DESIGN & BUILD BRAZIL 2009 FAVELA MANGUEIRA
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
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DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA 2
Design & Build Brazil - Favela Mangueira Social Housing
June 2009
Authors Jeroen Egberts Tim de Rijk Kevin Vermeulen
229838 225876 217854
Building Technology Architecture & Urbanism Building Technology
Hogeschool van Amsterdam
University of Applied Sciences
Introduction
We have to design a small social housing complex of 30 - 40 houses in the neighborhood of favela Mangueira. The design has to be innovative, efficient, realistic and achievable for this environment, thinking about available know-how, materials and low-cost building. To get more information about the existing situation we analyzed not only the existing houses, but also the locations and later on the ambiance of this area. We did analyses of the existing functions in the neighborhood (Maracana stadion). What are realistic possibilities for this area? After our six weeks of analyzing we went to Brazil to get the “feeling” of living in the area, especially in the favelas. In Brazil we choose the location for our project. With all these gained information we designed social housing for this area. Besides the social housing we als had to keep in mind functions like commerce, public spaces, infrastructure, social areas and off course the technical solutions. This report is the result of our analysis and design for the project area “favela Mangueira. The report consist of the following main chapters: - Urbanism - Technical analyze - Architecture - Construction - Technical solutions - Organization
Picture of the projectarea, made when we visite Rio de Janeiro
INTRODUCTION
This is the report of the graduation of Design and Build Brazil 2009. The project group consist of one architecture & urbanism student and two building technology students. This graduation is part of the total project “Social building in Brazil”. This is the second phase out of the four phases.
Google Earth map of the projectarea
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
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DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TABLE OF CONTENTS
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Table of Contents
1. Urbanism Different areas Sections Existing situation Density Functions Infrastructure S.W.O.T. Phase 1 Phase 2 Phase 3 Phase 4 Phase 5 Urban plan Impressions
2. Architecture Vision Type of building Type 1 Building on slopes Type 2 Type 3 Type 4 U-block Other functions Floor plans Type 1 Type 2 Type 3 Type 4 U-block Dimensions of spaces Elevations 3D impressions
5
3. Technical Analysis
53
6 8 10 12 14 16 18 20 22 24 26 28 30 32
Buildings methods Buildings materials Technical principles Conclusion
54 58 70 75
33 34 35 35 36 37 38 39 40 41 42 42 43 44 46 48 49 50 51
Hogeschool van Amsterdam
4. Construction Floor plan Sections 3D + Explanation Details Detail 3D Calculation 3D impression
5. Technical solutions Floor plans Elevations Sections Technical principle (section) Grey water system Ventilation system Pipes & Drains Sun protection Details List Attachements
77 78 79 80 81 82 83 84
85 86 90 94 98 100 102 104 106 108 116
6. Organization
117
Organization Building proces
118 119
7. Conclusion Attachements
University of Applied Sciences
121
URBANISM
1
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM Green (districted area)
Zoo
Social Housing Green (steep slopes)
Industry & Housing
Favela “Mangueira”
Prison & Firestation & School
Industry & Housing
Commerce Developing Housing Area
Project area
Military area
Infrastructure (train/metro/cars)
Maracanã area Scale - 1 : 2500
6
Hogeschool van Amsterdam
University of Applied Sciences
Vision Before making the urban design we wrote down our vision. Our opinion about the urban design is to make the area better for human living, in the future and in consistancy with our vision of the whole project. The following points will be the main aspects for making the urban design. - Connection with favela “Mangueira” and other surrounded areas - The urban plan must be expandable - Creating public space and recreation places - Preservation of existing building on the project site - Urban solution aspect who can also be used in other areas
The projectarea is located in the city Rio de Janeiro. There is a railway near the area who divides the north with the south. That is the reason our projectarea is not well connected with the south(Maracanã area). Another aspect of north and south is the differents between rich and poor. In the north side you can see favela “Mangueira” and at the southside you can find houses of the middle class people. This different contrasts makes this a complex area.
Isolated Areas Green
Different Areas
Favela Housing
Social Housing
Industry
The projectsite is located at the foot of the hill on a flat surface. The site is on two sides surrounded by the houses of favela “Mangueira”. The favela housing started on the hill, it stops at our projectsite and near steep green slopes. Almost at the top of the hill there is a new social housing project. This project is only accessible by a steep road.
Area with potential Different People
Different Functions
Education and Health
Project Site
Bad Connection Maracanã
Military Area
At the west side of the area there are plans for new developing housing. This is not realized but the plans are almost finished. Besides the housing there are more commercial functions. At the east side of the projectside are shops and bars, at the backside there are industrial buildings. These buildings are not all in use at the moment. Next to the industrial buildings is a way to the north, this way ends at the zoo. In the future there are plans to extend this way over the hill to the north where a park and a market are located. Also located next to this way are a prison, firestation and school: A place for education and health.
DIFFERENT AREAS
Interpretation project area
The way of carrying with different functions, connections and also the formal/informal city makes the urban design really complex. That is why we first started with a better way of analyzing the projectarea. At the next pages you can see wich issues we have analyzed to get more grip on this part of the city.
A city place
Map/Schedule essential aspects Maracanã-Mangueira area.
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
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URBANISM
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
A B
C
C
A B
Scale - 1 : 1000
8
Hogeschool van Amsterdam
University of Applied Sciences
project area
Section B Scale - 1 : 1000
project area
Section C Scale - 1 : 1000
SECTIONS
Section A Scale - 1 : 1000
project area
Impression existing situation
Impression existing situation
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
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DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM
10
1
2
3
4
5 1
4 6
5
2 3 7
8
6
7
8
Hogeschool van Amsterdam
University of Applied Sciences
10
10
11
13
11 12
10
9
12
13
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
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EXISTING SITUATION
9
9
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DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM
Scale - 1 : 1000
12
Hogeschool van Amsterdam
University of Applied Sciences
Developed Housing
Military
Economic
DENSITY
Favela “Mangueira”
Economic
Military
- Middle density - Big structure - Industry 2 levels - Good accessibility - No public space - Enclosed by commerce - Formal area
- Low density - Organized structure - Military 3 levels - Good accessibility - Private space - Enclosed by a wall - Formal area
Developed Housing
Favela “Mangueira”
- Middle/High density - Organized structure - Social Housing 4 levels - Good accessibility - Private space - Gated community - Enclosed by a wall - Formal area
- High density - No organized structure - Small housing 3/4 levels - Bad accessibility - No public space - Informal area
Jeroen Egberts
Density Around the project area there are four different types of densities. This is similar to the various functions in the area. Each function has there own density. The density of the favela housing area is very high. Near the project area there is an industrial place. There is a big structure with a lower density. This has also to do with the height of the buildings. Housing provides the most levels. De economic and military buildings has less levels. For the urban design it is important to find a typology that can forms a connection with the surrounded areas. By connecting the different kind of densities we can create a better consistency. We do not want to create an isolated project area, but an area with a typology which can fit with the density of the urban context.
Tim de Rijk
Kevin Vermeulen
13
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM
Scale - 1 : 1000
14
Hogeschool van Amsterdam
University of Applied Sciences
Functions In the projectarea are different functions. In this analysis we looked at the different functions. How they are used now, and how can we make the functions better. What kind of functions do this area misses and which can we add to this project? New Housing - Social housing for poor people from the city - Gated community - Surrounded by a wall
Industry - Big buildings - We do not know how they are used - There is potential for creating more employment
Existing Housing - The government build this housing for the people who lived in dangerous housing in other favela’s - They like the location and housing
Education & Health - Firestation and a prison - Near this you can find a school - The children from the area go to this school - In this place you can also find a small health place like a hospital
Favela Housing - Small houses - High density - Poor living conditions - Much diversity Commerce - Small shops and bars near the industry building - The commerce is for the people in the favela - The shops are used well - More shops can make the area more atractive
Sports - A soccerfield used by the people from the favela - A place were people can come together - Nice place for the people
Maracanã area - A touristic place - A place for all the people from Rio de Janeiro - New plans for the future. It does not really have a good relation/connection with the projectsite
Ed tion uca
ry ust Ind
Favela “Mangueira”
d an He alth
rcia me om
C and l
Project Area
eira” angu
la “M
Fave
Housing
FUNCTIONS
Military - A military area closed by a wall - It is still in use now but in the future it will change - It do not have really a connection with the projectsite - In the future it may will have a better connection with the Maracanã area
ust Ind
Military Area
ry The functional areas needs a better connection, by and add/extend new functions we can create a better interaction
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
15
URBANISM
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Unknown road
Second road
Informal road
Main road
Scale - 1 : 1000
16
Hogeschool van Amsterdam
University of Applied Sciences
Infrastructure We distinguish different types of roads. In this analysis we look at how and by who the roads are being used. We are finishing with our opinion of how we think the roads can be better used. For a better way of using we looked at routing, connection and accessibility.
Bus
Bike
Car
Pedestrian
Main road - Connection to the west and east side of the city. Big infrastructure with heavy traffic. A road with a lot of potential for commerce and industry. A good connection with the project area is necessary for a good accessibility. It will also help to make more interaction with the housing
Taxi
Second road - Connecting the main road with the north. A road with a lot of potential to be more economic. In the north is also another housing project. A connection with housing and industry will make the area more attractive. In the future they will extend the road more to the north where you can find a park and a market.
Bike
Car
Connection with the metrostation
Informal road - This road makes the favela accessible. This informal road needs a better relation with the main road for a more save way of using. Bike
Car Pedestrian
Unknown road - Connections with the other roads to make a better routing is necessary. Routing will make the project area more attractive and accessible. Pedestrian
Bike (not at all the roads possible)
Entrance Favela “Mangueira� Connecting housing 3/4 levels No structure
Commerce & Industry Project Area
Connection to the second road for a better routing
Connecting Economic 2 levels Big structure Entrance
Connection favela with project area
Commerce Connecting housing 4 levels Middle structure
Firestation & Education
Developed Housing (closed) Main Road
Connecting of the informal road to the second road
Acces to the city
he
ot es t
Entrance
Acc
Military Area (closed)
INFRASTRUCTURE
Pedestrian
p
ct roje
a
are
Accessibility and routing
Functions and possible connections
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
17
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
S.W.O.T. ANALYSE
STRENGTHS -
WEAKNESSES
S W
Central location Accessibility Recreation / Public space Commerce Existing social housing
-
- The projectarea is central located, in the surroundings you can find the Maracana stadium, the Samba school etc. - The projectarea is well accessible by the existing roads - There is a soccerfield and big empty spot in the projectarea, a lot of children play over those fields - On the projectarea there are some small commercial functions like bars and shops, they operate well - The inhabitants of the existing social housing buildingappartments are positive about their living.
Safety Number of livings "Closed" - Not invited Poor 'look' Neglect
- The projectarea is located next to favela Mangueira, the criminality in the favela causes unsafety to the inhabitants - On this moment there is less social housing in the area, there are 18 social livings in 3 building appartments - It's only safe for the inhabitants of the area - The neighborhood looks poor - There is no maintenance of the area, there is not an organisation
Photo of Mangueira, on top of the watertank
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Hogeschool van Amsterdam
University of Applied Sciences
OPPORTUNITIES
O T
Connection with favela Create more housing Better/more recreation / Public space More commerce Make an attractive area Organization
- Favela will flowed over in the area - The area will be neglected
- On this moment there is not a 'transition' between the favela and the open square of the projectarea - There is enough space to make more social housing - The quality of the public space is bad. By making better and more public space the area will be more social - More commercial functions will give the area a positive input, the area will be more social. The commerce are employment for the inhabitants - By different additions on the location, the area will be more atractive - Manage the area and social housing by an organization
Jeroen Egberts
- By connect the projectarea to the favela, there is a change the favela will flowed over in the area - The management must be observed, otherwise the area will be neglected again
Tim de Rijk
Kevin Vermeulen
S.W.O.T. ANALYSE
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THREATS
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DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM
Good accessibility
Area with potential to develop
Connection with the city
Scale - 1 : 1000
20
Hogeschool van Amsterdam
University of Applied Sciences
Phase 1 Employment Building Company - Employment - Knowledge - Organization - Support build - Housing development area
Building Company
Location Near favela “Mangueira” is an industrial area. It is unknown which buildings are still in use, but the location has a lot of opportunity to be a place for new employment. The road at the east side of the area will be in the future more significance, there will be a connection to the north side of the city. With the east-west connection it makes the area perfectly accessible. We think the industrial area has a lot of potential for new employment, it can make the area more atractive. We think creating a building company is a good start for new development. The building company can take a place in this industrial zone. The place depends on which buildings are not in use in the area. Now we take a place at the north side of the industry. There are two large buildings and an open area for material storage.
Storage Material
PHASE 1
Organization Company The start of the company has to bring an organization of people from the area. The building company have to take care of making building materials. These materials can be different than the materials they normally use, so the people can learn more about building. This kind of education is necessary for upgrading the building proces. Besides education the people earn also money to buy or develop new housing. The employees of the company also have to help with building. Professional builders will make the construction of the houses. We think the work and education is very important for the people in favela “Mangueira”. This is the first phase for realising a better environment. In the chapter organization we will tell more about the management of the project.
Start
Finish
+ “Favela people”
+
+ Work
Social
Knowledge Education
Jeroen Egberts
Tim de Rijk
= Money
Economic
Kevin Vermeulen
New housing Development
21
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM Building Company
Storage Material
Commercial line
U-Block Typology 18 houses (1200m2) 4 types Closed by commerce (150m2)
Scale - 1 : 1000
22
Hogeschool van Amsterdam
University of Applied Sciences
Phase 2 Housing Sloped roof to prevent level extension
1 Module Housing - Generic different places - Expandable horizontal - Applied to slopes Width.6m Length.9m Floor 54m2
Last level can also serve as a terras
- Linking modules. - Modules can also be build at different slope angles. - Numbers depending on urban plan. - Different size of houses each layer. - Commercial block can close the rows (Gated community). r4
blo
ck
s
Groundfloor can also serve workingspace
U-Block typology Floorplan
PHASE 2
3o
Housing may consist of several levels, depending on the size
commerce
Different ways of linking housingrows
optional
By making green areas and parking spaces in the rest places we try to give each space a function, so the people do not build there.
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
23
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM Road into the favela “Mangueira”
Connection to another social housing project
New connection to make the area accessible from two sides Connection to the north side of the city
Connection/access to the west side
New routings possible
Connection east and west side of the city
Scale - 1 : 1000
24
Hogeschool van Amsterdam
University of Applied Sciences
Phase 3 Infrastructure
Housing Block
Existing situation
- Multiple entry / exit passageways - Accessible for cars - Connection with the north - Connection social housing(north) - Routing
We want to create new infrastructure. By making a road to the building company there will be a connection to the north. The other infrastructure arises from putting the modules in the urban plan. At commercial areas there will be a bigger infrastructure, the streets for housing are smaller. By building a housingblock we can move people from the favela. Because of demolition that houses we can make new housing. One U-block contains 18 houses, so eightteen favela houses can be demolished. This housing creates new streets en infrastructure. By continueing this proces we create a new urban plan. At the hills the housing will folow the heightlines, at these lines are the streets bigger, so it is also accessible for cars. On the vertical roads it’s only accessible for pedestrians.
New plans infrastructure
PHASE 3
1 Building new housingblock 2 Moving favela-housing 3 Demolition favela-housing 4 Creating new infrastructure
project area
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
25
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM Work
B Housing
Commerce Industry
A Sports Multifunctional centre
Work&Housing
Scale - 1 : 1000
26
Hogeschool van Amsterdam
University of Applied Sciences
Phase 4 Adding Functions On the right side of the projectarea there is already a commercial strip. On the other side we want to add new commercial functions. By making a bigger road, accessible for cars, we try to make a difference between the housing area. The commercial strip will “close� the U-block, so it is possible to create a gated community when it is necessary. Interaction between the two sides of the commercial line have to make it a save place for the inhabitants. We retain the existing sportfield, the people from the area uses this place al lot at this moment. By making a multifunctional centre with different functions near the field we try to attract other people from the area. In the future the area will be extend with houses, by these thinking we make the public functions already bigger than necessary. It will be a place for everybody. We try to bring the surrounding densities together, the various street widths should show a difference in space.
U-block typology
Commerce
Existing housing
Soccerfield Playground Sports
PHASE 4
Commerce line-routing
Playground
Multifunctional centre Existing building
Parking Combination of housing and commerce
Mixed functions changedd into housing
A
B
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
27
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM A
B
A
28
B
Hogeschool van Amsterdam
University of Applied Sciences
Phase 5 Continue Urbanplan Maquette In phase 5 we extend the projectarea. By working in a maquette model we could play a lot with the modules. On the north side we demolished the favela housing and put new social housing on that place. The social housing gives the area a better living environment. The houses are bigger, saver, more sustainable and there is more public space than before. On the ground space is also workspace available. In the urban plan we tried to make a connection with the surrounded density, we build small rows of houses which can interact with the urban context. The empty spaces in the urban plan and geography determined how much houses(rows) we can build.
Phase 5 Continue Urbanplan
Phase 4 Adding Functions
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
PHASE 5
The housing area is different from the commercial area by the infrastructure. The street sections make the difference. In the commercial line the streets are almost ten meters wide. In the housing area the streets are six meters wide. Both roads are accessible by cars. Up the hill it can be different, this depends on the angle of the slope and the accessibility for cars. The empty spaces between the streets and houses can be filled by green and parkingplaces. This prevents possible extensions of housing.
29
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM
30
A
C
D
B
Developing housing
Work & Housing
Sports
Health & Education
Existing buildings
New social housing
Commerce
Industry
Military
Green zones
Hogeschool van Amsterdam
University of Applied Sciences
Urban Plan
URBAN PLAN
Placing the modules is based on the heightlines and existing infrastructure. Rain water is partly absorbed by the roof, the rest flows through the sewer system or the infrastructure of the slope. The streets can be illuminated by lamps on the roofs of the modules. On the steep hills concrete stairs are making a vertical connection. The accessibility by cars is only on east-west direction possible. The streets are wider when there is a commercial line. Empty places between the blocks are filled with stairs to make a north-south connection. Empty spaces between streets and block on a flat surface are filled with parkingplaces and green areas. Under the green trees is a place with seats you can relax.The determination of the use of public space prevents extension of the building blocks. Parking, green areas and infrastructure are applications that are understandable.
Different typologies in a mix of work and housing, build up from one module
C D A B
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
31
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
URBANISM
32
Hogeschool van Amsterdam
University of Applied Sciences
ARCHITECTURE
2
ARCHITECTURE
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Vision
Our opinion about the architectural design is: design good quality housing, low-cost and expandable in the future, this should ensure better living conditions. The following points will be the main aspects for making the architectural design. - Expandable in the future - Generic, also applicable in other areas - Combination of work and housing - Functions for the development of knowledge - Correct connection infrastructure (orientation)
Working with modules is an easy way to make different typologies of housing. It is possible to make small or large masses. The masses can connect to the surrounding environment. This connection of the houses is important to be generic. With a flexible way of designing the houses(large/small), we create a living area for different kind of people. Spaces for work and extension are necessary for this area, so flexibility in the floor plan is very important.
Favela Housing The favelas are very diverse. We want to keep the positive aspects and make the negative aspects better. Positive - Mixed functions - Innovative use of space - Build by themselves - Low-cost - Expandable - Character / Diversity - Terraces
Negative - Quality of housing - Safety construction - Infrastructure (accessibility) - Electricity - Water facilities - Hygiene - Public Space Mo
du
,3 o
r4
mo
One, two, three and four modules
1
2
le 6
x9
me
Benefits - Small size (6x9meters) - Easy to make rows ( different typologies) - Applicable in different places - Possibility to build on slopes - Several housing sizes - Possibility for extension in the module of row - Integration of workspace Switching modules Number of modules depends on the free space in the urban plan. Size of the rows can also connect to the surrounding buildings (urban context). No possibility of multiple modules after the building. First determine how many modules are to be built.
ter
s
Empty space in a favela
1,2
3
dul
es
in a
row
4
Sloped roof to prevent vertical extension
e
pac
s pty
Em
o
e fo
h at t
a t of
ela
fav
One module different places
Last level can also serve as a terrace Housing may consist of several levels, depending on the size Groundfloor can also serve workingspace Functions of the different layers
34
Module
Surface 0 - 5 %
Surface 5 - 15 %
Building houses (modules) on different surfaces
Hogeschool van Amsterdam
University of Applied Sciences
Surface 15 - 25 %
Typology We have four different types of buildings, by linking one, two, three and four modules. Each type has his own floorplans. The residents are free to make their own floorplanes. The floorplans are flexible, so there is a possibility to extend. We made an example of possible floorplans.
Core Each type has his own core. In the core are the stairs, bathrooms and kitchen. In every type it is the same core. Only the exact place of the bathroom and kitchen in the core can be different. The core is necessary for a safe construction and a permanent place for piping. There is also a second shaft for piping to make the floorplan more flexible. The stairs in the core are making the first and second floor accessible.
Type 1
Entrance
Free floorplan Core
Free floorplan
Free floorplan
Core
Core
Entrance
Entrance
Free floorplan
TYPE OF BUILDING
Reserved space for the stairs, bathroom and kitchen(piping)
Stair
Shop Optional
Red House
Yellow House
Green House
Roof
Free space 35m2 Optional 12m2(shop) Rooms 2 Person Single
Free space 37.5m2 Expandable 9m2(bedroom) Rooms 2 Person Single or Starters
Free space 58m2 Expandable 9m2(bedroom) Rooms 4 Person Family
Installations Watertank
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
8m2 12m2
35
ARCHITECTURE
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Building on slopes
36
If we want to create new housing in favela “Mangueira�, it will be necessary to create an opportunity to build on slopes. We can connect the modules on three different ways. It is important that the module will follow the heightlines. The accessibility has a different height when the surface is more than 5%, than the module will change on the ground floor. There is more space, we can use this for commercial functions or housing. The groundfloor changes at each place. The floorplans for the first and second level are both the same.
Different ways of linking de modules
Connecting by the heightlines
Connect in a row
Free placing of modules
Terrace Terrace
Housing Terrace Housing
Housing
Shop
Surface 0 - 5 % (Back)
Shop
Surface 0 - 5 % (Front)
Hogeschool van Amsterdam
Surface 5 - 15 %
University of Applied Sciences
Shop Shop
Surface 15 - 25 %
Type 2
2
1
1
2
Free floorplan
Free floorplan
Red House
Shop Optional 1
Free space 35m2 Optional 12m2(shop) Expandable 9m2(bedroom) Rooms 2 Person Single or Starters
Red House
2
Free space 35m2 Optional 12m2(shop) Rooms 2 Person Single
1
2
Free floorplan
Stair
Entrance
1
Green House
Free space 43m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Yellow House
Core
Stair
Entrance Yellow House
2
Free floorplan
Core
Core Shop Optional
1
2
Free space 54m2 Expandable 20m2 Rooms 5 Person Family
Green House
Free space 37.5m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
1
2
Free space 58m2 Expandable 9m2(bedroom) Rooms 4 Person Family
Roof Installations Watertank
8m2 18m2
Roof Installations Watertank
TYPE OF BUILDING
Entrance
8m2 12m2
Identity
Front View
expandable expandable
In the favela housing there is a lot of diversity. We think this is a positive thing of favela housing, because it is a unique appearance. The different floorplans and expandable spaces in our housing gives the same kind of diversity. The terraces, shops and open spaces gives a divers view. In this way we try to make a link with the favela. The residents are free to make their own floorplans, because of this they can make it “their home�. We think they make innovative solutions of using spaces, what they are already doing now. This aspects makes our housing realistic, recognizable and easier to understand.
Shop
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
37
ARCHITECTURE
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Type 3
38
Entrance 1
2
3
Core Core Free floorplan Shop Optional
Red House
1&3
Free space 35m2 Optional 12m2(shop) Rooms 2 Person Single
Red House
2
Free space 35m2 Optional 9m2(shop) Expandable 9m2(bedroom) Rooms 2 Person Single or Starters
1
2
3
Core
Core
1
2
Core
Yellow House
Core
2
3
Free floorplan
Entrance Free floorplan
1&3
Free space 37,5m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Yellow House
1
Stair
Free floorplan Entrance
3
2
Free space 44m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Green House
1&3
Free space 58m2 Expandable 9m2 Rooms 4 Person Family
Green House
2
Free space 54m2 Expandable 20m2(bedroom) Rooms 5 Person Family
Roof Installations Watertank
8m2 12m2
Roof Installations Watertank
8m2 18m2
Expandable We created different sizes of housing, this will atract singles, starters and families. The houses are expandable a house for a starter can grow up to a house for family. This is growing in a basic floorplan, the open spaces could be filled in the future. Another kind of extension is in modules, it is even possible to buy two small houses and build a large family house. This flexibility provides many opportunities. For a family it is possible to buy one module. They can design floorplans with their own specific wishes.
Hogeschool van Amsterdam
University of Applied Sciences
Type 4 Entrance 2
3
Core
4
Core Shop Optional
2
3
Core
4
Core Free floorplan Entrance
Entrance
1
2
3
Core
4
Core Free floorplan Stair Entrance
Entrance
1
2
3
1&4
Free space 35m2 Optional 12m2(shop) Rooms 2 Person Single
Free floorplan
1
Red House
4
Free floorplan
Jeroen Egberts
Yellow House
1&4
Free space 37,5m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Green House
1&4
Red House
2&3
Free space 35m2 Optional 9m2(shop) Expandable 9m2 (bedroom) Rooms 2 Person Single or Starters
Yellow House
2&3
Free space 44m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Green House
2&3
Free space 58m2 Expandable 9m2 Rooms 4 Person Family
Free space 54m2 Expandable 20m2 Rooms 5 Person Family
Roof
Roof
Installations Watertank
8m2 12m2
Tim de Rijk
Kevin Vermeulen
Installations Watertank
TYPE OF BUILDING
1
8m2 18m2
39
ARCHITECTURE
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
U - Block
40
Red House
1
1
2
2
3
3
Free space 35m2 Optional 12m2(shop) Rooms 2 Person Single
Yellow House
1
1
2
2
3
3
1
1
2
2
3
3
1&3
1&3
Free space 37,5m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Green House
1
1
2
2
3
3
1&3
Red House
2
Free space 35m2 Optional 9m2(shop) Expandable 9m2 (bedroom) Rooms 2 Person Single or Starters
Yellow House
2
Free space 44m2 Expandable 9m2(bedroom) Rooms 3 Person Starters or Family
Green House
2
Free space 58m2 Expandable 9m2 Rooms 4 Person Family
Free space 54m2 Expandable 20m2 Rooms 5 Person Family
Roof
Roof
Installations Watertank
8m2 12m2
Installations Watertank
8m2 18m2
Commerce Free space 162,5m2 Shops 3 Person Workers
Commerce Free space 162,5m2 Shops 3 Person Workers
U-block typology The U-block contains of three modules, linked in a row. Two rows are mirrored against each other, one of the open sides is closed with a line of commercial functions. This creates a small private space between the rows. The residents of this U-block can use this space. When it is necessary it is even possible to create a gated community. This community contains of eightteen houses and possibly six stores. The U-block is the largest variation in our typologies. It has more mass than the other types. It can connect in a different urban context.
U-block, largest type, mixed functions, same modules
Hogeschool van Amsterdam
University of Applied Sciences
Other Functions In support of the area, we add new functions. This functions are not only for the people in our projectside, but also for people from favela “Mangueira�. The functions will make the area more atractive, it must be a mix of recreation and knowledge. There will be more activity in the area. The public spaces are for different uses. They can use the sportfield to play soccer, but in the evening it could be a place for performances. The multifunctional centre makes a connection with all surrounded functions. Around these functions is a combination of housing and work.
Free space 375m2 Functions - Soccer - Performances - Market Who People from the area
Spo Mult
rtsfie
ifunc
tiona
ld
Square/Playground
Square/Playground
l Ce
nter
Bar
Free space 110m2 Functions - Meeting - Market - Performances (samba/capoeira) - Playground children Who People from the area
Multifunctional Center
Co
Multifunctional Center
nn
ect
ion
Sp
ort
sfie
ld
Free space 360,75m2 Functions - Restaurant - Office - Workshop room - Sports room - Meeting room - Laundry Who People from the area
TYPE OF BUILDING
Sportsfield
Entrance Parking
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
41
Type 1
1
2
3
1
2
6.500 125 1.985
3.125 70
4.115 Entrance
125 120
125 15
1.985
3.125 70
965
120
120
15
120
125
Opp:2,2 m2
Laundry
Opp:2,2 m2
Storage
70
70
Opp:1,9 m2
Opp:12,5 m2
Opp:9,0 m2
Bathroom
1.900
Kitchen
1.900
Undefined
3.000
3.000
Livingroom
Opp:3,8 m2
B 70
70
B
Opp:3,8 m2
Bedroom 1.930
Opp:5,6 m2
Bathroom
3.000
Bedroom
Opp:2,5 m2
10.250
Opp:8,8 m2
Opp:5,4 m2
2.850
Passage
70
10.250
3.000
Opp:3,5 m2
Kitchen
Passage
Opp:3,9 m2
Storage
850
Opp:1,7 m2
150
C 150
C
Entrance Livingroom
2.865 15
120
3.000
D
Balcony
1.000
Entrance
1.000
D
125
3.000
2.865 15
Opp:11,9 m2
120 125
Opp:14,8 m2
Bedroom or shop
Ground floor
First floor
1
2
3
1
2
6.500 125 1.985
70
4.115
125 120
500 15
55
3.060
120
125
2.990
120
500 15
125
120
15
140
3.125
Opp:2,2 m2
Bedroom
Undefined 3.000
Opp:11,3 m2
3.000 1.900
3.125
Laundry
70
1.075
125
A
120
A
125
2.995
140
3.125
15
55
3
7.500
3.125
Bedroom
Opp:9,1 m2
Opp:8,0 m2
Bathroom
Opp:3,8 m2
Passage
Opp:0,9 m2
B
Height: 1800mm
70
120
B
Installations
Bedroom Passage
Storage
Opp:8,2 m2
Opp:5,7 m2
Opp:1,6 m2
150
C 150
C
2.850
3.000
Opp:5,4 m2
10.250
3.000
10.250
2.850
Opp:3,9 m2
Kitchen
Entrance
Second floor
125
2.865
1.050
Balcony
Opp:11,9 m2
15
D
15
125
D
Water storage
120
3.000
3.000
Opp:14,8 m2
120
2.865
Livingroom
Third floor
Drawings scale 1:100 on attachement: A-01
42
125
3.030
15
140
1.075
Laundry
1.075
125
A
120
A
3.125
55
15
140
3
6.500
3.125
55
1.000
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
ARCHITECTURE
Hogeschool van Amsterdam
University of Applied Sciences
Height: 1500mm
Type 2
1
2
3
4
5
1
2
3
12.750 2.875
250
70
1.985
2.875
140
1.985
250
2.875
70
4.115
250
250
120
Entrance
15
15
A Laundry
250
120
250
A
250 4.115
Entrance
Laundry
Opp:2,2 m2
2.875 120
250
3.030
2.875
120
965
70
250 1.985
2.875
140
1.985
250 70
Laundry
Opp:2,2 m2
Storage
2.750
Opp:12,5 m2
Kitchen
Opp:2,2 m2
120
15
Opp:1,9 m2
Undefined Opp:9,0 m2
Bathroom
Opp:3,8 m2
Bathroom
Opp:3,8 m2
Opp:3,8 m2
250
70
120
B 250
B
Storage
Opp:9,0 m2
Kitchen
Opp:3,8 m2
250
3.030
Undefined
2.995
3.045
2.750
Livingroom
Opp:12,5 m2
2.875
120
Laundry
Opp:2,2 m2
Opp:1,9 m2
Livingroom
965
15
2.875 120
15
15
5
120
250
4
12.750
Bedroom
Opp:5,6 m2
2.750
Opp:8,8 m2
Opp:3,9 m2
Bedroom
Kitchen
Kitchen
Opp:5,4 m2
Opp:5,4 m2
Passage
Opp:3,9 m2
Opp:8,5 m2
Storage
250
70
C
Entrance Livingroom
250
15
D Entrance
Entrance
2.915
Opp:17,9 m2
Balcony
1.015
1.000
250
D
Livingroom
120
Opp:11,9 m2
Opp:8,5 m2
15
Opp:9,2 m2
2.750
2.915
Bedroom or shop
Bedroom or shop
120
2.750
Opp:14,8 m2
Undefined
Ground floor
Balcony
First floor
1
2
3
4
5
1
2
3
12.750 250 120
3.030
250 120
2.875 965
70
1.985
140
2.875 1.985
250 70
2.875 4.115
250 120
500
250
15
15
2.875 3.000
2.875
120
3.050
250 140
2.875
5
3.050
250
2.875
120
250
3.000
120
15
120
250
Storage
Opp:2,2 m2
250
Laundry
Laundry
120
A
120
250
A
4
13.750
250
15
15
2.875
500 15
FLOOR PLANS
Opp:1,7 m2
70
Opp:1,7 m2
250
Bedroom
Opp:2,5 m2
Storage
C
Passage
Opp:2,5 m2
Opp:8,8 m2
2.880
Opp:3,5 m2
Passage 10.265
2.750
Bathroom
Opp:3,5 m2
Passage
Bedroom
2.880
10.250
Bathroom
Opp:2,2 m2
Bedroom
Opp:11,3 m2
Opp:9,0 m2
Bathroom
Opp:3,8 m2
Undefined
Bedroom
3.045
Undefined
2.750
2.995
2.750
Opp:1,9 m2
Opp:9,1 m2
Opp:8,1 m2
Undefined
Bedroom
Opp:9,1 m2
Opp:8,1 m2
Bathroom
Opp:3,8 m2
Passage
Passage
Opp:0,9 m2
Opp:0,9 m2
Storage
Bedroom
C Entrance
Installations
Storage
Opp:8,2 m2
Opp:1,6 m2
Height: 1500mm
2.880
Opp:3,9 m2
Opp:8,3 m2
70
Opp:5,4 m2
2.750
Opp:5,4 m2
Passage
10.300
Opp:3,8 m2
Kitchen
250
2.880
Opp:8,6 m2
70
2.750
10.265
250
C
Bedroom
Kitchen
Installations
Opp:1,6 m2
Opp:5,7 m2
Passage
Height: 1800mm
70
120
250
B 250
B
Balcony
2.915
Water storage Opp:11,9 m2
1.050
Balcony
Opp:17,9 m2
15
250
D
15
1.015
250
D
Water storage
120
2.750
2.915
Opp:14,8 m2
Opp:17,9 m2
120
2.750
Livingroom Livingroom
Second floor
Third floor
Drawings scale 1:100 on attachement: A-01
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
43
Type 3
1
2
3
4
5
6
7
19.000 250
2.875 120
2.875 70
250 1.985
2.875
140
250 4.055
2.875
250
70
Entrance
1.985
2.875
140
1.985
Laundry
2.875 4.115
250 120
Entrance
Laundry
Opp:2,2 m2
Opp:2,2 m2
Livingroom
3.045
2.750
250 70
120
250
A
250 4.115
Entrance
15
15
Bedroom
Livingroom
Opp:12,5 m2
Livingroom
Opp:6,0 m2
Opp:12,5 m2
Opp:12,5 m2
Kitchen
Kitchen
Opp:3,8 m2
Opp:3,8 m2
2.750
70
Kitchen
Bathroom
Passage
Bedroom
2.880
10.250
250
B
Storage
Opp:0,7 m2
Bedroom
Opp:8,8 m2
Storage
Opp:1,7 m2
Opp:1,7 m2
70
Opp:2,0 m2
Bedroom or shop
2.915
250
Passage
Opp:3,5 m2
Opp:2,5 m2
Storage
Laundry
Opp:1,7 m2
Undefined
Opp:11,9 m2
Bedroom or shop
Bedroom or shop
Opp:9,0 m2
Opp:11,9 m2
Opp:8,5 m2
Entrance
Entrance
Entrance
Entrance
1.000
250
D
15
120
2.750
Bathroom
Opp:3,5 m2
Passage
Opp:2,5 m2
Storage
C
Bathroom
Opp:5,7 m2
Opp:3,5 m2
Opp:2,5 m2
Opp:8,8 m2
Ground floor
1
2
3
4
5
6
7
19.000 250
2.875
250
3.150
120
2.875 965
70
250 1.985
140
2.875 2.006
250 70
944
2.875
120
2.970
250 140
2.875 1.985
250 70
965
2.875
120
3.150
250 15
250
120
15
15
A
Laundry Storage
Opp:2,2 m2
Laundry
Laundry
Opp:2,2 m2
3.050
2.750
Opp:2,2 m2
Storage
Opp:1,9 m2
Opp:1,8 m2
Storage
Opp:1,9 m2
Undefined
Undefined
Undefined
Opp:9,0 m2
Opp:8,9 m2
Bathroom
Opp:3,8 m2
Bathroom
Opp:9,0 m2
Bathroom
Opp:3,8 m2
Opp:3,8 m2
Passage
Opp:1,0 m2
120
250
B Bedroom
Bedroom
Opp:5,6 m2
Passage
Opp:3,9 m2
Kitchen
Opp:5,4 m2
Kitchen
Kitchen
Opp:5,5 m2
Opp:5,4 m2
Passage
Opp:3,9 m2
70
2.750
10.265
1.930
Opp:5,6 m2
Livingroom
Opp:20,2 m2
250
C
3.860
Entrance
Entrance
Livingroom
Livingroom
Opp:14,8 m2
Opp:14,8 m2
2.750
Bedroom
250
D
15
120
Opp:8,7 m2
1.015
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
ARCHITECTURE
Balcony
Balcony
Balcony
First floor
Drawings scale 1:100 on attachement: A-02
44
Hogeschool van Amsterdam
University of Applied Sciences
15
Type 3
1
2
3
4
5
6
7
19.000 250
2.875
250
120
2.875
4.115
70
250 1.985
2.875
140
250
3.020
2.875
70
3.020
250
2.875
140
1.985
250 70
2.875
1.000
250
3.115
120
15
250
A
120
15
15
Laundry
Laundry
Opp:2,2 m2
Opp:2,2 m2
Undefined
Bedroom
Bedroom
Opp:8,9 m2
Opp:11,3 m2
Opp:11,3 m2
3.050
2.750
Laundry
Opp:3,3 m2
Bathroom
Bathroom
Opp:3,8 m2
Bathroom
Opp:5,7 m2
Opp:3,8 m2
70
250
B Bedroom
Bedroom
Opp:5,7 m2
2.750
Passage
Opp:3,9 m2
Kitchen
Kitchen
Opp:5,4 m2
Passage
Opp:6,3 m2
Kitchen
Opp:1,9 m2
Opp:5,4 m2
Passage
Opp:3,9 m2
70
10.265
1.930
Opp:5,7 m2
Livingroom 250 3.860
Entrance
Entrance
Livingroom
Bedroom
Livingroom
Opp:8,7 m2
Opp:14,8 m2
Balcony
1.015
250
D
15
120
2.750
Opp:14,8 m2
Balcony
Balcony
Second floor
1
2
3
4
5
6
7
20.000 500
250 120
3.013
250
2.875
120
3.037
250 140
2.875
250
2.875
2.953
120
3.037
250 140
2.875 3.050
250
2.875
120
250
3.000
120
500 15
Undefined
Bedroom
3.045
2.750
250
A
120
15
15
2.875
Opp:9,1 m2
Opp:8,1 m2
Undefined
Bedroom
Opp:9,1 m2
Opp:7,9 m2
Passage
Undefined
Bedroom
Opp:9,1 m2
Passage
Opp:0,9 m2
Opp:8,1 m2
Passage
Opp:0,9 m2
Opp:0,9 m2
Height: 1800mm
70
250
B Storage
Installations
Installations
Opp:1,5 m2
Opp:8,3 m2
Installations
Storage
Opp:8,2 m2
Opp:1,6 m2
Height: 1500mm
2.880
Opp:8,2 m2
Storage
70
250
Water storage Opp:11,9 m2
Water storage
Water storage
Opp:11,9 m2
Opp:17,6 m2
1.050
250
D
15
120
2.750
2.915
10.300
2.750
Opp:1,6 m2
C
FLOOR PLANS
Opp:17,3 m2
C
Third floor
Drawings scale 1:100 on attachement: A-02
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
45
Type 4
1
2
3
4
5
6
7
250
2.875 120
9
2.875 70
250 1.985
2.875
140
250
1.985
70
2.875
250
4.055
Entrance
2.875
140
250 4.055
2.875
250
70
Entrance
1.985
2.875
2.875
6.170
Laundry
250 120
Entrance
15
Laundry
Opp:2,2 m2
Opp:2,2 m2
Bedroom
Livingroom
3.045
2.750
250
140
120
250
A
250 4.115
Entrance
15
15
Livingroom
Opp:6,0 m2
Opp:12,5 m2
Bedroom
Livingroom
Opp:12,5 m2
Livingroom
Opp:6,0 m2
Opp:12,5 m2
Opp:12,5 m2
Kitchen
Kitchen
Opp:3,8 m2
Opp:3,8 m2
70
250
B
2.750
2.880
10.250
Bathroom
Opp:3,5 m2
Laundry
Opp:0,7 m2
Opp:3,5 m2
Passage
Storage
Laundry
Opp:2,0 m2
Storage
Opp:0,7 m2
Opp:2,0 m2
Bedroom
Opp:2,5 m2
Opp:8,8 m2
Storage
Opp:1,7 m2
Opp:1,7 m2
70
Opp:1,7 m2
Bathroom
Opp:3,5 m2
Passage
Opp:2,5 m2
Storage
Storage
Bedroom or shop
2.915
250
Bathroom
Opp:5,7 m2
Opp:2,5 m2
Opp:1,7 m2
Undefined
Bedroom or shop
Opp:11,9 m2
Undefined
Opp:9,0 m2
Opp:8,5 m2
Bedroom or shop
Bedroom or shop
Opp:9,0 m2
Opp:11,9 m2
Opp:8,5 m2
Entrance
Entrance
Entrance
Entrance
1.000
250
D
15
120
2.750
Kitchen
Opp:5,7 m2
Passage
Opp:2,5 m2
Opp:8,8 m2
Storage
C
Kitchen
Bathroom
Opp:3,5 m2
Passage
Bedroom
Ground floor
1
2
3
4
5
6
7
8
9
25.250 250 120
250
3.030
120
2.875 965
70
250 1.985
140
2.875
250
2.970
120
2.875 944
70
250 2.006
140
2.875 2.006
250 70
944
2.875
120
2.970
250 140
2.875 1.985
250 70
965
2.875
120
3.030
250
A
120
15
15
2.875
Laundry Storage
Laundry
Opp:2,2 m2
Storage
2.995
2.750
Opp:1,9 m2
Opp:2,2 m2
Laundry
Opp:2,2 m2
Opp:1,8 m2
Undefined
Laundry
Opp:2,2 m2
Storage
Opp:1,8 m2
Opp:9,0 m2
Storage
Opp:1,9 m2
Undefined
Undefined
Opp:8,9 m2
Undefined
Opp:8,9 m2
Bathroom
Bathroom
Opp:3,8 m2
Opp:3,8 m2
Bathroom
Opp:3,8 m2
Passage
Opp:9,0 m2
Bathroom
Opp:3,8 m2
Passage
Opp:1,0 m2
Opp:1,0 m2
120
250
B Bedroom
Bedroom
Opp:5,6 m2
Passage
Opp:3,9 m2
Kitchen
Kitchen
Opp:5,4 m2
Opp:5,5 m2
Kitchen
Kitchen
Opp:5,5 m2
Opp:5,4 m2
Passage
Opp:3,9 m2
70
2.750
10.265
1.931
Opp:5,6 m2
Livingroom
Livingroom
Opp:20,2 m2
250
C
Opp:20,2 m2
3.864
Entrance
Entrance
Livingroom
Livingroom
Opp:14,8 m2
Opp:14,8 m2
2.750
Bedroom
Opp:8,8 m2
250
D
15
120
Opp:8,8 m2
Bedroom
Balcony
Balcony
Balcony
First floor
Drawings scale 1:100 on attachement: A-03
46
8
25.250
1.015
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
ARCHITECTURE
Hogeschool van Amsterdam
University of Applied Sciences
Balcony
250 120
15
Type 4
1
2
3
4
5
6
7
8
9
25.250 250
2.875
250
120
2.875
4.115
250
70
1.985
2.875
140
3.020
250
2.875
70
250
3.020
2.875
140
250
2.970
2.875
120
250
3.020
2.875
140
1.985
250
2.875
70
250
4.115
120
15
250
A
120
15
15
Laundry
Laundry
Opp:2,2 m2
Laundry
Opp:3,3 m2
Undefined
Bedroom
Opp:8,9 m2
Opp:11,3 m2
Opp:2,2 m2
Undefined
Bedroom
Opp:8,9 m2
Opp:11,3 m2
3.045
2.750
Laundry
Opp:3,3 m2
Bathroom
Bathroom
Opp:3,8 m2
Bathroom
Opp:5,7 m2
Bathroom
Opp:5,7 m2
Opp:3,8 m2
70
250
B Bedroom
Bedroom
Opp:5,7 m2
2.750
Passage
Opp:3,9 m2
Passage
Kitchen
Opp:1,9 m2
Opp:5,4 m2
Kitchen
Kitchen
Opp:6,3 m2
Opp:6,3 m2
Passage
Kitchen
Opp:1,9 m2
Opp:5,4 m2
Passage
Opp:3,9 m2
70
Livingroom
Livingroom
Opp:17,3 m2
250
C
Opp:17,3 m2
3.864
Entrance
Entrance
Livingroom
Bedroom
Bedroom
Opp:8,8 m2
Livingroom
Opp:8,8 m2
Opp:14,8 m2
Balcony
1.015
250
D
15
120
2.750
Opp:14,8 m2
Balcony
Balcony
Balcony
Second floor
1
2
3
4
5
6
7
8
9
26.250 500
250 120
250
2.990
120
2.875 3.060
250 140
2.875 3.060
250
2.875
120
250
2.930
140
2.875
250
2.930
120
2.875
250
3.060
140
2.875 3.060
250
2.875
120
250
2.990
120
500 15
Undefined
Bedroom
3.045
2.750
250
A
120
15
15
2.875
Opp:9,1 m2
Opp:8,0 m2
Undefined
Bedroom
Opp:9,1 m2
Passage
Opp:7,9 m2
Opp:9,1 m2
Opp:7,9 m2
Passage
Opp:0,9 m2
Undefined
Bedroom
Undefined
Bedroom
Opp:9,1 m2
Opp:8,0 m2
Passage
Passage
Opp:0,9 m2
Opp:0,9 m2
Opp:0,9 m2
Height: 1800mm
70
250
B Storage
Installations
Storage
Installations
Opp:1,5 m2
Opp:8,3 m2
Storage
Installations
Opp:1,5 m2
Opp:8,3 m2
Installations
Storage
Opp:8,2 m2
Opp:1,6 m2
Height: 1500mm
2.880
Opp:8,2 m2
70
250
Water storage Opp:11,9 m2
Water storage
Water storage
Opp:17,7 m2
Opp:17,7 m2
Water storage Opp:11,9 m2
1.050
250
D
15
120
2.750
2.915
10.300
2.750
Opp:1,6 m2
C
FLOOR PLANS
10.265
1.931
Opp:5,7 m2
Third floor
Drawings scale 1:100 on attachement: A-03
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
47
U-block
1
3 250
4
120
2.875
5
250
3.170
6
70
2.930
140
2.875
7
250
3.110
2.875
8
70
250
2.930
Entrance
140
2.875
250
9
2.930
70
2.875 3.170
Entrance
250 120
15
120
120
Entrance
250
Bedroom or shop
2.750
250
A
2.875
15
6.130
2.875
Bedroom or shop
Undefined
Opp:9,6 m2
Opp:8,9 m2
Opp:9,4 m2
Bedroom
Bedroom or shop Opp:9,6 m2
Bedroom
Opp:7,9 m2
3.045
120
250
15
15
2.875
Opp:7,9 m2
Commerce
Laundry
Opp:1,7 m2
Passage
Opp:3,4 m2
2.750
Laundry
Opp:1,7 m2
Opp:1,7 m2
Bathroom
Bathroom
Opp:3,5 m2
Kitchen
Opp:3,5 m2
Opp:6,6 m2
Bathroom
Opp:3,5 m2
Passage
Opp:3,4 m2
Passage
Kitchen
Opp:6,5 m2
Kitchen
Opp:2,4 m2
Opp:6,6 m2
Storage
Storage
Opp:1,6 m2
Opp:1,7 m2
2.450
Laundry
100
200
6.015
250
B
70
Opp:36,7 m2
Storage
Opp:1,7 m2
Commerce
Livingroom
Livingroom
Opp:17,7 m2
Livingroom
Bedroom
Opp:12,3 m2
Opp:12,5 m2
Opp:6,0 m2
Entrance
Entrance
Entrance
Entrance
Entrance
1.000
250
Entrance
Commerce
Opp:21,9 m2
5.000
3.525
3.375
100
D
15
120
Opp:12,5 m2
3.045
250 2.750
2.900
100
70
C
250
100
E
Commerce
Livingroom
Bedroom
Livingroom
Opp:12,5 m2
Livingroom
Opp:6,0 m2
Opp:12,3 m2
Opp:12,5 m2
3.045
120
15
Entrance
Entrance
6.525
F
1.000
Opp:40,2 m2
Storage
Storage
Bathroom
Bathroom
Opp:1,6 m2
Opp:1,7 m2
Kitchen
Passage Kitchen
Kitchen
Opp:6,6 m2
Passage
Commerce
Opp:3,4 m2
Opp:3,5 m2
Laundry
Opp:3,5 m2
Opp:3,5 m2
Laundry
Opp:1,7 m2
Passage
Opp:3,4 m2
Laundry
Opp:1,7 m2
70
Opp:1,7 m2
5.865
H
Opp:6,6 m2
Opp:2,4 m2
Opp:6,5 m2
Bedroom Bedroom or shop
Opp:7,9 m2
Opp:9,6 m2
Bedroom
Undefined
Bedroom or shop
Opp:9,4 m2
Opp:8,9 m2
Opp:7,9 m2
Bedroom or shop Opp:9,6 m2
3.045
Opp:35,8 m2
Bathroom
2.450
Opp:1,7 m2
100
Storage
200
100
70
G
Entrance
Entrance
Drawings scale 1:100 on attachement: A-02
Hogeschool van Amsterdam
University of Applied Sciences
Entrance
120
I
Ground floor
48
2
25.250 250
120
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
ARCHITECTURE
Dimensions of spaces Type
House
Livingroom Kitchen Bathroom Laundry
Bedroom Storage Passage Undefined Installations Watertank Shops
1
0 1 2
12,5 m2 14,8 m2 14,8 m2
3,8 m2 5,4 m2 5,4 m2
3,5 m2 3,8 m2 3,8 m2
2,2 m2 2,2 m2 2,2 m2
8,8 m2 5,6 m2 5,7 m2 11,3 m2 8,0 m2
1,7 m2 1,9 m2 1,6 m2
2,5 m2 3,9 m2 3,9 m2 0,9 m2
9,0 m2 9,1 m2
0 1 2
12,5 m2 17,9 m2 17,9 m2
3,8 m2 5,4 m2 5,4 m2
3,5 m2 3,8 m2 3,8 m2
2,2 m2 2,2 m2 2,2 m2
8,8 m2 8,5 m2 8,6 m2 8,1 m2
1,7 m2 1,9 m2 1,9 m2 1,6 m2
2,5 m2 3,9 m2 3,8 m2 0,9 m2
9,2 m2 9,0 m2 9,0 m2 9,1 m2
0 1 2
12,5 m2 14,8 m2 14,8 m2
3,8 m2 5,4 m2 5,4 m2
3,5 m2 3,8 m2 3,8 m2
2,2 m2 2,2 m2 2,2 m2
8,8 m2 5,6 m2 11,3 m2 5,7 m2 8,1 m2
1,7 m2 1,9 m2 1,6 m2
2,5 m2 3,9 m2 3,9 m2 0,9 m2
9,0 m2 9,1 m2
0 1 2
12,5 m2 20,2 m2 17,3 m2
5,7 m2 5,5 m2 6,3 m2
3,5 m2 3,8 m2 5,7 m2
2,0 m2 2,2 m2 3,3 m2
6,0 m2 8,7 m2 8,7 m2 7,9 m2
2,4 m2 1,8 m2 1,5 m2
2,5 m2 1,0 m2 1,9 m2 0,9 m2
9,0 m2 8,9 m2 8,9 m2 9,1 m2
0 (x2) 1 (x2) 2 (x2)
12,5 m2 14,8 m2 14,8 m2
3,8 m2 5,4 m2 5,4 m2
3,5 m2 3,8 m2 3,8 m2
2,2 m2 2,2 m2 2,2 m2
8,8 m2 5,6 m2 11,3 m2 5,7 m2 8,1 m2
1,7 m2 1,9 m2 1,6 m2
2,5 m2 3,9 m2 3,9 m2 0,9 m2
0 (x2) 1 (x2) 2 (x2)
12,5 m2 14,8 m2 14,8 m2
3,8 m2 5,4 m2 5,4 m2
3,5 m2 3,8 m2 3,8 m2
2,2 m2 2,2 m2 2,2 m2
8,8 m2 5,6 m2 11,3 m2 5,7 m2 8,0 m2
1,7 m2 1,9 m2 1,6 m2
2,5 m2 3,9 m2 3,9 m2 0,9 m2
9,0 m 9,1 m2
0 (x2) 1 (x2) 2 (x2)
12,5 m2 20,2 m2 17,3 m2
5,7 m2 5,5 m2 6,3 m2
3,5 m2 3,8 m2 5,7 m2
2,0 m2 2,2 m2 3,3 m2
6,0 m2 8,8 m2 8,8 m2 7,9 m2
2,4 m2 1,8 m2 1,5 m2
2,5 m2 1,0 m2 1,9 m2 0,9 m2
9,0 m2 8,9 m2 8,9 m2 9,1 m2
U
0 (x4)
12,5 m2
6,6 m2
3,5 m2
1,7 m2
7,9 m2
1,7 m2
3,4 m2
U
0 (x2)
12,3 m2
6,5 m2
3,5 m2
1,7 m2
6,0 m2
1,6 m2
2,4 m2
2
3
3
4
4
Jeroen Egberts
Tim de Rijk
11,9 m2 8,2 m2
11,9 m2
8,5 m2 8,3 m2
17,9 m2 11,9 m2
8,2 m2
11,9 m2
8,5 m2 8,3 m2
17,6 m2 11,9 m2
2
9,0 m 9,1 m2
8,2 m2
11,9 m2
11,9 m2
2
8,2 m2
11,9 m2
8,5 m2 8,3 m2
17,7 m2 9,6 m2
9,4 m2
Kevin Vermeulen
FLOOR PLANS
2
Commerce
152,3 m2
8,9 m2
49
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
ARCHITECTURE Type 2 (Example)
North faรงade
West faรงade
East faรงade
South faรงade
Drawings scale 1:100 on attachement: A-01
50
Hogeschool van Amsterdam
University of Applied Sciences
ELEVATIONS Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
51
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
ARCHITECTURE
52
Hogeschool van Amsterdam
University of Applied Sciences
TECHNICAL ANALYSIS
3
54
Skeleton build
Traditional build
Molded Construction
Accumulate build
Method
Prefab elements
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS Properties
Advantage
- Stone after stone or element after element will be topped on eachother - Mostly done by hand, but bigger elements with machinal help - Even force distribution
- Manual digestion - Flexibility during proces and using - Less preperation - Using materials from neighborhood - "Traditonal" building method
- 3 ways to molded: - 'Wall and table' formwork - Wall formwork with prefab concrete slabs - Tunnel formwork
- Labor economics - 'Fast' building time - Material economics
- Different methods: - Stuc - Walls (in combination with reinforcement) "bamboo, wood, etc.."
- Traditional building method - Moisture-regulating - Thermal insulation - Every form - Use local material (cheap, free) - 100% environmentally friendly
- Different materials: 1. Wood 2. Concrete 3. Steel
- Fast building time - Large spans - Environmentally friendly (1) - Good acoustic and thermal properties (1) - Light material (1,3) - Maintenance insensitive (2) - Flexible in use (2,3) - Recycle material (3)
- Different materials: 1. Wood 2. Concrete
- Very fast building time - Stability in the connections of the elements - Flexible in use - Great properties of insulation and moisture - Easy to build in installations - Concrete (depends on specific material)
Hogeschool van Amsterdam
University of Applied Sciences
Disadvantage
Sketches
'Reference'
- Bad soundproof - Fire
BUILDING METHODS
- Stability right-angle on the disks (elements) - Not automatic guaranteed - Many coordination and preparation - No flexibility
- Maintenance - Not waterproof
- Depending on placement (1) - Treatment surface (1) - Maintenance (1,3) - Large constructive dimensions (2) - No flexibility in enactment (2) - Thermal leaks on faรงade (2) - Sensitive for different temperatures (3)
- Long preparation - Specific preperation - Moisture sensitive (1) - Low 'sound and fire' properties (1) - Limited flexibility (2)
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
55
56
Method
Containers
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS Properties
Advantage
- Shipping containers - Steel - Different sizes: - 20 ft (6,1 m long) - 40 ft (12,2 m long) - 45 ft (13,7 m long)
- A lot of empty containers at this moment - Recycle the empty containers - Fast building time
Accumulate Molded build construction
Traditional build
Skeleton build
Prefab elements
Containers
++
-
++
+
-
--
Costs
+
-
++
+
--
+
Transport
+
-
++
+
-
-
Building time
-
-
--
+
++
++
++
++
+
+
+
--
-
-
-
+
++
--
++
-
++
+
-
+
"Machines"
+
--
++
-
--
+
Expandable
++
-
--
+
++
-
Buildings height
+
+
--
+
+
+
Integrate installations
+
-
--
++
+
+
Lifetime
+
++
--
++
++
+
Environment friendly
+
-
++
+
-
-
Recyclable
+
--
+
+
-
++
Collapsable
-
--
--
++
++
+
Maintenance
-
+
--
+
++
-
Look (Esthetical)
+
++
--
++
++
++
++
+
--
+
+
--
+ 25,5
- 5,5
- 6,5
+ 31
+ 13,5
-3
Self build
Different surfaces Different forms Materials
Fit in surroundings Total
Hogeschool van Amsterdam
University of Applied Sciences
x2
Important
x 1,5
Less important
x1
Not important
Disadvantage
Sketches
'Reference'
- Need machines to prepare - Always the same form - Needs flat surface - Difficult transport (on the way)
Accumulate build or Prefab elements between the construction
BUILDING METHODS
Conclusion
Construction of skeleton Possible in different materials (steel, concrete, wood, bamboo etc.)
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
57
58
Properties
Advantage
- Grass type (family) - Grows fast (up to 60 cm/day) - Making bamboo by cutting bamboo
- Natural material - Fast-growing (a lot of material) - Stronger than steel (Guadua Angustifolia) - Cheap (when it's available in the neighborhood) - Constructive - Traditional way of building - Regenerated it self - Environment friendly - Natural way of building
- Consists of surface, sand, horses shit and water - Not mechanic baked, but dried in the sun
- Good for the environment - Made without mechanic energy - Different forms - Free, can be made almost everywhere - Moisture-regulating - Thermal reversal (cold-warm) - Adobe homes are recyclable - Non-toxic - Fire-, bullet proof - Sound insulation - 'Local' building material
- Brick made of clay (baked) - Ceramic material - Popular building material - Different types of bricks (for pipes)
- Light blocks - Local building material - Cheap - Used in walls and floors (not constructive) - Fire proof - Smooth surface (not alle types) - Different forms possible (for pipes etc.) - Same sizes
- Blocks made of cement - Different types/forms of stone - Not a traditional way of building
- Local building material - Constructive - Different types/forms of stone - Fire proof - Smooth surface - Different colours
- Construction made in formwork - Dry after chemical process - Made of sand, grids and cement
- Constructive (floors, walls) - Known product - Foundation possibilities - Prefabrication possibilities - Possibility to have an open faรงade - Every form possible - Bullet proof - Long lifetime - Waterproof - Thermal accumulation - Fireproof
Concrete blocks
Tijolo blocks
Adobe
Bamboo
Material
Concrete
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
Hogeschool van Amsterdam
University of Applied Sciences
Method
- Expensive (transport) - Constructive after 7 years - Needs special treatment - Never the same size - Difficult to assemble - Prefabrication of bamboo for assembling
- Constructional (foundation reinforcement, columns, roofs, beams) - Finishing faรงade - Prefab elements
- Surface not always arranged - Takes a lot of time to make by human - Difficult to make the right composition - Construction requires maintenance and upkeep - Homes need added insulation to maintain comfort - The walls are relative thick - Not all the same size of the adobe bricks - Difficult to make a smooth faรงade - Labour cost working with adobe is high
- Adobe bricks - Superadobe (earth bags) - Masonry
- Not bullet proof - Not constructive - Porous - Absorbs water - Fragile/weak - Not recyclable - Need constructive support in the corners
- Constructive (Tijolo Estruturais) - Non-constructive bricks to fill in the construction - Maximum 4 stories (constructive) - Masonry
- Heavy building material (construction) - Need constructive support in the corners - Long production time
- Constructive (in combination with steel and concrete support) - Masonry
- Heavy (construction) - In combination with other material support - Long curing process - Needs a supporting structure (formwork) - Air has to get out of the construction
- Molded construction (made on the building place) - Prefabrication
Jeroen Egberts
Tim de Rijk
'Reference'
Kevin Vermeulen
BUILDING MATERIALS
Disadvantage
59
60
Properties
Advantage
- Composite of cement and one or more layers of 'thin' reinforcement (chicken mesh, plastic 'fruitnets')
- Unaffected by termites - Resistant to weather - Adaptable - Does not need heavy equipment for construction - Low weight (10-25 % of the weight of comparable construction of bricks) - Does not need much maintenance costs - It will tend to fold instead of crack
- Alloy of iron and carbon - About 2500 different sorts of steel - Adaptable - High tensile and hardness
- Strong construction - Brazil produce a lot of steel - Possible to make in every form - Light material compared to blocks and concrete - Bullet proof
- Soil - Composite of clay and sand - 'Fat' loam: a lot of clay - 'Poor' loam: 60% sand
- Natural material - Local building material (traditional building system) - Regulates the humidity of the air - Fire proof
- Every sort has got his own properties - Natural product
- Traditional way of building - Produced through whole Brazil - Everything form is possible - Less weight - Easy to assemble - Good thermal properties - In other composition bigger strains possible - Natural product - Prefabrication - Panels
- Metalproduct
- Local production - Brazil is a producer of aluminium (bauxite) - Light product - Strong, durable and resistant against corrosion (except stress corrosion)
Wood
Loam
Steel
Ferrocement
Material
Aluminium
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
Hogeschool van Amsterdam
University of Applied Sciences
Method
- Needs skilled and creative people to produce good quality - Takes time - Heavy, large structures have to be made on the site - Heavy structure needs good foundations - Needs to be very precise - Labor intensive (expensive for industrial countries) - Sound insulation
- Floors - Roofs - Panels
- Heavy weight - Expensive - Labor intensive - Not fire proof (need treatment)
- Big (skeleton) constructions - Profiles - Connecting devices - Reinforcement
- Needs to be combinated with other material (bamboo) - Not waterproof
- Faรงades of traditional livings
- Works after cutting - Needs protection against water - Not really fire proof - Sound insulation - Lower feature and pressure strength compared to steel and concrete - Maximum strain 6m - Termites
- Wood can be assembled on many ways - Constructions - Faรงades
- Is getting soft in heat
- Windows - Construction - Scaffolding - Faรงades - Roofs
Jeroen Egberts
Tim de Rijk
'Reference'
Kevin Vermeulen
BUILDING MATERIALS
Disadvantage
61
62
Properties
Advantage
- Tiles made of clay (baked) - Ceramic material - Different types
- On the roof (not constructive) - Local building material (traditional) - Fire proof - Same sizes - Waterproof - Leads the water down - Different forms and colors
- Synthetic - Many species of plastic (PVC, PE, PP, PS etc.)
- Always fitting pieces - Less maintain - Recyclable
- Crystal structure - Mixture of silicates - Most important commodity is quartz - Isotropic material
- Transparant - Water proof - Strong and hardness
- Undulating structure
- Local building material - Leads the water down - On the roof and faรงade - Waterproof
- Consists of pulverized soil and calculated amounts of portland cement and water - This is compacted to a high density
- Low cost - Easy to make - Different forms - Possible to make on the location - Usable as faรงade
Corrugated iron
Glass
Plastic
Roof Tiles
Material
Soil Cement Blocks
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
Hogeschool van Amsterdam
University of Applied Sciences
Method
'Reference'
- Not constructive - Fragile / weak - Not recyclable - Need constructive support
- Sloping roofs
- Chemical developed product - Toxic materials inside - Not fire proof - After a while the plastic becomes hard - Need support for construction like concrete and steel - Not recyclable
- Easy to make - Sliding system for the prefabricated pieces
- Fragile - Expensive - Difficult to make roundings (and very expensive)
- Windows
- Asbestos - Poisoned substances
- Roofs - Faรงades
- Takes time to dry before you can use the blocks - Need constructive support - Not recyclable
- Constructive (when filled with concrete) - Non-constructive (between the construction) - Masonry - Faรงades
- Prefabrication, self-building, panels, building packet (IKEA), re-use materials
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
BUILDING MATERIALS
Disadvantage
63
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
64
Bamboo
Adobe
Tijolo blocks
Concrete blocks
Concrete
Ferro cement
Steel
Loam
Self build
--
++
++
+
+
+
+
++
Costs
--*
++
-
-
+
-
--
++
Transport
+
++
+
+
+
+
+
++
Building time
-
--
+
+
+-
++
+
-
Environment friendly
++
++
-
-
-
+
-
++
-
+
-
-
-
-
+
+
++
-
++
++
++
++
+
--
-
+
++
++
+
++
+
+
Lifetime
+-
+
+
+
++
++
++
--
Constructive
++
-
-
-
++
+
++
--
Waterproof
+
--
++
++
++
++
++
--
Bulletproof
-
++
+-
+
++
++
++
+
Fire proof
+
++
++
++
++
++
+
++
Isolation
-
+
+
+
+
+
--
+
Local material
--*
+
++
++
++
+
+
-
Knowless
--
+
++
++
++
+
+
+
Precast
+
--
+
+
++
++
++
--
Strongness
++
-
-
+
++
++
++
--
Weight
++
-
+
-
-
-
+
-
Editable
+
--
-
-
-
-
+
--
Recyclable
-
+
-
-
-
-
++
+
Re-usable
-
-
-
-
--
--
+
--
Temperature
+
++
+
+
+
-
--
++
Corrode
-
++
++
+
+
++
+
++
- 4 (+20)
+ 19
+ 32
+ 32
+ 50
+ 37
+ 45
-4
Different forms Maintenance Production
Total
* = when it's available in the neighborhood it is a cheap building product because bamboo is growing very fast and is a natural product. The transport of the product is very expensive! The reason of the "- -" is the projectlocation, there is no bamboo in this neighborhood. Important
Conclusion
x2
Less important
x1
Not important
These results are a total conclusion of all the materials we analyzed. The products will be used in different ways, the next stap is analyse the materials for each specific use like construction, foundation, floors, faรงades and roofs. For these specific uses there are new properties to analyse.
x3
Hogeschool van Amsterdam
University of Applied Sciences
Aluminium
Roof tiles
Plastic
Glass
Self build
+
-
-
--
+
+
++
Costs
+*
--
-
--
-
-
+
Transport
+
+
+
+
+
+
+
Building time
-
+
+
++
+
++
+
Environment friendly
++
--
-
--
-
-
+
Different forms
+
+
-
++
--
-
+
Maintenance
-
+
++
++
+
++
++
Production
-
+
++
++
++
++
+
Lifetime
+
++
+
+
++
++
+
Constructive
+
+
-
--
-
+
Waterproof
+
++
++
++
++
++
+
Bulletproof
+
++
+
-
-
+
++
Fire proof
+
+
++
-
+
+
++
Isolation
+
--
-
+
+
--
+
Local material
+
++
++
-
++
+
+
Knowless
+
++
++
-
++
++
+
Precast
++
++
+
++
++
+
-
Strongness
++
+
-
+
+
+
+
Weight
+
++
+
++
-
+
--
Editable
++
+
-
+
-
+
-
Recyclable
-
++
-
++
++
+
-
Re-usable
+
++
+
++
+
++
-
Temperature
+
--
-
-
+-
-
+
Corrode
-
++
++
+
++
+
++
+ 35
+ 44
+ 27
+ 20
+ 34
+ 41
+ 40
Total
x3
Important
x2
Less important
x1
Not important
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
BUILDING MATERIALS
Corrugated Soil cement iron blocks
Wood
65
66
Green roof
Material
Properties
Advantage
- Grass or plants on the roof - Different layers (waterproof layer, rootproof layer, protective layer, drainage, filter, substrate, erosion layer, grass or plants
- Part of water cleaning system - Good for environment - 50% of rainingwater can be adopt and 'recycle' - Buffer - Insulating
Disadvantage
Method
- Heavy - Different layers (thickness of the roof)
- Roofs
Material Slabs Ferro-cement
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
'Reference'
Properties
Advantage
- Composite of cement and one or more layers of 'thin' reinforcement (chicken mesh, plastic 'fruitnets')
- Unaffected by termites - Resistant to weather - Adaptable - Does not need heavy equipment for construction - Low weight (10-25 % of the weight of comparable construction of bricks) - Does not need much maintenance costs - It will tend to fold instead of crack
- Example of Tiba - 900 kg/m2 - Dimensions: 3000x500x162 mm - Differents lenghts: 2, 3 and 4 meters - Slab is made with a frame - 7 days to prevent cracking
Disadvantage
Method
- Needs skilled and creative people to produce good quality - Takes time - Heavy, large structures have to be made on the site - Heavy structure needs good foundations - Needs to be very precise - Labor intensive (expensive for industrial countries) - Sound insulation
- Slabs - Roof
'Reference'
- Panels
Hogeschool van Amsterdam
University of Applied Sciences
Properties
Advantage
- Structural Insulated Panels - High performance buildings panels - Used in floors, walls and roofs - Made by sandwiching a core of rigid foam plastic insulation between two structural skins or OSB
- Very fast building time - Prefab elements or build on buildingplace - Isolation - Strong - Light elements - Easy to assemble - Possible to make pipes in the elements - Easy to finish the faรงade - Can be constructive - Easy to make openings in faรงade - Energy efficient
Disadvantage
Method
- Costs of prefabrication * - Not bulletproof without finish
- Roofs - Walls - Floors
'Reference'
BUILDING MATERIALS
SIP Panels
Material
* Depend on the using materials
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
67
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS Prefab panels The prefab panels can be used with different materials, depends on the local materials. The original panels are made of a wooden framework with on both sides a panel of 12 mm OSB. These panels are filled with an isolation material (Polystyrene). The advantage of this material is that the panels are very light and easy to make. Another property is that it has also an isolated function in warm and cold temperatures. The panels can be finished with plastern at the outside, with the plastern finish the faรงade will be waterproof. After plastered the faรงade, the residents can finish the wall with paint in their own color. Both sides of the panel can also be made of other materials, if their is an opportunitie to use local materials like bamboo, they can integrate this in the prefab panel. This will reduce the price of the panels and it is environment friendly because their is no fabrication of the OSB panels needed, the bamboo panels can be made by hand. The panels need a core to be strong enough, these core can also be made of other materials then isolation. In brazil it is not necessary to isolate the faรงade a lot. An option for the core is "honey board" of board / paper. The honey board will give the panels the strongness they needed and it can also be made on the local place.
Panels of OSB with "honey board" core
Panels of bamboo with isolation (Polystyrene) core
68
Hogeschool van Amsterdam
University of Applied Sciences
BUILDING MATERIALS Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
69
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS Ventilation - Ventilation is very important, it brings fresh air inside the building, but it ventilates also the warm air outside - Use natural ventilation - Based on the simple fact the warm airflow will go up - By making openings in the top of the building/rooms the heat can go out - By making openings at the bottom of the building/rooms the cool/fresh air can go inside - It is a cheap method to ventilate the building
Shadow - By the warm/hot climate it is very important to keep the sun outside - By using overhangs you can create shadow - Sun screens above the windows can be used as sunprotection, these screens can be made of different materials - Also trees can be used as sunprotection
NORTH
Orientation Bathroom
WEST
Entrance, livingroom, diningroom etc.
Bedroom
SOUTH
70
EAST
- The orientation of the building is very important because the heat of the sun warms mainly the westside up - The westfaรงade have to be "closed" - Make the "restrooms" at the westfaรงade
Hogeschool van Amsterdam
University of Applied Sciences
VENTILATION / SHADOW / ORIENTATION
REFERENCES
VENTILATION
SHADOW
ORIENTATION Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
71
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
72
Foundation - When the houses will be build on a slope, the foundation and construction is very important - The foundation (construction) must be strong enough to carrying the building - The foundation (construction) need to be waterproof and fireproof - Make a foundation (construction) for flat surfaces but also for slopes (Generic method)
Rain & Water - Recycle / Re-use water - Catch the rain and re-use this (grey water) - When it rains in Brazil, it rains very hard, we need to protect the people against the water because it's a "danger". The water can also be positive used like in the grey water system - Make clear water by filtering
Toilet - The buildings will be connected to the sewerage, when this is not possible there is another opportunity → Dry toilets - Ventilate the toilet on a natural way, the smell will disapear by a ventilationpipe - Once is a time the toilet need to be cleared - Excrement will be converted into compost
Hogeschool van Amsterdam
University of Applied Sciences
FOUNDATION / WATER / TOILET
REFERENCES
FOUNDATION VENTILATION
WATER
TOILET Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
73
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
74
Construction materials Wood
Bamboo
Steel
Concrete
+ 35
- 4 (+20)
+ 45
+ 50
Finish need
+
-
-
++
Strain
+
-
++
+
Thickness
-
-
+
-
Connections
+
+
+
++
Formwork
+
+
+
-
Reinforcement
+
+
+
-
+ 39
- 4 (+20)
+ 50
+ 52
Total material
Total
Out the resource can be concluded that concrete is the best material to use for the construction. The local people know a lot about concrete because they use it already. We will use concrete as a prefab element, these elements can be made by the people themselves (in the 'fabric' next to the projectarea). We think the costs and transport are very important to keep the solution realistic, that is another reason to choose concrete.
Faรงade materials Tijolo Bricks
Concrete Soil Cement Blocks
Adobe
+ 32
+ 32
+ 40
+ 19
Bamboo
Wood
Prefab SIP
Loam
- 4 (+20)
+ 35
X
-4
Ferro Cement
Concrete
Tijolo + Concrete
+ 37
(+ 50)
(+32 / +50)
Finish need
+
+
-
Strain
-
+
+
Thickness
++
-
-
Ventilation
++
--
+
+ 41
(+ 49)
(+32 / +50)
Total material
Total material
By using a concrete skeletconstruction, it is possible to use a lot of different materials as faรงade, the faรงade do not have to be part of the construction. The conclusion is that we can use all the materials we analyzed, but we think it's the best to use light and easy materials to make, like prefab elements. These prefab elements can easily be made by the local people in the 'new' fabric next to the projectarea.
Floor materials
Total material
Total
The using of concrete in floors has other properties than the main properties we analyzed in the conclusion table. This is the reason it's written like this: (xxx)
Out the resource can be concluded that ferrocement is a great material to use as floor (elements). Specially the elements of Tiba are a great solution, the floorelements are very thin, strong and cheap. The people can make the elements by themselves in the fabrics next to the projectarea. The elements are made of cement and reinforcement, the reinforcement can also be 'trash'material like plastic fruitnets. The most important reason to choose for these prefab elements are the possibilities of ventilation below the elements, it is possible to ventilate on a natural way.
Roof materials Roof Tiles
Corrugated Green Roof Iron
Total material
+ 27
+ 41
X
Filtering water
-
-
++
Isolation
-
-
++
+ 25
+ 39
X
Total
Hogeschool van Amsterdam
Out the resource can be concluded that a green roof has a lot of advantages to use. It is part of the filtering for the rainwater, a great isolation and environment friendly. The green roof has a nice aesthetic 'look'. In Tiba they already use this method, it is not difficult to make a green roof.
University of Applied Sciences
- Concrete slab - On slopes using concrete beams
CONSTRUCTION
- Skeleton - Prefab concrete columns and beams
FLOORS
FACADE
- Prefab elements (light material - SIP / bamboo) - "Tijolo blocks" - Plastern (finish)
ROOF
- Green roof - Construction of wood
- Ferrocement (floors of Tiba)
Green roof Wood construction (roof)
Construction of concrete skeleton
Ferrocement (Tiba) Faรงade of prefab elements or other light materials (plastern finish) Prefab concrete beams Prefab concrete columns Concrete slab (foundation)
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
TOTAL CONCLUSION METHODS AND MATERIALS
CHOOSEN MATERIALS FOUNDATION
75
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL ANALYSIS
76
Hogeschool van Amsterdam
University of Applied Sciences
CONSTRUCTION
4
78
1
2
3
4
5
6
7
19.000 3.125
3.125
3.125
3.125
3.125
3.125
Ferrocement floors (galery)
Concrete beams
4125x500x162 mm
3000x250x250 mm
A
Concrete columns
3.000
250x250x2370 mm
Ferrocement floors
3000x500x162 mm
Concrete beams
Concrete beams 6250x250x250 mm
Concrete beams
Concrete beams
6250x250x250 mm
6250x250x250 mm
3.000
6250x250x250 mm
Ferrocement floors 3000x500x162 mm
125
D
Concrete beams
Concrete core (Stability) (molded on buildingplace)
Concrete core (Stability) (molded on buildingplace)
3000x250x250 mm
Construction floor plan - 1 : 100
+8.550
+8.550
+8.550
+5.700
+5.700
+5.700
+2.850
+2.850
+2.850
±0
±0
±0
-1.500 -2.850 9.250
1.000
6.000
9.250
Surface 0 - 5 %
3.250
1.000
9.250
Surface 5 - 15 %
Foundation on slopes - 1 : 250
250
4.000
Surface 15 - 25 %
Hogeschool van Amsterdam
5.000
9.250
University of Applied Sciences
3000x250x250 mm
6250x250x250 mm
3000x250x250 mm
Ferrocement floors
C
Concrete beams
3000x250x250 mm
6250x250x250 mm
Concrete beams
Concrete beams
Concrete beams
3000x250x250 mm
Concrete beams
3.000
B
Concrete beams
3000x500x162 mm
9.250
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
CONSTRUCTION
Wooden beams 3125x71x271 mm
Concrete columns
250x250xDifference mm
+8.320 Concrete beams 3000x250x250 mm
Concrete columns 250x250x2600 mm
+5.470 Concrete beams 3000x250x250 mm
Ferrocement floors 3000x500x162 mm
Concrete beams
Concrete beams
6250x250x250 mm
3000x250x250 mm
Ferrocement floors
Ferrocement floors
3000x500x162 mm
4125x500x162 mm
+2.620
Concrete beams
SECTIONS
3000x250x250 mm
Concrete columns 250x250x2370 mm
±0
Foundation of concrete slab
Construction section A - 1 : 100
+8.320 250
Concrete beams 3000x250x250 mm
Concrete columns 2.600
250x250x2600 mm
Ferrocement floors
+5.470
3000x500x162 mm
3000x250x250 mm
Concrete columns 2.600
250x250x2600 mm
Ferrocement floors
8.370
3000x250x250 mm
250
Concrete beams
Concrete beams
+2.620 Concrete beams 3000x250x250 mm
Concrete columns
3000x250x250 mm
2.420
250x250x2370 mm
Concrete beams
250
3000x500x162 mm
±0
Foundation of concrete slab
Construction section B - 1 : 100
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
79
CONSTRUCTION
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Explanation
80
The main construction will be exist of prefab concrete elements. The local people know a lot about concrete because they use it already. We will use concrete as a prefab element, these elements can be made by the people themselves (in the 'fabric' next to the projectarea). In the prefab elements there is reinforcement to get the needed strain. By making a calculation we concluded that we need a dimension of 250x250mm by the columns and beams. The beams can strain 3000mm with the reinforcement of steel. The needed steel is calculated. The stability of the house will be get out of the core around the staircase. The walls of the core will be made of concrete that is molded on the buildingplace. The walls will be made right-angle on eachother. To prevent rotation / twisting of the building we make a third wall right-angle on the other 2 walls. The core will be extend on every level. On this way we create the stability of the house. The roof of the houses will be made on wooden beams. Green roofs are very heavy so we have to calculate the wooden beam. After calculating the wooden beam we concluded that the beams needs a dimension of 71x271mm, with a strain of 3000mm.
4 2
3
1
Hogeschool van Amsterdam
University of Applied Sciences
250
Details Construction
500
250 50
150
50
Prefab concrete column 2600x250x250 mm
Prefab concrete column 2370x250x250 mm
Prefab ferrocement elements
+5.632
3000x500x162 mm
Reinforcement of steel Ø 10 mm
162
Prefab made in column
Reinforcement of steel Ø 10 mm Prefab made in column
412
+5.470
Reinforcement of steel Ø 10 mm
Reinforcement of steel Ø 10 mm
250
Prefab made in beams
Molded in foundation
Molded concrete on building place
Molded concrete on building place
+5.220 -50 Reinforcement of steel Ø 10 mm Prefab made in column
200
Reinforcement of steel Ø 10 mm
300
Prefab made in column
Prefab concrete column 2370x250x250 mm
DETAILS
100
Foundation of concrete slab
Stable surface
Detail 1 - Foundation
200
Detail 2 - Floor 1
50
250 250 100
50
100
500
Prefab concrete column 2600x250x250 mm
Molded concrete on building place Ventilated during molding
144
Strip Molded concrete on building place
Prefab panel
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
Prefab ferrocement elements
+5.632
12
Pin of steel
412
+9.700
+5.470
144
Wooden beam
3125x71x271 mm
120
12
162
45x1 20
3000x500x162 mm
250
Ø 15 mm
+5.220 Reinforcement of steel Ø 10 mm Prefab made in beams
Reinforcement of steel Ø 14 mm
Prefab made in column
Prefab concrete column changeable x250x250 mm
Prefab concrete column 2370x250x250 mm
Detail 4 - Roof
82,5
80
82,5
Detail 3 - Floor 2
250
50
150
50
250
Drawings scale 1:5 on attachement: C-01
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
81
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
CONSTRUCTION
82
Start with different prefab elements with reinforcement 1: The concrete beams with the curved reinforcement will lay down on the prefab concrete column 2: The concrete beams with the straight reinforcement will lay down on the prefab concrete column 3: The open space will be molded with concrete, on the building place 4: The next column will topped up over the reinforcement (sticks out). By an opening the column will also be molded with concrete on the building place
1
2
3
4
Hogeschool van Amsterdam
University of Applied Sciences
F
Calculation concrete beam
qeg beam = qeg beam =
l = 3000 mm
1 x w x h x 24 1 x 0,25m x 0,25m x 24kN = 1,5 kN/m¹
qed =
Ypermanent weight (qeg beam + Peg roof x h.o.h. beam) + Ychangeable weight (qvar roof x h.o.h. beam) 1,2 (1,5kN+5kN/m²x3m) + 1,5 (1kNx3m) = 24,3 kN/m¹
Med =
1/8 x 24,3 kN/m¹ x 3² = 27,4 kN/m
As =
Mrd fyd x 0,9 x d
<
Reinformence bottom = Brackets = Reinformence top = Reinformence middle = Deflection U =
Med fyd x 0,9 x d
27,4 x 106 435 x 0,9 x 210
=
=
333,3mm² → 3 x Ø 12mm 250mm
Ø 12 mm Ø 8 mm Ø 8 mm Ø 8 mm
Ø 8mm Ø 8mm
250mm
qed =
250mm 250mm 3000mm 5 kN/m² 1 kN/m²
5 x q x l4 384 ExI 5 x 22,5 x 30004 384 10000 x 1/12 x 250 x 2503
= 7,29
<
Ø 12mm
l = 12 250
Calculation wooden beam Length: Widht: qroof: qwind: Safety class: Climate classe II → kmod: Wood type:
qed = qed =
M W
l = 3000 mm
W = 1/6 x b x h2
< 17N/mm²
71mm
Ypermanent weight (qeg beam + Peg roof x strain) + Ychangeable weight (qvar roof x strain) 1,2 (0,2kN+2kN/m²x3m) + 1,5 (1kNx3m) = 11,94 kN/m¹
md =
1
h>
3
=
3000mm /6 x h 2 kN/m² 1 kN/m² 1,2 0,85 C24 24 x 0,85=17N/mm² 1,2 1
/8 x q x l² = 1/8 x 11,94 x 3² = 13,43 kN/m
271mm
=
F
CALCULATION
Height: Width: Strain: Peg roof + construction: Pchangeable:
√13,43 x 106 x 36 = 305 mm 17
M W
< 17N/mm²
Deflection U =
=
5 x q x l4 384 ExI
13,43 x 106 = 15,45N/mm2 /6 x 71 x 2712
1
<
0,004 X l
5 x 9,6 x 31254 = 9,20 < 12,5 384 11000 x 1/12 x 71 x 2713
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
83
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
CONSTRUCTION
84
Hogeschool van Amsterdam
University of Applied Sciences
TECHNICAL SOLUTIONS
5
4
5
12.750 2.875
38
250
4.115
15
3.290
Window A
800
70 70
Entrance
Window A
250
1.450
875
1.985
625
70
1.450
1.985
Door A: 800
Window A
750
38
800
875
70
250
800
150
800
3.170
Entrance
3
Door A: 800
4+vert.
Window A
125
Construction 250
Façade / openings
120
15
Walls
120
15
Walls
Window A
Doors and windows of aluminium
750
250
250 200 100
400
Not constructive wall Prefab elements 70 mm
250
400
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
D
800
Window A
350
800
Window A
Door B: 800
2.750
2.750 250
Constructive concrete wall 150 mm (incl. reinforcement) Molded on building place
Stair of concrete (Prefab)
250
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
2.915
2.915
2.750
2.750
1.115
Door B: 800
Door B: 800
Not constructive wall Prefab elements 120 mm 3.000
300
Door B: 800
300
Door B: 800 Door B: 800
Window A
880
70
1.055
Door B: 800
Window A
1.930
Constructive concrete wall 100 mm (incl. reinforcement) Molded on building place
70
70
400 250
250
C
1.055
2.880
800
2.750
3.000
9.250
350
800
1.115
D
300
Door B: 800
300
70
70
250 400
250
B
Window A
waterdrain
Window A
waterdrain
Ø70mm
Door A: 800
Door A: 800
waterdrain 850 70mm
Entrance
Ø70mm
waterdrain
1.000
Ø
Ø70mm
Window A
Window A
waterdrain Ø70mm
Entrance
120
3.170 800
475
2.875
70 800
400
250
250
2.910 125
800
150
800
2.875
150 162
800
38 130
35
150
A
250
400
1.915 120
65
150
4.115
1.850
120
905
250
1.850
150
875
250
38
B
15 250
Ground floor (Type 2)
Hogeschool van Amsterdam
University of Applied Sciences
800
120 162
800
2.875
150
800
125
250
15
Walls
250
Façade / openings
Construction
Construction
120 15
Window A
Façade / openings
120 15
250
Window A
1.000
250
Sunprotection with lamels of aluminium
D
C
700
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
700
1.900
2.750
Not constructive wall Prefab elements 140 mm
Drawings scale 1:50 on attachement: D-01
86
162 4.115
70
Window A
2.875
250
70
4.110
3.045
2.750
2.750
3.000
250
800
140
70
C
2.875 250
625
250
800
250
120
162
Grid
2.750
250
800
125
2.450
150
3.125
100
Walls
Walls
15
800
3.125
1.075
120
Façade / openings
15
125
Overal
3.125
2.875
250
15
Construction
3.125
250
120
250
Grid 125
A
250
Overal
125
150
3
B
2
A
1
125
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
3
4
B
2
A
1
5
12.750
3.030
250
1.450
120
965
800
70
2.875 250
625
1.985
625
250
800
140
1.985
1.450
2.875
250
70
965
125
1.000
250
800
120
Grid
1.075
Construction
250
3.030
120
Façade / openings 15
Walls
120
750
250 200 100 2.450
70
2.875
800
400
250
250
800
475
2.875
800
400
130
35
150
1.915 120
65
150
2.750
2.750 250
3.864 150
1.850
120
1.850
150
875
250
67 800 38
875
250
2.990 250
400
120 waterdrain Ø70mm
Balcony
800
475
2.875
120 800
400
250
15
Walls
250
Façade / openings
Construction
150 400
waterdrain Ø70mm
Window A
15
waterdrain Ø70mm
6.150 475
250
waterdrain
Window A
Walls
Door A: 800
Ø70mm
Balcony
800
Door A: 800
Door A: 800 Window A
A
250
Door A: 800
120 400
Sunprotection with lamels of aluminium
Façade / openings
15
Constructive concrete wall 150 mm (incl. reinforcement) Molded on building place
Doors and windows of aluminium
Window A
waterdrain Ø70mm
250
Stair of concrete (Prefab)
Construction
B
2.915 120 15
2.915 120 15
Window A
250
100
400 2.750
Entrance
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
1.000
250
2.750 250
125
3.000
Not constructive wall Prefab elements 120 mm
D
D
FLOOR PLANS
2.995 38 250 120
400 800
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
1.550
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
1.931
Not constructive wall Prefab elements 70 mm
Not constructive wall Prefab elements 140 mm 750
1.115 Window A
Constructive concrete wall 100 mm (incl. reinforcement) Molded on building place
300
Door B: 800
300 1.055
750
Window A
1.055
Window A
2.880 70
300
Door B: 800
300
70
120 2.880 70
800 350 250
800
2.750 250
3.000
9.250
C
C
800
Door B: 800
Door B: 800
Door B: 800
Door B: 800
Door B: 800
Door B: 800
1.900
2.995 800 38 400
250
1.115
D
2.750
1.912
750
250
Wooden balustrade height: 900 mm
Window A
250
Window A
250
B
2.875
250
3.125
15
Walls
Walls
15
1.000
3.125
70
1.912
2.750
3.000
C
250
800
120
1.075
120
15
1.075
Overal
3.125
2.875
250
15
Façade / openings
3.125
250
120
Construction
250
Grid 125
A
250
Overal
125
First floor (Type 2)
Drawings scale 1:50 on attachement: D-01
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
87
3
4
B
2
A
1
5
12.750
1.075
250
800
1.000
2.875
250
250
1.450
800
2.875 250
625
625
250
800
1.450
15
120
3.030
120
965
70
1.985
140
1.985
70
15
120
3.030
120
965
70
1.985
140
1.985
70
2.875
250
400
965
70
400
Construction 250
Façade / openings
120
15
Walls
120
15
Walls
Window A
2.750
2.750
3.045
250 100
200
250 70
400 800
120
6.150 800
475
2.875
800
400
250
250
150 400
800
475
2.875
800
400
130
35
150
A
250
400
2.450 2.750 250
3.864
150
250
100 15
waterdrain Ø70mm
Ø70mm
Balcony
65
150
1.850
120
1.850
150
waterdrain Ø70mm
Balcony
4.115 67 800 38
875
250
400
250
Second floor (Type 2)
Hogeschool van Amsterdam
Window A
waterdrain
Ø70mm
1.915 120
Window A
University of Applied Sciences
800
120 475
2.875
800
400
250
15
Walls
250
Façade / openings
Construction
Construction
waterdrain
Ø70mm
250
Door A: 800
Façade / openings
waterdrain
Window A
15
Door A: 800
Walls
Window A
120
Sunprotection with lamels of aluminium
Doors and windows of aluminium Window A
2.750
Constructive concrete wall 150 mm (incl. reinforcement) Molded on building place
250
Stair of concrete (Prefab)
B
120 15
2.915 120
Door A: 800
Door A: 800
Entrance
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
15
D
1.550
6.980
70
750
750
1.931
Stair of wood (Prefab)
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
Window A
1.115 Window A
Not constructive wall Prefab elements 140 mm
2.880
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
Door B: 800
300
300
300
Door B: 800
1.055
C
Not constructive wall Prefab elements 70 mm
300
Door B: 800
Door B: 800
Door B: 800
Door B: 800
70 120
Window A
1.055
70
400 2.750
250
120
Window A
2.995
Door B: 800
Stair of wood (Prefab)
1.000
250
2.750 250
800
750
Not constructive wall Prefab elements 120 mm 3.000
250
475
3.080
Drawings scale 1:50 on attachement: D-01
88
Grid
1.930
1.912 800 800 350 800 250
C
800 4.115
Window A
750
Constructive concrete wall 100 mm (incl. reinforcement) Molded on building place
38 400
250 2.750 250
3.000
9.250
D
125
250
Window A
1.115
D
3.125
250
B
3.125
15
Walls 15 120
Walls 15
Façade / openings
2.875
250
Overal
3.125
Wooden balustrade height: 900 mm
2.750
3.000
C
3.125
250
120
Construction
250
Grid 125
A
250
Overal
125
125
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
4
5
13.750
15
120
400
3.000 2.044
70
Window A
886
Window A
Windows of aluminium
250
250
2.037
2.875 250
838
3.050
140
3.050
120
120
3.050
140
3.050
120
400
886
800
70
400
2.044
Construction 250
500
Façade / openings
120
15
Walls
120
15
Walls
Window A
Not constructive wall Prefab elements 70 mm
Not constructive wall Prefab elements 140 mm
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern Door B: 800 Door C: 800
1.115
Door C: 800
1.055
Height: 1800mm
300
300
300
Door C: 800
1.055
1.115
Height: 1500mm 2.880 70
2.450
2.880 70
D
Stair of wood (Prefab)
800
150
800
120
120 15
waterdrain Ø70mm
waterdrain
waterdrain Ø70mm
Ø70mm
waterdrain Ø70mm
waterdrain Ø70mm
Construction
1.050
15
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
250
2.750
Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel
2.915
2.915
100
2.750 2.750 250
125
3.000
C
D
Stair of wood (Prefab)
250
3.000
9.250
D
C
Door B: 800
Door B: 800
70 1.018
475
Window A
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
Door B: 800
800
Grid
250
3.000
Sunprotection with lamels of aluminium
Constructive concrete wall 100 mm (incl. reinforcement) Molded on building place
70
70
250
2.037
250
120
Door C: 800
B
838
Not constructive wall Prefab elements 120 mm
3.045
2.750
3.000
C
800
2.875
FLOOR PLANS
120
475
250
125
250
15
800
2.875
3.125
250
400
250
3.125
300
Walls
Walls
15 120
250
2.875
1.957
15
Construction
538
120
Grid 125
A
250
Overal
250
Overal
3.125
2.750
3.125
100
125
200
3
B
2
A
1
120
6.150
250
150
2.875
35
150
A
2.875
1.915
65
1.850
150
150
4.115
875
250
120
2.875
250
15
Walls
Construction
B
15
250
Third floor (Type 2)
Drawings scale 1:50 on attachement: D-01
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
89
+12.159roof
Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
141 +10.650window
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
Door C
+9.450
Window A
+9.350window
+8.320con. +8.070con.
Plastern
250
Tijolo blocks (In future plastern)
+7.800window
Window A
Window A
+6.600
Window A
Window A
+5.470con. +5.220con.
Plastern
Tijolo blocks (In future plastern)
+3.750
+3.750
Window A
Door A
Plastern
500
250
Door A
Window A
Window A
Plastern
2.875
250
Window A
Tijolo blocks (In future plastern)
2.875
250
2.875
Window A
250
University of Applied Sciences
2.875
250
+2.100window
+800window
-50
Tijolo blocks
North faรงade (Type 2)
Hogeschool van Amsterdam
+3.650window
+2.620con. +2.370con.
Plastern
Window A
+4.950window
Wooden balustrade
250
Plastern
Window A
Window A
2.420
Wooden balustrade
Window A
900
Window A
2.600
250
Tijolo blocks (In future plastern)
+6.500window
Wooden balustrade
900
Window A
2.600
Sunprotection with lamels of aluminium
Drawings scale 1:50 on attachement: D-02
90
Window A
Wooden balustrade
900
Wooden balustrade
Window A
2.984
Door C
Window A
+11.304con.
900
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
500
+12.159roof Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
+11.304con.
+10.500
2.984
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
+9.696 +9.038roof
+8.892 +8.320con. +8.070con.
Tijolo blocks (In future plastern)
+7.800window
900
+6.600
2.600
2.850
Sunprotection with lamels of aluminium
Window A
+6.500window
Wooden balustrade
2nd flr
Tijolo blocks (In future plastern)
Tijolo blocks (In future plastern)
+5.470con. +5.220con.
Tijolo blocks (In future plastern)
250
+5.700
+2.850
1st flr
900
+3.750
Window A
Wooden balustrade
Wooden balustrade
Plastern
1.000
250
2.420
2.900
Window A
-50
Window A
Plastern
2.750
250
+3.650window
+2.620con. +2.370con.
Plastern
250
Plastern
2.600
+3.750
900
2.850
Door B
+4.950window
ELEVATIONS
Tijolo blocks (In future plastern)
250
Tijolo blocks (In future plastern)
250
+800window
-50
Plastern
2.750
+2.100window
2.750
250
1.217
East faรงade (Type 2)
Drawings scale 1:50 on attachement: D-02
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
91
+12.159roof Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
+11.304con.
+10.500
2.984
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
+9.696
Plastern
Plastern
+6.600
Window A Wooden balustrade
Plastern
Wooden balustrade
+5.7002nd flr
Plastern
+4.950window
+3.750
Window A
+3.750
Window A
Wooden balustrade
900
+3.650window
+2.620con. +2.370con.
Plastern
2.850
Door B
900
250 2.600
+6.600
Window A
900
+6.500window
Sunprotection with lamels of aluminium
2.850
Door B
+5.470con. +5.220con.
Wooden balustrade
+2.8501st flr
Plastern
+2.100window
2.900
250
Plastern
+7.800window
900
2.600
250
+8.320con. +8.070con.
+800window
Window A
-50
Tijolo blocks (In future plastern)
1.250
250
2.750
Window A
Tijolo blocks (In future plastern)
250
2.750
250
2.750
West faรงade (Type 2)
Hogeschool van Amsterdam
-50
Tijolo blocks (In future plastern)
Drawings scale 1:50 on attachement: D-02
92
+9.038roof
+8.892
2.420
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
University of Applied Sciences
250
1.000
+12.159roof Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
+9.038roof
Plastern
Window A
Door A
Window A
Tijolo blocks (In future plastern)
Staircase Molded concrete
Window A
Door A
Window A
Window A
2.600
+6.600
+5.700
+5.470con. +5.220con. Plastern
Plastern Door A
Window A
Door A
Window A
Sunprotection with lamels of aluminium
Window A
1st flr
+2.620con. +2.370con.
Window A
Window A
Window A
Door A
250
Door A
Window A
500
Tijolo blocks (In future plastern)
250
2.875
Tijolo blocks (In future plastern)
250
2.875
Plastern
130
120
1.850
120
905 250
250
+800window
-50
Plastern
2.875
+2.100window
Window A
2.420 -50
+3.650window
Wooden balustrade
Ferrocement floorelements
Window A
+4.950window
Window A
+3.750 900
+2.850
Plastern
2.600
Plastern
250
Ferrocement floorelements
Window A
+6.500window
Wooden balustrade
900
2nd flr
+7.800window
ELEVATIONS
Plastern
250
+8.320con. +8.070con.
500
South faรงade (Type 2)
Drawings scale 1:50 on attachement: D-02
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
93
11
+12.159roof Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
Ventilation pipe
12.0 60
10
Not constructive wall Prefab elements 120 mm
9
1.800
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
+9.038roof +8.5503rd flr +8.320con. +8.070con.
Ferrocement floors 3000x500x162 mm
Concrete beams
2.850
3000x250x250 mm
Ferrocement floors 3000x500x162 mm
6
+5.7002nd flr +5.470con. +5.220con.
900
+2.8501st flr +2.620con. +2.370con.
Ferrocement floors 3000x500x162 mm
2 Not constructive wall Prefab elements 70 mm
2.900
Sunprotection with lamels of aluminium
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
1
Âą0 300
Foundation of concrete slab
Section A-A (Type 2)
Drawings scale 1:50 on attachement: D-03
94
7
2.850
5
900
8 900
Wooden balustrade height: 900 mm
900
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
Hogeschool van Amsterdam
University of Applied Sciences
-50
+12.159roof Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
Ventilation pipe
12.0 60
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
1.800
13
Wooden balustrade height: 900 mm
12
Ferrocement floors 3000x500x162 mm
+9.038roof +8.5503rd flr +8.320con. +8.070con.
Ferrocement floors 2550x500x162 mm
Concrete beams
Ferrocement floors 3000x500x162 mm
Constructive concrete wall 150 mm (incl. reinforcement) Molded on building place
15
Ferrocement floors 2550x500x162 mm
Concrete slab (molded on building place)
+5.7002nd flr +5.470con. +5.220con.
2.850 Ferrocement floors 3000x500x162 mm
14
Concrete slab (molded on building place)
Ferrocement floors 2550x500x162 mm
+2.8501st flr +2.620con. +2.370con.
Stair of concrete (Prefab)
Not constructive wall Prefab elements 70 mm
2.850
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
Wooden balustrade height: 900 mm
Stair of concrete (Prefab)
Sunprotection with lamels of aluminium
Not constructive wall Prefab elements 120 mm
2.850
Constructive concrete wall 100 mm (incl. reinforcement) Molded on building place
SECTIONS
3000x250x250 mm
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
Âą0
-50 300
Foundation of concrete slab
Section B-B (Type 2)
Drawings scale 1:50 on attachement: D-03
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
95
18
Ventilation pipe
Not constructive wall Prefab elements 140 mm
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
16
Sunprotection with lamels of aluminium
17
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
+8.5503rd flr +8.320con. +8.070con.
Ferrocement floors 3000x500x162 mm
2.850
Not constructive wall Prefab elements 70 mm
900
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
+5.7002nd flr +5.470con. +5.220con.
Ferrocement floors 3000x500x162 mm
Concrete beams
Wooden balustrade height: 900 mm
900
2.850
3000x250x250 mm
+2.8501st flr +2.620con. +2.370con.
Ferrocement floors 3000x500x162 mm
2.850
Not constructive wall Prefab elements 120 mm
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
Âą0
-50 300
Foundation of concrete slab
Section C-C (Type 2)
Drawings scale 1:50 on attachement: D-03
96
Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
900
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
Hogeschool van Amsterdam
University of Applied Sciences
Green roof - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
- 12 mm OSB - 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene - 12 mm OSB
Sunprotection with lamels of aluminium
Not constructive wall Prefab elements 140 mm
Stair of wood (Prefab)
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
1.000
Stair of wood (Prefab)
2.850
3000x500x162 mm
+5.7002nd flr +5.470con. +5.220con.
Ferrocement floors 3000x500x162 mm
Concrete beams 3000x250x250 mm
2.850
Not constructive wall Prefab elements 70 mm
- 12 mm OSB - 46 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB
Not constructive wall Prefab elements 120 mm
3D
19
+2.8501st flr +2.620con. +2.370con.
Ferrocement floors 3000x500x162 mm
2.900
- 12 mm OSB - 76 mm Wooden framework (h.o.h. 900 mm) between PS - 12 mm OSB - 20 mm Plastern
SECTIONS
+8.5503rd flr +8.320con. +8.070con.
Ferrocement floors
1.000
Âą0
-50 300
Foundation of concrete slab
Section D-D (Type 2)
Drawings scale 1:50 on attachement: D-03
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
97
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
98
Heat goes up
Heat goes up
Rain is
Ventilation Heat goes out
flowin g dow n to th e wa terta nk
is Rain
Watertank
Watertank
Shadow
Ventilation Heat goes out
Shadow
Gallery
Sun screans
nk aterta the w to n g dow flowin
Gallery
Fresh air goes in
Fresh air goes in
Sun screans
Shadow
Sunprotection The overhangs of the building create a lot of shadow, this is important because the brazilian climate is very hot. To 'close' the other site of the building, there are sunscreens in front of the windows, on this way the heat can not go in. To create a nice climate inside the building we also use a green roof, a green roof has a very good isolation. Ventilation By using the floorelements of ferrocement (Tiba), it is possible to ventilate the building on a natural way. Because the form of the element is a rounding, below the elements the air can flows through it. In this way the heat air can go out en the fresh air can go in. By the windows in the faรงade it is also possible to ventilate. Rain water The building will use a grey water system. The rain water will be catch and store in a watertank, the water will be cleaned. The whole building can use the water from the watertank for the shower or toilet.
Hogeschool van Amsterdam
University of Applied Sciences
TECHNICAL SOLUTIONS Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
99
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS Grey water system In the social housing project there will be a grey water system integrated. Most of the houses use the "clean water" to flush the toilets, this is an average of 30 liters a day per person. In these houses the toilets will flush with grey water (filtered rain water), in every house is also a grey water tap (not for drink water).
Opening Waterpump Tap
Overflow
Dirt water
+9.038Roof
Watertank
Grey water
+5.7002nd flr
Grey water
+2.8501st flr
Grey water
Âą0 Sewerage
100
Hogeschool van Amsterdam
University of Applied Sciences
Working grey water system When the rain falls down on the green roof, a part of the water will be absorbed by the sedum. The other part will be filtered in the sand layer, and flow down through the grit into the drainage pipe. The clean filtered water will be cached up in a water tank made of ferro cement, the dirt water will be removed by the water drain. When the tank is filled with grey water, the rest of the water will be transported to the water drain and go to the sewer. The filtered water from the tank will flow through the pipe that is integrated in de ferro cement floor to the pipe shaft, there it will divide among the houses. - Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
2
Drainage
- Sedum - Earth - Waterproof plastic - Prefab panel 144mm
Strip
Dirt w ater
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
Dirt w ater
+9.038Roof
12
Filter grit/dirt
45x90
340
Wooden beam
Prefab concrete column 572x250x250 mm
Watertank
45x1 20
400
3125x71x271 mm
+8.643Panel
Dirt water
Ferrocement
+8.550Floor
12 mm
30
1.000
127
- Prefab panel 100 mm
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
Dirt water
38x76
250
250
35
230
38
12
Overflow Ă&#x2DC; 40mm
GREY WATER SYSTEM
Grey wate r
39 12 1 20 1 2 30
30 35
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
100 15
12
250
76
12 15 20 10
+8.320Beam
- Plastern - Waterdrain Ă&#x2DC; 70mm
70
The watertank has an average size of 10 square meters, the height will be 40 centimeter, but can be filled for maximum 35 centimeter. The watertank has a capacity of 3500 liter. Residents will be used for flushing the toilet an average of 25 liters per day, if there live 10 people in one module they need 250 liters a day. When the people use the grey water also for cleaning, feed the plants, etc. with an average of 15 liters per person they will use together 150 liters a day. The residents will spend together 400 liter grey water per day, so that means that they can use the grey water for 9 days, without raining.
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
101
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS Ventilation system In Brazil it is very important to ventilate the living areas of the houses. The air in the houses need to be fresh but most of all, a good ventilation principle gives a better (cooler) climate. In the social housing project the houses will be ventilated as much as possible with a natural ventilation principle. When the bathroom will not be ventilated enough on a natural way, the ventilation will switch over on the mechanic ventilation system.
+9.038roof
Mechanic ventilation, when necessary Ventilation
+5.7002nd flr Ventilation V-01
V-02
+2.8501st flr Ventilation
Âą0
102
Hogeschool van Amsterdam
University of Applied Sciences
Working ventilation system The floors of the stories will be exist of elements, these elements are made of curved ferrocement, which will give openings in the faรงade and inside walls. Most of these openings will be closed, but where it is necessary to ventilate there will be an prefab element placed, with integrated ventilation grids. The ventilation grid on the outside of the faรงade keeps the rain outside, on the inside the ventilation grid can be opened and closed by the residents themselves.
20
250 12 76 12
250 115
115
- Plastern - Prefab panel 100mm
+5.7001st flr 38
38 30
70
- Finish floor - Kokos isolation - Ferrocement elements 3000x500x162 mm Filled in with "trash"
+5.7001st flr
Ventilation Ventilation grid
ai r
162
+5.470con.
38x76
20 15 10
Ventilation grid (closable)
Po llu te d
Fr es h
ai r
162
Ventilation grid
12
230
Ventilation
230
38x76
76
38x76
30
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
Ventilation grid (closable)
12
+5.470con.
- Finish floor - Kokos isolation - Ferrocement elements
Prefab element
3000x500x162 mm Filled in with "trash"
+5.220con. 38x76
V-01
V-02
VENTILATION SYSTEM
15
115
12
250
76
12
20 15
10
70
- Waterdrain ร 70mm - Plastern - Prefab panel 100mm
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
The float of the air depends on the wind direction and the position of the sun. If the residents want/need more fresh air they can also open the widows. The bathroom will be ventilated with a special method. The bathroom is often located in the middle of the building, this means that there are no windows in this room. In the shaft near the bathroom there will be a thick black pipe that sticks out of the roof (1 meter). The pipe that sticks out of the roof will be warmed up by the sun, the heated air will flow up and attracts fresh air in the bathroom. In cloudy weather or when it`s dark, a sensor will switch over on mechanical ventilation.
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
103
104
Pipes and drains In the social housing project there will be a lot of pipes, like drains, (grey) water-, electricity- and ventilation pipes. To organize all these pipes we built a pipe shaft, these shaft is located in the middle of the house, near the bathroom and kitchen. To make the floor plans flexible there will be two pipe shafts each house, when the residents change there floor plans there is an option to give the wet areas another place.
1
2
3
6.500 125
3.125 140
2.055
3.125
125
4.115 Entrance
120
1.900
3.000
70
1.075
125
A
120
15
55
Kitchen
70
B
3.000
1.930
Pipe shaft
Pipe shaft
Bathroom
850
70
10.250
2.865 15
120
3.000 125
150
C
D
Entrance
1.000
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
Hogeschool van Amsterdam
University of Applied Sciences
15
Pipe shaft
Electricity
Water
Ø 12 mm 55
120
Ø 15 mm
75
Grey water Drain Ø 40 mm
Ø 110 mm
Ventilation pipe Ø 150 mm
900
PIPES & DRAINS
100
200
70
The pipe shaft will extend over al the levels till the installation room on the 3th floor. In the shaft is enough space for all the pipes and drains for these houses. The dimension of the pipe shaft depends on the prefab ferrocement elements. The elements needs to be supported by a concrete wall. When we use a length of 2 floor elements (2 x 500mm) and a width of 200 mm, there is space enough for all the pipes and drains. When the pipes and drains are placed on the right position the opening can be closed by the prefab wall element. In this wall there will be a small door/opening to repair, add or change pipes and drains.
100
162
30 38
In the floor between the prefab Ferrocement elements there is an opportunity to integrate some of the pipes, like drains, water- and electricity pipes.
- Drain
Ø 40 mm
- Water
Ø 15 mm
- Electricity Ø 12 mm
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
105
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
106
Sun protection In Brazil it`s very important to design sun protection elements that keeps the heat of the sun out of the houses. In the social housing project the houses will keep the heat of the sun outside by using overhangs, balconies and horizontal lamells. Also the green roof is a good isolation element, and provides the houses for a better living climate.
Sunlight
+9.038roof
+8.5503th flr
Shadow
Shadow
+5.7002nd flr
Shadow
Shadow +2.8501st flr
Shadow Aluminium lamels
Aluminium lamels
Shadow
Hogeschool van Amsterdam
Âą0
University of Applied Sciences
Working horizontal lamels The horizontal lamels keep the sun outside the building when it`s needed. When the sun is located on a lower position it is possible to turn or close the lamels. By opening the lamels the sun light can come inside the building. There will be one type of element that will operate horizontal lamel sun protection, that will fit on the used windows. The horizontal lamels will be made of aluminium and can be made in the factory near the building place. Another advantage of the horizontal lamels is that the elements gives a protected function and helps to keep the intruders outside.
Sunprotection
Sunprotection
Sunprotection
Sunprotection
Sunprotection
Sunprotection
LAMELS OPENED
LAMELS HALF OPENED
LAMELS CLOSED
- Sun light in building
- Sun light in building
- No sun light in the building
- Heat inside
- Keep the heat outside
- Keep the heat outside
Lamels of aluminium
Lamels of aluminium
Frame of aluminium
Frame of aluminium
SUN PROTECTION
Frame of aluminium
Lamels of aluminium
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
107
DETAILS
800window
- Plastern - Prefab panel
Sunprotection
Sunprotection
Lamels of aluminium
Frame of aluminium
15 120
140 20
70
Window-frame of aluminium
115
Window of aluminium sash window (vertical)
100x70 mm
250 15
250
12 76 12
38x76
38x76
20
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
120
115
12 76 12
- Plastern - Prefab panel 100mm
45x45 mm
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
Sunscreen prefab made on window from inside (safety)
+2.100window
70
Detail 3
Sunscreen prefab made on window from inside (safety)
38x76
Sunprotection
Lamels of aluminium
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
25
2370x250x250 mm
100x70 mm
140
- Plastern - Prefab panel
Prefab concrete column
Window-frame of aluminium
150
100
Hinge
Wooden door
Door-frame of aluminium
Sunprotection
100x70 mm
Handle to open or close
45
1.300window
Detail 4
Window of aluminium Sash window (vertical) 45x45 mm
100 20
12
76
12
- Plastern - Prefab panel
DETAILS
12
76
38x76
250
38x76
12
20
800
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
38x76
Door-frame of aluminium 100x70 mm
70
2.100
Wooden door
+800window
Window-frame of aluminium 100x70 mm
38x76
- Plastern - Prefab panel 100mm
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
- Finish floor - Foundation of concrete slab
Âą0 -50
Detail 4 vert.
Detail 2
Drawings scale 1:5 on attachement: D-04
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
109
15
20
250
250
12 76 12
115
115
12
12
20
15
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
- Plastern - Prefab panel 100mm
+5.7001st flr
+5.7002nd flr 38
38x76
162
Ventilation grid
162
230
38x76
230
30
30
38
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
Ventilation grid (closable)
+5.470con.
250
Prefab concrete beam 3000x250x250 mm
250
160
Prefab concrete beam
3000x500x162 mm Filled in with "trash"
40
40
+5.470con.
- Finish floor - Kokos isolation - Ferrocement elements
- Finish floor - Kokos isolation - Ferrocement elements 3000x500x162 mm Filled in with "trash"
3000x250x250 mm
160
10
+2.620
+5.220con. 38x76
15
20
38x76
+2.370
12 76 12
115
115
250
Detail 5
+5.220con.
12
76
12
20
15
250
Detail 6 160
162
250 115
100 12
76
12
35 15
20
10
70
33 0
25 0
- Waterdrain Ă&#x2DC; 70mm - Plastern - Prefab panel 100mm
+2.620
500
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
+2.370 250
Âą0
50
- Finish floor - Foundation of concrete slab
250
38x76
10
350
40 160
160
300
250
40
+2.620
+2.370
Detail 19
Detail 1
Hogeschool van Amsterdam
University of Applied Sciences
-50
250
38x76
Drawings scale 1:5 on attachement: D-04
110
76
- Plastern - Prefab panel 100mm
162
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
90
250 115
12
76
12
20 15 10
15
70
60 15
45x90
- Finish floor - Kokos isolation - Ferrocement elements 3000x500x162 mm Filled in with "trash"
38x76
Wooden balustrade Height 900mm
45x90
- Finish floor - Kokos isolation - Ferrocement elements
Profile steel 4 mm
3000x500x162 mm Filled in with "trash"
+5.7001st flr
+3.750bal
70x70x60mm
Bolt M16x100
+2.8501st flr
Ventilation grid Ventilation grid (closable)
+5.470con. Prefab element
Detail 8
Prefab concrete beam 3000x250x250 mm
+5.220con. 38x76
115
Detail 7
12
76
12
20 15
10
DETAILS
- Waterdrain Ă&#x2DC; 70mm - Plastern - Prefab panel 100mm
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
70
250
Prefab panel 120 mm
Prefab panel 140 mm
- 20 mm Plastern - 12 mm OSB - 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene - 12 mm OSB
- 20 mm Plastern - 12 mm OSB - 76 mm wooden framework (h.o.h. 900mm) between Polystyrene - 12 mm OSB - 20 mm Plastern
- Finish floor - Kokos isolation - Ferrocement elements 3000x500x162 mm Filled in with "trash"
+8.5503rd flr
3000x500x162 mm Filled in with "trash"
30
230 162
162
230
30
38
38x76
38
+8.5503rd flr
- Finish floor - Kokos isolation - Ferrocement elements
38x76
+8.320con.
+8.320con.
Prefab concrete beam
Prefab concrete beam 250
3000x250x250 mm
250
3000x250x250 mm
+8.070con.
+8.070con.
38x76
20
Detail 16
15
38x76
12 76 12 120
20
Detail 17
115
250
15
12 76 12 140
20 95
Drawings scale 1:5 on attachement: D-04
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
111
- Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
12
Drainage Strip
12
120
239
30 30
35
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
- Sedum - Earth - Waterproof plastic - Prefab panel 144mm
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
+9.038Roof
12
Filter grit/dirt
45x90
340
Wooden beam
3125x71x271 mm
572x250x250 mm
Watertank
412
45x1 20
Prefab concrete column
+8.643Panel Overflow Ø 40mm
Ferrocement
+8.550Floor
30
38
12 mm
230
1.000 - Prefab panel 100mm 162
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
- Plastern - Waterdrain Ø 70mm
250
38x76
250
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
Prefab concrete beam 3000x250x250 mm
38x76
100
15
12
76
12
20
15
10
70
250
Detail 9
Drawings scale 1:5 on attachement: D-05
112
Hogeschool van Amsterdam
University of Applied Sciences
+8.320Beam
- Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
roof
+12.159
45x1 20
340
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
+11.808roof
12
DETAILS
12
40x76
3125x71x271 mm
- Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144mm
120
+11.312
Wooden beam
Pin of steel Ă&#x2DC; 15 mm
Prefab concrete column
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
2984x250x250 mm
239
30
30
35
Strip
38x76
Strip
- Plastern - Prefab panel 100mm
30
35
45x1 20
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
+9.700
Wooden beam
20
35
12 76 12
115
100
115
239
250
120
12
30
15
Detail 11
12
3125x71x271 mm
Pin of steel Ă&#x2DC; 15 mm
Prefab concrete column 1372x250x250 mm
82,5
Detail 10
80
82,5
250
Drawings scale 1:5 on attachement: D-05
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
113
TECHNICAL SOLUTIONS Pipe steel black
horizontal Ø 155mm
155
- Sedum - Earth - Sand - Geotextile - Grit - Water proof plastic - Prefab panel
Pipe steel black Ø 155mm
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
Pins Pipe steel
35
Ø 150mm
12
45x1 20
12
120
239
30
30
Waterproof plastic
38x58
Wooden beam 3125x71x271 mm
+10.500con.
38x76
Detail 13 125
12
76
12
25
200
100
Prefab panel 100 mm
- 12 mm OSB - 76 mm wooden framework (h.o.h. 900mm) between Polystyrene - 12 mm OSB
Constructive concrete wall 100 mm (incl. reinforcement) Molded on building place
- Finish floor - Kokos isolation - Ferrocement elements
- Finish floor - Kokos isolation - Ferrocement elements 3000x500x162 mm Filled in with "trash"
230
30
30
162
162
+8.320con.
140
50
38x76
Prefab concrete beam
90
3000x250x250 mm
+8.070con. 38x46
Prefab panel 70 mm
- 12 mm OSB - 46 mm wooden framework (h.o.h. 900 mm)between Polystyrene - 12 mm OSB
Detail 12
155
12
250
46
12
25
200
100
100
200
100
100
Drawings scale 1:5 on attachement: D-05
114
+8.5503rd flr 38
38
3000x500x162 mm Filled in with "trash"
250
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
+11.615pipe
Hogeschool van Amsterdam
University of Applied Sciences
230
190
100
100
10
100
+5.7002nd flr
220
10
10
Concrete slab (molded on building place)
200
120
230
Prefab stair
5.470con. 10
220
110
Detail 15
DETAILS
190
220
190
Set space 50
Pin, molded in concrete
12 mm OSB 120 mm Wooden framework (h.o.h. 425mm) between Polystyrene 12 mm OSB
210
Filled with molded concrete
- Sedum - Earth - Sand - Geotextile - Grit - Waterproof plastic - Prefab panel 144 mm
+2.850con.
30
35
230
10
Prefab stair
12 120
Prefab concrete beam 3000x250x250 mm
12
45x120
45x120
45x120
+2.620con.
239
30
Concrete slab (molded on building place)
38x76
+2.370con.
Prefab panel 875mm - Prefab panel 100 mm
Detail 14
12 mm OSB 76 mm Wooden framework (h.o.h. 900mm) between Polystyrene 12 mm OSB
- Plastern
20
12 76 12
100
Detail 18
Drawings scale 1:5 on attachement: D-04 / D-05
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
115
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
TECHNICAL SOLUTIONS
116
List Attachement
Architecture Type 1 & 2
A.01
Type 3 & U-block
A.02
Type 4
A.03
Construction Details
C.01
Technical Solutions Floor plans
D.01
Elevations
D.02
Sections
D.03
Details 1 - 8, 14 - 17 + 19
D.04
Details 9 - 13 + 18
D.05
Hogeschool van Amsterdam
University of Applied Sciences
ORGANIZATION
6
ORGANIZATION
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Organization
118
Vision Our opinion about the organization is, managing a building proces from beginning to end. This proces starts with a meeting of future residents and ends with the managing of the new housing. In this organization it should be clear who carried out the which tasks. A clear organized proces with the responsibility of each tasks.
Building Company The building company is divided into four different components of work. Each work component has a diverse range of work, so we can reach a lot of people. The different functions are a mix of professional workers and new employees from the area. Each component works together and requires a good cooperation. This should be managed by the organization(1).
(1)Organization with the different components of work
Building Company Emp
nt
loym
oyme Empl
1.Organization
Employment
2.Material Production
Finances
Material Production
Economic Growth
Innovation
Development
Support
Education
Education
ent
3.Building Proces
Construction
Management
Installation
Help/Repair
Roof
Extension
Walls/Windows
All the component will be managed by the organization. A good cooperation is necessary for a good proces!
Hogeschool van Amsterdam
4.Maintenance
University of Applied Sciences
Controle
1. Organization Employment
Finances
Economic Growth
Development
Education
Cooperation
The building company creates new employment. The employees must be people from the area. This is necessary for developing new housing in the area. The employees of the company earn money they can use for new housing, so it is also a financial support. The organization is a basic principle for new development in the area. The building company causes economic growth in the area. Besides the economic aspects it is a place for education, a place to learn about the building proces. Cooperation between people from the area and employees is important for a clear building proces, but it also has a social factor. The organization is the management during building processes.
2. Material Production Material Production
Innovation
Support
Education
Cooperation
The building company creates new employment by making materials. With prefabrication of materials new houses can be build. With introducing new innovative materials the houses get more quality. The material production supports the development of new housing. By using different materials than normal the people will learn more about possibility of building. This education is necessary for development of the area. Cooperation between the people from the area and employees of the company provides exchange of knowledge and skills.
Prefabrication Materials
Different people can buy the materials
- Columns (concrete) - Beams (concrete/wood) - Bricks (tijolo blocks) - Floors (ferrocement) - Stairs (concrete/wood) - Facade panels (wood) - Windows (aluminium) - Sunscreen (aluminium) - Balustrade (wood)
Other Companies Building Company Economic Growth
Individual People Development
BUILDING PROCES
Employment
Extension Housing
Knowledge
3. Building Proces Employment
Construction
Installations
Roof
Walls/Windows
Cooperation
The building company creates new employment with work on the building place. The construction, installations and roof will be build by the contractor. The materials are prefabricated by the building company. The new residents will design their own floorplans. After that design they build the walls en windows by themselves. By design and build the walls, it really is their own place (home). Working together with the company, and building with new materials means also some cooperation and education.
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
119
ORGANIZATION
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
Who builds what? Building proces.
120
1 Module: Construction build by the contractor Contractor
Concrete beams
- Construction - Installations - Core: Bathroom Kitchen Stairs - Roof - Balustrade
kitchen
Pipes Management & Cooperation
Organization
Free floorplan
Material Production
Bathroom
Maintenance
Stairs
Residents - Floor plans (design) - Inside walls - Outside walls - Doors/Windows
Concrete collumns Balcony with balustrade
4. Maintenance Employment
Management
Help/Repair
Extension
Controle
Cooperation
The building company creates new employment with a management function. This employee help the residents with repairing building components when something is damaged. He can also help when people want to expand their house. He can controle the situation. The maintenance is in cooperation with the residents and the building company.
Hogeschool van Amsterdam
University of Applied Sciences
CONCLUSION
7
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
CONCLUSION
122
Conclusion The favelas are often isolated from the surrounding environment, changes are difficult to realize and people lives under poor and bad conditions. We like to change this of course! For that reason we did this project with a complete process of urban planning till technical engineering. During this process we created solutions to various the problems. â&#x20AC;&#x153;The design of social housing is those people who live in the favelasâ&#x20AC;?, this was the basis for the project. Keeping in mind that the way of living in the favelas is very important, we maintained the positive aspects of favela homes.ďż˝ Adjustments must be understood and accepted to work. A bright idea in a clear structure with innovative, efficient en realistic solutions makes the plan work. In the urban plan we have devised a structure that is applicable for this project area but also has the opportunity to grow into the favelas. The possibility to build on slopes is also important. The scalability of the plan makes it applicable to different places. By creating different typologies it is possible to make a connection with the surrounding urban context. Because of the different typologies it is also possible to connect the existing density to densities of the surrounding areas. Infrastructure is based on existing features, as height lines and roads. Multiple connections are important to make the reach of the area higher, to get the area out of his isolation. The developed public space is appointed to ensure this space will be built. A mix of functions attracts people from outside, but also people who lives there already. Creating employment causes economic development of the area. The design of housing that is accessible from two sides shall ensure that there is always a social supervision. By using a standard module size different types of housing can be created. This module is generic because it can be built in different areas of the city. By keeping the floor plans open and flexible people can create their own home according to their own requirements and wishes. Their own interpretation of housing creates diversity and identity in this project. In the favelas it is possible to expand houses, this characterizes the favelas housing. The diversity and interpretation of the module provides a colorful view. This module provides the positive aspects of favela housing, and create also the relation with the existing buildings already in the favela. In our modules we keep empty / none develop spaces for future possibilities to expand. By using existing materials we keep the project low-cost, but improving the existing materials is necessary to create better quality of the housing. By using materials as prefabricated elements, the properties of the materials will have a higher quality. We have looked for available materials and find a for example prefabricated concrete skeleton construction which we can fabricate locally. To guarantee safety we have to keep an eye on quality and for safety, limit dimensions. However this structure also ensures the preservation of flexibility. Besides the fact that the floors are constructive they also serve as ventilation and fit exactly in the module size. The window frames will be equipped with lamels these gives the needed sun protection and safety, but of course it is also possible to ventilate the building. The sloping roof prevents vertical expansion, besides that it also has the function to collect and filter the rainwater, to reuse it in the grey water system. Besides the design of social housing it is also necessary to start an organization which can afford structure in this project. We like to involve a local building company with a various of functions to serve a project like this. The building company provides employment where the people of the favela can work, the money they earn can be used for new housing. This realizes economic development in the area. The company produced the prefab elements which can be used to build the houses. The construction will be build by the contractor and as mentioned already, the residents can plan, outline and finish the new housing them selves. This is in consultation and with the help of the building company. Also maintenance will be important and should be done by local workers. This guarantee first of all work in future for this project, but also extent the quality of the houses. Of course with the experience and knowledgeable the people gained, new projects can be started over and over again.
Hogeschool van Amsterdam
University of Applied Sciences
Modules/Prefab
Prefab
Generic Multiple typologies Applied to slopes Different urban areas Expandable(flexible)
Innovation
Organization
Simple materials Easy construction Sustainable Different application Flexible
Economic Management Maintenance
Housing Sustainable Low-cost Better quality Generic
Reality
Efficiency
CONCLUSION
Modules
Jeroen Egberts
Tim de Rijk
Kevin Vermeulen
123
DESIGN & BUILD BRAZIL 2009 - FAVELA MANGUEIRA
CONCLUSION
124
Hogeschool van Amsterdam
University of Applied Sciences
Jeroen Egberts Building Technology St.nr. 229838 Email:
Jeroen.Egberts@hva.nl
Architecture & Urbanism St.nr. 225876 Email:
Tim.de.Rijk@hva.nl
AUTHORS
Tim de Rijk
Kevin Vermeulen Building Technology St.nr. 217854 Email:
Jeroen Egberts
Kevin.Vermeulen@hva.nl
Tim de Rijk
Kevin Vermeulen
125
4
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