilizzante traspirante
9- Ghiaia
Trasmittanza termica U : 0.14 W/(m2K)
Trasmittanza termica periodica Yie : 0.005 W/(m2K)
Sfasamento φ : 16,64 h
Isolamento acustico : 50 dB
Isolamento acustico : 52 dB
N
45°
90°
135°
180°
225°
270°
315°
10°
20°
30°
40°
50°
60°
70°
80°
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1st Jan
1st Feb
1st Mar
1st Apr
1st May
1st Jun
1st Jul
1st Aug
1st Sep
1st Oct
1st Nov
1st Dec
N
45°
90°
135°
180°
225°
270°
315°
10°
20°
30°
40°
50°
60°
70°
80°
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1st Jan
1st Feb
1st Mar
1st Apr
1st May
1st Jun
1st Jul
1st Aug
1st Sep
1st Oct
1st Nov
1st Dec
N
45°
90°
135°
180°
225°
270°
315°
10°
20°
30°
40°
50°
60°
70°
80°
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1st Jan
1st Feb
1st Mar
1st Apr
1st May
1st Jun
1st Jul
1st Aug
1st Sep
1st Oct
1st Nov
1st Dec
DA
DAcon
sDA
LENIman
LENIsen
= 54,7
= 74,9
= 91,1
= 25,04
= 11,29
DA
DAcon
sDA
LENIman
LENIsen
= 54,7
= 74,9
= 91,1
= 25,04
= 11,29
DA
DAcon
sDA
LENIman
LENIsen
= 24,2
= 73,8
= 66,1
= 25,01
= 11,54
Sg = 5 m²
τg = 0,75
Stot = 54.56 m²
ȥ= 0,3
FLDm = • 0,3 • 0,48 = 0,032 3%
54.56
5 • 0,75
54.56 (1- 0,97)
ȡm = 0,97
Valore indicativo del coefficiente di
trasmissione per incidenza normale nel
visibile di doppio vetro a lastre float chiare
Valori indicativi dei coefficienti di riflessione r,
per differenti colori delle superfici.
r pareti bianche = 0,8
r pavimento colore chiaro = 0,8
ȡm = (14.06 • 0.6) + (49.56 •0.8) = 0.97
Calcolo fattore di riduzione del fattore
finestra attraverso il grafico
L = 2 = 1.33 H = 2 = 1,33
P 1,5 P 1,5
Fattore finestra
considerando senza ostruzioni esterne e con
finestra verticale, si intercetta meta volta celese
İ = 0,48
E
I
Camera tipo SUD
Camera tipo OVEST
Camera tipo EST
0 5 25m
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED
BY
AN
AUTODESK
STUDENT
VERSION
-House of the Faun III sec a.C. Sample floor
Sample floor
Windows lighting simulations
19. 2019 | Competition - Reuse Italy, Italy | The new Urbantank
The new Urbantank
2019
Reuse Italy _ Italy
Equipe: Palmisani Gabriele
Scirè Davide
Torresi Luca
The new
The new
Urbantank
Urbantank
19
Software
AutoCAD - Rhino - Photoshop - Illustrator
21. The Piscina Mirabilis, a grand Roman reservoir constructed by
Emperor Augustus during the 1st century AD to provide drinking
water to his war fleet stationed in the western Mediterranean, has
been repurposed as a Museum of Contemporary Art.
The project builds upon the powerful connection between water and
art, bringing the past into the present. The design features a pool
perched above the ancient structure, symbolizing the emergence
of the new architectural design rising above the past in pursuit of
natural light.
The only means of accessing the upper level is via a tower offering
spectacular views of the site. At the center of the ground floor, the
elevator serves as the bridge between the ancient and modern
worlds, connecting the past and present like a tree trunk transfers
life from its roots to its branches.
The ancient columns, reminiscent of a forest, allow sunlight to filter
through, creating a natural pathway that guides visitors through the
Roman history and into the present.
2019 | Competition - Reuse Italy, Italy | The new Urbantank
The new Urbantank
21
22. +6��
+0
-340
-540
-92�
-700
+945
-7��
3��
holm
olive
pear-tree
myrtle
umbrella pine
bitter orange
myrtle
oleander
Axonometric
structural configuration
Section
Floor -1
Floor 0
Floor -1
Floor 0
Floor 1
Axonometry
Cafè/Restaurant
Kitchen
Hall/Reception
Wc
Cloakroom
Storage area
Conference room
Office
Square
113 mq
29 mq
124 mq
30 mq
25 mq
13 mq
118 mq
26 mq
541 mq
plan 0
Space distribution
(dimensions)
Bookshop
Video art room
Wc
Laboratory
145 mq
65 mq
45 mq
86 mq
plan -1
Point of view of
the exhibition path
+6��
+0
-340
-540
-92�
-700
+945
-7��
3��
holm
olive
pear-tree
myrtle
umbrella pine
bitter orange
myrtle
oleander
Planting of
native vegetation
Axonometric
structural configuration
Section
Floor -1
Floor 0
Floor -1
Floor 0
Floor 1
Axonometry
Cafè/Restaurant
Kitchen
Hall/Reception
Wc
Cloakroom
Storage area
Conference room
Office
Square
113 mq
29 mq
124 mq
30 mq
25 mq
13 mq
118 mq
26 mq
541 mq
plan 0
Space distribution
(dimensions)
Bookshop
Video art room
Wc
Laboratory
145 mq
65 mq
45 mq
86 mq
plan -1
Point of view of
the exhibition path
SISTEMA DI SOTEGNO E PUNTO DI VISTA DEL PERCORSO ESPOSITIVO
Structural scheme
Floor +1
Floor -1 / 0
23. 2020 | Workshop - ENSAL, Lyon | Introspection déformée
Introspection déformée
23
2020
Ecole nationale supérieure d’architecture de Lyon | France
Prof: H.D. Nadine
L.B. Nadine
Rouaud Pascal
Sagner Özlem Brigitte
Equipe: De Sario Gianmichele
Force Marie-Sarah
Pieri Federica
Scirè Davide
Introspection
déformée
Software
AutoCAD - Rhino - Photoshop - Illustrator
The project, located at the “Place du Change” in Lyon, was created for the Fête
Lumiere and is a walkable pavilion designed to highlight the story of the square.
During the pandemic, our understanding of reality has changed, a reality seen
from the inside. The square and its historical context represent our reality
before the pandemic, while the installation is an unexpected element that
distorts perception through its material coating. The small openings focus the
view on specific parts of the “Maison Thomassin” and the “Temple du Change.”
25. 2021 | Atelier- ENSAL, Lyon | PéréGr(a)iner
PéréGr(a)iner
2021
Ecole nationale supérieure d’architecture de Lyon _ France
Prof: Lequay Hervé
Limam Ali
Monnot Serge
Vincent Paul
Equipe: Pol-Roger Tanguy
Scirè Davide
PéréGr(a)iner
PéréGr(a)iner
25
Software
Rhino/Grasshopper - AutoCAD - Photoshop - Illustrator
26.
27. Solar surface area: 115m².
Solar production: 18 000 kWh/year
249 pores
207 propellers
(total production 1 kW/h)
Accumulator 100 kWh
Drinking water tank: 11,5m3
Rainwater tank: 11,5m3
Bambu structure
Weight: 5,7T
Hat
Module
Equipment
Base
The PéréGr(a)iner project aims to bring students closer to nature by
creating spaces for studying and living in non-anthropized areas.
Through structural and plant arrangements, the module is designed
to be energy self-sufficient, using natural materials and adapting
to different climatic and territorial exposures. The module can be
reiterated and expanded with different configurations, adapting to the
place orography.
Through the use of passive thermodynamic mechanisms, the pavilion
is able to maintain optimal internal comfort while minimizing the use
of energy-consuming thermoregulation systems.
The goal of the project is to provide students with the opportunity to
have direct contact with environments that have been little affected
by human activity and to better understand and protect nature as a
solution to sustainable development.
Nature is the source of the perpetual solution and we owe it to
ourselves to encounter it to better understand and protect it.
2021 | Atelier- ENSAL, Lyon | PéréGr(a)iner
PéréGr(a)iner
27
28. 0 1 5m
Adapting to nature to
get closer to it
Biophilia
To find oneself in
a less anthropized
environment and
to recharge one’s
batteries
Wellness
Studying around the
theme of nature,
bringing together
filiars
Common core
Travel to the heart
of the environment
that we talk about
so much, but that we
see so little
Educate
29. 2022 | Volunteer - Torinostratosferica, Italy | Precollinar Park
Precollinar Park
29
2022
Torino stratosferica | Italy
Precollinar
Park
Software
Rhino - Photoshop - Illustrator
The project was initiated by the Turin-based nonprofit association Torino
Stratosferica. Their goal is to design urban solutions and placemaking
projects in Turin in order to revitalize spaces and enhance the identity of the
area. The project specifically focuses on a linear section of a decommissioned
tram railway line that connects the hill to the city. Specifically, it is situated
on a bridge connecting two major city arteries, and the design proposal
aims to turn this location into a gathering place and event space. One of the
main objectives of the project is to create a recognizable landmark for the
neighborhood and to limit the visibility from the road to prevent distractions
30. - Combinable
- Seating system
HIDING HILL
HIDING HILL
- Boundary view
- Shading
- Shelf
Fissaggio
a parapetto
esistente
B
BY
YKE REST
KE REST
Security parking -
FLOWER TOTEM
FLOWER TOTEM
- Shading
- Landmark
FREE BENCH
FREE BENCH
- Combinable
- Seating system
HIDING HILL
HIDING HILL
- Boundary view
- Shading
- Shelf
Fissaggio
a parapetto
esistente
B
BY
YKE REST
KE REST
Security parking -
33. Render for a villa in
Ragusa, Italy _Built
Design project for a single-family apartment
Scordia CT, Italy _Built
Professional experience | Private works
Private works
35. Rhino 3D model, 3Ds Max render of a Church project
Savonera, Italy
Worksfor
Worksfor
Isolarchitetti
Isolarchitetti
Services provided
_Stage:
- 3D artist
- Technical drawer
- Project assistant
39
36. Design concept, technical drawing, rhino 3D model
ITT Headquarter’s parking
Lanzo, Italy
MASSICCIATA
TERRENO AL
NATURALE
PARAPETTO
h100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO GHIAIA
A VISTA tipo Levocell
CORDOLO STRADALE
8/8 x h 20 cm
PARAPETTO
PARAPETTO
h100 cm
MASSICCIATA
h100 cm
100
+ 3.60 + 3.60
PARCO DIDATTICO
+ 0.10
+ 0.10 + 0.10
+ 0.10
+ 2,25
+ 2,70
+ 1.05 + 2.25
+ 2.70
+ 3.60
3
3
1
2
1
2
PARAPETTO METALLICO h 100 cm
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE ARCHITETTONICA
CON EFFETTO GHIAIA A VISTA tipo Levocell
PARAPETTO METALLICO h 100 cm
PARAPETTO METALLICO h 100 cm
PARAPETTO
METALLICO
h
100
cm
GRIGLIE DI AERAZIONE
RAMPA PEDONALE
CON PAVIMENTAZIONE ARCHITETTONICA
CON EFFETTO GHIAIA A VISTA tipo Levocell
RAMPA PEDONALE
CON PAVIMENTAZIONE ARCHITETTONICA
CON EFFETTO GHIAIA A VISTA tipo Levocell
CORDOLO IN CALCESTRUZZO
PREFABBRICATO VIBROCOMPRESSO
MASSICCIATA DI CONTENIMENTO DEL TERRENO
h 100 cm
1300
560
810
280
250
1171
250
250 1638 250
250
705
250
250
1189
280
220
400
1240
30
30
130
250
184
pendenza ≈ 6,5%
pendenza ≈ 8%
pendenza
≈
8%
pendenza
≈
8%
PERCORSI PEDONALI
PARCO DIDATTICO
PIANTA
SIEPE E CESPUGLI BASSI
DI NUOVA PIANTUMAZIONE
MASSICCIATA DI CONTENIMENTO DEL TERRENO
h 100 cm
SIEPE E CESPUGLI BASSI
DI NUOVA PIANTUMAZIONE
MASSICCIATA DI CONTENIMENTO DEL TERRENO
h 100 cm
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
TERRENO AL
NATURALE PER
PIANTUMAZIONE
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
CORDOLO
8/8 x h 20 cm
PARAPETTO
h.100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
100
+3.60
+ 3.60
PARCO DIDATTICO
+ 3.60
PARAPETTO
h 100 cm
MASSICCIATA
h 100 cm
MASSICCIATA
h 100 cm
+2.25
+1.05
+ 0.10
+ 0.00
+ 2.70
+ 3.60
+ 0.10 + 0.00
+3.60
PARAPETTO
h 100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
TERRENO AL
NATURALE
CORDOLO
8/8 x h 20 cm
PARAPETTO
h 100 cm
GRIGLIE DI AERAZIONE
MASSICCIATA
h 100 cm
MASSICCIATA
h 100 cm
+ 1.05
+ 0.10
+ 0.00
+ 3.60
+ 0.10
LOCALE TECNICO
+ 3.60
PARCO DIDATTICO
+ 0.10
SEZIONE 3
+3.60
+0.10
+1.05
+2.25
+3.60
NUOVO PARCO FOTOVOLTAICO
PARCHEGGIO E AREE VERDI
ITT Italias.r.l.
via San Martino | 87 | Barge | Cuneo | t. +39 0175 347111 | f. +39 0175 343418
Progetto Architettonico ISOLARCHITETTI s.r.l.
Via Mazzini 33 I 10123 I Torino I t. 011 815 91 59 I f. 011 569 16 54 | studio@isolarchitetti.it I www.isolarchitetti.it
prof. arch. Aimaro Oreglia d'Isola, arch. Saverio Oreglia d'Isola, arch. Flavio Bruna,
arch. Michele Battaggia, arch. Andrea Bondonio, arch. Stefano Peyretti
Progetto Impiantistico
Progetto Strutturale M.C.M. INGEGNERIA GRUPPO DIMENSIONE
Sede Legale ed Operativa: Vicolo Monti 8 | 10095 | Grugliasco | Torino | t. +39 011 780 54 31 | f. + 39 011 408 09 57 |
studio@mcmingegneria.it
Azienda con Sistema di Gestione per la Qualità certificato UNI EN ISO 9001:2008 da ICIC. Certificato n. 962
Sede Operativa secondaria: Via Salaria 719/719 A | 00138 | Roma | t. +39 06 660 125 44 | f. +39 06 660 003 83
DATA REV. 01 REV. 02 SCALA
NUM. ELABORATO
OGGETTO
Proprietà ITT Italia s.r.l.
via San Martino | 87 | Barge | CN
PERMESSO DI COSTRUIRE CONVENZIONATO
ai sensi dell'art. 28 bis del D.P.R. 380/2001
05/11/2021
PROGETTO
LO ZIGURAT CENTRALE
PIANTE E SEZIONI
1: 100
OED PRO 11
MASSICCIATA
h100 cm
TERRENO AL
NATURALE
PARAPETTO
h100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO GHIAIA
A VISTA tipo Levocell
CORDOLO STRADALE
8/8 x h 20 cm
Pozzetto di aggottamento
con pompa di rilancio
PARAPETTO
h100 cm
PARAPETTO
h100 cm
MASSICCIATA
h100 cm
100
100
270
+ 1.05
LOCALE TECNICO
+ 0.10
+ 0.00 + 0.10
+ 1.05
+ 3.60 + 3.60
+ 0.10 + 0.00
SEZIONE 1
PARCO DIDATTICO
+ 2.25
+ 0.10
+ 0.10 + 0.10
+ 0.10
+ 2,25
+ 2,70
+ 1.05 + 2.25
+ 2.70
+ 3.60
3
3
1
2
1
2
PARAPETTO METALLICO h 100 cm
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE ARCHITETTONICA
CON EFFETTO GHIAIA A VISTA tipo Levocell
PARAPETTO METALLICO h 100 cm
PARAPETTO METALLICO h 100 cm
PARAPETTO
METALLICO
h
100
cm
GRIGLIE DI AERAZIONE
RAMPA PEDONALE
CON PAVIMENTAZIONE ARCHITETTONICA
CON EFFETTO GHIAIA A VISTA tipo Levocell
RAMPA PEDONALE
CON PAVIMENTAZIONE ARCHITETTONICA
CON EFFETTO GHIAIA A VISTA tipo Levocell
CORDOLO IN CALCESTRUZZO
PREFABBRICATO VIBROCOMPRESSO
MASSICCIATA DI CONTENIMENTO DEL TERRENO
h 100 cm
1300
560
810
280
250
1171
250
250 1638 250
250
705
250
250
1189
280
220
400
1240
30
30
130
250
184
pendenza ≈ 6,5%
pendenza ≈ 8%
pendenza
≈
8%
pendenza
≈
8%
PERCORSI PEDONALI
PARCO DIDATTICO
PIANTA
SIEPE E CESPUGLI BASSI
DI NUOVA PIANTUMAZIONE
MASSICCIATA DI CONTENIMENTO DEL TERRENO
h 100 cm
SIEPE E CESPUGLI BASSI
DI NUOVA PIANTUMAZIONE
MASSICCIATA DI CONTENIMENTO DEL TERRENO
h 100 cm
PARAPETTO
PARAPETTO
h 100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
PARAPETTO
h 100 cm
TERRENO AL
NATURALE
TERRENO AL
NATURALE
100
+ 3.60
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
TERRENO AL
NATURALE PER
PIANTUMAZIONE
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
CORDOLO
8/8 x h 20 cm
PARAPETTO
h.100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
MASSICCIATA
h100 cm
270
100
100
+3.60
+ 0.10
+ 0.10
SEZIONE 2
+ 2.70
+ 3.60
LOCALE TECNICO
PARCO DIDATTICO
+ 0.10
+ 3.60
+3.60
+3.60
PARAPETTO
h 100 cm
MASSICCIATA
h 100 cm
MASSICCIATA
h 100 cm
+2.25
+1.05
+ 0.10
+ 0.00
+ 2.70
+ 3.60
+ 0.10 + 0.00
+3.60
PARAPETTO
h 100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
TERRENO AL
NATURALE
CORDOLO
8/8 x h 20 cm
PARAPETTO
h 100 cm
GRIGLIE DI AERAZIONE
MASSICCIATA
h 100 cm
MASSICCIATA
h 100 cm
+ 1.05
+ 0.10
+ 0.00
+ 3.60
+ 0.10
LOCALE TECNICO
+ 3.60
PARCO DIDATTICO
+ 0.10
SEZIONE 3
+3.60
+0.10
+1.05
+2.25
+3.60
VO PARCO FOTOVOLTAICO
RCHEGGIO E AREE VERDI
ITT Italias.r.l.
artino | 87 | Barge | Cuneo | t. +39 0175 347111 | f. +39 0175 343418
TTI s.r.l.
10123 I Torino I t. 011 815 91 59 I f. 011 569 16 54 | studio@isolarchitetti.it I www.isolarchitetti.it
o Oreglia d'Isola, arch. Saverio Oreglia d'Isola, arch. Flavio Bruna,
ttaggia, arch. Andrea Bondonio, arch. Stefano Peyretti
NERIA GRUPPO DIMENSIONE
Operativa: Vicolo Monti 8 | 10095 | Grugliasco | Torino | t. +39 011 780 54 31 | f. + 39 011 408 09 57 |
egneria.it
ema di Gestione per la Qualità certificato UNI EN ISO 9001:2008 da ICIC. Certificato n. 962
secondaria: Via Salaria 719/719 A | 00138 | Roma | t. +39 06 660 125 44 | f. +39 06 660 003 83
REV. 02 SCALA
NUM. ELABORATO
87 | Barge | CN
DI COSTRUIRE CONVENZIONATO
nsi dell'art. 28 bis del D.P.R. 380/2001
LE
1: 100
OED PRO 11
CORSIA
PEDONALE
CORSIA STRADALE
500
STALLO PARCHEGGIO
STALLO PARCHEGGIO STALLO PARCHEGGIO
STALLO PARCHEGGIO STALLO PARCHEGGIO STALLO PARCHEGGIO
CORSIA STRADALE
CORSIA STRADALE PEDONALE
500 500
600 600 500
500
600
150 150
S
B
S
C
500
S
A
S
A
S
A
S
A
S
B
S
B
S
B
272
215
272
241
239
S
C
CONFINE
AMBITO
DI
INTERVENTO
CONFINE
AMBITO
DI
INTERVENTO
SEZIONE 2
+ 0.10
± 0.00 CORSIA
± 0.00 CORSIA ± 0.10 PEDONALE ± 0.00 CORSIA
+ 0.02 PARCHEGGIO
+ 0.10 ± 0.00 CORSIA + 0.02 PARCHEGGIO + 0.02 PARCHEGGIO
+ 0.10
+ 1.05
+ 0.00
+ 3.60
+ 0.10
LOCALE TECNICO
+ 3.60
CORDOLO
PREFABBRICATO DI
CEMENTO
CORDOLO PREFABBRICATO DI
CEMENTO
PILASTRO IN CARPENTERIA
METALLICA
CORDOLO
PREFABBRICATO
DI CEMENTO
PILASTRO IN CARPENTERIA
METALLICA
PANNELLO FOTOVOLTAICO
STALLO PARCHEGGIO
ELEMENTI ALVEOLARE IN POLIETILENE CON
RIEMPIMENTO IN GHIAIA
CORSIA STRADALE
CON ASFALTO
PARAPETTO
h 100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
TERRENO AL
NATURALE
CORDOLO
8/8 x h 20 cm
PARAPETTO
h 100 cm
GRIGLIE DI AERAZIONE
MASSICCIATA
h 100 cm
MASSICCIATA
h 100 cm
PARCO DIDATTICO
CHIUSINO IN
GHISA
MAX LIVELLO
INVASO
VASCHE RI
RACCOLTA
ACQUE
METEORICHE
VASCHE RI
RACCOLTA
ACQUE
METEORICHE
270
235
CORSIA STRADALE
CORSIA STRADALE
2275
S
B
241
272
272
241
PEDONALE
S
C
170
272
241
S
B
CONFINE
AMBITO
DI
INTERVENTO
SEZIONE 3
100
100
270 PARCO DIDATTICO
± 0.00 CORSIA
± 0.00 CORSIA ± 0.00 CORSIA
± 0.00 CORSIA
+ 0.10
+ 1.05
LOCALE TECNICO
+ 0.10
+ 0.00 + 0.10
+ 1.05
+ 3.60 + 3.60
+ 0.10 + 0.00
+ 2.25
TERRENO AL NATURALE
CORDOLO PREFABBRICATO DI
CEMENTO
PILASTRO IN CARPENTERIA
METALLICA
CORDOLO
PREFABBRICATO DI
CEMENTO
PANNELLO FOTOVOLTAICO
CORDOLO
PREFABBRICATO
DI CEMENTO
PILASTRO IN CARPENTERIA
METALLICA
PANNELLO FOTOVOLTAICO
CORSIA STRADALE
CON ASFALTO
MASSICCIATA
h100 cm
TERRENO AL
NATURALE
PARAPETTO
h100 cm
RAMPA PEDONALE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO
GHIAIA A VISTA tipo Levocell
COPERTURA CALPESTABILE
CON PAVIMENTAZIONE
ARCHITETTONICA CON EFFETTO GHIAIA
A VISTA tipo Levocell
CORDOLO STRADALE
8/8 x h 20 cm
Pozzetto di aggottamento
con pompa di rilancio
PARAPETTO
h100 cm
PARAPETTO
h100 cm
MASSICCIATA
h100 cm
S
C
STALLO PARCHEGGIO
CORSIA
PEDONALE
500 500
500
600 600 500
500 500
600
150 150
150 150 600
600
500 500
CORSIA
PEDONALE
CORSIA STRADALE
STALLO PARCHEGGIO
STALLO PARCHEGGIO STALLO PARCHEGGIO
STALLO PARCHEGGIO STALLO PARCHEGGIO
CORSIA STRADALE
CORSIA STRADALE
CORSIA
PEDONALE
CORSIA STRADALE
272
272
215
241
239
STALLO PARCHEGGIO CORSIA STRADALE
272
241
239
215
S
B
S
C
S
A
S
A
S
A
S
A
S
C
S
B
S
B
S
B
S
C
PEDONALE STALLO PARCHEGGIO
CONFINE
AMBITO
DI
INTERVENTO
CONFINE
AMBITO
DI
INTERVENTO
SEZIONE 1
+ 0.10 ± 0.10 PEDONALE ± 0.00 CORSIA
± 0.00 CORSIA
± 0.00 CORSIA + 0.02 PARCHEGGIO
+ 0.10 ± 0.00 CORSIA + 0.02 PARCHEGGIO + 0.02 PARCHEGGIO
± 0.00 CORSIA + 0.10
+ 0.02 PARCHEGGIO
CORDOLO PREFABBRICATO DI
CEMENTO
PILASTRO IN CARPENTERIA
METALLICA
CORDOLO
PREFABBRICATO
DI CEMENTO
PILASTRO IN CARPENTERIA
METALLICA
STALLO PARCHEGGIO
ELEMENTI ALVEOLARE IN POLIETILENE CON
RIEMPIMENTO IN GHIAIA
CORSIA STRADALE
CON ASFALTO
CORDOLO
PREFABBRICATO DI
CEMENTO
CORDOLO
PREFABBRICATO
DI CEMENTO
e alle
PRO 05
ATO
olarchitetti.it
mingegneria.it |
mingegneria.it |
38. Concept diagrams, project assistant
_Reale Mutua Recreation Center_Built
Turin, Italy
Concept diagrams, project assistant
_Residential project_Built
Torino, Italy
Concept diagrams, project assistant
_Elderly care home project_Built
Torino, Italy
Concept diagrams, project assistant
_Camplus university residence project_Built
Turin, Italy
Works for PICCOarchitetti
Works for PICCOarchitetti | Professional experience
39. 37
Professional experience | Works for PICCOarchitetti
Works for PICCOarchitetti
Project design assistant, technical drawing
Curtain bridge mitigation_In progress
Sezzadio, Italy
T.Stanavazzo
Soletta flottante
PILA 2
PILA 1
SPALLA 1 SPALLA 2
Magrone sp.=15 cm
Soletta flottante
Magrone sp.=15 cm
Magrone sp.=15 cm Magrone sp.=15 cm
T.Stanavazzo
Direzione GAMALERO
Direzione PREDOSA
Soletta flottante
SPALLA 1 SPALLA 2
Magrone sp.=15 cm
Soletta flottante
Magrone sp.=15 cm
Magrone sp.=15 cm Magrone sp.=15 cm
T.Stanavazzo
Direzione GAMALERO
Direzione PREDOSA E
E
Soletta flottante
E1
E1
SPALLA 1 SPALLA 2
T200 = 120.57
E2
Magrone sp.=15 cm
E
E
Soletta flottante
E1
E1
Magrone sp.=15 cm
E2 E3
E3
Magrone sp.=15 cm
A
A
C
C D
D
Magrone sp.=15 cm
B
B
A
A
T.Stanavazzo
Direzione GAMALERO
Direzione PREDOSA E
E
Soletta flottante
E1
E1
PILA 2
PILA 1
SPALLA 1 SPALLA 2
T200 = 120.57
E2
Magrone sp.=15 cm
E
E
Soletta flottante
E1
E1
Magrone sp.=15 cm
E2 E3
E3
Magrone sp.=15 cm
A
A
C
C D
D
Magrone sp.=15 cm
B
B
A
A
1 2 3 4
40. + 15.98 m
12 24
24 24 24 24
2
1 3 4 5 6
15.98
+0.00 m
+14.88 m
-0.60 m -0.70 m
+ 15.98 m
-0.70 m
10 18 18 18 18
D C B A
E
F
83
PROGETTO PER LA REALIZZAZIONE DI UNA STRUTTURA LOGISTICA
PROPOSTA DI VARIANTE AL PRG AI SENSI DEL COMMA 4 ART. 17 BIS LEGGE REGIONALE
56/1977 E DELL'ART. 8 COMMA 1 DEL DPR 160/2010 CON ISTANZA DI PERMESSO DI
COSTRUIRE
192.168.1.199datiUtentedwg-03VolpianoCORSALIS01a_STUDI PRELIMINARILOGISTICAlogo_corsalis.png
PROPONENTE
Corso Duca degli Abruzzi, 3
10128 Torino - Italia
p.IVA 12528740017
www.corsalis.it
PROGETTISTA
Via Lamarmora, 12 -10128 Torino
Tel. 011.5617066
progetti@piccoarchitetti.it
www.piccoarchitetti.it
URBANISTICA, ARCHITETTURA E COORDINAMENTO: Arch. Cristiano Picco
coll. Arch. Antonio Fatibene
coll. Arch. Carlotta Semeraro
Corsalis Italia s.r.l.
OGGETTO CODICE TAVOLA
B
O
Z
Z
A
CONSULENTI
TRAFFICO
Irteco
Ing. Giorgio Oliveri
ACUSTICA
Ing. Cristina Marocco
ENERGIA E IMPIANTI
Ing. Giorgio Colletti
VERDE
Dott. Stefano Fioravanzo
AMBIENTE
Studio Genovese associati
Dott. Pietro Campantico
CONSULENTE PROCEDURA AMBIENTALE
Arch. Elisa Zanetta
PROSPETTI E SEZIONI
Prospetto Sud-Ovest
Scala 1:1000
Sezione B-B'
Scala 1:1000
LIMITE
PROPRIETA'
QUOTA PAVIMENTO FINITO
LIMITE
PROPRIETA'
Works for PICCOarchitetti
Works for PICCOarchitetti | Professional experience
Project collaborator
Logistic warehouse_In progress
18.000 mq
Volpiano, Italy