RODRIGUEZ_MOLINA_NURIA_PORTFOLIO

P O R T F O L I O

H A R D W O R K !

L E A R N I N G F

P M R R T P G J J

P O R T F O L I O

B T R O S R E C Y

X I U T F T A R K

L V H E F F R R T

D A O I J O N O T

F U L F I L L T F

W O R K H I A I T

F O P O W O R K O

H A P I N E S S S

N U R I A R O D R I G U E Z M O L I N A

PRODUCED BY AN AUTODESK STUDENT VERSION

Languages



Spanish

| Native

Catalan

| Certificat de nivell superior (C2)

English | TOEFL (112/120)

C2

112/120

NÚRIA RODRÍGUEZ MOLINA


About me

My name is Núria Rodríguez Molina and I’m a student in the “Architecture School of

Barcelona”. I believe hard work and motivation are the key to success. We can always

learn more and be better at what we do. I stand by the fact that we should never stop

learning. I am excited to take in as much as I can from my experiences and to become

better at what I love.

·

contact:

email: arqnuria@gmail.com

mobile: 610173721

adress: c/muntanya 18 house 10.

08960 St Just Desvern, Barcelona

English

French

| Advanced Certificate (C1)

| DELF (B2)

2001-2014 Thau BCN School (With Honors Diploma)

2014-2016 ICCIC (With Honors Diploma)

2016-2020 UPC - ETSAB (Technical School of Architecture of

Barcelona)

B2

C1

Education

Skills

Autocad

V-Ray

Sketch up

Photoshop

Enscape (for Sketch up & Rhino)

Grasshopper for Rhino

advanced

advanced

advanced

advanced

advanced

Medium

Vibe Cast

Winning project of the Light Festival of Barcelona

(University category)

·

Projects

Rhino

Revit

Medium

Medium

Coliving in Ciutat Vella | MH

·

Coliving in Poble Nou

Experience

·

Collaboration with

Levels

Paul Draijer architects for “Dental Esthetic BCN” clinic in Sarrià

·

Manciñeiras/Parés, arquitectes associats S.L.P

Coworking in Colònia Güell

Llum Bcn Festival - First Price

Particular teacher

Contest:

Work:

·

Interstici

·

Preserve | MH

Rithmich gymnastics coach at Thau Barcelona School

1st PRIZE: LLUM BCN VIBE CAST

Vibe Cast, the installation of the ETSAB UPC, has won the First

Prize at the Llum BCN 2020 festival, which it shares with the

proposal ‘Phosphens’, of the BAU University Design Center.

Vibe Cast invites the visitors of Llum BCN 2020 to interact with

this vertical installation, of the ETSABUPC, that through a game

of reflections, transforms the presence of the attendees into

vibrant shadows over the public space.

Professors:

Carles Sala i Relja Ferusic, Professors de l’ETSAB

LLUM BCN VIBE CAST

Students:

Sara Camargo González, Marta Elena Constansó de Planell, Jorge De Jorge Jordan, Guillem

Fernández Otalora, Albert Ferraz Xufré, Helena Gallego Sanz, Miquel Giménez Pérez,

Cristina Mayench Palau, Judit Morreres Perez, Eric Moya Soler, Núria Rodriguez Molina,

Xuan Yin Liu, Miquel Pérez Coronas, Maroua Ben Kiran.


From the object - the scale -, the intervention

witnesses the dialogue between the subject -

An emergency staircase serves as a scaffold for the installation

of a reflective - and at the same time, refracting

- membrane that vibrates with the air and moves the

light on the street asphalt, in different directions through

a small set of small tiles to dazzle participants and project

their shadows in temporary micro-intervals, at the Pallars


90º

the visitor - and the public space through the


absence of light - the shadow -. The membrane,

acting as a mediator, through its specular patterning,

shifts light from the vertical plane to

speak of space, time and citizenship in a shadow

language over the horizontal plane. This

phenomenon becomes an individual discovery

but also a collective experience, giving rise to a

- Pere IV junction of Poblenou, Bercelona.

28º

49º

44º 50º

vibrant atmosphere.


COLIVING IN CIUTAT VELLA

This project consists of a coliving building, a field that has bearly been explored til

these days. We belive that not all users have the same needs and priorities. Taking

this into consideration we designied a space that adapts to each of them according

to their necesites. The uses of the buildings will vary over time and that is why we

propose a flexible building.

in collaboration with Irene Preciado Roca

COLIVING IN CIUTAT VELLA

tutor: Pau Bajet Giramé

MH

planta tipus

planta coberta

1:200

Núria Rodríguez | Irene Preciado

T H E L O C A T I O N

The building is located in Ciutat Vella. The name refers to the oldest neighborhoods

in the city of Barcelona, nestled between the Mediterranean

sea and l’Eixample. The building works as a swivel between different

urban tissues of the city. Our goal is to articulate the various tissues while

respecting the pre-existing elements like the rear park.

D I F F E R E N T N E E D S = D I F F E R E N T S T R U C TU R E S

The structure is designed to satisfy the needs of the building.

The outer ring has a structure of pillars that forms a grid (6x6) which helps with the organization

of the rooms. Since they are smaller spaces, the structural span does not have to be large.

On the other hand, the central room has concrete nucleis as structural elements. These generate

a large-span space that is able to house a great number of people at the same time. The

nuclei will be used at the same time as communication elements between floors.

T H E S T R U C T U R E

The structure plays a significant role not only in

the physical aspect, but also in the gloval organization

of the space. We see how the pillars form an

outer ring which arranges the organization of the

rooms. In the central space the structure becomes

the communication centers and the bathrooms.

alçats

T H E R O O M

The room is arranged by a closet placed

between pillars. It contains the kitchen

and part of the bathroom and divides

the space into two, the common area

and the private area.

T H E F A C A D E

T H E E N V I R O N M E N T

COLIVING IN POBLE NOU

This project consists of three buildings containing coliving apartments. The uses of the

buildings will vary over time and that is why we propose a flexible building. Through

different groupings of a main module we respond to different situations and offer various

results.

When we talk about coliving, we attach importance to the relationship and the proportion

between shared space and private space. The apartments will share a kitchen and

a living room.

in collaboration with Irene Preciado Roca

tutor: Carles Enrich


The project is located in Poble Nou, in the city of barcelona, an area that is constantly

undergoing transformation, where the traces of the railway infrastructure that cross the city of

Barcelona are still very present.

The project incorporates a reflection on the idea of a limit, from the large scale to the

smallest. In the same way that the passage of the train generates a gap in the island, we have

chosen to generate anorther one in our terrain, providing a new outer space that improves

the characteristics of the house, providing light and ventilation.

C O L O V I N G


pati

espai +

dormitori

lavabo

dormitori

C O L O V I N G

espai +

When we talk about coliving, we attach importance

to the relationship and the proportion between

shared space and private space. The apartments will

share a kitchen and a living room. The main module

can be grouped so that the number of users varies

Mòduls

1:100

from 2 to 8, depending on the number of modules

that define them.

Illa II · Planta tipus

1:100


Illa III · Planta tipus

1:100

Illa I · Planta tipus

1:100



Illa II · Planta tipus

1:100

T H E F L O O R O R G A N I Z A T I O N


The dwellings are located on the perimeter of the building, while in the interior we

find the common life, the spaces reinforce the interaction between the buildings users.

They enjoy a double space that allows more solar capture and represents an opportunity

to be able to place, if desired, several other modules, which are part of the

house or the common space.

Alçat Illa I

1:80


S P A C E +

Secció transversal tipus

1:100

The “+ space” all homes enjoy, offers light,

ventilation and a multipurpose space.


Secció transversal tipus

1:100


In summer we open the windows and close

the outer slats. In winter we close the windows

and allow the light to flood the house.

T H E F A C E D

The façade responds to the needs of the interior where each part

of the house has a different type of window. As this is a recurring

pattern, we have two distinct parts to the façade.

The most opaque part is a drained façade with an air chamber,

where the inner sheet has a sandwich structure made up of wooden

panels, thermal insulation and a thin layer of cement. The outer

blade is made of vertical corrugated sheet metal.

The houses have a gallery space which can be used in different ways

and acts as an important thermal component, being a source of heat

in the winter and letting the air in during summer. If the house has

more than one bedroom, this space appears in other side of the

façade.

This part of the façade has large glass windows with aluminum carpentry,

fixed at the bottom and sliding at the top, to allow great ventilation

in summer.

FI_11

FI_5

FI_1 FI_3 FI_1 FI_4 FI_2

FI_4

I_1


I_1

FI_1

FI_3

FI_1

FI_4

FI_2

FI_4

FI_5

FI_11

D1

FI_10

FI_9

FE_4

FI_12

FE_5

FE_1

FE_3

E_2

FE_2

FI_7

FE_2

E_1

FE_6

FE_7

FE_8

FE_10

nominal de 0,6 mm para los elementos verticales y un valor nominal de 0,55 mm para los

elementos horizontales. 100 mm de anchura y 2500 mm de largo.

FI_5: Premarco telar de alumino. Se trata de una estructura auxiliar para el soporte de la

ventana. Permite transmitir las cargas de las aberturas en fachada al forjado. Libera la hoja

interior de las cargas de viento. Consiste en dos perfiles tubulares que van de forjado a

forjado (2,2 m de altura) al que soldamos en su interior un marco de aluminio del tamaño

de la abertura. Perfiles de 1 mm de grueso.

FI_7: Cartela de acero inoxidable de 2mm de espesor. Ancla los montantes al forjado. Se

fija mediante anclajes en el forjado.

FI_8: Espuma monocomponente de poliuretano de curado en contacto con la humedad

ambiente. Gran adherencia sobre la mayoría de materiales de construcción como

hormigón, madera, fibrocemento, obra, PVC, poliéster reforzado con fibra de vidrio etc.

FI_9: Carpintería practicable de madera de dimensiones 1,4 x 0,8 m i 60 mm de grueso

anclada mediante clavos al premarco y sellada con una banda compresible autoexpansiva.

FI_10: Vidrio laminado en el interior i templado en el exterior 6/12/44.1 AC sellado 0.5ma la P_2: 0.5m Capa de mortero 0.5m para proteger la 0.5m lamina termo-acústica 0.5m de 20mm de 0.5m grueso.

carpinteria.

0.8 m

P_3: Acabado de 10 mm de hormigón pulido.

0.30m

FI_13: Carpinteria fija de madera de dimensiones 2,3 x 0,8 m i 60 mm de grueso anclada

mediante clavos al premarco y sellada con una banda compresible autoexpansiva.

P_4: Hormigón de pendientes (1% de pendiente)

FE_3: Panel de chapa ondulada de aluminio de 0,5 x 106,5 x 350 mm *. Con acabado

lacado en Blanco. El acabado blaco refleja la luz y de este modo no absorbe tanta

energía, permitiendo así que el aire de la cámara no llegue a temperaturas tan elevadas.

FE_4: Marco de madera anclado a los travesaños para evitar la perforación del babero.

Tiene las mismas dimensiones que la ventana donde lo colocamos i 32 mm de grueso.

FE_5: FI_5: Placa de cemento ligera de 2mm x 1200 x 2400 mm *. Compuesta por un

alma de cemento portland con aditivos y material aligerante, recubierta en sus caras por

una malla de fibra de vidrio, que se extiende sobre sus bordes para reforzarlos.

Incombustible, estable y ligera, no se ablanda, ni se pudre con el agua. Anclada a los

montantes interiores.

1.0 m

FE_6: Pletina de aluminio que cierra transversalmente la cámara ventilada de un

centímetro de espesor anclada al montante.

FE_7: Deployé sustentado por un marco de aluminio de 0,52 x 3,3 m hace de protección

solar de la galería permitiendo la entrada parcial de la luz y evitando el calentamiento de

la sala en verano. El marco está sustentado por unos raíles atornillados al forjado inferior y

superior mediante una pletina de aluminio.

FE_8: Rail por donde correrá el deployé para permitir regular la entrada de luz. El rail

recorre la distancia de pilar a pilar: 3m y está anclado al forjado mediante pletinas de

aluminio.

espesor que cubre la altura entre forjados (3 metros). Su función es estructural y están

colocados formando una retícula de 3 x 3m.

E_2: Tornillos

E_3: Barandilla formada por cilindros de aluminio con diámetro de 10mm y una altura de

800 mm colocados cada 120 mm. Anclada al forjado inferior y a los pilares laterales.

I_1: Puertas giratorias con un marco de madera y un vidrio laminado en el interior i

templado en el exterior 6/12/44.1 AC sellado a la carpinteria. Estas puertas separan el

espacio semi-exterior del interior de la vivienda.

P_1: Aislante antivibración. Lámina termo-acústica que evita que las vibraciones del

forjado superior lleguen al piso inferior y aisla térmicamente. Las dimensiones de una

lámina son: 600 x 1200 mm y el espesor es de 25 mm. Está compuesta por dos capas de

espuma de poliuretano antigoteo autoextinguible a base de poliéster, densidad 35 kg /

m3 separadas por PRODUCED una lámina de plomo BY de AN 5/10 AUTODESK mm de espesor STUDENT para absorberVERSION

frecuencias medias y bajas. Resistente a temperaturas de -50ºC a 90ºC.

3.0 m

FI_11: Banda compresible autoexpansiva. La utilizamos para sellar el marco de la P_5: Capa de mortero de 20 mm de grueso

carpinteria al premarco. 3mm de espesor, con una conductividad térmica de λ 10 < 0.048

W/m/K y una permeabilidad al aire de α < 1.0 m3 / [h.m.(daPa)2/3].

P_6: Acabado cerámico de 320 x 320 mm y 13mm de espesor amorterado a la capa

Se puede utilizar en un rango de temperaturas que va de: -30ºC a 90ºC. Se expande y impermeable.

contrae continuamente para acomodar el movimiento sin dejar de sellar las juntas.

Proporciona aislamiento térmico y acústico.

CU_04': Lámina impermeable de refuerzo, de poros cerrados. e=2mm

Se suministra como rollos precomprimidos con un lado autoadhesivo para facilitar la

ubicación inicial.

FI_12: Babero

1.7 m

FE_1: Montante de aluminio de 3 x 50 x 300 mm * anclado al forjado superior e retenido

en forjado inferior. Corrige la planimetría de la fachada y sustenta los travesaños.

FE_2: Travesaño de aluminio de 3 x 50 x 300 mm* anclado al montante. Hace de soporte

de la chapa exterior.

1.4 m


FE_9: Puerta corredera de tres hojas de aluminio de dimensiones: 1000 x 3000 mm cada

D1

0.45 m 0.45 m 0.45 m 0.45 m 0.45 m 0.45 m

FI_10 FI_9 FE_4FI_12FE_5 FE_1 FE_3 E_2 FE_2 FI_7 FE_2 E_1 FE_6 FE_7 FE_8

FE_10

0.45 m

0.45 m

0.9 m

Pardal - Oriol Roig


STRUCCIÓ III


Núria Rodríguez PLÀNOL:

Irene Preciado

PLANTA | ALÇAT | SECCIÓ TIPUS 1:20 1

3.0 m

0.3 m

0.2 m

FI_10

0.30 m

FI_9

FE_5

FI_1

FI_5

FI_1

FE_3

FE_1

FE_5

FE_2

FI_5

FI_2

FI_1

P_3 CU_4' P_2 P_1

FI_3

FI_1

FE_5

WHAT? | WHY? | HOW?

L'edifici està situat en una zona amb un passat industrial improtant. Per aquest

motiu un dels aspectes més han influenciat a l'hora d'escollir la façana, ha

estat l'aspecte formal.

Hem triat una façana amb cambra d'aire i amb una fulla exterior de chapa

ondulada, per retre homenatge al passat industrial del lloc.

La chapa és un element permeable en la seva superfície i la junta es resol per

solapament. Per aquest motiu la cambra té una microventilació i serveix com

a cambra drenant.

Evita que la radiació solar inciceixi directament en la fulla interior i juntament

amb el color blanc de l'acabat de la chapa, ajuda a reflexar la llum i per tant a

dissipar energia.

LEVELS LARGE-SPAN BUILDING

IN “LA VALL D’HEBRON”

L E

V E L S

This project consists of a multi-purpose building, designed to house very different uses,

from a sports center to an emergency hospital. I believe that buildings must be flexible

and durable. We live in a time of change, where immediacy controls our lives. Our

needs are constantly changing and for this reason buildings should be too. Taking this

into consideration I designied large-span building that has the capacity to house big

events, but can olso be divded into smaller spaces.

tutor: Cristóbal Fernández

¿What does the Vall d’Hebron sports complex has to offer?

¿What can we contribute with?

¿What elements make an atmosphere pleasant?

The complex is located in a prime point in terms of views. It enjoys a panoramic view of Barcelona. One of the main

intentions of the project was to take advantage of this quality and make it part of the building.

·

Due to the unevenness of the site, the routes are not direct between the different facilities. The building tries to bring a

benefit to the area by allowing a direct connection between two of them.

·

The light and the composition of the space and the relationship between its elements and its materiality are aspects

that make a place a pleasant space. The project aims to solve all these aspects in the best way and generate a welcoming

and versatile space. Facades are treated differently depending on the orientation. The structural elements of exposed

concrete have a large presence in the whole of the building in the same way as the non-structural elements of wood

that provide warmth to the space.

·

This project is a multi-purpose building with large lights located in the Hebron Valley that aims to accommodate a wide

variety of uses and bring quality to the sports complex.

W H Y T H I S L O C A T I O N

The building is located on the highest point of the sports complex.

We are located at the highest point of the Vall d’Hebron complex for

two reasons; the panoramic views offered by the location and the

opportunity to establish a connection between the upper and lower

level.These two levels have a height difference of 7 meters, the height

of the main room of the building.


T H E S T R U C T U R E


The structure arises from the desire to organize the space

for the optimal functioning of the main room.

The program requires a room with a light of 27 meters

and a height of 7 meters. To generate this space with the

maximum possible cleanliness and at the same time allow

the movement of its users, we generate concentric

rings of pillars that distribute the uses of the building.

T H E L I G H T

¿How does light enter the space?

The building is flooded with light without letting it go directly

inside to avoid glare.

Light enters both the façade and the roof. However, in both

cases, the light affects the interior or indirectly, as would be

the case of the overhead light, or filtered, as would be the case

of the light entering through the facade.

T H E C O N N E C T I O N


The building allows a direct connection between two levels.

The upper level offers a panoramic view of the city, while in the

lower level we can find the football fields. At the upper level, the

entrance leads the user to the lower floor where the main room

is accessed.



T H E C O R R I D O R


At the rear of the building we find two corridors. One used

to access the changing rooms and the other one to exit

of the changing rooms and to access the main room. The

ring of routes established around the main room allows it

not to be interrupted by the circulation of the users.

The hallway is equipped with sinks and mirrors that allow

you to wash up outside. The setback makes it look less linear

and monotonous.

³


COWORKING A LA COLÒNIA GÜELL

These project consists of offices, coworknig and leisure spaces that

conform a learning and development environment.

·

A network of squares is created to stimulate social life and relationships.

·

We generate paths in the building that blur the idea of separation

between the interior and exterior.

tutor: Cristòbal Fernández


The project is located in “La Colònia Güell”, a

company town created in 1890 by a businessman

called Eusebi Güell in the municipality of

Santa Coloma de Cervelló, in the outskirts of

Barcelona at that time.

The interest to move away from the existing

social conflicts in the city made the new industry

to be considered within the framework of a

company town.

Over the years, the union movement and workers’

demands came to the Colony and in the

context of the crisis in the textile sector in 1973,

the factory ceased its activity .

In 1990 the Colonia Güell complex was declared

a Site of Cultural Interest - Historical

Complex, establishing the protection of the

most relevant buildings as well as the general

characteristics of the building.


T H E P R O J E C T

The project consists of a rehabilitation of one

of the old factories, today in disuse. We choose

this location to reactivate the back of the company

town.

While currently the façade represents

the “end of the Colònia Güell”, with the

intervention the aim is for it to represent

not an end but a new center of activity.



T H E FAÇADE

T H E I N S I D E

An important feature the building has it’s

its facade, which has a porosity that we are interested in

enhancing.

It is not an opaque wall that separates the interior from the

outside, but consists of two rows of arches that represent

the transition between them.

We creat a network of squares that stimulate social life

and relationships.

While generating paths inside the building, we

intent to blur the idea of separation between the

interior and exterior, everything becomes one.

T H E A T M O S P H E R E

T H E S T R U C T R E


The pre-existing structure consists of a

mixture of two constructive systems.

On the one hand we have the perimeter

walls: load-bearing walls made

of brick.

On the other hand we have the inner

structure made of steel pillars and

overlays that support a sawtooth


cover.


The structure we add is a lightweight

structure that seeks to convey the

essence of the perimeter walls inside

the building.

Panells Termochip Roof fixats a

l'estructura de coberta

mitjançants claus en cada

recolzament.

Perfil tubular d'acer de secció

rectangular de 60 x 120 i 2 mm

d'espessor

Panells Termochip Wall interiors

fixats a la subestructura de

muntants mitjançants claus en

cada recolzament.

Pilar d'acer HEB de 140 mm x

140 mm i 7 mm d'espessor

Muntant. Subestructura d' acer

que sustenta els panells tant

interiors com exteriors.

Premarc d'acer que sustenta els

panells que formaran l' arc i

serà on s'ancli la carpinteria



EX T E R I O R - I N T E R I O R


i


PRODUCED BY AN






FI 1

TERMOCHIP WALL

FI 2

FI 3

FI 4

FI 5

FI 8

FI 9

INTERIOR

FE 1

TERMOCHIP SATE

FE 5

FE 4


FE 3

FE 2

EXTERIOR

Enllistonat sota teula.

Evacuació i ventilació de

coberta. Ranurat a la cara

inferior de el rastrell per a

evacuació d'aigua.

Làḿina

impermeable

transpirable sellada amb cinta

adhesiva negra en

juntes entre panells:

Impermeabilització

estanqueïtat a coberta.

15 mm taulell OSB3

Aïllament continu

Làmina transpirable 12 mm

tauler fibro-guix

Es tracta d'un panell compost

per una capa amb un acabat de

guix en contacte amb

l'estructura portant, un nucli

aïllant continu de poliestirè

extruït i per un tauler hidròfug a

la cara superior de l'forjat.



FI 1- TERMOCHIP WALL fijado a la

subestructura mediante tres tornillos en cada

apoyo.

FI 2 - 15mm tablero de yeso PPF antifuego

FI 3 - 12 mm tablero fibroyeso

FI 4 - 60 mm aislamiento XPS

FI 5 - 12mm tablero fibro-yeso

FI 6 - Montante. Subestructura de aceroque

sustenta los paneles termochip

FI 1

FE 1

TERMOCHIP WALL

TERMOCHIP SATE

FI 2

FE 5

FI 3

FE 4

FI 4

FE 3

FI 5

FE 2

FI 8

FI 9

INTERIOR

EXTERIOR

FI 9 - Puerta giratoria de cristal y carpinteria

de aluminio con vidrio laminado en el

interior i templado en el exterior 6/12/44.1

AC

FE 1 - TERMOCHIP SATE fijado a la

subestructura mediante tres tornillos en cada

apoyo.

FE 2 - 12 mm tablero fibroyeso

FE 3 - 60 mm aislamiento XPS

FE 4 - 12 mm tablero fibro-yeso

DENT VERSION

140 mm x 50 mm x 3m de longitud x 0.4mm

espesor

FI 7 - Pilar de acero HEB de 140 mm x 140

mm x 7 mm e

FE 5 - Acabado de moretero elástico

contínuo

Sistema multicapa flexible adherido a la capa

exterior del panel de fachada.

FI 8 - Premarco de acero que sustenta el

arco y se ancla la carpinteria

T H E I N T E R I O R

INTERSTICI

This project aims to solve the encounter between two tissues of the city of

barcelona that converge at a single point.

On the one hand we find the grid of “El Plà Cerdà”, a plan of reform and

expansion of the city of Barcelona in 1860 that followed the criteria of the

hypodamic plan; and on the other hand the old traces of the historical area of

Sant Andreu, one of Barcelona’s districts.

The Eixampla is trying to adapt and transform part of the pre-existing tracing,

but there are conflicting points where there is no clear organization of the

territory.

I N T E R S T I C I

Albert Martínez Sedó - Núria Rodríguez Molina

ETSAB - Urbanistica VI

tutor: Manuel Ruisánchez

A N A Y S I A N À L I S I

Before focusing on the proposal, we make a general analysis of the

area and its surroundings. The leyout, the past and the present of the

place,

Abans

will

d’enfocar

end up forming

la proposta

a proposal

fem un

that

anàlisi

we consider

general

adequate

de la zona

and

i

dels seus voltants. Els teixits, el passat i el present del lloc, acabaran

conformant the una transition proposta between que considerem the Eixampla adecuada and the i necessària Sagrera

necessary

pels teixits de transisió entre l’Eixampla i l’estació de la Sagrera.

station.

2 0 0

This map from the year 200 shows us the beginnings of what is now Barcelona. It is

interesting to see how it will all be organized according to the means of communication

and trade; and of the topographic conditions that make up the site. The road network

of the plain is well conditioned by the centurion system that delimited the farms

around the Roman villas. There is a system of paths that connects Barcino with the

interior along the Llobregat and Besòs rivers and with Collserola, taking advantage of

the layout of the existing torrents.

1 7 5 0

In 1750 we see how a population center began to

form around the roads that led to the city center. This

nucleus will be the birth of what we know today as the

neighborhood of Sant Andreu. We see the influence

of the topographic accidents on the growth of the

city and the route of the water canal, which passed

slightly shifted to the right.

1 8 9 0

In this map from 1890 we can see the importance of rivers and

irrigation on the layout and urban fabric. We also see the superposition

of the Cerdà plan that will try to incorporate the southern

part of this population center located on the outskirts of Barcelona.

Currently, with the Cerdà plan already consolidated, this older

tissue has survived and we can differentiate it from the Eixampla

plot. However, the northern area is trying to dialogue with this

new urban plan.

1 9 5 6

In this aerial photograph from 1956 we can see

how the train tracks, where the La Sagrera station

is currently being built, have represented

a hole in the urban fabric from the beginning.

In addition, the unevenness caused by the topography

made the western side of the roads

understood as a rear end of the city.

We also see how the plot of the Eixampla reaches

the foot of the area we are analyzing. It tries

to integrate part of the leyout of the old town

of Sant Andreu. It will be in this area of conflict

between the two tissues where we will act and

propose a strategy for them to establish a dialogue.

2015

In this aerial photograph we can see how

the train tracks still cause a wound in the

tissue of the neighborhood, although

there are bridges that connect the two

sides.

P R O P O S A L

I N T E R S T I C E

After analyzing the history and evolution of the territory, as well

as other important aspects regarding the neighborhood of Sant

Andreu, we propose a general organization plan of the meeting

point between the fabric of the Eixampla and the old fabric of the

neighborhood of Sant Andreu.

This project aims to solve the encounter between two tissues

of the city of barcelona that converge at a single point.

On the one hand we find the grid of “El Plà Cerdà”, a plan of

reform and expansion of the city of Barcelona in 1860 that

followed the criteria of the hypodamic plan; and on the other

hand the old traces of the historical area of Sant Andreu, one

of Barcelona’s districts.

The Eixampla is trying to adapt and transform part of the

pre-existing tracing, but there are conflicting points where

there is no clear organization of the territory.

If we look at the northern area,

where our area of action is located,


we can see that most of the buildings

are intended for housing. On

the ground floor, although there are

a variety of uses, local shops and

bars predominate as well as chain

stores such as supermarkets.





INFORMATION VALUE MAP OF

MUC equipaments

MUC habitatge

dotacional public

MUC ordenació oberta

MUC serveis tècnics i

ambientals

MUC zones verdes

MUC serveis tècnics i

ambientals

Comerç no local

Comerç local

Cadenes bars/restaurants Habitatge Oci

Bars / restaurants locals Equipaments Tancat

BARCELONA

Escala 1:5000 (a DIN-A4)

MUC. Mapa de valor informatiu

Data impressió: 10/06/2020

linearity of the Eixampla and

at the intersection.

Proposal plan with the

superposition of the park

of the Sagrera station, an

ongoing project.

·

We coordinate the project

with the future infrastructure,

keeping in

mind that the city is constantly

evolving.

·

Although we generate

imaginary plans that delimit

the blocks, we open

public spaces inside them

to give more porosity to

the ground floor.

Con

al ca

Inicialment partim d’un bloc de l’Eixample, delimitat pels carrers del seu voltant.

Part

Inicialment partim d’un bloc usos d

Conservem l’eix del carrer, que divideix el bloc en dues meitats.

Ret

Conservem l’eix del carrer, que

de l

Si s’escau, obrim carrers alternatius al principal que permeten una millor comunicació

entre les illes i amb la futura estació de la Sagrera. Amb aquests criteris i la

voluntat de generar espai públic conformem.

Si s’escau, obrim carrers altern

Seg

con

cació entre les illes i amb la fu

voluntat de generar espai públi

Definim les formes finals dels edificis retirant nivells superior esglaonant així les cobertes.

i obrint les plantes baixes per dotar de porositat l’espai públic.

Alli

pila

Definim les formes finals dels e

bertes. i obrint les plantes baixe

Afegim espais verds, i retirem els patis interiors dels nous edifics, per afavorir la seva

ventilació. Tambe incorporem carrils bici i mobiliari urbà.v

Afegim espais verds, i retirem e

ventilació. Tambe incorporem Afeg

agra

S T R A T E G Y

In this image we can see the strategy that the

proposal follows.

We prolongate the grid and form new blocks wich

organize the interstice.

C O W O R K I N G

Espais de treball compartits entre

els usuaris on les idees neixen i

evolucionen gracies al treball

conjunt.

Habitatges per a estades de durada

molt variable. Es conviu en comunitat i

es comparteixen els espais de treball.

Generem pa ti s interiors q ue

permeten una ventilació creuada

per millorar la qualitat dels espais.

Les vivendes i els colivings

tenen aparcament soterrat

que permet buid ar els

c a r r e r s d e c o t x e s .

Residències per estudiants amb espais

c o m u n s i c u i n a c o m p a r t i d a . L a

residència està situada aprop d'una

g r a n x a r x a d e c o m u n i c a c i o n s .

Espai polivalent que acollirà tot tipus d'activitats com exposicions,

tallers, conferències etc. Hi haurà sales per llogar i impartir

docència, espais d'emmagatzematge i lleure.


P A T I S

R E S I D È N C I E S

C O L I V I N G

C O L I V I N G

H O T E L

P B. L L I U R E

Enretirar la façana de

P À R Q U I N G

T A L L E R S

Espais creatius

C O L I V I N G

l'edifici en PB permet

eixamplar en carrer però

alhora generar un pla fictici

que ens permet establir un

ordre general.

general section

D E S P A T X O S

E Q U I P A M E N T

C U L T U R A L

Zoom axonomètric 1 Zoom axonomètric 2

Imatge 3 Imatge 4

T O B E C O N T I N U E D . . .

RODRIGUEZ_MOLINA_NURIA_PORTFOLIO

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