Macario Ban Luca
Portfolio
Luca Macario Ban Italian 21 November 1994 Via Torino n.2 10070 Vallo Torinese Italy Welcome about me Hi, i’m Macario Ban Luca, i’m 23 years old guy and i live in Vallo Torinese, a little town near Torino, Italy. I’m a graduated high school student in 2013 at the Fermi-Galilei Institute of Ciriè (TO). Actually registered at the University Polytechnic of Turin, department of Architecture Eco-sustainable magistral degree. Work with design firms for the acquisition of skills in the field of architecture, town planning and territorial menagmet. I worked with W.A.U. architects, Studio Rolla SRL, EDISU Piedmont, Grabowski Engineering studio and other design studios. I have good ability of team work learned at high school and university, improved with more work experience in architectural and photo atelier. Good ability to use technical design programs, three-dimensional modeling and graphic software. I’m blood donor with Fidas group of San Carlo, with hobbies of photography, design and sports.
_August 2019
Education. 2018-2019 2016-2018 2013-2016 2008-2013 Languages Italian English Spanish
Contacts E-mail: lucamacario21@gmail.com Phone number: +0039/ 3463062503 Skipe: luca.macario94 CV, Portofolio, Tesis on Issuu Master II Level_ Architettura delle costruzioni in legno Politecnico di Torino Politecnico of Turin_ Master’s degree in Architettura sostenibile 110L/110 with internet publication Politecnico of Turin_ Degree in architecture 108/110 High School Diploma for Geometry 85/100 Native language British Council IELTS Certificate 5.0 Basic Macario Ban Luca
Work Experience
Workshop
2010
Studio tecnico Maculan di Maculan Ing. Ezio
2016
Workshop illuminotecnica (Settimo T.Se) (professionalizzante)
2011
Studio tecnico Maculan di Maculan Ing. Ezio
2017
Workshop lighting design (Kronach, Germania)
2014
W.A.U. Architetti; Studio Work room, Architectural, Urban Land scape
2017
Workshop ECO prodotti ( Torino, Politecnico)
2016
Studio Rolla SRL, Architettura e Urbanistica
2018
2016
EDISU Piemonte
2017
Hartmut Grabowski dott. Arch
2017
Politecnico di Torino
2018
DUOPUU Architetti, Paolo Simeone
2019
Bodino srl
Master Degree thesis Outgoing _ BogotĂ (Colombia)
Macario Ban Luca
Portfolio
Software Sistem operator: MaC OX, WINDOWS OFFICE WORD EXCEL POWERPOINT KEYNOTE NUMBERS PAGES GRAPHIC /VIDEO ADOBE PHOTOSHOP ADOBE INDESIGN ADOBE LIGHTROOM ADOBE ILLUSTRATOR ADOBE MUSE FINAL CUT PRO IMOVIE Macario Ban Luca
Portfolio
MODELLING/RENDER CADWORK AUTODESK, AUTOCAD GRAPHISOFT ARCHICAD (18-20-21) SKETCH UP RHINOCEROS LUMION (4-6-PRO) 3DS STUDIO CINEMA 4D RENDER ARTLANTIS STUDIO ( 5-6) KEYSHOT ANALYSIS TIMBER TECH BUILDINGS WUFI PLUS VELUX ECHO 6 NOLIAN DOLMEN THERM DIALUX evo ECOTECT Macario Ban Luca
Work
01 02 03 04 05 06 07 08
09 Atelier restauro e recupero 10 Cavallerizza Reale di Torino 11 Costruire nel costruito 12 Atelier Eco-Composition 13 AtelierUrban design 14 Sustainable restoration 15 Workshop lighting design 16 Atelier Eco-sustainable Politecnico of Turin Turin Politecnico of turin Campofei- (CN)
Work with E.DI.SU Piemonte Restauration and interior project Politecnico of Turin
Politecnico of Turin Turin_ Porta Palazzo
Politecnico of Turin (EN) Lyon Politecnico of Turin Barone Canavese Politecnico of Turin Settimo Torinese
Workshop Kronach in lights 6th edition kronach in lights Kronach (Germany)
Atelier wood sopralevation Politecnico of Turin Torino via Pietro Cossa
Tecnical system Politecnico of Turin
Maquette model
Various natural and polimeric material
Final Degree tesis
Solar Decathlon Latin America 2019_ Colombia Universidad Javeriana at BogotĂ
Master II Level Politecnico of Turin Work projects
Work Project Different costumers
Video maker editing Work and Politecnico Atelier
Every project starts with an analysis of the actual state, and from the environmental consciousness and building, essentially of sustainable design atelier. In an man-made environment, layered architecturally, we can’t separate the idea of u niformity from the project context. The concepts, choosed in parallel between the different areas, have brought the project to evolve according to the residential use, directly connected with the aspects of Crosslam technology. The memory of the railway along with the historic character of Porta Nuova in Turin, are considered as elements to integrate with the project in a conscious way. The different proposals moved the formal main thoughts, that are agreed with urban Turin’s standards and the various territorial zoning plans. From the acoustic point of view we was considerated the map of the acoustic zoning of the city of Turin, studing boundaries was possible the realization of the architectural design, according to the use destination, pondering the distinction of functions avoiding critical combinations, smoothing critical areas in Porta Nuova. The sustainable design and also the ITACA protocol set up many of the technological aspects and project compositions; the use of photovoltaic technology system, for example, has led to the creation of ventilated flaps suspended with autonomous inhomogeneous inclination according to the optimal solar axis. The differentiated envelope in terms of colors and materials, tries to bring outside the internal structural language, generating a characteristic profile. This aspect changed the choice of break the building in three parts, where the central one find his main used in a anti-seismicity optics and in a technological character, where the straight profile of the structure in Crosslam integrates with a puntiform lamellar structure. The project extend to in a vaster context, trying to design in public interest therms, where microclimate bodies of water does not act only as physical-environmental solution but provide to make a social component role, such as combination of commercial area with loisir and leisure fabric intervention. Atelier becomes the mix of all these elements, the design challenge is to tell the temporal evolution of our days.
01
Architecture Portfolio Prospect-section plan of the interior
Turin Urban Renewal on railways land Porta Nuova, Via Sacchi- Corso Somelier
Territorial section from Porta Nuova to Corso Dante Macario Ban Luca
Architecture Portfolio
Exploion stratigraphic Crosslam technology for the most vailable insulation
Total Section Macario Ban Luca
Architecture Portfolio
We living in architectural time with consolidation of traditional buildings in their historical entirety, alongside the creation of utopian works, technological wildly and concrete and steel space-ships. This kind of operation is not just architectural war, but a challenge, to increase and involve different solution in a contest. We are for the rational architecture, the same that meets limits and does not want to supplant or absorb them, but solving and condense the story into the present, creating a new originality. Because history is not only in the millionaire rocks or in centuries-old stone walls. The history is the essence of every architectural project of all times.
02 Macario Ban Luca
Architecture Portfolio Borgata Campofei (CN) Restauration e Landscape Conservation
Floor disposition from main, where is located the service-room, to the top, cheese workspace near the residence
Macario Ban Luca
Architecture Portfolio
Exploded stratigraphic
Thermal trend graph
Ovest Render Macario Ban Luca
Architecture Portfolio
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Macario Ban Luca
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Architecture Portfolio
Macario Ban Luca PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Model and design this space so densely packed of history, in an increasingly critical social context on the functionality of space, made this even more fascinating as a collaboration. The expansion of the university system is the manifest of evolution that more and more visible in Turin; the identity of the Cavallerizza Reale make this research project a memory in a contemporary scene. Factors, colors, materials and lighting, that i took during the detailed elaboration of shapes, prepared in order to enhance the harmony of these spaces. The attention with the environment it was studied, according to the issues related to the absorption of sound, the eighteenth-century view on the barrel vault , as well as thermal and lighting, enhance the building’s history and return to the university landscape a magnificent space . The classroom becomes one of the most useful and interesting places to spend hours to study. The experience alongside professionals, gave me the opportunity to understand the real context of the Cavallerizza, the historic heart of the roman city, and all the architectural components matrix of Castellamonte and Alfieri after, which examined step by step in the entire process of design and modeling. At the end i gave to the project one of the most compatible and homogeneous solution as possible. Through the use of software was possible, during later stage, recreate the scene and make it more realistic as possible, with render, video and showing all components in the project, from the idea to reality.
03
Macario Ban Luca
Architecture Portfolio Cavallerizza Reale di Torino Work with E.DI.SU Piemonte Restauration and interior project
3418
120 300
120 300
B
120 300
A
877
130 230
C
130 230
120 300
120 300
120 300
120 300
vante E le
notte
Pianta di progetto del piano terra
VERDI
ezza Nm
o S
giorn
VIA
O
zo mez
B
nte pone
A
120 300
120 300
120 300
92
120 300
C
Tav. 13
Macario Ban Luca
Architecture Portfolio
Sezione A-A
Sezione B-B
tte
ano
ezz
Nm B A
en
pon C VERDI
te O
rno
gio
zzo
me
S
186
300
VIA
B A
ante
v E le
C
413
Sezione C-C
About 170 seats
Light Render
320
Interior Project University work-study space Sezioni di progetto
Section Plane Tav. 14
Macario Ban Luca
Work-study univesity room
The eco-compatible Architecture Portfolio project, purpose many solution to protect the environment and the urban landscape, through the reduction of harmful dust, aims to create an island-sustainable green technology. The architecture want combine simplicity and integrate green complex systems, focused on the use of active and passive solutions, reducing energy comsuption. The creation of a university pole search to improve air quality condition, after seeing the last pollution standards in Turin, one of the most polluted city. The first project buildings are dimensioned to have an optimal surface / volume ratio, limiting the hot environments dispersions; the use of passive solutions such as partially ventilated faรงade, intensive green roof, green vertically roof and other technical precautions, give to the house a way to reduce losses by improving the linear thermal transmittance of walls. The stratification in the project allows to reduce the number of hours of boiler activities and slow down of the temperature in the phase shift daily. The performance development is joined by roof-intensive green technology in private residences, which grant thermal transmittance about U = 0.17 W / mqk, creating private green spaces and also collective leisure. Residential housing and a services building are connected with the historic landscape and fit with the design constraints in Eco-sustainable way.
Turin, Eco-sustainable renewal
05 Macario Ban Luca
Architecture Portfolio Urban Prospect
Green wall solution
Macario Ban Luca
Architecture Portfolio
Work-study univesity room
Macario Ban Luca
Architecture Portfolio The Masterplan aims to create an area of high population density, self-sufficient at least for basic services. The choices we’ve made try to solve the problems arising from the analysis of the Confluence such as those relating to public transport and green spaces. The viability has been designed according to a regular network that cross the area making it highly permeable but also very safe thanks to traffic lights and one way streets. The market, that has always been active in the Confluence, has been maintained a equipped with a new multifunctional structure (that can also be used for festivals and exhibitions) as well as a parking area for users. Our proposal includes also green spaces distributed throughout the ZAC 2 and a square surrounded by residential and tertiary buildings. The main goal it is create an high-quality area where different users can interact avoiding conflicts thanks to the size and the position of public spaces that allow them to have their own space. Masterplan of confliuence_ Lione
06
Macario Ban Luca
The area of study is designed as the central focus of the Masterplan, venue for socializing and gathering place for the users of ZAC 2. The main goal is to create a space of free use where different types of people can interact and relax, thanks to a simple street furniture and shadow areas. Both the square and the park are designed to accomodate public functions (respectively in the kiosks and in the underground buildings) that can attract the inhabitants of Lyon throughout the day. The alternation of day and night functions also allows to increase the influx of population and consequently the security of the area, not so easy to control due to its size. The area is highly permeable as well as easily accessible by public transports; surrounded on four sides by streets with low speed (thanks to traffic lights and one-ways) Scheme of quality of public space the area is equipped with parking places that allow users to use their own means of transport if necessary.
SWOT analysis of
The Canavese is an Historical and geographic region located in Piemonte. It’s extended between Serra di Ivrea, Stura di Lanzo, the river Po and the Alpes Graie. Its greatest center of interest should be Ivrea, considered the capital of Canavese, where it can find Chivasso, Ciriè, Courgnè, Rivarolo Canavese and Caluso. An important geographic element is Anfiteatro Morenico, glacial high ground. Its dated on quaternary age and was built by sediments’ movement to Pianura Padana during ice age. The topic of this atelier was the restoration of single house in Barone Canavese. The town is 325mt on sea level, surrounded by many agricolture fields, like vineyards, pastures and so on. Town center was developed near hill probably more safety from enemies attachs thanks to great view on surrounded lands. During the end of 20th century the construction of new industries, on the way to Candia town, determined an urban concentration to east. The town has a pretty good agriculture and wine production, but there are also electronical specialited industry and some wood’s factories. My idea about design, after the survey and evaluation study, concern in a multifunctional hypnotherapy center, equipped of dedicated building for the therapy, near one bed and breakfast, a restaurant, an independent apartment and an expo room. The design consider also common space in different part, leisure outparc and warehouse for dedicate horse tools. The project want improved land interest, suggest activity, excursion, rowing on lake and taste km 0 tipical food products.
07 Macario Ban Luca
Architecture Portfolio Hippotherapy Many studies told that ancestors suggest that horses could be a solution to contrast pathology and different illness, like insomnia and hypochondria. Hyppotherapy needs psychological care and psychiatrist attention before the direct approach with the animal. The horse is an animal that need particulary attention and is a good combination to involve weak people. Result of the treatment are self- confidence, concentration development, integration and observation memory increasement. Our design is a building inside courtyard, part of group of houses that surround it. the construction shows up like a little house divided by stairs and function, downstairs dedicated for kitchen and living, upstairs for bedrooms and last stairs, like crawl space. Design want to requalify the current decline and use the building as a bed and breakfast, accommodation for turist. This space was studied for people that come in Barone and want to enjoy the experience in the nature, with food products, activity and many attraction. Barone Canavese boudaries
Macario Ban Luca
Architecture Portfolio
Render
Render of
3D scheme of services Floor disposition of BeB
Macario Ban Luca
Portfolio
Section plane A-A’
Section plane B-B’
Macario BanAnalysis Luca Degradation
Architecture Portfolio
08 Macario Ban Luca
Architecture Portfolio Design start from the idea to promote the link from Ecomuseo del Freidano to Settimo Torinese city center. Our idea was to rediscover, with light colors and light topology, the river path that crossed the city. Land analysis underlined wake points and threats. The design want to find a solution for that problems: quantity of light, dissimilarity of devices with less-maintenance, dark places, architectural lighting design system turned off. The first point of our process was the respect of standard legislation and direct measurement of the lighting power. After the inspection we had thought about architectural development. After the second survey we decided the main operations on pedestrian path, near the Ecomuseo, changing devices and light typology for better safety and more comfortable space.
Section detail plane
Lux study with Dialux
Render 360°
3D projection
Macario Ban Luca
Architecture Portfolio
Urbanistic map of devices sostitution
Section n.1_ Pedestrian path
Section n.2_ Street
The idea to put two different kind of devices is the reason to give at the path the possibility of different scenario, using many colors to identify particolare occasion, for example the application of the small devices want create an atmosphere using cold colors temperature near 6000k, like the river color. Instead the street need a different attention and the correct lights on the surface. Our design wants to be most correct about the regulations and also to use hight performance device, functional and less maintenance system. For the architectural devices we studied the solution from different point of view, searching pleasantness, hystorical geometry, color saturation and so on. After the second survey we decided to cover the concrete wall with an iron flexible and take away system, composed by cut panels join to lights projections make shadows and moved figures. The RGBW technology, on the back side, give us the possibility to create scene like the river remembrance, respected the regulations standard.
Macario Ban Luca
Portfolio Architecture Portfolio Kronach (Ge)
09 Macario Macario Ban Ban Luca Luca
Architecture Portfolio Images of survey
Lighting test
Kronach Leuchtet was an international experience about lighting design. The workshop was five days long and the project core was the light festival. Every group was composed by some student and one expert and each group had a specifically part in the town. Thanks to the daily meeting, advices and tools our group worked on lighting of “ The witch Tower�, the pedestrian area and the modern square behind.The project development was transformed by daily review and also the temporary artist equipment . We choosed the best devices for the areas and then the colorations. The tower, composed by stone and bricks was combine with warm color, instead the modern square, that had a different saturations and intensity of color, was combine with cold colors. The pedestrian path connect the tower to the square and was designed as a smooth path. The experience, side by side with students from all over the world, was absorbing and exciting and has confirmed my fascination about lighting and lighting design.
Sketchs about design
Images of survey
Macario Ban Luca
Mondo cover magazine
Pubblications on Issuu_ Mondo design Megazine #98 2017
Architecture Portfolio The project starts from the analysis of the actual state, as well as from the awareness of the built and building environment, from the critical analysis of the site, to the search for solutions to urban consumption aspects in a sustainable perspective. From the beginning, the work table identifies the critical aspects of the area near Via Pietro Cossa as an intervention and redevelopment object. The superelevation would takes the character, ranging between the building types, looking for the objective of modeling the existing fabric and integrating itself into the Turin context. The critical issues related to the site and its location, such as security, distance from the center, lack of services, proximity to traffic. The proposed challenge find to project the superelevation in an innovative perspective, an architectural solution that change the seemingly massive and anonymous underlying pre-existence, trying with its innovative lines to link with the context but to be recognizable. The functions introduced at the macroscopic level was a consequence of a primordial study. The goal of the masterplan does not remain so confined in a raised space, but it tries to expand and incorporate part of the district in order to connect functional areas of collective interest currently used. The central stakeholders thus become the families, the residents, the workers but also the temporary clients. The shops, the premises, the offices, the gymnasium and the residences thus act as an element of urban rehabilitation between the center and the first perifery, trying to create interest and increase the quality of living.
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Macario Ban Luca
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Macario Ban Luca
Architecture Portfolio
Fotovoltaico
Aria di ripresa Recuperatore Aria esterna
Aria di immissione
U.T.A. Acqua Sistema centrale termica ibrido
Locale Acqua mandata Acqua ritorno
Acquedotto
Caricamento acqua calda sanitaria
Rete esterna
Pavimento radiante
Contatore generale
Acque bianche, nere, grigie
Serbatoio
Fogne
Solare termico Accumulo ACS
Acqua calda sanitaria
Gruppo ausiliario (Caldaia)
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Macario Ban Luca
Architecture Portfolio
Maquette
12
Macario Ban Luca
Final Degree tesis Each project starts from the actual state analysis, from the awareness of the built and edified environment, from the ability to imagine a capable scenario connected with the past, satisfying the present and anticipating the future in harmony with tradition. The stimulating design proposal in the “El Pozon” district of Cartagena De Indias in Colombia, content of Solar Decathlon Latin America and Carribean 2019 competition, has been the subject of analysis such as to allow the learning of a new scenario, capable of conveying the previous years of preparation into a sustainable architectural result.The first part of the elaboration is carried out with the study of the context, addressing general issues respect to Colombia and its construction history, specifying more and more up to the urban scale compared to the city of Cartagena De Indias and specifically the neighborhood, object of intervention. The on-site study has allowed us to understand the social problems of the district, those related to the territory and in particular the climatic ones, which generate floods for several months in a year in several parts of the city’s fabric. The current sanitary situation, the insufficient resources and the few connections with the city center, describe a distressed neighborhood in constant growth and densification.The project begins in a territorial scale, then in urban and architectural scale, describing the house in all characteristics, with particular attention to technology and detailing the aspects of construction and construction process in self-construction or participated construction. The focus of this section describes the historical-social situation of the constructive tradition, the reality of the neighborhood through a photographic reportage and analyze similar case studies to understand the resolutive processes; the focus is also about the most used local materials in line with the design ideas developed in the following chapters. The second part of the work is carried out through the study of the “Guadua”, a type of bamboo from Colombian; this section analyzes the livings house characteristics in the history, the physical-mechanical potential of the material and the treatments necessary for its maintenance and durability. The focus of this chapter integrates the topic with details concerning the use of the material in the pre-hispanic period and its production; furthermore, they describe typical construction methodologies and the working process of the production phases of the material thanks to direct experience.The third and final part of the thesis is carried out according to some of the directives of the competition, which involves the study of the materials according to an LCA analysis, quantifying the ecological footprint (Carbon Footprint) and the energy content (Embody Energy) compared to the architecture proposal. This analysis makes it possible to evaluate the real impact compared to the functional unit of 1 sqm of component and to define, through the selection of materials and their contribution, the environmental impact of the architectural object within the context and the project site. Such a tangent intervention in the social sphere as much as in the architectural sphere, tries to integrate the inhabitants in the neighborhood’s enlargement within the urban context, proposing a solution to these problems.
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Macario Ban Luca
Final Degree tesis
Social and ambiental analisis
Macario Ban Luca
Final Degree tesis
Cra
14A
14A
PISTA DE ATERRIZAJE
PISTA DE ATERRIZAJE
Cra
SAN FRANCISCO
SAN FRANCISCO
36
36
LA PAZ
LA PAZ
de
de
Centro
Centro
Monumento Santander
Monumento Santander
Base Naval
Base Naval
Estadio
Estadio
Base Naval
Base Naval
Av
Av
Tolima
Tolima
Cll
Cll
4
4
Maps of floods
Macario Ban Luca
Final Degree tesis
Macario Ban Luca
Final Degree tesis
Urban Masterplan
Macario Ban Luca
Final Degree tesis
The “Vivienda Social”
Macario Ban Luca
Drawing of 1:1 scale project
Social House project_ Plan, Prospects and section
Macario Ban Luca
Final Degree tesis
Technologic details
Assembly phases
Macario Ban Luca
Final Degree tesis
Natural lighting analisis
Simplified system project
Macario Ban Luca
Energy (MJ/kg) Guadua rivestimento esterno
0,35
Terra cruda (sabbia, limo, argilla, ghiaia)
0,45
Guadua rivestimento esterno Terra cruda (sabbia, limo, argilla, ghiaia) CED (MJ/Kg) Ghiaia
Sabbia 0,35
Guadua rivestimento esterno Terra cruda (sabbia, limo, argilla, ghiaia)
guadua interna (pali)
0,45
Argilla/limo
Ghiaia
0,3
Sabbia
0,1
Argilla/limo Guadua finitura interna guadua interna (pali)
Alluminio giunti
0,35
Guadua finitura interna
0,35
Alluminio giunti
184
Guadua finitura interna
0,35
Griglia per ventilazione
Griglia per ventilazione
25
Copertura verde Copertura verde
Fotovoltaico Fotovoltaico
0,3
3
-36,9
0,350,22
-36,9CLS
-36,9
17
-36,9
17
184
11,5
0,35 25
-36,9
17
1,91
1500
225
67,5 0,143
3,825
1mq
1750
87,5
8,75
0,4375
0,01
1mq
1900
19
57
4,18
DIRETTA/ TESI
0,01
7
2,45
-258,3
Fonte
1,91
Acciaio galvanizzato
27,3
Acciaio inossidabile
62,1
1,8
1,8
Acciaio Rame inossidabile 57
62,13,3
6,2
3,4
3,3
105 Rame
Alluminio
28
6,2
57
Poliuretano solido
105
Alluminio
28
CLS
1,16
1,3
1mq 57 105 1mq
0,15Alluminio
28 1mq
1,8 6,2
ICE
700 3,3 2000 3,4
ICE
0,01 0,02
ICE
0,0005
1mq
0,01
0,01 Ghiaia
DISPENSA
0,01
ICE
0,2
0,143
0,05 0,01 0,01 0,02 0,0005
DIRETTA/ TESI
Terra cruda
Embody Energy (E.E.) U.F. (Mj/Kg)
Ghiaia
7800 2100
1mq
7860
1mq
7860
DISPENSA
DISPENSA 1mq
8920
1mq
180
1mq
2700
DISPENSA
1mq
2450
0,05 0,01 0,01 0,01 0,01 0,01
2000
1mq
14
4,9 DISPENSA
-516,6 0,01
DISPENSA 135
0,01 6,9
225
DISPENSA 67,5
0,01 3,825
1mq
1mq Fondazioni
87,5
8,75
0,4375
19
57ICE 1mq
0,2 4,18
7
2,45
-258,3
1mq
14
4,9
1750 1900 700
1mq
-516,6 Embody 4,9 Carbon 1,35 248,4 15,525 Energy U.F. Footprint U.F. Embody(MJ/Kg) Energy (E.E.) U.F. (Mj/Kg) (CO2eq/Kg) Carbon Footprint (C.F.) U.F. (CO2eq/Kg
700
1mq
1mq 1mq
Ghiaia
1mq
2100
105 0
7860 225
78,6
7860
78,6
87,5 8920
89,2
180
1,8
2700
27
14
490
7
2450
1,35
Alluminio Giunti
0%
4%
Guadua interna
-450
-600
Alluminio Giunti
-450
-300
-150
E.E. U.F. (MJ/Kg)
0
150
30%
70,07 -516,6
568,4
15,525
-516,6 29,796 75,285
390
29,796
Guadua 2100finitura interna
105
1mq 388,5
75,285
105
388,5
0
0
0
78,6
2145,78
141,48
0
0
0
78,6
4881,06
487,32
78,6
2145,78
141,48
78,6
4881,06
487,32
89,2
5084,4
294,36
Griglia per ventilazione
1mq
89,2
1mq 5084,4
1,8
189 1mq
27
294,36 6,12
756
1mq
490
568,4
7860
Copertura verde
7860
8920
35,1
1mq
70,07
0,2
1mq
CLS
180
-600 1,8
2700
27
756
35,1
490
568,4
70,07
2450
189 -300
-450
-150
6,12 0
150
300
45
1%
21%
0%
-300
-150
0
7%150
E.E. U.F. (MJ/Kg)
300
1%
450
21% 600
4%
300
Guadua rivestimento esterno Terra cruda Ghiaia Sabbia Argilla /Limo Guadua interna Guadua finitura interna Alluminio giunti Guadua finitura interna (Cop) Griglia ventilazione Copertura verde CLS
450
3%
26%
C.F. U.F. (CO2
1%
3%
26%
30% 26%
21%
4%
13%
21%
0%
Guadua finitura CLS interna
4,18
35,1
-258,3
4,9
4% Carbon Footprint (C.F.) U.F. (CO2eq/Kg)
7%
Copertura verde
4,9
6,12
756
390
0%
0%
Griglia per ventilazione
2,45
189
14
3%
0%
Argilla /Limo
57
487,32
0,4375 294,36
5084,4
15,6
0%
3%
Guadua finitura interna
4881,06
7800
13%
Sabbia
0
1mq
Terra cruda
Guadua finitura interna
6,9
141,48 3,825
2145,78
finitura interna
0%
Ghiaia
8,75
75,285
0
700
0%
-600
0%
388,5
135 67,5
-516,6
-516,6 29,796
390
248,4
Argilla /Limo Guadua interna
4,9
4,9
1mq
Giunti 4,9 -516,6 U.F. Alluminio Carbon Footprint (C.F.) (CO2eq/Kg)
15,6
15,6
19
1mqSabbia
Guadua interna 2700
15,525 Guadua
14
14 7800 300
Terra cruda 1mq
ICE
14
2700
Argilla /Limo 1mq
700
-516,6
248,4
700 (E.E.) U.F. (Mj/Kg) 14 Energy
ICE
CLS
Guadua rivestimento Sabbiaesterno
700 Kg/mq
1mq
Carbon Footprint 0,01 U.F. 1500 (CO2eq/Kg) 0,01
300
Guadua finitura interna
Copertura verde
700
1mq
1mq
700
0,05
1mq
Embody Energy DISPENSA 1mqU.F. (MJ/Kg) DISPENSA
1,35
0,002
0,02 0,002
Carbon Footprint (C.F.) U.F. (CO2eq/Kg) Griglia per ventilazione
1mq
Fondazioni
Fondazioni
Guadua finitura interna
Guadua rivestimento esterno
Kg/mc
Guadua rivestimento esterno
Alluminio Giunti
Embody Energy (E.E.) U.F. (Mj/Kg)
0,0005
1mq ICE
0,15
ICE
DISPENSA
Argilla /Limo
0,02
DIRETTA/ TESI
Kg/mq
0,02
DISPENSA
Sabbia 0,01
Fondazioni
0,15
DIRETTA/ TESI 1mq
DISPENSA DISPENSA
19000,143
700
DIRETTA/ TESI 1mq
0,01 Terra cruda
DISPENSA
1750
700
ICE
1mq Embody
0,02
0,002
DISPENSA
1500 1,3
17
0,02
Stratigrafia Copertura 1mq 2700
17
ICE
1,3
1,16
ICE
DIRETTA/ TESI
1mq
1,91
Kg/mc
1mq
Guadua interna
CLS
62,1
Rame
-36,9
0,717
SLIDE
1,16 1mq DIRETTA/ TESI
3,4
0,143
3,7
U.F. (unità funzionale) 27,3
Poliuretano 0,15 solido
DIRETTA/ TESI 0,05 Guadua rivestimento esterno
27,3
Poliuretano solido
0,35
DIRETTA/ TESI
DIRETTA/ TESI U.F. (unità ICE funzionale)
1,16
Stratigrafia Copertura
DIRETTA/ TESI 25
0,05
17
Spessore (m)17
0,01 17
0,717
Acciaio galvanizzato
Stratigrafia parete -36,9 0,35
ICE
DIRETTA/ TESI
1mq
1mq
0,05
DIRETTA/ TESI
-36,9Stratigrafia Copertura
0,2
CLS 0,15
ICE
17
11,5
1mq
6,9
ICE
0,02
ICE
135
ICE
Acciaio inossidabile
ICE
300
0,22
Spessore (m)
SLIDE
1mq
0,01
0,005
17
DIRETTA/ TESI
0,01
DISPENSA
0,017
Acciaio galvanizzato
0,35
3,70,717
3,7
Copertura verde
Fonte Fotovoltaico
DISPENSA
-516,6
3
11,5
Stratigrafia parete
Footprint U.F. (CO2eq/Kg)
1,3 4,9
14
0,1
184
0,22
0,017
2000
Alluminio giunti
0,005
17
0,023
1mq
-36,9
0,017
0,1-36,9
0,15
0,35
0,023
Feedstock Energy (MJ/kg)
SLIDE
28
0,3
Feedstock Energy (MJ/kg)
-36,9Griglia per ventilazione
0,005
3
Guadua finitura interna
0,45
GWP(CO2eq/Kg)
0,023
Guadua finitura interna
Guadua finitura interna
0,35
Alluminio 700
L.C.A. Analysis
Energy U.F. 3,4 (MJ/Kg)
105
1mq
Ghiaia Argilla/limo
GWP(CO2eq/Kg)
Poliuretano solido
0,02
17
Sabbia guadua interna (pali)
CED (MJ/Kg)
funzionale) DIRETTA/ TESI
-36,9
Guadua rivestimento esterno Terra cruda Ghiaia Sabbia Argilla /Limo Guadua interna Guadua finitura interna Alluminio giunti Guadua finitura interna (Cop) Griglia ventilazione Copertura verde CLS 600
26% C.F. U.F. (CO2eq/Kg)
0% 0% 0% 0%
13%
1%
26%
Guadua rivestimento esterno Terra cruda Ghiaia Sabbia Argilla /Limo Guadua interna Guadua finitura interna Alluminio giunti Guadua finitura interna (Cop) Griglia ventilazione Copertura verde CLS
Master II° Level “Architecture of timber structure”
14
Macario Ban Luca
1) Innovation technology 2) Design of timber structure 3) Architecture process and menagment of building 4) Design of building casing, energy performance and quality construction 5) The life cycle assessment design approach 6) Executive design and building site
esploso struttura telaio
2) Design of timber structure definizione carichi
solaio interpiano
neve= 1,53 kn/m2 p.p. copertura= 1,53 kn/m2 solaio interpiano g1 + g2= 2,72 kn/m2 parete portante = 1,56 kn/m2 accidentali folla = 2 kn/m2
vento = 0.39 kn/m2
solai, travi e pilastri
sisma = 77,6 kn
elemento
1 2 3 4 5 6 7
densitĂ [kg/m3]
spessore [m]
finitura laminato quercia
800
0.02
fibra minerale hd
135
0.02
massetto alleggerito pendenziato + arg. exp.
ca.1200
0.1
clt 7 strati 220 mm
550
0.22
isolante lana di roccia
60
0.03
lastra fibro-gesso
1150
0.01
telo fono-assorbente
orditura dei solai
pareti intern ed esterne portanti
parete portante
elemento
definizione carichi
neve= 1,53 kn/m p.p. copertura= 1,53 kn/m2
2
solaio interpiano g1 + g2= 2,72 kn/m2 parete portante = 1,56 kn/m2 accidentali folla = 2 kn/m2
vento = 0.39 kn/m2
solai, travi e pilastri
sisma = 77,6 kn
densitĂ [kg/m3]
spessore [m]
1 2 3 4
finitura cartongesso
820
0.02
isolante lana di roccia
60
0.03
osb
550
0.02
60
0.08
5 6 7
telaio
450
0.23
gessofibra
1150
0.02
lana di roccia
60
0.05
isolante lana di roccia
taglio schema statico
momento schema statico
spettro di progetto
graffatura telaio
telaio 160 x 100 mm
160 mm
selezione connessioni a terra
1
625 mm
Titan TCN 240 per talaio Rothoblaas interasse 1000 mm
150 mm
1 3 4 5
Titan TCN 240_ Angolare/ WBO 100 senza rinforzo
2 SIM angolare ABR 105-B C/ rinforzo Borgoitalia interasse 1000 mm
WHT 340_ Holdown Chiodi ANKER lba 4 x 4 ancorante M16 5.8
3000mm
3 WBO 100 senza rinforzo Rothoblaas interasse 1000 mm
selezione connessioni interpiano
1250 mm 100 mm
2
sim angolare ABR 105-B C/ rinforzo
4
WHT 340 doppio Holdown
4 WHT 340 Holdown Rothoblaas
160 mm
5 5
Chiodi ANKER lba 4 x 4 ancorante M16 5.8
Chiodi ANKER LBA 4,0 x 4,0 Chiodatura parziale 14 conn. Ancorante M16 5.8 Rothoblaas
4) Design of building casing, energy performance and construction quality
Sezioni complete
Continuita’ isolamento termico Continuita’ tenuta all’aria
Tagliamuro EPDM
Dettaglio tecnologico completo Sez. AA scala 1.20
e dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
Nastratura tenuta aria/vento
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
4
tenuita aria/ / Nastro monoadesivo universale ad alta adesività tipo/ Rothoblaas Flexiband Schermo freno al vapore tipo _ Rothoblaas Vapor 150/ sd=113 Nastratura m / μ = ca. 26000 / sd. 40 m / Resistenza allo strappo 50 N/25 mm s= 0,2 mm / 150 g/m2
5
2 Nastro sigillante punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster Tagliamuro EPDM / Tagliamuro sigillante per sottofondi irregolari tipo/ Rothoblaas Connect band / 0,042 W/mK / Resistenza all lacerazione 25 kN/m / μ = ca. 32000
1
4
1
1
31 Nastratura tenuita aria / Nastro monoadesivo universale ad alta adesività tipo/ Rothoblaas Flexiband / sd. 40 m / Resistenza allo strappo 50 N/25 mm
2
Nastro sigillante punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster 3
3
Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 1 m / μ = ca. 100 /s= 0,2 mm / 3 2 150 g/m2
4
Schermo freno al vapore tipo _ Rothoblaas Vapor 150/ sd= 113 m / μ = ca. 26000 / 4 s= 0,2 mm / 150 g/m2 4 4 Tagliamuro EPDM / Tagliamuro sigillante per sottofondi irregolari tipo/ 1 Rothoblaas Connect band / 0,042 W/mK / Resistenza all lacerazione 25 kN/m / μ = ca. 32000 41
1
2 Continuita’ tenuta all’aria 2 2
5
Dettaglio odo parete_ sezione orizzontale scala 1.5
1
1
Continuita’ tenuta all’aria
4
I I
E E
Dettaglio odo parete_ sezione orizzontale scala 1.5
Dettaglio copertura/ parete scala 1.5
1 1 2 2 3 3 4 4
1 3D Dettaglio copertura/ parete
3D Dettaglio copertura/ parete
1
I
1
1 Nastratura tenuita aria / Nastro monoadesivo universale ad alta adesività tipo/ Rothoblaas Flexiband I / sd. 40 m / Resistenza allo strappo 50 N/25 mm Nastratura tenuita aria / Nastro monoadesivo universale ad alta adesività tipo/ Rothoblaas Flexiband /Nastro sd. 40sigillante m / Resistenza allo strappo 50 N/25 mm punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster
1
I
4
4
Nastro sigillante punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm / 150 g/m2 Membrana altamente5 traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm 3 / 5 g/m2 150 Schermo freno al vapore tipo _ Rothoblaas Vapor 150/ sd= 13 m / μ = ca. 26000 /
s= 0,2 mm / 150 g/m2 Schermo freno al vapore tipo _ Rothoblaas VaporE150/ sd= 13 m / μ = ca. 26000 / Serramento verticale 2 s= 0,2 mm / 150 g/m Continuita’ tenuta all’aria Continuita’ tenuta all’aria
E
E
4
4
5
5 3
3
3
Dettaglio attacco a terra_ sezione verticale scala 1.5
3D Dettaglio nodo parete-solaio
1 1 2
I I
II
E 1 1 E
EE
1 21 1
1
I
3D Dettaglio serramento imposta alta
2 1
3D Dettaglio serramento imposta alta
I
2 2 1 1
3D Dettaglio 3D Dettaglio serramento serramento imposta imposta altaalta
E
5
Dettaglio serramento sezione verticale scala 1.5
3
1
4 3 1 4
11 2 1
E
3D Dettaglio serramento/ 4 lato, imposta bassa
1
2
1
Nastratura tenuita aria / Nastro monoadesivo universale ad altaserramento/ adesività tipo/ Flexiband 3D Dettaglio 4 Rothoblaas lato, imposta bassa / sd. 40 m / Resistenza allo strappo 50 N/25 mm
Dettaglio attacco a terra_ sezione verticale scala 1.5tipo/ Rothoblaas Flexiband Nastratura tenuita aria / Nastro monoadesivo universale ad alta adesività
I I
Continuita’ tenuta all’aria
1
1
2
2 3 1
Nastratura tenuita aria / Nastro monoadesivo universale ad alta adesività tipo/ Rothoblaas Flexiband / sd. 40 m / Resistenza allo strappo 50 N/25 mm Nastro sigillante punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm / 150 g/m2
3D Dettaglio serramento imposta alta
4
Schermo freno al vapore tipo _ Rothoblaas Vapor 150/ sd= 13 m / μ = ca. 26000 / s= 0,2 mm / 150 g/m2
5
Tagliamuro EPDM / Tagliamuro sigillante per sottofondi irregolari tipo/ Rothoblaas Connect band / 0,042 W/mK / Resistenza all lacerazione 25 kN/m / μ = ca. 32000 Continuita’ tenuta all’aria
3D Dettaglio nodo parete-solaio
Dettaglio odo parete_ sezione orizzontale scala 1.5
1
Schermo freno al vapore tipo _ Rothoblaas Vapor 150/ sd= 13 m / μ = ca. 26000 / s= 0,2 mm / 150 g/m2
Serramento verticale
Serramento Serramento verticale verticale
1 2
4
2
4
Dettaglio attacco a terra_ sezione verticale scala 1.5
2
1
3 3
E 4 4 1 1 E
La progettazione dell’involucro edilizio: qualità costruttiva ed qualità efficienza energetica_29.03.2019 Ban Luca _ La progettazione dell’involucro costruttiva ed efficienza energetica_29.03.2019 MacarioMacario Ban Luca _ La progettazione dell’involucro edilizio:edilizio: qualità costruttiva ed efficienza energetica_29.03.2019 La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
1
Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm /
Attacco a terra
2
Dettaglio copertura/ parete scala 1.5
3
150 g/m Serramento verticale
21
NASTRO PER SERRAMENTI tipo/ BG1/BG2 / sd. 40 mSIGILLANTE / ResistenzaAUTOESPANDENTE allo strappo 50 N/25 mm Rothoblaas Frameband/ 600 Mpa
32
Nastro sigillante punto chiodo monoadesivo adPER alta adesività tipo/ Rothoblaas Neil plaster NASTRO SIGILLANTE AUTOESPANDENTE SERRAMENTI tipo/ BG1/BG2 Rothoblaas Frameband/ 600 Mpa
4 3
Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm / Nastro punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster 2 150 g/msigillante
4
3D Dettaglio 3D Dettaglio serramento/ serramento/ 4 lato, 4 lato, imposta imposta bassa bassa
MembranaContinuita’ altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm / tenuta all’aria
3 4 1 3D Dettaglio serramento/ 4 lato, imposta bassa
1 1 2
3 4
Nastratura tenuita aria / Nastro monoadesivo universale ad alta adesività tipo/ Rothoblaas Flexiband / sd. 40 m / Resistenza allo strappo 50 N/25 mm NASTRO SIGILLANTE AUTOESPANDENTE PER SERRAMENTI tipo/ BG1/BG2 Rothoblaas Frameband/ 600 4 Mpa 4 Nastro sigillante punto chiodo monoadesivo ad alta adesività tipo/ Rothoblaas Neil plaster
5
Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm / 150 g/m2 3
3
Continuita’ tenuta all’aria
3D Dettaglio nodo parete-solaio
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
2
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
1
Attacco a terra 3
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
Membrana altamente traspirante tipo_ Rothoblaas Traspir 150 / sd= 0,05 m / μ = ca. 100 /s= 0,2 mm / 150 g/m2
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_2
3 2
Macario Ban Luca La progettazione dell’involucro edilizio: qualitàqualità costruttiva ed efficienza energetica_29.03.2019 Macario Ban_Luca _ La progettazione dell’involucro edilizio: costruttiva ed efficienza energetica_29.03.2019
1
Copertura/parete
Metall-Folie
E
Fibra di Strato legnod'aria Naturalia Bauaccumulo umidità aggiuntiva 40 mm; senza Membrana traspirante Rothoblaas Abete radiale (capillare) Fibra di legno Naturalia Bau
Cellulosa
Abete radiale (capillare)
OSB 3 IPAN Cellulosa
OSB 3 IPAN Freno Rothoblaas
Freno Rothoblaas
Strato d'aria 60 mm Strato d'aria 60 mm Gessofibra Khauff Gessofibra Khauff Intonaco Knauff
Condizioni esterne T= -8°c U.R. 60%
Intonaco Knauff 120
I
Abete radiale (capillare) Cellulosa
OSB 3 IPAN Freno Rothoblaas Strato d'aria 60 mm Gessofibra Khauff Intonaco Knauff 120
Sughero corkpan Tecnosugheri
120
Abete radiale (capillare) Cellulosa
E
Contenuto d'acqua medio [kg/m³]
OSB 3 IPAN
90
60
Freno Rothoblaas
90
Strato d'aria 60 mm Gessofibra Khauff Intonaco Knauff
60
30
0
0
6570
13140
30
90
Sughero corkpan Tecnosugheri Abete radiale (capillare) Cellulosa OSB 3 IPAN
0
0
6570
Freno Rothoblaas Strato d'aria 60 mm
75
13140
60
30
0
6570
13140
19710
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
I
E
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
26280
Intonaco Knauff
Intonaco Knauff 120
Sughero corkpan Tecnosugheri
120
OSB 3 IPAN
Cellulosa
OSB 3 IPAN
Freno Rothoblaas
Strato d'aria 60 mm Cellulosa
Intonaco Knauff OSB 3 IPAN
Abete radiale (capillare)
60
Intonaco Knauff
Condizioni esterne Analisi triennale T= -8°c U.R. 60% Freno Rothoblaas
Strato d'aria 60 mm Gessofibra Khauff Intonaco Knauff
E
30
0-8
0
0
Sab-Dom 6570
0
8.45-14 0
14-15
75
15-21.30
Intonaco Knauff
90
Cellulosa
I
6570
13140
19710
8.45-14 T rugiada= 12,1 °C
6570
13140
+
19710
14-15 (01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
E
19710
(01/01/2019 : 00 - 01/01/2022 : 00) 21.30-24
+
Ora [Ora]
90
60
I
30
0
26280
8-8.45 Tsu °c + misurata= 15,7
13140 60
0-8
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
30
90
15-21.30 21.30-24
0
6570
0
6570
Contenuto d'acqua medio [kg/m³]
90
0
13140
+ +
26280
+ 26280
+
19710
26280
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
0
6570
75
13140
60
45
30
13140
19710
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
Cellulosa OSB 3 IPAN Freno Rothoblaas Strato d'aria 60 mm Gessofibra Khauff Intonaco Knauff
90
60
30
0
0
6570
26280
0-8
30
C
+ψ
14-15 19710
13140
(01/01/2019 : 00 - 01/01/2022 : 00) 26280 Ora [Ora]
0
L L
8.45-14
6570 19710
13
(01/01/2019 : 00 Ora
8-8.45
0
15-21.30
0
90
Sughero corkpan Tecnosugheri Abete radiale (capillare) Cellulosa OSB 3 IPAN Freno Rothoblaas Strato d'aria 60 mm Gessofibra Khauff Intonaco Knauff
Abete radiale (capillare)
Lun-Ven
60
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
La prima analisi condotta è stata in “Free- Run”, con condizioni di 75
0
30
Gessofibra Khauff
OSB 3 IPAN
60
30
Strato d'aria 60 mm
Cellulosa
90
120
Freno Rothoblaas
120
sup. spazio comune = 18mq sup. bagno = 9mq h= 2,7 mt
Sughero corkpan Tecnosugheri
120
90
60
Abete radiale (capillare) Gessofibra Khauff
Gessofibra Khauff Gessofibra Khauff Intonaco Knauff
Gessofibra Khauff Intonaco Knauff
Sughero corkpan Tecnosugheri
Freno Rothoblaas
Strato d'aria 60 mm Strato d'aria 60 mm Intonaco Knauff
Strato d'aria 60 mm
Condizioni interne 90 T= 20°c Tsu misurata= 17,2 °c 2 zone termiche Spazio Comune, Bagno U.R.= 50% T rugiada= 12,1 °C
OSB 3 IPAN
120
90
Freno Rothoblaas
90
Sughero corkpan Tecnosug
120
Contenuto d'acqua medio [kg/m³]
Abete radiale (capillare) Cellulosa
Abete radiale (capillare)60
Abete radiale (capillare)
Freno Rothoblaas
26280 Gessofibra Khauff
Strato d'aria 60 mm
Gessofibra Khauff Gessofibra Khauff
Fibra di legno Naturalia Bau
30
Freno Rothoblaas
Strato d'aria 60 mm Strato d'aria 60 mm
Sughero corkpan Tecnosugheri
OSB 3 IPAN Cellulosa
Cellulosa
OSB 3 IPAN
Freno Rothoblaas
Parete esterna
Cellulosa
Abete radiale (capillare)
19710
OSB 3 IPAN Freno Rothoblaas
Membrana traspirante Rothoblaas Abete radiale (capillare)
Abete radiale (capillare)
Sughero corkpan Tecnosugheri
OSB 3 IPAN Cellulosa
Metall-Folie
8-8.45
0
Abete radiale (capillare)
Fibra di Strato legnod'aria Naturalia Bauaccumulo umidità aggiuntiva 40 mm; senza
Sughero corkpan Tecnosugheri
0
Cellulosa
Membrana traspirante Rothoblaas
Strato d'aria 60 mm 0
Fibra di legno Naturalia Bau
Strato d'aria 40 mm; senza accumulo umidità aggiuntiva
Freno Rothoblaas 26280
Membrana traspirante Rothoblaas Abete radiale (capillare)
Metall-Folie
Lun-Ven
60
Metall-Folie
Fibra di Strato legnod'aria Naturalia Bauaccumulo umidità aggiuntiva 40 mm; senza
Simulazione Parete esterne e copertura in “free-flooting”_ Wufi_ 3 anni E
OSB 3 IPAN
19710
(01/01/2019 : 00 - 01/01/2022 : 00) Ora [Ora]
90
90
Membrana traspirante Rothoblaas
Copertura
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
Membrana traspirante Rothoblaas
120
Sughero corkpan Tecnosugheri
Strato d'aria 40 mm; senza accumulo umidità aggiuntiva
midità rel. media [%]
Strato d'aria 40 mm; senza accumulo umidità aggiuntiva
Metall-Folie
Contenuto d'acqua medio [kg/m³]
Metall-Folie
Parete esterna
Contenuto d'acqua medio [kg/m³]
Copertura
Parete esterna
Copertura
Umidità rel. media [%]
Tsu misurata= 17,2 °c T rugiada= 12,1 °C
Simulazione Parete esterne e copertura in “free-flooting”_ Wu
gettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019 Contenuto d'acqua medio [kg/m³]
T rugiada= 12,1 °C
I
tazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
I
Tsu misurata= 15,7 °c
Simulazione Parete esterne e copertura in “free-flooting”_ Wufi_ 3 anni
Condizioni interne dizioni esterne T= 20°c °c U.R.= 50% 60%
I
I
E
Contenuto d'acqua medio [kg/m³]
dizioni interne 0°c = 50%
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
I
E
Contenuto d'acqua medio [kg/m³]
Condizioni esterne T= E -8°c U.R. 60%
Contenuto d'acqua medio [kg/m³]
o nto
E
Contenuto d'acqua medio [kg/m³]
Tsu misurata= 17,2 °c T rugiada= 12,1 °C
Condizioni interne T= 20°c U.R.= 50% temperature
I
midità rel. media [%]
T rugiada= 12,1 °C azione andamento temperature _ Nodo parete/solaio base
E
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019 Contenuto d'acqua medio [kg/m³]
I
Tsu misurata= 15,7 °c
Simulazione andamento temperature Therm_ Nodo serramento
gettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
I
Macario Ban Luca _ La progettazione dell’involucro e
E
Macario Ban Luca _ La progettazione dell’involucro edilizio: qualità costruttiva ed efficienza energetica_29.03.2019
Simulazione andamento temperature Therm_ Nodo parete/solaio base
6570
26280
+
L L
131
(01/01/2019 : 00 21.30-24 Ora ψ [
La prima analisi cond 75 assenza di impianto p dell’ambiente, in sol descrivono un anada notare un abbassaman 60 in particolare di quelli 45° posto come strato
Work Project
Office Residential buildings Timber structure
15
Turin, Office work-room
Office
Analysis
3D model
Production
Residential builnding Timber structure
Video maker with you tube channel
Borgata Campofei, video render (CN) , Restauro e recupero sostenibile della borgata https://youtu.be/ocX-9-M8I7M https://www.youtube.com/watch?v=ocX-9-M8I7M&ab_channel=LucaMacario Cavallerizza reale di Torino, coll. E.DI.SU. Piemonte https://youtu.be/G2TzypxZeKM https://www.youtube.com/watch?v=G2TzypxZeKM&ab_channel=LucaMacario https://www.youtube.com/watch?v=ZYP6PT7-REI&ab_channel=mauromeneghetti Eco-sustainable atelier, Torino, valorizzazione dei suoli https://youtu.be/thn59WSrjlE https://www.youtube.com/watch?v=thn59WSrjlE&ab_channel=LucaMacario Centro ippoterapico Barone Canavese https://youtu.be/TZsR5trNupc https://www.youtube.com/watch?v=TZsR5trNupc&ab_channel=LucaMacario Sopraelevazione in legno, Via Pietro Cossa, Torino https://youtu.be/kxKHlNik88U https://www.youtube.com/watch?v=kxKHlNik88U&ab_channel=LucaMacario
16
Tesi di laurea, Macario Ban Luca (Un casa per il Solar Decathlon Latino amertica e Carribean) https://www.youtube.com/watch?v=UkT-IP8hK2o&t=8s