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Work 2006 - 2012. Architecture, structural calculations, interior design, restoration ...
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2 0 1 3P O R T F O L I O
A L A R C N R A M R E Z , P U R I F I C A C I N
Name:
Degree
Gender
Address
Tel.
Date of birth
Nationality
Alarcn Ramrez,
Purificacin
Architecture
Female
Engelbertstrasse, 27
Cologne (Germany 50674)
Calle Cantueso, 69
Crdoba (Spain 14012)
+49 1637159782
+34 697548855
23 March 1988
Spanish
2 3
Autocad 3DSmax V-Ray Rhinoceros Mac Windows CorelDraw ArchiCad Cypecad Photoshop Illustrator InDesign SketchUp Office
Profile:
Main qualification:
Additional qualification awarded:
Professional experience:
Languages and aditional skills:
Computer literate:
I am keen to follow a career in Architecture and Design and any field that needs the vision of an
Architect.
Hard-working, well-organised, highly motivated, conscientions and with excellent communication
skills.
Reliable, self-confident, flexible, quick and eager to learn.
Enthusiasm for joining and leading workteams and particular competence to use and learn any
software.
2006-2012: Escuela Tcnica Superior de Arquitectura (Sevilla) (4500 class hours, pre-Bologna
system).
2011-2012: Cypecad Structures User. Calculate Structures with CypeCAD. BC3 Formacin (Sevilla).
2011-2012: Cypecad Systems and Installations User. Calculate Systems and Installations with
CypeCAD. Angar & Barrera Architects (Sevilla).
2011-2012: 3D Studio, Photoshop and User. Computer Graphics with 3D Studio,
Photoshop and Rhinoceros. Angar & Barrera Architects (Sevilla)
2010-2011: Erasmus in Rome. Specializing in restoration and museums. University of Rome La
Sapienza
2009-2012: International Workshop Seville-Venice. Exchanges and teamwork. Escuela Tcnica
Superior de Arquitectura, University of Seville (Spain).
2008-2009: Workshop about Technology Parks in Andalucia. Learning about Technology Parks in
Andalucia. Escuela Tcnica Superior de Arquitectura, University of Seville (Spain).
2011-2012: Structures Department Assistant. University of Seville. Study and calculation of
structural systems using computer media.
2009-2010: Urban Department Assistant. University of Seville. Responsible for a doctoral thesis
based on the urban development of Seville and coordinator of a technical evaluation of
an substardard building.
2009-2010: Associate Architect: Hospital project in Wilaya de Oran (Argelia), with Juan Solano
Franco (Architect).
Spanish: Mother Tongue
English: Independent User (B2)
Italian: User (B2)
German: Basic level (A2)
Clean driving licence
Rhinoceros
Currently: Working on the architectural firm "Michael Zimmermann und Co. GMBH" in Cologne,
Germany.
Independent
Index
[3] Personal Details.
[4-5] Professional experience. Hospital for burn patients and traumatisms. Oran, Algeria. 2010
[6-7] Houses beside the river Guadiana. Sanlucar de Guadiana, Huelva, Spain. 2009
[8-9] Park Station-Garages. Seville, Spain. 2009
[10-11] Student Residence. Seville, Spain. 2010
[12-13] Restoration of Church . Soriano nel Cimino, Viterbo, Italy. 2011
[14-15] Museum of Contemporary Art. Rome, Italy. 2011
[16-23] Dissertation. Hostel and Classroom of Nature. Crdoba, Spain. 2012
Santa Maria del Piano
1 P E R S O N A L D E TA I L S
Name:
Degree
Gender
Address
Tel.
Date of birth
Nationality
Alarcn Ramrez,
Purificacin
Architecture
Female
Engelbertstrasse, 27
Cologne (Germany 50674)
Calle Cantueso, 69
Crdoba (Spain 14012)
+49 1637159782
+34 697548855
23 March 1988
Spanish
2 3
Autocad 3DSmax V-Ray Rhinoceros Mac Windows CorelDraw ArchiCad Cypecad Photoshop Illustrator InDesign SketchUp Office
Profile:
Main qualification:
Additional qualification awarded:
Professional experience:
Languages and aditional skills:
Computer literate:
I am keen to follow a career in Architecture and Design and any field that needs the vision of an
Architect.
Hard-working, well-organised, highly motivated, conscientions and with excellent communication
skills.
Reliable, self-confident, flexible, quick and eager to learn.
Enthusiasm for joining and leading workteams and particular competence to use and learn any
software.
2006-2012: Escuela Tcnica Superior de Arquitectura (Sevilla) (4500 class hours, pre-Bologna
system).
2011-2012: Cypecad Structures User. Calculate Structures with CypeCAD. BC3 Formacin (Sevilla).
2011-2012: Cypecad Systems and Installations User. Calculate Systems and Installations with
CypeCAD. Angar & Barrera Architects (Sevilla).
2011-2012: 3D Studio, Photoshop and User. Computer Graphics with 3D Studio,
Photoshop and Rhinoceros. Angar & Barrera Architects (Sevilla)
2010-2011: Erasmus in Rome. Specializing in restoration and museums. University of Rome La
Sapienza
2009-2012: International Workshop Seville-Venice. Exchanges and teamwork. Escuela Tcnica
Superior de Arquitectura, University of Seville (Spain).
2008-2009: Workshop about Technology Parks in Andalucia. Learning about Technology Parks in
Andalucia. Escuela Tcnica Superior de Arquitectura, University of Seville (Spain).
2011-2012: Structures Department Assistant. University of Seville. Study and calculation of
structural systems using computer media.
2009-2010: Urban Department Assistant. University of Seville. Responsible for a doctoral thesis
based on the urban development of Seville and coordinator of a technical evaluation of
an substardard building.
2009-2010: Associate Architect: Hospital project in Wilaya de Oran (Argelia), with Juan Solano
Franco (Architect).
Spanish: Mother Tongue
English: Independent User (B2)
Italian: User (B2)
German: Basic level (A2)
Clean driving licence
Rhinoceros
Currently: Working on the architectural firm "Michael Zimmermann und Co. GMBH" in Cologne,
Germany.
Independent
Index
[3] Personal Details.
[4-5] Professional experience. Hospital for burn patients and traumatisms. Oran, Algeria. 2010
[6-7] Houses beside the river Guadiana. Sanlucar de Guadiana, Huelva, Spain. 2009
[8-9] Park Station-Garages. Seville, Spain. 2009
[10-11] Student Residence. Seville, Spain. 2010
[12-13] Restoration of Church . Soriano nel Cimino, Viterbo, Italy. 2011
[14-15] Museum of Contemporary Art. Rome, Italy. 2011
[16-23] Dissertation. Hostel and Classroom of Nature. Crdoba, Spain. 2012
Santa Maria del Piano
1 P E R S O N A L D E TA I L S
P R O F E S S I O N A L E X P E R I E N C E
SITE & DATE:
Oran, Algeria. 2010
BRIEF DESCRIPTION:
This project is to provide the city of
Oran with a hospital equipped with
the latest technology for the
treatment of major trauma, making
it a world leader in the treatment of
these pathologies.
The geometry of the project is in a
form of semicircle and it is designed
for its functionality. The project is
organized by separating patients into
different sectors depending on the
severity of their situation, and
alternate two different circulations,
a concentric circulation which allows
mobilization to patients from one
sector to another, and another
radial, which allows movement
within the same sector.
In the accompanying sketch you can
see the operation of the hospital and
the different types of circulation.
4 5
Toms Solano Franco, College Architect number 2450 of Official College of Architects of
Seville, as architect of the project:
HOSPITAL PROJECT OF MAJOR BURNS IN THE WILAYA OF ORAN (ALGERIA),
commissioned by the Directorate General of Public Health of the Republic of Algeria
I CERTIFICATE
That miss:
Purificacin Alarcn Ramrez, ID number 30994937-E
She has participated as a collaborator in the development ot that draft document,
being her participation quite satisfactory and important to the outcome.
And for the record for the appropiate purposes, I sign this document certificated in the
city of Seville, on January 18, 2010.
H O S P I TA L F O R B U R N PAT I E N T S A N D T R A U M AT I S M S2
P R O F E S S I O N A L E X P E R I E N C E
SITE & DATE:
Oran, Algeria. 2010
BRIEF DESCRIPTION:
This project is to provide the city of
Oran with a hospital equipped with
the latest technology for the
treatment of major trauma, making
it a world leader in the treatment of
these pathologies.
The geometry of the project is in a
form of semicircle and it is designed
for its functionality. The project is
organized by separating patients into
different sectors depending on the
severity of their situation, and
alternate two different circulations,
a concentric circulation which allows
mobilization to patients from one
sector to another, and another
radial, which allows movement
within the same sector.
In the accompanying sketch you can
see the operation of the hospital and
the different types of circulation.
4 5
Toms Solano Franco, College Architect number 2450 of Official College of Architects of
Seville, as architect of the project:
HOSPITAL PROJECT OF MAJOR BURNS IN THE WILAYA OF ORAN (ALGERIA),
commissioned by the Directorate General of Public Health of the Republic of Algeria
I CERTIFICATE
That miss:
Purificacin Alarcn Ramrez, ID number 30994937-E
She has participated as a collaborator in the development ot that draft document,
being her participation quite satisfactory and important to the outcome.
And for the record for the appropiate purposes, I sign this document certificated in the
city of Seville, on January 18, 2010.
H O S P I TA L F O R B U R N PAT I E N T S A N D T R A U M AT I S M S2
3P R O J E C T S I I I
SITE & DATE:
Sanlucar de Guadiana, Huelva, Spain.
2009.
BRIEF DESCRIPTION:
Starting from the premise of respect for
the existing nature, there are two main
volumes that are adapted to the
topography, so that the geometry of
these bands defines spaces and their
relationship to the landscape. The terrain
and slope represent the articulating axis
of the project, seeking to establish a full-
empty relationship that results in
continuous spaces bounded by the
landscape and buildings.
The layout of the volumes, staggered on
the field, allow all homes to turn their
eyes to the river, reaching thus the main
rooms overlooking the shore. The
common plane on both sides relieved
acquires importance and becomes a key
point of the project. The facility with
access to the courtyard is converted into
an intermediate space between the
house and the common area, a place to
live that public space within the privacy
of the home.
6 7
Access Level(+14m), scale 1:1200
First level(+17m), scale 1:1200
Section A-A, scale 1:600
C
CC
C
House type A
Scale 1:400
House type B
Scale 1:400
H O U S E S B E S I D E T H E R I V E R G U A D I A N A
3P R O J E C T S I I I
SITE & DATE:
Sanlucar de Guadiana, Huelva, Spain.
2009.
BRIEF DESCRIPTION:
Starting from the premise of respect for
the existing nature, there are two main
volumes that are adapted to the
topography, so that the geometry of
these bands defines spaces and their
relationship to the landscape. The terrain
and slope represent the articulating axis
of the project, seeking to establish a full-
empty relationship that results in
continuous spaces bounded by the
landscape and buildings.
The layout of the volumes, staggered on
the field, allow all homes to turn their
eyes to the river, reaching thus the main
rooms overlooking the shore. The
common plane on both sides relieved
acquires importance and becomes a key
point of the project. The facility with
access to the courtyard is converted into
an intermediate space between the
house and the common area, a place to
live that public space within the privacy
of the home.
6 7
Access Level(+14m), scale 1:1200
First level(+17m), scale 1:1200
Section A-A, scale 1:600
C
CC
C
House type A
Scale 1:400
House type B
Scale 1:400
H O U S E S B E S I D E T H E R I V E R G U A D I A N A
4P U B L I C S PA C E S
PA R K S TAT I O N - G A R A G E S
CIRCLE 1: Climbing wall.
Ground / grass.
Vegetation: None.
Furniture constructed
elements: Small spots of soft
material support.
Pavement:
1
1
22
2
11 3
14
15
9
9
87
10
1312
Circle 2: Sandbox
Rubber
Vegetation: Trees medium
sized
Furniture constructed
elements: None
Pavement:
Circle 3: Pipican
Ground / Albero
Vegetation: None
Furniture constructed
elements: access ramps
Pavement:
Circle 4: Games
Pavement: Pavement hard
Vegetation: Trees medium
sized and large
Furniture constructed
elements: Tables and chairs
Circle 5: Dancing
Floating Deck
Vegetation: None
Furniture constructed
elements: None
Pavement:
CIRCLE 10: Boxing
Rubber
Vegetation: None
Furniture elements
constructed: vertical
elements as a punch
Pavement:Circle 9: Solarium
Rubber
Vegetation: Shrubs
Furniture constructed
elements: None
Pavement:
CIRCLE 11: Earrings
Lawn
Vegetation: Trees large size
Furniture constructed
elements: Slides for balls
Pavement:
CIRCLE 12: Reading
Floor: Earth and grass
Vegetation: Trees to medium
size, and large shrubs
Furniture constructed
elements: Small seats
CIRCLE 14: Slides
Floor: Albero
Vegetation: large trees
Furniture constructed
elements: Slides
CIRCLE 13: Meeting
Floor: Natural Stone
Vegetation: Trees medium
sized and large
Furniture constructed
elements: Banks
CIRCULO 15: Estmulos visuales
Pavimento: Material sintticoVegetacin: NingunaMobiliario elementosconstruidos: Palitos de coloresde 3m de altura
SITE & DATE:Seville, Spain. 2009
BRIEF DESCRIPTION:The proposal is based on the idea ofcircles that are linked, completelyseparate or tangent circles, lookingto create a route that access todifferent areas of the park. Thereby,the different uses are separated,being each of them in one or more ofthese circumferences. The toursallow cross the park in various wayswithout having to access any of theuseful areas of the site, and do notbreak into the travel in a straight linefrom the main street entrance to thestation.
Space is treated as an urban park, nota space for contemplation, but aspace to be inhabited and lived, andwhich provides certain services.
In attachments schemes can be seenthe different uses of the circles in thepark
8 9
ALIGUSTRE DE JAPN (Ligustrum japonicum)
Family: OleaceaeFlower: May-JuneFruit: September-October
ALMEZ (Celtis australis L.)
Family: UlmaceaeFlower: April-MayFruit: September-October
CASUARINA (Casuarina equisetifolia Forst.)
Family: CasuarinaceaeFlower: April-MayFruit: September-October
CATALPA (Catalpa bignonioides Walt)
Family: BignoniaceaeFlower: June-JulyFruit: October-November
JAPANESE PLUM (Prunus cerasifera)
Family: RosaceaeFlower: February-MarchFruit: June-July
COCO PLUMOSO (Syagrus romanzoffiana)
Family: AceraceaeFlower: June-AugustFruit: November-December
GREVILLEA (Grevillea robusta Cunn)
Family: ProteaceaeFlower: March-AprilFruit: August-September
JACARANDA (Jacaranda mimosaefolia)
Family: BignoniaceaeFlower: May-JulyFruit: October-November
NARANJO AMARGO (Citrus aurantium L.)
Family: RutaceaeFlower: March-MayoFruit: November to February
PINO CARRASCO (Pinus halepensis Miller)
Family: PinaceaeFlower: March to MayFruit: (2nd year) from August to September
RO B I N I A O FA L SA AC AC I A ( Ro b i n i apseudoacacia L.)
Family: LeguminosaeFlower: May-JuneFruit: July-August
SFORA (Sophora japonica L.)
Family: LeguminosaeFlower: July-AugustFruit: October-November
MAGNOLIA (Magnolia grandiflora L.)
Family: MagnoliaceaeFlower: May-JulyFruit: October-November
RBOL DEL AMOR (Cercis siliquastrum L.)
Family: LeguminosaeFlower: March-AprilFruit: September-October
4P U B L I C S PA C E S
PA R K S TAT I O N - G A R A G E S
CIRCLE 1: Climbing wall.
Ground / grass.
Vegetation: None.
Furniture constructed
elements: Small spots of soft
material support.
Pavement:
1
1
22
2
11 3
14
15
9
9
87
10
1312
Circle 2: Sandbox
Rubber
Vegetation: Trees medium
sized
Furniture constructed
elements: None
Pavement:
Circle 3: Pipican
Ground / Albero
Vegetation: None
Furniture constructed
elements: access ramps
Pavement:
Circle 4: Games
Pavement: Pavement hard
Vegetation: Trees medium
sized and large
Furniture constructed
elements: Tables and chairs
Circle 5: Dancing
Floating Deck
Vegetation: None
Furniture constructed
elements: None
Pavement:
CIRCLE 10: Boxing
Rubber
Vegetation: None
Furniture elements
constructed: vertical
elements as a punch
Pavement:Circle 9: Solarium
Rubber
Vegetation: Shrubs
Furniture constructed
elements: None
Pavement:
CIRCLE 11: Earrings
Lawn
Vegetation: Trees large size
Furniture constructed
elements: Slides for balls
Pavement:
CIRCLE 12: Reading
Floor: Earth and grass
Vegetation: Trees to medium
size, and large shrubs
Furniture constructed
elements: Small seats
CIRCLE 14: Slides
Floor: Albero
Vegetation: large trees
Furniture constructed
elements: Slides
CIRCLE 13: Meeting
Floor: Natural Stone
Vegetation: Trees medium
sized and large
Furniture constructed
elements: Banks
CIRCULO 15: Estmulos visuales
Pavimento: Material sintticoVegetacin: NingunaMobiliario elementosconstruidos: Palitos de coloresde 3m de altura
SITE & DATE:Seville, Spain. 2009
BRIEF DESCRIPTION:The proposal is based on the idea ofcircles that are linked, completelyseparate or tangent circles, lookingto create a route that access todifferent areas of the park. Thereby,the different uses are separated,being each of them in one or more ofthese circumferences. The toursallow cross the park in various wayswithout having to access any of theuseful areas of the site, and do notbreak into the travel in a straight linefrom the main street entrance to thestation.
Space is treated as an urban park, nota space for contemplation, but aspace to be inhabited and lived, andwhich provides certain services.
In attachments schemes can be seenthe different uses of the circles in thepark
8 9
ALIGUSTRE DE JAPN (Ligustrum japonicum)
Family: OleaceaeFlower: May-JuneFruit: September-October
ALMEZ (Celtis australis L.)
Family: UlmaceaeFlower: April-MayFruit: September-October
CASUARINA (Casuarina equisetifolia Forst.)
Family: CasuarinaceaeFlower: April-MayFruit: September-October
CATALPA (Catalpa bignonioides Walt)
Family: BignoniaceaeFlower: June-JulyFruit: October-November
JAPANESE PLUM (Prunus cerasifera)
Family: RosaceaeFlower: February-MarchFruit: June-July
COCO PLUMOSO (Syagrus romanzoffiana)
Family: AceraceaeFlower: June-AugustFruit: November-December
GREVILLEA (Grevillea robusta Cunn)
Family: ProteaceaeFlower: March-AprilFruit: August-September
JACARANDA (Jacaranda mimosaefolia)
Family: BignoniaceaeFlower: May-JulyFruit: October-November
NARANJO AMARGO (Citrus aurantium L.)
Family: RutaceaeFlower: March-MayoFruit: November to February
PINO CARRASCO (Pinus halepensis Miller)
Family: PinaceaeFlower: March to MayFruit: (2nd year) from August to September
RO B I N I A O FA L SA AC AC I A ( Ro b i n i apseudoacacia L.)
Family: LeguminosaeFlower: May-JuneFruit: July-August
SFORA (Sophora japonica L.)
Family: LeguminosaeFlower: July-AugustFruit: October-November
MAGNOLIA (Magnolia grandiflora L.)
Family: MagnoliaceaeFlower: May-JulyFruit: October-November
RBOL DEL AMOR (Cercis siliquastrum L.)
Family: LeguminosaeFlower: March-AprilFruit: September-October
5P R O J E C T S I I I
Quadruple room 1
Quadruple Room 2
Double room
Double room disabled
Scale 1:250
1. Square of access.
2. Coffee shop.
3. Bathrooms.
4. Entrance hall.
5. Information.
6. Offices.
7. Meeting Room.
8. Rest Zone.
9. Dining room.
10. Kitchen.
11. Computer room.
12. TV room.
13. Quadruple room.
14. Double room.
15. Auditorium.
1 0 1 1
SITE & DATE:
Seville, Spain. 2010
BRIEF DESCRIPTION:
The project is developed along a
band that breaks originating two
courtyards, one more public, like a
square, and another private, that is
created for leisure and to promote
relationships between residents.
Between these two gaps, which are
apparently independent, there is a
permeability that allows visual
connection from the gardens to the
square, allowing public areas open to
both spaces. The slats
play an important role in that
permeability.
The program adapts around two
courtyards, which illuminate the
areas of stay and communication,
while private areas are directed
outwards.
that surround
the entire building, and whose
separation varies depending on uses,
12
3
4
56
7
66
6
8
9
10 11
3
3
15
13
14 14 14 141414141414
13
1313
13
Ground floor
Scale 1:500
Third floor
Scale 1:500
Section A-A
Scale 1:500
8
8
A A
158
8
A A
S T U D E N T R E S I D E N C E
5P R O J E C T S I I I
Quadruple room 1
Quadruple Room 2
Double room
Double room disabled
Scale 1:250
1. Square of access.
2. Coffee shop.
3. Bathrooms.
4. Entrance hall.
5. Information.
6. Offices.
7. Meeting Room.
8. Rest Zone.
9. Dining room.
10. Kitchen.
11. Computer room.
12. TV room.
13. Quadruple room.
14. Double room.
15. Auditorium.
1 0 1 1
SITE & DATE:
Seville, Spain. 2010
BRIEF DESCRIPTION:
The project is developed along a
band that breaks originating two
courtyards, one more public, like a
square, and another private, that is
created for leisure and to promote
relationships between residents.
Between these two gaps, which are
apparently independent, there is a
permeability that allows visual
connection from the gardens to the
square, allowing public areas open to
both spaces. The slats
play an important role in that
permeability.
The program adapts around two
courtyards, which illuminate the
areas of stay and communication,
while private areas are directed
outwards.
that surround
the entire building, and whose
separation varies depending on uses,
12
3
4
56
7
66
6
8
9
10 11
3
3
15
13
14 14 14 141414141414
13
1313
13
Ground floor
Scale 1:500
Third floor
Scale 1:500
Section A-A
Scale 1:500
8
8
A A
158
8
A A
S T U D E N T R E S I D E N C E
6R E S T O R AT I O N
SITE & DATE:
Soriano nel Cimino, Viterbo, Italy. 2011
churchs
BRIEF DESCRIPTION:
There are two kinds of restoration of the
church, one shallow, in which are restored
visual aspects, and a second one about
structural aspects, that is required because of
sinking of the foundations.
For the restoration are taken different samples
and they are analyzed in the laboratory:
O1: It was taken from the bottom of building
sacristy. It is a sample of gypsum and lime
mortar, comes with a uniform ocher tint.
Mortar is fiabile
O2: It was taken from the closed window on
the ground floor. It has several layers of
gypsum, and a piece of masonry was
removed because of the humidity.
O3: It was taken under the cornice
intermediate. The plaster has a blue
color and it is on a layer of mortar.
O4: It was taken between two windows. The
white plaster presented is resting on a
layer of mortar of lime.
O5: It was taken close to the outer frame of
the window side. It was noted a various
colors superposition
1 2 1 3
R E S T O R AT I O N O F C H U R C H S A N TA M A R I A D E L P I A N O
6R E S T O R AT I O N
SITE & DATE:
Soriano nel Cimino, Viterbo, Italy. 2011
churchs
BRIEF DESCRIPTION:
There are two kinds of restoration of the
church, one shallow, in which are restored
visual aspects, and a second one about
structural aspects, that is required because of
sinking of the foundations.
For the restoration are taken different samples
and they are analyzed in the laboratory:
O1: It was taken from the bottom of building
sacristy. It is a sample of gypsum and lime
mortar, comes with a uniform ocher tint.
Mortar is fiabile
O2: It was taken from the closed window on
the ground floor. It has several layers of
gypsum, and a piece of masonry was
removed because of the humidity.
O3: It was taken under the cornice
intermediate. The plaster has a blue
color and it is on a layer of mortar.
O4: It was taken between two windows. The
white plaster presented is resting on a
layer of mortar of lime.
O5: It was taken close to the outer frame of
the window side. It was noted a various
colors superposition
1 2 1 3
R E S T O R AT I O N O F C H U R C H S A N TA M A R I A D E L P I A N O
SITE & DATE:
Rome, Italy. 2011
BRIEF DESCRIPTION:
The original idea was to break with the
strong horizontality of the area and to
play with the concept of "fold". At the
same time, the bands which divide the
project separate different uses and
delimit the routes in the museum.
The slopes that are generated on the
cover allow adapt different spaces to
different heights depending on the
needs, and even generate two plants
when the project requires it.
In order to establish a permeable
relationship with the environment, but
also to use the shell to expose the works
of art, folds are proposed as building light
input, combining artificial lighting with
natural light.
In this way, the spaces for temporary
with other for
permanent exhibitions, and exhibition
spaces inside with other outdoor
exposure.
exhibitions are alternated
7P R O J E C T S V
1 4 1 5
M U S E U M O F C O M T E M P O R A R Y A R T
1. Entrance hall.
2. Information-Sale.
3. Bathrooms.
4. Coffee shop.
5. Auditorium.
6. Store.
7. Workshop.
8. Permanent exhibition.
9. Temporary exhibitions.
10. Meeting Room.
11. Office
Ground floor
Scale 1:700
First floor
Scale 1:700
Seccin C-C
Escala 1:400
Section A-A
Scale 1:700
Section B-B
Scale 1:700
A
B
A
B
C
C
A
B
A
B
C
C
1
3
25
4 3
67
8
8
8
8
1
10
9 9 9
11 11
SITE & DATE:
Rome, Italy. 2011
BRIEF DESCRIPTION:
The original idea was to break with the
strong horizontality of the area and to
play with the concept of "fold". At the
same time, the bands which divide the
project separate different uses and
delimit the routes in the museum.
The slopes that are generated on the
cover allow adapt different spaces to
different heights depending on the
needs, and even generate two plants
when the project requires it.
In order to establish a permeable
relationship with the environment, but
also to use the shell to expose the works
of art, folds are proposed as building light
input, combining artificial lighting with
natural light.
In this way, the spaces for temporary
with other for
permanent exhibitions, and exhibition
spaces inside with other outdoor
exposure.
exhibitions are alternated
7P R O J E C T S V
1 4 1 5
M U S E U M O F C O M T E M P O R A R Y A R T
1. Entrance hall.
2. Information-Sale.
3. Bathrooms.
4. Coffee shop.
5. Auditorium.
6. Store.
7. Workshop.
8. Permanent exhibition.
9. Temporary exhibitions.
10. Meeting Room.
11. Office
Ground floor
Scale 1:700
First floor
Scale 1:700
Seccin C-C
Escala 1:400
Section A-A
Scale 1:700
Section B-B
Scale 1:700
A
B
A
B
C
C
A
B
A
B
C
C
1
3
25
4 3
67
8
8
8
8
1
10
9 9 9
11 11
1 2
3
5
6
7
Bird Recovery Centre
Centre for Endangered Species Recovery
Camping Area
Provincial Cooperation Center
Sports Infrastructure
Golf
Recreation Area
COP
CREA
COP
CREA
CO-3408
Local Road
Camping Area Boundary
Boundary Recreation Area
Botanical Path
m
P P L Veriurban ark os illares
Visitor Center
Car Park
Signaled Path
Restaurant
Viewpoint
1 6 1 7
SITE & DATE:
Los Villares, Crdoba, Spain. 2012
BRIEF DESCRIPTION:
The main idea is to develop a project to
intervene not only this area, but to
develop a modular system, which
according to the needs, to allow
expanding to other parts of the Sierra de
Crdoba.
Some of the fundamental premises for
the project are the minimum impact on
the environment, adapting to the terrain
and vegetation and the use of existing
infrastructure.
Based on the idea of disintegrating, the
proposal is structured through a main
part, which includes the functions of
nature classroom, and a number of sub-
modules to be handing over the terrain
and vegetation adapted to the slope.
Both the main building and the modules
are off the ground, leaving the ground
floor elevation stay applications
requiring less intimacy, allowing more
direct contact with nature.
8D I S S E R TAT I O N
H O S T E L A N D C L A S S R O O M O F N AT U R E
4
Section A-AS_1:1500
Landscape Quality Grade
High quality
Medium quality
Low quality
Periurban Park
Los Villares
Location plan1. Visitor Center (preexisting)
2. Area bird recovery (preexisting)
3. Bar (preexisting)
4. Nature Classroom
5. Module bedroom
6. Module disabled bedroom
7. Module shade and rest
8. Module viewpoint
S_1:2500
1 2
3
5
6
7
Bird Recovery Centre
Centre for Endangered Species Recovery
Camping Area
Provincial Cooperation Center
Sports Infrastructure
Golf
Recreation Area
COP
CREA
COP
CREA
CO-3408
Local Road
Camping Area Boundary
Boundary Recreation Area
Botanical Path
m
P P L Veriurban ark os illares
Visitor Center
Car Park
Signaled Path
Restaurant
Viewpoint
1 6 1 7
SITE & DATE:
Los Villares, Crdoba, Spain. 2012
BRIEF DESCRIPTION:
The main idea is to develop a project to
intervene not only this area, but to
develop a modular system, which
according to the needs, to allow
expanding to other parts of the Sierra de
Crdoba.
Some of the fundamental premises for
the project are the minimum impact on
the environment, adapting to the terrain
and vegetation and the use of existing
infrastructure.
Based on the idea of disintegrating, the
proposal is structured through a main
part, which includes the functions of
nature classroom, and a number of sub-
modules to be handing over the terrain
and vegetation adapted to the slope.
Both the main building and the modules
are off the ground, leaving the ground
floor elevation stay applications
requiring less intimacy, allowing more
direct contact with nature.
8D I S S E R TAT I O N
H O S T E L A N D C L A S S R O O M O F N AT U R E
4
Section A-AS_1:1500
Landscape Quality Grade
High quality
Medium quality
Low quality
Periurban Park
Los Villares
Location plan1. Visitor Center (preexisting)
2. Area bird recovery (preexisting)
3. Bar (preexisting)
4. Nature Classroom
5. Module bedroom
6. Module disabled bedroom
7. Module shade and rest
8. Module viewpoint
S_1:2500
8SITE & DATE:
Los Villares, Crdoba, Spain. 2012
BRIEF DESCRIPTION:
The main building is at the same level
of the natural ground arrival to the
area of the former camp, and their
volumes are rotated to adapt to the
contour lines, to clear the way of
coming to that open areas of
residence ground floor.
The ground floor has a diaphanous
character, there is a continuity with
outer space. The dining room area
and the living room appear as two
large glass cases in the ground floor
and marked contrast with the
structure of the top boxes, where the
classrooms.
The external appearance of the
modules and the bottom of the main
building are of corten steel for
greater integrat ion into the
environment, and contrast with the
volumes of the main building made
of GRC plate.
Ground Floor Level +0,00m
S_1:500
First Floor Level +4,60m
S_1:500
South Prospect
S_1:500
Section A-A
S_1:500
Section B-B
S_1:500
Section D-D
S_1:500
Section C-C
S_1:500
1
5
5
5
3
2
5
8
4
5
5
5
6
7
16
14
14
15
1111
11
16
16
13
9
8
12
7
Ground Floor
1. Access zone
2. Dining room
3. kitchen
4. Area to rest
5. Store / Installations
6. Laundry
7. Auditorium
8. Toilets
First Floor:
7. Auditorium
8. Toilets
9. Reception
10. Information
11. Office
12. Computer room
13. Laboratory
14. Classrooms theoretical
15. Meeting Room
16. Balcony
1011
1 8 1 9
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
8SITE & DATE:
Los Villares, Crdoba, Spain. 2012
BRIEF DESCRIPTION:
The main building is at the same level
of the natural ground arrival to the
area of the former camp, and their
volumes are rotated to adapt to the
contour lines, to clear the way of
coming to that open areas of
residence ground floor.
The ground floor has a diaphanous
character, there is a continuity with
outer space. The dining room area
and the living room appear as two
large glass cases in the ground floor
and marked contrast with the
structure of the top boxes, where the
classrooms.
The external appearance of the
modules and the bottom of the main
building are of corten steel for
greater integrat ion into the
environment, and contrast with the
volumes of the main building made
of GRC plate.
Ground Floor Level +0,00m
S_1:500
First Floor Level +4,60m
S_1:500
South Prospect
S_1:500
Section A-A
S_1:500
Section B-B
S_1:500
Section D-D
S_1:500
Section C-C
S_1:500
1
5
5
5
3
2
5
8
4
5
5
5
6
7
16
14
14
15
1111
11
16
16
13
9
8
12
7
Ground Floor
1. Access zone
2. Dining room
3. kitchen
4. Area to rest
5. Store / Installations
6. Laundry
7. Auditorium
8. Toilets
First Floor:
7. Auditorium
8. Toilets
9. Reception
10. Information
11. Office
12. Computer room
13. Laboratory
14. Classrooms theoretical
15. Meeting Room
16. Balcony
1011
1 8 1 9
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
SITE & DATE:
Los Villares, Crdoba, Spain. 2012
BRIEF DESCRIPTION:
T h e r e l a t i o n s h i p w i t h t h e
environment, flexible spaces and
e c o l o g i c a l a s p e c t s a r e t h e
fundamental premises of this
p r o j e c t . T h e i d e a o f t h e
prefabricated modules is conducted
with the intention to extend this
intervention to other parts of the
Sierra de Crdoba according to
emerging needs.
The module is organized around a
structure "wardrobe" that includes
the different uses. The prefabricated
module that moves as one piece,
leans on the wall that extends above
the pitch wearing the premises and
exterior lighting on two profiles HEB
and the "structure wardrobe." In this
way the ground floor, which is
situated stay space is separated from
the surroundings only by glass, being
in direct connection with the
outside.
Section A-AS_1:200
Section B-BS_1:200
First FloorS_1:200
Ground floorS_1:200
Ground floorS_1:200
Ground floorS_1:200
First floorS_1:200
Ground floorS_1:200
Section C-CS_1:200
Section D-DS_1:200
Section E-ES_1:200
2 0 2 1
First FloorS_1:200
First floorS_1:200
Ground floorS_1:200
MODULE 1: BEDROOM - STAY ZONE
MODULE 2: BEDROOM DISABLED MODULE 3: VIEWPOINT MODULE 4: SHADE AND REST
Table of surfaces:
Module 1.
Area.Ground floor: 13,88 mFirst floor: 12.20m
Module 2
Area.Ground floor: 13,30 mFirst floor: 12.20 m
Module 3.
Area.Ground floor: 17.25 mFirst floor: 15.41m
Module4
Area.Ground floor: 21.83 m
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
SITE & DATE:
Los Villares, Crdoba, Spain. 2012
BRIEF DESCRIPTION:
T h e r e l a t i o n s h i p w i t h t h e
environment, flexible spaces and
e c o l o g i c a l a s p e c t s a r e t h e
fundamental premises of this
p r o j e c t . T h e i d e a o f t h e
prefabricated modules is conducted
with the intention to extend this
intervention to other parts of the
Sierra de Crdoba according to
emerging needs.
The module is organized around a
structure "wardrobe" that includes
the different uses. The prefabricated
module that moves as one piece,
leans on the wall that extends above
the pitch wearing the premises and
exterior lighting on two profiles HEB
and the "structure wardrobe." In this
way the ground floor, which is
situated stay space is separated from
the surroundings only by glass, being
in direct connection with the
outside.
Section A-AS_1:200
Section B-BS_1:200
First FloorS_1:200
Ground floorS_1:200
Ground floorS_1:200
Ground floorS_1:200
First floorS_1:200
Ground floorS_1:200
Section C-CS_1:200
Section D-DS_1:200
Section E-ES_1:200
2 0 2 1
First FloorS_1:200
First floorS_1:200
Ground floorS_1:200
MODULE 1: BEDROOM - STAY ZONE
MODULE 2: BEDROOM DISABLED MODULE 3: VIEWPOINT MODULE 4: SHADE AND REST
Table of surfaces:
Module 1.
Area.Ground floor: 13,88 mFirst floor: 12.20m
Module 2
Area.Ground floor: 13,30 mFirst floor: 12.20 m
Module 3.
Area.Ground floor: 17.25 mFirst floor: 15.41m
Module4
Area.Ground floor: 21.83 m
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
2 2 2 3
Detail A Detail B Detail C Detail D
Detail A Detail B
Detail C
Detail D
STRUCTURE
1. Warren lattice beams, HEB section, bolted joints. See structural plan.
2. Vertical girder in principal latticework, HEB section, see structural plan.
3. Beam support, HEB profile. See structural plan.
4. High-strength hinge joint between vertical girder and beam with angle reinforcement.
5. High-strength hinge joint between upper truss chord, vertical girder and end diagonal of
truss with angle reinforcement.
6. High-strength truss joints using highly wear-resistant metal plates and bolts.
FOUNDATION
7. Spread footing foundation below-load bearing foundation wall as shown in foundation plan.
8. Waterproofing. Rubberized asphalt membrane.
9. Perforated plastic pipe = 10cm with 8mm perforations on outer side.
10. 10cm sand bed
11. Organic clean gravel backfill, =20-40mm.
12. Drainage layer.
13. Geotextile layer of 150 g/m2
14. 2cm extruded polystyrene foam to prevent shrinkage of cement concrete paving.
15. Concrete slab. See foundation plan.
16. Strap footing. See foundation plan.
17. 10cm lean concrete.
18. 20cm improved and compacted ground.
19. 25cm natural soil fill.
COMPOSITE SLAB FLOORING
20. 130mm concrete slab, HA-25, electro welded wire mesh, 16, with extra bracing for
reinforcement at supports.
21. Corrugated floor decking plate, EUROCOL 60, rib height of 75mm and centre-to-centre
distance of 205mm.
22. 140mm concrete slab, HA-25, electro welded wire mesh, 16, with extra bracing for
reinforcement at supports.
23. Corrugated floor decking plate, EUROCOL 60, rib height of 100mm and centre-to-centre
distance of 205mm.
24. Decking plate edge fold for formwork support and 2cm extruded polystyrene foam.
EXTERNAL WALLS
25. 100mm GRC (Glassfibre Reinforced Concrete) ready-made wall panels with 80mm
expanded polystyrene on interior.
26. Metal framework formed of uprights and crossbars.
27. HALFEN-type rail.
28. Angular connection plate.
29. Folded sheet metal.
30. 7cm plasterboard wall cladding with mineral fibre reinforced cavities.
31. Galvanized steel plate to prevent leaks.
32. Corten steel slats, thickness of 2cm.
33. Anchorage of steel slats through folding and resin fixing.
34. Exterior glass wall of 8+6+8 mm non-reflective laminated security glass with grey anodized
aluminium profile and frame with dimensions of 45x80x2mm, TECHNAL&GK.
35. Rectangular hollow section 160x80x2mm.
36. Frame of double-leaf sliding door in white painted aluminium with thermal bridge breaking.
37. Double glazing, thicknesses of 4-6-6 mm, separated by dehydrated air chambers.
38. Sandwich panel, INTES, with polyurethane insulating core, Corten steel finish on outside
surface.
39. Auxiliary steel structure for fixing sandwich panels.
INTERIOR PARTITIONS
40. Double hollow brick wall, brick dimensions 24 x 7 x 11.5cm
41. 4 cm thick plasterboard wall cladding.
HORIZONTAL SURFACE COATINGON INTERIOR
42. Conglomerate core vinyl floor tiling, R-Bn type, 60 x 60 x 3 cm
43. 5 cm of mortar + sand layer
44. Leveling fluid mortar
45. Demountable suspended ceiling, 60 x 60 cm gypsum board panels, plastic finish.
46. Galvanized support rods and lacquered aluminium tee sections.
47. Recessed down light for suspended ceilings.
HORIZONTAL SURFACE COATING ON EXTERIOR
48. Paving - cement mix smoothened finish, bitumen priming on silica sand to prevent leakage.
49. LM-C-150 integrated aluminium ceiling in straps, width of 150 mm.
50. Hidden profiles of 0.6 mm-thick galvanized steel. Height of 30 mm.
ROOF COVERING
51. Non-trafficable floating roof made of reinforced concrete tiles, thickness of 3 cm.
52. Threaded steel joists, base fixed, height adjustable.
53. 2 cm cement base
54. 5 cm thick extruded polystyrene insulating panel.
55. 1 cm protective coat of mortar + asphalt sheet waterproofing membrane.
56. Self-adhesive waterproof sheeting.
57. 1cm M4 self-leveling mortar
58. Bed of aerated mortar to form slope, average thickness of 12 cm.
59. Double hollow brick rimming, brick dimensions 24 x 7 x 11.5cm.
60. 3 cm thick concrete copestone with drip edge.
61. Siphonic roof drainage; comprising of sump, protruding strainer and drain trap.
62. Galvanized sheet steel to prevent leakage.
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
2 2 2 3
Detail A Detail B Detail C Detail D
Detail A Detail B
Detail C
Detail D
STRUCTURE
1. Warren lattice beams, HEB section, bolted joints. See structural plan.
2. Vertical girder in principal latticework, HEB section, see structural plan.
3. Beam support, HEB profile. See structural plan.
4. High-strength hinge joint between vertical girder and beam with angle reinforcement.
5. High-strength hinge joint between upper truss chord, vertical girder and end diagonal of
truss with angle reinforcement.
6. High-strength truss joints using highly wear-resistant metal plates and bolts.
FOUNDATION
7. Spread footing foundation below-load bearing foundation wall as shown in foundation plan.
8. Waterproofing. Rubberized asphalt membrane.
9. Perforated plastic pipe = 10cm with 8mm perforations on outer side.
10. 10cm sand bed
11. Organic clean gravel backfill, =20-40mm.
12. Drainage layer.
13. Geotextile layer of 150 g/m2
14. 2cm extruded polystyrene foam to prevent shrinkage of cement concrete paving.
15. Concrete slab. See foundation plan.
16. Strap footing. See foundation plan.
17. 10cm lean concrete.
18. 20cm improved and compacted ground.
19. 25cm natural soil fill.
COMPOSITE SLAB FLOORING
20. 130mm concrete slab, HA-25, electro welded wire mesh, 16, with extra bracing for
reinforcement at supports.
21. Corrugated floor decking plate, EUROCOL 60, rib height of 75mm and centre-to-centre
distance of 205mm.
22. 140mm concrete slab, HA-25, electro welded wire mesh, 16, with extra bracing for
reinforcement at supports.
23. Corrugated floor decking plate, EUROCOL 60, rib height of 100mm and centre-to-centre
distance of 205mm.
24. Decking plate edge fold for formwork support and 2cm extruded polystyrene foam.
EXTERNAL WALLS
25. 100mm GRC (Glassfibre Reinforced Concrete) ready-made wall panels with 80mm
expanded polystyrene on interior.
26. Metal framework formed of uprights and crossbars.
27. HALFEN-type rail.
28. Angular connection plate.
29. Folded sheet metal.
30. 7cm plasterboard wall cladding with mineral fibre reinforced cavities.
31. Galvanized steel plate to prevent leaks.
32. Corten steel slats, thickness of 2cm.
33. Anchorage of steel slats through folding and resin fixing.
34. Exterior glass wall of 8+6+8 mm non-reflective laminated security glass with grey anodized
aluminium profile and frame with dimensions of 45x80x2mm, TECHNAL&GK.
35. Rectangular hollow section 160x80x2mm.
36. Frame of double-leaf sliding door in white painted aluminium with thermal bridge breaking.
37. Double glazing, thicknesses of 4-6-6 mm, separated by dehydrated air chambers.
38. Sandwich panel, INTES, with polyurethane insulating core, Corten steel finish on outside
surface.
39. Auxiliary steel structure for fixing sandwich panels.
INTERIOR PARTITIONS
40. Double hollow brick wall, brick dimensions 24 x 7 x 11.5cm
41. 4 cm thick plasterboard wall cladding.
HORIZONTAL SURFACE COATINGON INTERIOR
42. Conglomerate core vinyl floor tiling, R-Bn type, 60 x 60 x 3 cm
43. 5 cm of mortar + sand layer
44. Leveling fluid mortar
45. Demountable suspended ceiling, 60 x 60 cm gypsum board panels, plastic finish.
46. Galvanized support rods and lacquered aluminium tee sections.
47. Recessed down light for suspended ceilings.
HORIZONTAL SURFACE COATING ON EXTERIOR
48. Paving - cement mix smoothened finish, bitumen priming on silica sand to prevent leakage.
49. LM-C-150 integrated aluminium ceiling in straps, width of 150 mm.
50. Hidden profiles of 0.6 mm-thick galvanized steel. Height of 30 mm.
ROOF COVERING
51. Non-trafficable floating roof made of reinforced concrete tiles, thickness of 3 cm.
52. Threaded steel joists, base fixed, height adjustable.
53. 2 cm cement base
54. 5 cm thick extruded polystyrene insulating panel.
55. 1 cm protective coat of mortar + asphalt sheet waterproofing membrane.
56. Self-adhesive waterproof sheeting.
57. 1cm M4 self-leveling mortar
58. Bed of aerated mortar to form slope, average thickness of 12 cm.
59. Double hollow brick rimming, brick dimensions 24 x 7 x 11.5cm.
60. 3 cm thick concrete copestone with drip edge.
61. Siphonic roof drainage; comprising of sump, protruding strainer and drain trap.
62. Galvanized sheet steel to prevent leakage.
PLANTA DE CIMENTACIN
PLANTA PRIMERA, +4,8M
PRTICO DE CARGA 1 PRTICO DE CARGA 4
PRTICO DE CARGA 2 PRTICO DE CARGA 5 PRTICO DE CARGA 7
PRTICO DE CARGA 6
2 4 2 5
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
PLANTA DE CIMENTACIN
PLANTA PRIMERA, +4,8M
PRTICO DE CARGA 1 PRTICO DE CARGA 4
PRTICO DE CARGA 2 PRTICO DE CARGA 5 PRTICO DE CARGA 7
PRTICO DE CARGA 6
2 4 2 5
D I S S E R TAT I O NH O S T E L A N D C L A S S R O O M O F N AT U R E
2 0 1 2P O R T F O L I O
T H A N K Y O U
Purificacin Alarcn Ramrez