PORTFOLIO 2018 Clara Medina G | Architect
CONTACT Clara Medina G | Architect e-mail | clara.medinag@hotmail.com Phone | +34 659 86 08 02 Madrid | ES July 2018
ABOUT MYSELF An enthusiastic, creative and committed Architect and Urbanist specialized with the international Advanced Master in Human Settlements. I am most interested in applying strategic thinking to the architectural, urban and regional scales. I believe in the planner or designer as a facilitator among the different actors, levels and disciplines affected in the design issue, being design itself a tool to drive debate. Therefore, I work hard to bring proposals that can be developed by finding common goals among actors against confrontation, with an optimistic, flexible and user-centred attitude. I consider holistic thinking, optimism, transdisciplinarity, team work and organisation some of my strengths to add in the process. I am most interested in the areas of sustainable development, social innovation, regional and urban planning and participatory processes. clara.medinag@hotmail.com
INDEX Architecture, Urbanism and Service Design Portfolio
Restructuring a Dry Torrent as aN Infrastructural Landscape IN MOATIZE, MO S2 Landscape Urbanism Studio proposal and Advanced Master Thesis Dissertation at KU Leuven | 2018
MISMATCH-MIXMATCH_ DESIGN FOR INTEGRATION IN THE NORTH QUARTER, BE S1 Design Studio Proposal at KU Leuven | 2017
LA CUARTA R _ THE FOURTH R, ENERGETIC RESTORATION IN Mร STOLES, SP Urban, architectonic and management proposal and Accesit in Reinventar Mรณstoles Centro Contest | 2015
FORMANDO HAITI_ LEARNING CENTRE AS A TOOL FOR PRODUCTIVE RECOVERY, HA Development Cooperation Masters degree final project at TU Madrid | 2014
cgc_ CENTRE GASTRONOMIQUE CALDERON, SP Bioclimatic Architecture Course Design project and 2nd Price in Archizinc Contest | 2012
Iam _ THE TOOL FOR THE WORK ENVIRONMENT OF THE 21st CENTURY, SP Ethnographic research, design thinking & user centred service design Masters Final Project at h2i | 2013
Water storage and Recreational programme in the NOP, NL Landscape Architecture Masters Course Design Project at TU Delft | 2011
ECOSISTEMA URBANO _ PROFESSIONAL EXPERIENCE, SP SI ARCHITECTS_ PROFESSIONAL EXPERIENCE, SP Clara Medina G | 3
Restructuring a Dr y Torrent as aN Infrastructural Landscape INtheMOATIZE, MO | 2018 ZAMBEZI BASIN | Framing transect MOZAMBIQUE | Framing the Zambeze Basin Notational map showing: - Cetralized electricity grid ( lines)
scaleLeuven plans for exploitation of natural resources: S2 Landscape Urbanism Studio proposal and Advanced Master Thesis |- Big KU
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100Km
energy generation and supply in moatize
the zambezi basin | framing the transect (
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EXISTING WATER AND ELECTRICITY CENTRALIZED INFRASTRUCTURES Cahora Bassa Dam Electricity grid BIG SCALE PLANS FOR EXPLOITATION OF NATURAL RESOURCES New dams in the Zambeze River Planned electricity grid extension Micro-hydropower dams in tributaries Mining concession areas
4 | clara.medinag@hotmail.com
200Km
300Km
................................................ MOATIZE SQUARE
" "
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water supply and sanitation in moatize
.......................................... FIELD WORK ANALYSIS
“Restructuring a Dry Torrent as a Multifunctional Infrastructural Landscape” is an urbanism and water management design proposal developed under the umbrella of the Landscape Urbanism Mozambique Studio of the Advanced Master in Human Settlements at KU Leuven. The Master Thesis dissertation elaborates on the general development, technological and planning principles and references that support the design proposal. Together, these documents translate field work research, general Landscape Urbanism and Water Urbanism principles and successful study cases into a strategic design proposal in the outskirts of Moatize (Mozambique) to be able to tackle the pressing challenges posed by climate change, urban development and population growth. Riverscapes in semi-arid regions are amongst the earth’s most vulnerable territories with regards to climate change, threatening water and food security, human settlements and 300Km 600Km 900Km transport. The studio work focused on the challenges of the Zambezi Basin in Mozambique. In this specific context, the local population, that lives primarily and directly from their land, is most vulnerable to the alterations to the landscape caused by population growth, dams and coal mining. The challenge undertaken as part of this studio was to design proposals in the field of water and forest urbanisms and to envision new infrastructural typologies to propose an alternative development paradigm for the Zambezi Basin at a regional scale (Studio scale) and Moatize (group scale) and individually elaborate on strategic projects for the irimplementation.
.......................................... THE ZAMBEZI BASIN
- New dams in the Zambeze (squares) - Micro-hidro power in Zambeze tributaries (dots) - Mining concession area (pattern)
NATURAL EROSION AND LAND MANIPULATION IN MOATIZE
.................................................................... STUDIO’S VISIONAND LOCATION OF STRATEGIC PROJECT
The proposal is inspired by the natural green creeks.
CURRENT STATE OF THE DRY TORRENT TO BE RESTRUCTURED
Unstructured current state of basin area.
Cattle reaching the basin area for water and grass.
METHODOLOGY IN THE STUDIO The studio started with reading scientific literature and reports on the pressing issues to be addressed in the Zambezi region in relation with climate change, water scarcity and economic and urban developments. The theory was then contrasted with on-site research carried out during a two-week trip to the Tete region in February 2018. The field work included visits, walks, investigations and interviews with local population and local stakeholders such as university professors, activists and municipal architects and city planners to understand the challenges, risks and opportunities of the area, focusing on water as the guiding theme. Site research was carried out divided into 4 groups focusing on interest areas of 5x5Kms, being one of these areas the outskirts of Moatize where this proposal is set. The main focus was to understand the dichotomies of dry and wet seasons, the urban and the rural environments and the endogenous and exogenous activities and actors exploiting natural resources. The trip ended with a workshop with local actors where the four groups could share and discuss the preliminary conclusions and starting points for further research and propositions. Experimentation was based on models at multiple scales. The regional vision was developed by the whole studio for the transect area (1:25.000) while strategic visions for the 5x5Km areas were designed in teams. Finally, individual strategic design proposals were elaborated to illustrate how the general visions could be translated into specific and feasible action. In parallel, Master Thesis dissertations build connections between the field work, theoretical research and design and technological references informing the proposal.
1:25.000 Model developed by the whole Studio showing the general vision for the Zambeze Basin to intensify the landscape and increase resilience against climate change and growth.
Clara Medina G | 5
.......................................................................................................................... GROUP’S VISION FOR MOATIZE
FRAMING MOATIZE, THE COAL MINING TOWN The arrival of large scale open pit coal mining started affecting the climatic balance, destroying the landscape in the surroundings and worsening water scarcity in the area. The endemic forest landscape is transforming into a hot, dry and dusty settlement, mainly due to the removal of green cover as mining and urbanization advance. Due to these processes, erosion is a major problem that is even aggravated by the effects of the semi-arid climate of the region, with very intense rainfall alternated by acute droughts. Fast and uncontrolled flow of flush rains on the unprotected slopes intensifies erosion and keeps increasing risks of floods and landslides for settlements. In the meantime, population on the plateau keeps being isolated from the forest and the natural resources used for traditional subsistence economies and natural corridors that allow the forest to survive are being broken. GROUP’S MAIN STRATEGY FOR MOATIZE Mining and other exploitations of natural resources should be addressed with a new approach that can serve the needs of the local population while making the landscape more productive and resilient to future challenges. To achieve this, our projects propose alternative models that use landscape features and ecosystem services. These are the frameworks that enable the dichotomies present on the territory to work together (wet and dry, rural and urban, exogenous and endogenous). As a result, the dependency on exogenous forces that impose a western model of development will be decreased. APPROACH TO THE STRATEGIC PROJECT The seasonal creeks that stand out as green cores and natural collectors of water in the territory are envisioned as strategic elements to implement the new model. Their redefinition brings indeed opportunities to protect the urban tissue against natural hazards, to implement more resilient water management, to intensify local resources. Focusing on the edge area of the grid pattern imposed on the plateau, it is possible to bring back natural resources by enhancing the natural elements that have been ignored and diffused.
1:5000 model of the integrated vision for Moatize enhancing the natural water networks as framework for development
6 | Restructuring a Dry Torrent as an Infrastructural Landscape in Moatize
............................................................................................................................ STRATEGIC PROJECT PROPOSAL
INTEGRATED WATER CYCLE MANAGEMENT The first challenge is to implement an integrated water cycle management that can fight the destructive effects of flush rains while allowing a more extended and efficient use of water along the year. First, meandering water courses carved in the depression area together with the rocky cover of the torrent beds slow down the flow and increase percolation. Furthermore, rocky water infiltration basins are incorporated in the turns and are clay waterproofed where various courses meet so that water can be retained under the surface and used after the rains. In addition, within the integrated water management system, water purification landscapes that replicate natural processes are designed next to the residential plots to take advantage of wastewater as a continuous source of water along the year. This water irrigates agricultural and grasslands towards the creek and can be further collected and reused by industries down the course. A MULTIFUNCTIONAL INFRASTRUCTURAL LANDSCAPE The whole area is conceived as part of a social infrastructure: an experimental permaculture research centre for learning and exchange to upgrade traditional agricultural practiceswith permaculture and water management techniques. This way, urbanization is prevented in the vulnerable area while productive lands and innovative infrastructures are brought closer to the settlements.
Picture by the author from group model by (Nathan De Feyter, Clara Medina, Nadia Nusrat & Julia Paiva)
MAIN STRATEGY OF THE STRATEGIC PROJECT The strategic project is located on a depression in one of the in-between areas identified in our fieldwork, where the grid streets from the barren resettlement dissolve and gated plots are scattered in the former forest. The project illustrates our strategy to restructure the network of seasonal creeks as multifunctional infrastructural landscapes. As such, they can help implementing an integrated water cycle management, reactivate the landscape and increase socio-economic and environmental resilience of the area. The aim of this proposal is to turn vulnerabilities and challenges into opportunities turning the seasonal creek into a continuous green corridor for innovation and exchange through agricultural experimentation and the starting point for a wave of further implementing learned technologies in the semi-urban tissue.
FURTHER VISION In conclusion, not only do these strategies bring back natural resources for economic activity in the grid area, but they also tackle the lack of basic infrastructures and trigger a process of renaturalization of the urban area as neighbours appropriate and implement them in the surrounding settlements.
Clara Medina G | 7
THE CREEK AS A TRANSITIONAL LANDSCAPE Along the creek, a dynamic series of flooding crop and grasslands and higher paths reconnect patches of the natural forest that had been isolated. Here, different flooding stages allow or impede livestock access depending on the time of the year, so the landscape can regenerate before animals can reach it, increasing their opportunities for survival in the dry season.
A SOCIAL INFRASTRUCTURE IN THE VULNERABLE AREA The depression area is reshaped with safe islands between creeks and the gradually flooding banks are terraced applying the local knowledge of clay soil cutting with stabilizing brick walls. This area has the potential to become a communal space for innovation and exchange through agricultural experimentation and may become the starting point for a wave of further implementation of learned technologies in the surrounding semi-urban tissue.
Water storage
Pilot houses
Water inďŹ ltration
Microtopography with agricultural terraces
1:1000 Concept model showing the different humidity and flooding stages of the depression area and grasslands and paths along the seasonal creek.
8 | Restructuring a Dry Torrent as an Infrastructural Landscape in Moatize
Urban tissue
et
Natural forest can reconquer the creek
Flooding grasslands for cattle and agriculture
h
pat
Industries can reuse water
Houses feeding with wastewater
Implementation of technologies
stre
ture
Shadow trees create cattle paths
RESEARCH CENTRE AND NURSERY
Grid
icul Agr
h
pat
oad ial r ustr
Ind
rds’
phe
She
Water can be stored in meander areas
TOWARDS A MODEL OF CIRCULAR ECONOMY The diversity and interconnection of different economic activities along the corridor allows new synergies and the implementation of circular economy mechanisms. For instance, biodigestors are conceived in the productive area to turn the great amount of biomass and organic waste generated by agriculture, grasslands, livestock and residential and industrial plots into biogas for cooking and fertilizer for the surrounding crops.
(Pictures by the author from individual models by the author)
RESTRUCTURING THE SEASONAL CREEK WOULD BECOME THE STARTING POINT FOR A WAVE OF FURTHER IMPLEMENTATION OF WATER MANAGEMENT AND RENATURALIZATION TECHNIQUES IN THE SURROUNDING URBAN TISSUE
1:500 Detail Model showing topographic interventions carried out to redefine the space in the basin area enhancing water courses, intermediate islands, controlled flooding areas and terraced slopes. In this frame, bigger scale water retention, infiltration and purifying systems are introduced to allow an integrated water cycle management and are combined with low-tech individual and/or collective infrastructure for water and waste management. Different economic activities meet along the water course with the opportunity to benefit one from the other.
Clara Medina G | 9
MISMATCH-MIXMATCH_DESIGN FOR INTEGRATION IN BRUSSELS NORTH | 2017
While analysing the neighbourhood we kept identifying a gap in the in the centre of the neighbourhood. And this gap is related to several mismatches in the performance and definition of the North Quarter, in the city scale as well as the physical and the social realms. These circumstances evidence an interstice, unclaimed by permanent users on the area and ignored by the building peripheries. However, things are happening in this interstice. NorthSouth connections and networks in the area are working engaging long-term users, while temporary users inhabit the perpendicular flow independently. This transversal activity going on in the interstice spills over from the Station, spiced by the civic and cultural movements. Still, these temporary users currently need to hack the space to fulfil their needs, that is why our proposal researches on public space as a reception infrastructure. The interstice is structured in 5 bands, following the temporality gradient of the transit users inhabiting the interstice, ranging from minutes to months. The five bands are designed to encourage arrival, meeting, developing, celebrating and trading activities. In brief, what we propose is: “An arrival infrastructure, welcoming the temporary and transit users spilling over from the Station and the cultural movements that cannot find their place elsewhere in the city. The aim is to articulate transverse connections in the unclaimed space, enhancing networks to mix-match users and activity.� The proposal intervenes in the physical and the social layer. The physical layer is redefined by means of topography and equipment to enhance dualities (hidden-exposed / transitquiet) and confrontation with the buildings peripheries. Then, the social layer is enhanced with the development of information and interaction tools to welcome new comers and visualize and boost already existing social networks. Studio Booklet: https://issuu.com/rachadaher/docs/rdaherc_a_studio_catalogue-north_s
10 | clara.medinag@hotmail.com
...................................................................... INTERPRETIVE MAP OF NEEDS AND DESIRES IN BRUSSELSNORTH
SI Design Studio Proposal with Thuy Nguyen and Wossen G. Yohannes | KU Lueven
ant accessways vestment area on investment area regional interest
e green
c green ential
ess activity
c institutions HQ
orate HQ
y plots axis of movement
l l plan plot
l plan project ver area
PLANNING AGENDAS
THE GAP | ROUNDABOUT EFFECT
A. ROUNDABOUT EFFECT ANALYSIS
SOCIAL HOUSING TOWERS Platform ignores peripheries Communal vegetable gardens
MANHATTAN PLAN TOWERS Opaque Services and shop platform Transparent towers on top
GHENT
LIÈGE
B. ROUNDABOUT EFFECT ENHANCEMENT
ANTWERP
NEW SPACE NORD TOWERS Transparent yet unreachable towers Garden elements overflowing
GHENT
LIÈGE
NEIGHBOURHOOD SCALE ANALYSIS LEYEND Proposed bus access to the station Cultural movements places
USERS AND TIME permanent users
Discouraged car route Existing car access North Station spillover
transit users
PERMANENT RESIDENTS
NGOS & CIVIC ASSOCIATIONS
OCASIONAL VISITORS & TOURISTS
TRANSIT TRAVELLERS
ASYLUM SEEKERS OUTSIDE BELGIUM
INFORMAL WORKERS/DWELLERS
REGULAR COMMUTERS
LOCAL BUSINESSPEOPLE
+
+
+
+
+
+
+
+
ANTWERP
Proposed car access
............................................................................................................................................... TRANSIT USERS IN BRUSSELS NORTH
PREDOMINANTLY BUSSINES AND INTERNATIONAL
............................................................................................................................................................. URBAN AND FIELD ANALYSIS
MIXED BLOCKS
SMALL RESIDENTIAL TISSUE Multi-property detached buildings Inner activity opens & occupies street
forest
tunnel
hide
light
+
mound
borders
+
screen
meet green
+
observe
+
discuss
join
play
show
provissions
van
light
produce
+
line up
forest
gather
+
stand sit
play
luggage
share
shelter
outdoor
find
equipment
walk
+
shortcut
together
wifi
cover
corners
shelter
+ temporal structures
corners
sleep
border
niche
tree
picnic
private
+
+
shadow
rest
load
step
dark
+
green
doctor
coffee
+
+ +
step work
wait
+
sit
covered
+ +
+
mirror
step
soup
gather
play
+
niche
volunteer
work
toilets
share
meet
column
wind pic nic
single wait
sleep
+
shelter
post movable
climb
screen
regard
hide
share
group
take away
+ +
discover
straight
sit
wifi
wall
shadow
flow
read
stare
group wait
wait
wildlife
temporal
grass
commute
fast
+
shade
group
steps
overlook
+
shadow
green
hidden
+
rest
shadow
express
COMPANIES OWNING & RENTING TOWERS
+ + + +
+ +
+
+
+ +
+
+
+ +
+
+ 10m
50m
100m
Clara Medina G | 11
MEETING | CHAT
CELEBRATING | FEEL BETTER
TRADE | TRANSCEND BORDERS
CLARA: IS THERE A WAY TO GET TO LEUVEN AFTER 22H?
THUY: ANYONE FOR A WALK TO THE PORT? WOSSEN: ABEBE, I’M WAITING AT K&R
SPILLAPP | BXL NORD WORKSHOP TONIGHT FRENCH CLASS ON MONDAYS CONCERT TOMORROW
FIND
FIND S P IL L A P P FIND
CHAT
JOIN
JOIN TRADE
TRADE
CONNECT TO SPILLAPP NETWORK
The moment a new user gets in the range of the wifi network, they will receive a message to log in. Through this platform the user can enjoy all services and interact with others.
FIND FIRST AID INFO
Wifi emitters take the shape of information posts, allowing to identify route landmarks and easily obtain first aid information around the spot and find near services.
INTERACTIVE SCREENS
Big screens visualize the main interaction areas. They show meaningful information, share activities programme and services and allow users to share questions and thoughts.
Defined shaded Casual sitting
PHYSICAL
CHAT
CHAT
TRADE
JOIN
LAYER
INTERACTIVE LAYER
SERVICE
DEVELOPING | JOIN IN
10:45 BUS TO CITY CENTRE 10:50 TRAIN ARRIVING FROM AIRPORT
SPILLAPP | BXL NORD
CONNECT WITHOUT A DEVICE
These modules allow users without a smart device to connect to the network and use all its funtionalities.
LEARN AS YOU WALK
The platform and posts alike show location based information on places, services, events, people and groups enhancing the welcoming and socializing experiences.
Cascasded levels High
CONNECT, MEET AND RECHARGE
Equipped benches are spread among the regular ones, allowing people to settle in and enhancing socializing by proximity.
CONNECT WITH PEOPLE & GROUPS Sometimes socializing is not easy without a formal introduction. The network suggests people and groups to meet as per own preferences, needs and desires.
CONNECT, MEET AND RECHARGE
These modules allow to recharge while connecting to the platform interacting with a big screen. It becomes a useful tool for group meetings and to share info with passers-by.
BOOK AND JOIN
Book and rent spaces, resources, tools and materials for your single or group activities. You can also join events or activities goin on.
Shaded Exposed
Vehicular Path
GAMIFIED TRADING An internal currency is implemented where regular money blends with knowledge, time, services and goods for users to exchange and get what they need. Earn points by use.
Covered Amphytheater Depressed hidden Under
Exposed mound vantage point Sand pathways
Tranquil sitting Shaded Shaded transit trade off
Shaded cultural trade off
Spectator shaded
path for service access Vantage point Accessible Safe
CONCEPT
............................................................................................................................................................................. DESIGN PROPOSAL
covered playground
ARRIVAL | FIND
12 | Mismatch-Mixmatch in Brussels North
Canal water
canal viewpoint
[ DISCOVER]
canal stage [ CULTURAL SPILLOVER]
canal audience area [ JOIN IN]
5.0
104.0
-3.0
3.0
8.5
19.5
+4 .00
37.0
7.0
18.0
10.0
+3.50
11.5
+0.0
11.0
84.0
+0.0
67.0
[ CHAT]
waiting area
[ JOIN IN]
reaching the park
[ FEEL BETTER]
looking back from park platform
[ TRANSCEND BORDERS]
canal bay
+ [ FIND OUT]
amphitheatre
+ + +
100m 50m 10m
covered trading platforms [ CULTURAL SPILLOVER]
park maintenance - garden workshop [ CULTURAL SPILLOVER]
round niches [ CULTURAL SPILLOVER]
2.0
+ +
fragmented activity park [ CULTURAL SPILLOVER]
exterior school playground [ CULTURAL SPILLOVER]
provision street [ CULTURAL SPILLOVER]
events arena [ CULTURAL SPILLOVER]
grass audience area [ FEEL BETTER]
outdoor playground [ JOIN IN]
lookout platform [ STATION SPILLOVER]
covered amphitheare [ CULTURAL SPILLOVER]
the forest [ FEEL BETTER]
park backstage services [ CULTURAL SPILLOVER]
covered meeting spaces [ DEVELOPING]
cascading terraces [ JOIN IN]
outdoor working spaces [ DEVELOPING]
wtc tower backdoor to viewpoint [ DISCOVER]
wtc tower backdoor to rental spaces [ DEVELOPING]
outdoor theatre [ CULTURAL SPILLOVER]
MEETING AREA [ GROUPING]
outdoor hallway [ STATION SPILLOVER]
tranquil MEETING AREA [ GROUPING]
path for service access [ SERVICE]
station shortcut [ STATION STRUCTURE]
covered waiting AREA [ STATION SPILLOVER]
exposed waiting area [ STATION SPILLOVER]
bus info office with business centre
2.0
+ + the window in
............................................................................................................................................................................. DESIGN PROPOSAL
3.0
[ STATION SPILLOVER]
international bus terminal [ STATION STRUCTURING]
drivers rest area & service lane [ STATION STRUCTURE]
+ +
+ +
vibrant outdoor waiting
2.0
+
+ + +
+
+
+ + + + +
[ STATION SPILLOVER]
station core [ STATION STRUCTURE]
lookout tribune [ STATION STRUCTURE]
waiting for pickup [ STATION STRUCTURE]
2.0
-0.0
+ +
+ +
+
+
+
+ + +
+ + + +
+ +
+ + +
+
events stage area [ CULTURAL SPILLOVER]
kiss & ride
[ STATION STRUCTURE]
open air amphitheatre [ STATION STRUCTURE]
covered playground [ STATION SPILLOVER]
+
+ + + +
+ + +
+ +
+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
TRADE | TRANSCEND BORDERS CELEBRATING | FEEL BETTER DEVELOPING | JOIN IN MEETING | CHAT ARRIVAL | FIND
Clara Medina G | 13
LA CUARTA R _ THE FOURTH R, ENERGETIC RESTORATION IN MÓSTOLES | 2015
http://www.coam.org/es/servicios/concursos/concursosocam/reinventar-mostoles-centro
14 | clara.medinag@hotmail.com
................................................................................. THE RENOVE OFFICE
The current potential for restoration and energy saving in the centre of Móstoles is enormous, although its energetic -and therefore economic- saving highly depends on the “Energetic DNA” of each property. Their location, geometry, thermal envelope, systems and maintenance among other factors are of vital importance. The 3 Rs stated in the new law for Restoration, Regeneration and urban Renovation must come together with the energetic Reagroupation of the properties. Such “fourth R” will become the strength for the Restoration process to really become feasible in the near future. The whole restoration process in the neighbourhood will be managed and driven from the “Renove Office” whose main role is to accompany all agents involved in the projects - from citizens to professionals - along all phases. It will also be in charge of collecting, managing and promoting information about the current state of the buildings, properties and urban space, as well as of monitoring, tracking and promoting the projects carried out. The “Energetic DNA” becomes more than an alphanumeric database and richer than a cartographic map, it really is a “geo-database” - an alphanumeric database linked to cartographic information - able to provide with innovative restoration solutions. Thanks to “genetic compatibilities”, new “Energetic Communities” will be defined to carry out restoration projects. They will work in a cooperative basis in order to ease and speed up the development of the projects, avoiding confrontations with building associations and considerably reducing the cost of the projects compared to those carried out individually.
............ ENERGETIC ANALYSIS
Reinventar Móstoles Centro Contest proposal | with Iñigo Lorente
3. NUEVO PROYECTO
2. COMUNIDADES ENERGÉTICAS
Los vecinos pueden unirse a proyectos en marcha para aprovechar la gran escala o iniciar uno a nivel individual y buscar alianzas
Varios vecinos se agrupan por afinidades genéticas para conformar comunidades que se beneficien de gestión, ejecución, mantenimiento y ahorros a gran escala
!
TUS COMUNIDADES Fachada
horas sol m2 - SW kWh - € Mejoras
1. ADN ENERGÉTICO
Cada vecino recibe linformación detallada de su vivienda y es consciente de su potencial y situación en relación al barrio
!
?
MÓSTOLES RENOVE horas sol m2 - vivs kWh - € Proyectos
!
PROYECTOS RENOVE KwH -€ KwH -€ KwH -€
9. PROMOCIÓN
Los projectos ejecutados son casos de éxito que demuestran los resultados, justifican las inversiones e incentivan a nuevos vecinos
1
1. Ventanas 2. Fachada Únete Únete
3
TU PROYECTO AL DÍA ANTES AHORA
KwH €
KwH €
B
4. ASESOR TÉCNICO ASESORÍA TÉCNICA
2
4
A
PROYECTOS EN MARCHA
Nuevo
TU ADN ENERGÉTICO
?
?
Instalaciones
kW
Se vale del ADN y de su formación técnica para asesorar sobre las distintas opciones de rehabilitación y sus ahorros potenciales
€ ASESORÍA FINANCIERA Financia
Individual
Subvenc.
Colectivo
5. ASESOR ECONÓNICO SOLICITA TU PROYECTO Requisitos
SOLICITA PRESUPUESTO Proyecto €A €B €C
Indica, calcula y facilita los distintos tipos de financiación y subvenciones a nivel individual o colectivo
Arq A Arq B Arq C
6. PROYECTISTAS
8. MONITORIZACIÓN
Cada vecino conoce en tiempo real los datos de su actuación, el ahorro logrado y la amortización de su inversión
7. PROFESIONALES
Distintos profesionales y proveedores ofrecen sus presupuestos y se ponen en contacto directamente con las comunidades energéticas
Los arquitectos redactan los proyectos de acuerdo al ADN y a las pautas marcadas en la ordenanza
factor de forma
gasto (€) (refrig.)
200
1000 200
sup. (m²) 50
150 100
sup. (m²)
50
100 150 200 250
50
100 150 200 250
50
ahorro (€)
10
0 110 0 14 0 0
20
400
2000
85
orientación N NE E SE S SO O NO
3000
frecuencia
6
100
800 600
0 50 65 0 0
20
5
4000
200
1000
10
100
5000
frecuencia
200
superficie (m²)
300
6000
300
gasto (€) (calefacc)
NECESIDADES ENERGÉTICAS 400
frecuencia
frecuencia
frecuencia
................................................................................................... ENERGETIC DNA IN THE NEIGHBOURHOOD
NEW PRODUCTIVE ECOSYSTEMS TO RECOVER REGIONAL PRODUCTIVITY AND SUPPLY WITH NEW RAW MATERIALS EL ADN ENERGÉTICO DESCRIPCIÓN DE LAS EDIFICACIONES ENVOLVENTES TÉRMICAS Es la herramienta que, cruzando 400 400 400 información de dominio público, desde las condiciones climáticas 300 300 300 del lugar hasta sociales, pasando 200 200 por constructivas y del estado de 200 la edificación, nos permite conocer 100 100 100 las necesidades, péridas y potencial 20 20 energético desde un inmueble hasta la 20 alturas superficie fachadas 0 1 2 3 4 5 6 7 8 9 50 80 150 200 300 0 1 2 3 4 totalidad del centro.
Clara Medina G | 15
.................................................................................................. TECHNICAL AND ECONOMIC CONSULTANCY
+ autonomía, + rápido
HABITACIÓN
VIVIENDA/ LOCAL
INTENVENCIÓN
AISLAMIENTO INTERIOR
AISLAMIENTO INFERIOR
AISLAMIENTO EN CÁMARA
Descripción técnica € Inversión Ahorro consumo Ahorro en € € Tº Amortización
PROTECCIÓN HUECO MÓVIL
VARIAS VIVIENDAS/ LOCALES
€
€
MUCHAS VIVIENDAS
REHABILITAR VIVS VACÍAS Para alquiler
€
BARRIO
€
500 €/m2 Uso/alquiler 800€/mes 5 años/viv
Con válvulas termostáticas € 28.1€/m2 Tª: 75ºC 20% 0% 22.2 €/mes € 8 años
SUELO RADIANTE
Con aislamiento y suelo nuevo € 107€/m2 Tª: 42ºC 28% 0% 30 €/mes € 24 años
SUSTITUCIÓN VIDRIOS
Agua Caliente y Calefacción € 34.5€/m2/6V 28.05 29.9 €/mes € 8 años
€
€
X8 36-88€/m2 23 años
€
€
HABILITAR CUBIERTA
€
€
€
X 20 32-79€/m2 20 años
€
Por el exterior, cultivable € 86.6€/m2 40% 14% 46 €/mes € 12.8 años
€
€
X 20 223€/hueco 22.3 años
€
€
X8 81.6€/m2 12 años
€
€
CRECIMIENTO EN ALTURA
Estructura independiente € 900 €/m2 Uso/alquiler 800€/mes € 10 años/viv
€
€
X 50 125€/m2 38 años
€
€
X 20 72.8€/m2 10.8 años
€
€
CUBIERTA VERDE JARDÍN
Por el exterior, transitable € 92.1€/m2 40.1% 13.8% 46 €/mes € 13.5 años
€
X8 247€/hueco 24 años
€
€
€
X8 77€/m2 11 años X 20 68.7€/m2 10 años
X 20 360€/m2 15 años
X8 59€/hueco 5.9 años
+ comunidad, + ahorro
16 | La cuarta R _ The fourth R, energetic restoration in Móstoles
€
€
Calderas comunes en cascada € 26.2€/m2 28.05% 30€/mes € 6 años
€
X8 26.3€/m2 7.5 años
X8 572€/hueco 17.5 años
€
€
Con riego por goteo € 621€ 0% 31 % 7.2 €/mes € 7 años
€
€
X 20 53€/hueco 5.3 años
GALERÍAS SUR DE ACCESO
Estructura frente a fachada € 86.6€/m2 10.5% 33% 19.02 €/mes € 53.2 años
Electricidad
€
€
€
€
X8 35€/hueco 2.6 años €
€
€
X8 30.5€/m2 3 años
€
€
€
€
€
X 18 11.5€/m2 3 años
X8 227€/hueco 11 años
Canalización, uso común y riego € 99€/m2 10litros/día/m2 11.3€/año/m2 € 9 años
Agua Caliente y Calefacción € 171.9€/m2/4V 46.6% 32 % 60.35 €/mes € 20 años
X 20 315€/hueco 29.5 años
€
€
€
€
€
€
X 20 23.6€/m2 6.7 años
X 20 23€/m2 5.3 años
X 20 516€/hueco 16 años
€
€
€
€
X 20 31.2€/hueco 2.3 años €
€
X 22 85.5€/m2 19 años
€
€
REUTILIZACIÓN LLUVIA
X 20 27.5€/m2 6.2 años X 20 € 130€/m2 € 15 años
€
€
€
€
En hueco escaleras o exterior
€
X 50 20€/m2 4.5 años
€
€
X 50 85€/m2 10 años
Con Móstoles District Heating € 9.8 €/m2 28.05 30 €/mes € 3 años
75€/m2 Accesibilidad
€
€
X8 4€/m2 2 meses/m2
Mecanismos e iluminación € Variable Hasta 75% 500€/año € Variable
€
€
X8 12€/m2 1 año/m2
SUSTITUCIÓN ASCENSOR
€
€
MINI-CENTRAL TÉRMICA
Bombeo a viviendas no potable € 30€/m2 67 litros/día 22€/año € 1.3 años/m2
X 20 204€/hueco 10 años
INSTALACIÓN ASCENSOR
€
X 20 450€/m2 placa 8 meses/m2 placa
X 22 23€/m2 3.7 años
€
X 53 10€/m2 2 años
X 10 60€/m2 2 años
€
REUTILIZACIÓN LLUVIA
INSTALACIÓN GEOTERMIA
X8 95.6€/m2 21.5 años
465€/m2 placa Hasta 100% 50€/mes 9 meses/m2
€
€
€
En zonas sin tráfico rodado € 210 €/viv 25.3 % 6 €/mes € 3 años
INSTALACIÓN SOLAR Fª
Agua Caliente y Calefacción En cubiertas inclinadas a sur € 30.9€/m2/4V 36.7% 39.1 €/mes € 5 años
€
€
PICAR PAVIMENTOS
235€/hueco 11.6 años
A gas de baja temperatura € 30.8€/m2 28% 30 €/mes € 7 años
CALDERAS CONDENSACIÓN
€
Perlizadores y cisternas 3/6l € 70€/baño 50litros/día 30€/año € 3 años
Por carpinterías PVC aislantes € 242€/hueco 5.6% 12.1% 8.81 €/mes € 12 años
CALDERA CONDENSACIÓN
VEGETAR PATIO INTERIOR
PROMOCIONES PÚBLICAS
Para alquiler y control precios € 1200 €/m2 Uso/alquiler 800€/mes € 11 años/viv
X8 350€/hueco 33 años
SANITARIOS EFICIENTES
SUSTITUCIÓN VENTANAS
Por dobles con cámara aire € 39.7€/hueco 5.0% 7.5% 7.21 €/mes € 3 años
INSTALACIÓN SOLAR Tª
RED DE REPARTO CENTRAL
Por el exterior, jardín vertical € 400€/m2 20% 40% 25.9 €/mes € 16.8 años/m2
Nueva piel con subestructura Aplicada desde andamio € 150€/m2 17.0% 8.0% 20 €/mes € 50 años
X8 27€/m2 7 años
INSTALAR RADIADORES
FACHADA VERDE
FACHADA VENTILADA
Rehabilitación típica fachada Aplicada desde andamio € 41€/m2 1% 0% 0.5 €/mes € 80 años
Cerrando terrazas o balcones € 582€/hueco 5.0% 35% 13.28 €/mes € 18 años
Con monitorización consumos € 120€ 30% 5-15€/mes € 8 meses
Aislante cubierto por mortero Aplicado desde andamio € 42-99€/m2 16.8% 7.5% 20 €/mes € 27 años
Estructura sobre la cubierta € Variable 31.4% 8.0% 35.6 €/mes € Variable
CUBRICIÓN MONOCAPA
Control termostático y por uso € 120€ 15% 10% 13€/mes € 9 meses
Contraventanas mallorquinas € 250€/hueco 2.0% 9.0% 4.39 €/mes € 25 años
CRECIMIENTO EN ALTURA
BLOQUE
INVERNADEROS
Toldos en terrazas € 363€/hueco 2.0% 9.0% 4.5 €/mes € 34 años
RACIONALIZACIÓN USO
Por el interior, espacio no hab. € 6.8€/m2 36.4% 0.6% 38.8 €/mes € 1.1 años
Por el exterior, no transitable € 32-66€/m2 39.7% 10.3% 44.4 €/mes € 8 años
RACIONALIZACIÓN USO
PROTECCIÓN HUECO MÓVIL
AISLAMIENTO EXTERIOR
AISLAMIENTO CUBIERTA
AISLAMIENTO CUBIERTA
PROTECCIÓN HUECO MÓVIL
€
AISLAMIENTO CUBIERTA
Paneles desde el interior hab. € 12.5€/m2 42.3% 0 % 45 €/mes € 2 años
Protección horizontal celosía € 60€/hueco 0.0% 19.5% 4.5 €/mes € 6 años
€
Inyectado desde el interior € 33€/m2 13.7% 4.6% 15.63 €/mes € 15 años
En techos de soportales € 8€/m2 8.8% 9.7% 11.65 €/mes € 16 años
PROTECCIÓN HUECO FIJA
Persianas exteriores € 83.7€/hueco 1.4% 8.0% 3.4 €/mes € 10 años
Paneles pegados a la pared € 25€/m2 14% 4.6% 16.1 €/mes € 10 años
X 50 400€/m2 placa 6 meses/m2 placa
X 53 20.1€/m2 3.2 años €
€
X 50 3.5€/m2 3 meses/m2
€
€
X 50 3€/m2 1.5 meses/m2
INMUEBLES INTEGRANTES DE LAS COMUNIDADES ENERGÉTICAS
ESPACIOS DE OPORTUNIDAD
coste obra
individual cooperativa
superficie del bien inmueble
80 60 40
amortización (años)
.......................................... “THE FOURTH R”: REAGROUPATION AND THE NEW ENERGY COMMUNITIES
COSTE, INVERSIÓN Y AMORTIZACIÓN DE LAS INTERVENCIONES
individual cooperativa
20 50
100
150
200
Comunidad 1 € <10 años
superficie (m²) 250
Una ciudad más paseable y con menos tráfico
Comunidad 2 € 11-15 años
Comunidad 3 € 16-25 años
Viviendas reformadas por dentro y por fuera que ahorran energía y orgullosas de su fachada
Crecimientos en altura con energías renovables Este solar TIENE VIDA
Comunidad 4 € 26-45 años
Centralización de instalaciones
Parcelas de oportunidad
Espacio público de oportunidad
Protección solar y accesibilidad para todos Espacio público permeable y fresco en verano
La “nueva” casa tradicional
Clara Medina G | 17
FORMANDO HAITI_LEARNING CENTRE AS TOOL FOR PRODUCTIVE RECOVERY OF THE AREA IN PETIT GOAVE, HAITI | 2014 Development Cooperation Masters degree final project | Universidad Politécnica de Madrid (ETSAM) CURRENT PROGRAMME IN THE ASSIGNED LOT 27m 11m
Existing big tree
Torrent course across the site Improvised crops for self-consume
8m
Cholera treatment centre (foundations on a slope struck by torrent flow)
28m
3. Acumular
12m
12m 7m
3 drainage pipes (1m wide) cross the road and flow directly in the plot
1
7m
16m 7m
Drainage pipes across the road
16m
2
Power generator
21m
73m
50m
10m
3
5m
Health centre + MOTSHA office Ambulance parking
SEASONAL WATER FLOW Access from the road
environmental and erosion processes to be reversed Heavy seasonal and torrential rains along almost impermeable surfaces
Torrents disgregate the soil and flow down into the valley
Strong erosion and dragging of the fertile soil due to lack of protection
Sediments block drenaige systems and distort riverbeds
water STORAGE and purification for an efficient use in the floodplane
4. Gestionar
Ecosistema en laderas desprotegidas
Fast flooding and construction and crops destruction
Soil retention and RIVERBEDS reconditioning to decrease erosion processes
Mitigation of the soil cracking effect due to impact of rains and rainwater INFILTRATION in terrain
Acciones necesarias para mitigar los procesos de erosión
2. Ralentizar
Staff residence (in the middle of the torrent course)
35m 93m
Procesos de erosión relacionados con el ciclo del agua
1. Infiltrar
A newly-made brick wall interrupts the flow of the water and worsens floods
29m
Qa Suelos aluviales Cs Caliza fina de color crema con capas de arcilla y radiolarita Cc Fruto del Cretácico volcánico Cb Origen volcánico: Basalto intercalado con calizas, turbiditas, calizas y pedernal
The torrent flows into a seasonal river beyond the site limits
NATURAL RIVER BED
................................................. APPROACH
Arquitectos sin Fronteras (ASF) together with a local association (MOTSHA) demanded a professional school in an unstructured lot in the rural area of Petit Goave to help local youngsters and boost local economy. After a multi-scale research on the area and the population, this project soon became a study on how architecture can be the main character in productivity recovery in a region. The first step was to unveil the environmental processes that were taking place in the rural area decreasing its productivity, and four troublesome landscape units were found. The school was conceived as the place to practice and learn about four new productive ecosystems, related to different steps in the water cycle, that would reverse such processes. The programme of the school comprised both experimental gardens for their implementation on site and study and workshop areas to put into practice the industrial knowledge needed to successfully make profit out of them, offering new professions and economic resources to the community. The building itself was regarded as the minimum conditioning of the outer space in order to provide users with safe and appropriate spaces for the specific tasks required in each industrial process to be taught. In this regard water, light, wind and time were used as the main tools for a bioclimatic and responsive design, while the materials and technologies used were those obtained from the new ecosystems. LEYENDA All in all, architecture is not only regardedGEOLOGÍA as a series of suitable spaces for a certain programme but it also becomes a pedagogical tool to teach and experience and a catalogue DIAGNÓSTICO of new materials and technologies to be further learnt and applied by the community. http://claramedinag.blogspot.com.es/ PROPUESTA DE ECOSISTEMAS A IMPLANTAR
green purifying systems land water REUSE
Ecosistema en pies de laderas húmedas pero no inundables Ecosistema junto a los cauces
ENVIRONMENTAL AND SOCIAL ANALYSIS
Ecosistema en la llanura inundable
Rock peaks and exposed soil Highly sloped & unprotected soil Moderate sloped &poorly protected
Permanent water courses Torrents and seasonal water courses Urban areas permanently connected
Slopes with low vegetagion
Urban areas isolated in wet season
Slight slopes & high vegetation Intensive and traditional croplands
Permanent roads and transport Roads interrupted in wet season
18 | clara.medinag@hotmail.com
PROPOSAL AT DIFFERENT SCALES Restore water cycle Productive ecosystems
Programme at school EXISTING
SHARED
1. Dry Hill 1. Leak
2. Humid Forest
2. Slow down
3. Waterlands 3. Store
4. Manage
4. Flooding crops
MOTSHA office Health Centre Cholera Centre Staff residence
SCHOOL
Bioclimatic studies EXPERIMENTAL CROPS
INTENDED FLOODING PROCESS:
+
kitchen water latrines
+
class and workshop storage plant nursery
“New” traditional technologies bamboo structures
+
Ay3
knots and joints
1 AÑO
ECOSYSTEM 1: DRY HILLS
4-5m 0,5-1 m 2m 2.5m ∅ 0,3 m / 10 m 2m
1
2
3
3 AÑOS 4
5
E1: COLINA SECA
10-15m
∅ 0,2 m / 4 m
2 AÑOS
Vetiver | Vetiveria Zizanioides |
6
7
4 AÑOS
A
8
B
D
C
F
E
Sisal | Agave sisalana |
1
5 AÑOS G
4
3
2
6 AÑOS
7 AÑOS
8 AÑOS
9 AÑOS
10 AÑOS
15 AÑOS
20 AÑOS
H
6
5
7
A
8
D
C
B
E
H
G
F
tipo Árbol de las calabazas | Crescentia cujete |
1
3
2
4
5
7
6
A
8
B
C
tipo Cabello de ángel | Calliandra calothyrsus |
D
E
F
2
3
4
1
G
H
5
7
6
8
A
B
C
D
E
F
G
H
4m
FUNCIÓN PAISAJÍSTICA: infiltrar precipitación, mitigar disgregación y retener terreno VEGETACIÓN: Resistente a sequía y raíces profundas
ECOSYSTEM 2: HUMID FOREST
12-25m
12-15m
∅ 2 m / 6-10 m ∅ 0,2 m / 8 m
∅ 9-12cm
∅ 1 m / 7,5-9 m
Guadua | Guadua angustifolia |
E2: BOSQUE HÚMEDO
15-30m
10-20m
3
2
1
4
6
5
7
A
8
D
C
B
E
H
G
F
tipo Aceituno | Simarouba Glauca |
1
3
2
4
5
7
6
tipo Madrecacao | Gliricida/Robinia sepium |
1
3
2
A
8
B
5
4
D
C
7
6
E
F
A
8
H
G
B
D
C
F
E
G
H
Caoba | Swietenia Mahagoni |
1
2
3
4
5
6
7
8
A
B
C
FUNCIÓN PAISAJÍSTICA: ralentizar escorrentía y retener terreno VEGETACIÓN: Rápido crecimiento, multitallo, poco trabajo
ECOSYSTEM 3: WATERLANDS
12-18m 15-30m 6m 2,5m
∅ 1cm
∅ 8-10cm
∅ 0,6 m / 9 m
E3: WATERLANDS
tipo Espadaña | Typha domingenis |
1
3
2
5
4
Caña común | Arundo donax |
6
7
1
2
A
8
3
Bambú común | Bambusa vulgaris |
1
B
5
4
3
2
D
C
6
7
4
5
F
E
7
6
G
H
B
A
8
8
D
C
A
B
F
E
G
D
C
E
H
F
H
G
tipo Balsa | Ochroma pyramidale |
1
3
2
4
5
6
7
8
A
B
C
D
B
A
C
D
F
E
H
G
∅ 2cm
Función paisajística: control y acumulación de agua y mantenimiento de cauces vegetación: Rápido crecimiento, resistentes a inundación, útil y muy productiva
ECOSYSTEM 4: FLOODING CROPS 10-20m 12-18m 2-4m 1,5-3m 0,6-1,2m 0,2-0,7m ∅ 0,3m / 7-9m
∅ 0,5 m / 8 m
∅ 1 m / 20 m
0,3 m
0,3 m
0,3 m 0,3 m
Función paisajística: control y reutilización del agua y evitar evaporación vegetación: Vegetación multicapa, cultivos alternos compatibles con distinto grado de resistencia a inundación y muy productivos
E4: CULTIVOS INUNDABLES
Arroz | Oryea sativa |
20m
1
2
3
4
5
6
7
8
tipo Batata | Ipomoea batata |
A
B
1
2
C
3
D
4
E
5
F
6
G
7
H
8
tipo Cacahuete | Arachis hypogaea | A
B
C
D
F
E
G
Guaba | Inga edulis/vera |
3
2
1
6
5
4
7
8
tipo Yuca | Manihot Utilissima |
H 1
2
3
4
5
6
7
8
1
2
3
4
A
B
C
1
2
3
4
5
D
E
F
G
H
F
E
6
7
G
H
A
8
Mango | Mangifera indica | Cocotero | Cocos Nucifera |
5
6
7
8
A
B
C
D
E
F
G
1
B
2
C
3
D
4
E
5
F
6
G
7
H
8
A
B
C
D
E
F
G
H
H
Maturity Abailable resource
Growing up Resources line
New specimen Regular harvest
LANDSCAPE PLANT FEATURES
Stands droughts 4 Deep roots 7 Stands winds 1
2
Stands floodings 5 Broad roots 8 Seasonal changes
3
Accepts poor soil 6 Dense foliage
PRODUCTIVE PLANT FEATURES A Soil retention B D G
Structural use Biomass
Torrent slow down C Water purification F Edible E Vegetal fibres H Cattle fodder
MATERIAS PRIMAS OBTENIDAS
Natural Canes fibre
Wood
Bamboo Food
Cattle fodder
Oil Chemicals Fresh water
RENDIMIENTO
Erosion severity ASF investing
Productive performance Economic performance
PRODUCTIVIDAD
KEY
ECONOMÍA
............................................................................................................... REGIONAL STRATEGY AND PROPOSAL
NEW PRODUCTIVE ECOSYSTEMS TO RECOVER REGIONAL PRODUCTIVITY AND SUPPLY WITH NEW RAW MATERIALS
Inicio de la retención de terreno Inicio del acondicionamiento de cauces Cultivos alternos mejoran fertilidad Disminución de disgregación Cauces etabilizados y avenidas controladas Menor evaporación
EROSIÓN
Madera estructural
Humedad retenida en capa suerficial del terreno
Sombra mejora rendimiento y gestión de la humedad
Rendimiento completo de todos los ecosistemas
Consolidación de todos los ecosistemas
Sombra mejora rendimiento y gestión de la humedad
Bosque joven
PRODUCTIVIDAD Personal cualificado + financiación para plantas y herramientas INVERSIÓN
Venta de raices a industrias existentes AMORTIZACIÓN
PLANTACIÓN
Abastecimiento para la enseñanza
CONTROL Y CONSOLIDACIÓN
Abastecimiento a las familias
Profesionales locales
Emprendimiento local
Mercado comarcal
Pequeña industria maderera
Mercado local
CAPACITACIÓN Y EXPLOTACIÓN
Industria maderera completa
Fin de la financiación
NUEVAS EXPLOTACIONES
AUTONOMÍA DE LA ESCUE
Clara Medina G | 19
BEGINNING OF THE ACCADEMIC YEAR JULY
AUGUST
SEPTEMBER
OCTOBER
NOVEMBER
DECEMBER
JANUARY
FEBRUARY
MARCH
APRIL
MAY
JUNE
1. VEGETAL FIBRES INDUSTRY 1.FIBRAS VEGETALES
8 9
3
10
2 4 1
5
7
10. Venta en el mercado local
8. Almacenaje 5. Siembra del vetíver
1B. Clases prácticas de hilado 1A. Clases teóricas
4. Machacado de las hojas
3. Secado de las hojas
2. Cosecha de las hojas de sisal
6
5. Separación de las fibras
7. Hilado de las fibras
6. Teñido de las fibras
9. Elaboración de tejidos
2. BAMBOO INDUSTRY
2. BAMBÚ ESTRUCTURAL
9 7 3 4
8 5 1 6 2 3
3. CANE INDUSTRY
1B. Clases prácticas de construcción 4. Inmersión de 1-2 semanas en agua para blanquear
2. Cosecha de los culmos
1A. Clases teóricas
3. Tratamiento por inmersión de 4 días en solución de boro
10. Venta en el mercado local 5. Secado vertical u horizontal de 6-12 semanas
6. Elaboración de piezas especiales
9. Construcción de estructuras
7. Almacenaje
11
4
6
7
6’ 4’ 3’
8’
8 1 5
2’ 2
5’
4. PERMACULTURE
5’. Hervido de las cañas 4’. Clasificación de las cañas
1A. Clases teóricas 7’. Almacenaje de cañas
3. Secado de las cañas
1B. Clases prácticas de tejido
6. Secado de las cañas 4. Clasificación de las cañas
5. Hervido de las cañas
7. Almacenaje de cañas
8. Trenzado y tejido
9. Almacenaje de tejidos
10. Venta en el mercado local 11. Colocación de cerramientos
2’. Cosecha de las cañas
3’. Secado de las cañas
2. Cosecha de las cañas
8’. Trenzado de mobiliario
8 9
7 5 12
10’. Venta en el mercado local 6’. Secado de las cañas
1 4
3
4 2 6 10 13
4. PERMACULTURA
3
10 10’
7’
3. TEJIDOS DE CAÑA
9 9’
4. Venta en el mercado local
1B. Clases prácticas de agricultura
6. Siembra cacahuete
11. Venta en el mercado local
3. Empaquetado
2. Cosecha arroz
8. Cosecha frutales 5. Abono
1. Clases teóricas
9. Cosecha cocotero
7. Riego de cultivos
10. Cosecha cacahuete
13. Siembra arroz
12. Abono
5 12
KEY
RAW MATERIALS OBTAINED 33ºC Madera
Bambú Alimento Forraje estructural ganado
Aceite
INDUSTRIAL PROCESSES Fase teórica Inicio de tarea
Fase práctica Tarea puntual
CLIMATE Mínimas mensuales Época seca
Máximas mensuales Época húmeda
Trabajo de campo Transformación de recursos Inundaciones
33ºC 175mm
Químicos Agua depurada
CICLONES
Fibras Cañas naturales
CLIMA
.................................................................................................................................... ARCHITECTURAL PROPOSAL
TIME AND SPACE NEEDS AT THE SCHOOL
130mm 27ºC cota -2.5
32ºC
200mm
26ºC
cota -2
26ºC cota -1
220mm 31ºC
30ºC
31ºC
180mm
26ºC cota 0
20 | Learning Centre as a tool for productive recovery of area in Petit Goave, Haiti
25ºC 85mm cota -4
24ºC 35mm
30ºC
30ºC
23ºC
23ºC 40mm
31ºC
31ºC
32ºC 150mm
25ºC 30mm
31ºC
125mm 25ºC
25ºC cota -0.5
60mm
cota -3
26ºC cota -2
tw
een
the extremes o f
Mortar refilled bamboo culm articulating 2 frame ends
tru
fram
D3.
al
Joi
2s
1
ur
nt
be
ct Bamboo bolt
2
long i
5 See N3
beams
D
en
tra
ible
14
C 2.
t made in se l join ve
ral
kn
ot
Amarrar bastidor de cubierta y cubrir con planchas de bambú
lex
Vaciar interior y/o compactar tierra para pavimento
lf
15
a
4 See N5
soil retention and foundations plan
es and
Knot joining adjacent 3 structural frames
tud in
ph
Colocar barras del cerramiento interior apoyando en la estructura principal
Ending
Ver N6
Colocar y amarrar correas de cubierta
12
4 See N6
5 3
th a single ro pe s wi
13
ase
6 Internal mortar reinforcement
11
2 See N5
Colocar y amarrar vigas longitudinales de cubierta
1
10
See N2
Ay3
Colocar barras diagonales paralelas encajando el extremo en el soporte vertical
9
Colocar barras diagonales exteriores encajando el extremo en la viga del pórtico
8
Colocar barras diagonales interiores, encajando el extremo en la viga del pórtico
de
p
d en
en
ee tm
ting of the poles (P) an
d
flo
6
3
Colocar y amarrar correas de forjados
Colocar y amarrar vigas
5 longitudinales en forjados
Colocar pila de neumáticos como encofrado perdido y rellenar con rocas y grava
Steel wire rod connector P Metal reinforcement in cut extreme Steel wire rod across joint
B
B
1 4
Enganchar las viga de forjado en las esperas
B
Tap to tie beams to foundation
B
Junction box between floor beams
foundation (F)
2
Internal mortar reinforcement Metal extreme reinforcement
with
Pinchar soportes verticales antes de verter el hormigón
P P
) s (B
Colocar listones verticales de pavimento
7
Colocar vigas de pórticos y unirlas entre sí y a los soportes, después hormigonar la cimentación
or
am
D1.
In
architectural floor plan
be
........................................................................................................................................ CONSTRUCTION MANUAL
EL PÓRTICO BASE Los pórticos de cada sector siguen una transición desde la menor luz (8m) en el extremo a la mayor en su eje de simetría (15 o 20m),
conservando unas proporciones geométricas para una fácil construcción. structural module and relative dimentions between elements
wire rod set B Steel during concrete Concrete and rocks filling F Tyres as lost formwork
works
F
Clara Medina G | 21
...................................................................................................................................... OVERALL PERFORMANCE
EFFICIENT WATER MANAGEMENT 3. COLLECTION AND TREATMENT ELEMENTS IN THE SCHOOL
1. TWO WATER CYCLES ACCORDING TO ITS ORIGIN
1A
B. FLOODING WATER CYCLE 2. Collection and storage in tanks though draining lid 4. Constructed wetlands along torrentbed
3A 4A
4B
2A
2B
2B
A. DRINKING WATER COLLECTION Drinking water collecting surface Drainage ditch Rainwater tank Purification tank Constructed wetlands
2B 2B
2B
B. NON DRINKABLE WATER COLLECTION Flooding levels Flood tanks Water tank for bamboo treatment Constructed wetlands
A. RAINWATER CYCLE (DRINKABLE) 1. Collection in drainage ditch 3. Purification 2. Storage 4. Constructed wetlands
4A 3A 2A 1A
4B
2. WATER USE AND REUSE ACCORDING TO ITS USE Consumption
+
Cattle
+
Cooking
Hygiene
EFFICIENT water WATER MANAGEMENT efficient management B. FLOODING WATER CYCLE 2. Collection and storage in tanks though draining lid 4. Constructed wetlands along torrentbed
3A 4A
4B
2A
2B
2B
A. DRINKING WATER COLLECTION Drinking water collecting surface Drainage ditch Rainwater tank Purification tank Constructed wetlands B. NON DRINKABLE WATER COLLECTION Flooding levels Flood tanks Water tank for bamboo treatment Constructed wetlands
A. RAINWATER CYCLE (DRINKABLE) 1. Collection in drainage ditch 3. Purification 2. Storage 4. Constructed wetlands
2B
Cattle
+
Industry
+
Crops Crops
+
1. TWO RECYCLING PROCESES ACCORDING TO ITS ORIGIN
2A
2B 2B
1A
2A
4A
+
4A
1. Digestor 2. Biogas storage
2A 4B
Industry
+ +
Crops
3B
B. RESIDUOS ORGÁNICOS HUMANOS Y VEGETALES 1. Latrines 2. Compost tanks
3. Gas kitchen 4. Fertilizing biol
+
Industrial O.W.
+
3. Compost
B. DIGESTIÓN DE R. O. HUMANOS Flooding levels Energy flow Fermentation tanks Profited lands
Cooking O.W.
+
>
Crops
1A
2B
2. TRANSFORMATION AND REUSE OF WASTE MATERIAL Animal O.W.
Industry
2B
A. ANIMAL AND VEGETAL ORGANIC WASTE
3A
Cooking
Hygiene
3. RECYCLING ELEMENTS AND ENERGY GENERATION A. COMPOST MAKING FROM ANIMAL AND VEGETAL O.W. Energy flow Fermentation tank 1B Storage gasholder Profited lands
1B
3A
1A
1A
+
Industry
2B
2. WATER USE AND REUSE ACCORDING TO ITS USE Consumption
+
WASTEMANAGEMENT TREATMENT ANDand ENERGY GENERATION WASTE ENERGY GENERATION 3. COLLECTION AND TREATMENT ELEMENTS IN THE SCHOOL
1. TWO WATER CYCLES ACCORDING TO ITS ORIGIN
1A
Fertilizing biol
2A Human O.W.
+
Crops O.W.
>
3A
Kitchen biogas
2A
Compost
1A
WASTE TREATMENT AND ENERGY GENERATION 1. TWO RECYCLING PROCESES ACCORDING TO ITS ORIGIN
3. RECYCLING ELEMENTS AND ENERGY GENERATION A. COMPOST MAKING FROM ANIMAL AND VEGETAL O.W. Energy flow Fermentation tank 1B Storage gasholder Profited lands
22 | Learning Centre as a tool for productive recovery of area in Petit Goave, Haiti 2A
4A 1A
3A
2B
1B
2B
2B
3B
B. DIGESTIÓN DE R. O. HUMANOS Flooding levels Energy flow
2B
3B
4A
2B
3B
Clara Medina G | 23
..................................................................................... VIEW FROM FLOODED CROPS IN THE RAINY SEASON
CGC_ CENTRE GASTRONOMIQUE CALDERON | 2012 Archizinc Contest proposal | with Iñigo Lorente
7
Public walk over gardens
2
New linking Forest
8
Greenhouse
3
Pedestrian platform
9
Enterprise incubator access
4
Public stands & rooms
10 Market access
5
Walk over wetlands
11
6
Vegetable gardens
24 | clara.medinag@hotmail.com
Covered M30 Highway
9 7 8
The North façade should solving the dirty and mes
WHAT DOES THE STADIU
6
A survey carried out amo the understanding of the Gastronomique Calderon
4 1
A bag of potential clien
“I plan my month acording to
3
3
An explosion of cars
“Cars can’t even cross the area w
5
5
An icon for the area and
“Everyone recognises the silo
2
HOW IS THIS TRANSLAT The urban, programma from the imput given b
1
Preserve and open the old iconic structure for leisure activities
A visit to feel the real experience of the site helped making a first diagnosis and setting strategies for the project:
1
Madrid Rio Park
2
New linking Forest
3
Pedestrian platform
4
Public stands & rooms
1 2 5
8
Greenhouse
accessamong local people and visitors to the Madrid Rio park 9 Enterprise incubator A survey carried out Market access completed1011 the understanding of the area and the future role of the CGC: Covered M30 Highway
5
Walk over wetlands
6 7
Vegetable gardens Public walk over gardens
1 A bag of potential clients for local businesses 2 Site Plan “I plan1:1OOO my month acording to the monthly matches”
A. View from the Park
B. View from the street
C. View from behind
Ex in
HOW IS THIS TRANSLATED INTO THE PROJECT? “I miss a place where rock bands can meet to play music” The urban, programmatic and bioclimatic aspects of the design were directly born from SEPARATION the imput given OF FLOWS REORGANIZATION OF THE FLOWS Walking access: higher level The pedestrian paths recover their natural importance in the extension of the over a new platform that elevates over the former byparklocal people:
The chamber of secrets
BAR
Com
open-air highway. This platform allows visitors to access the CGC directly from the park or to cross it in all directions, connecting Madrid Rio with the core streets of the neighbourhood. The more direct, visible and secure paths also enhance the use of public transport to get ot the CGC. Develop local business The road traffic general scheme is preserved, although it is simplified and covered with the pedestrian platform and with a screen continuing the effect of the platform to the North, so that drivers are no longer dazzled and the park is not polluted with car fumes. rk
6
Madr
1 Pa 3
id Rio
Private crops
EXTENSION OF THE MADRID RIO PARK INTO THE CITY
3
An explosion of cars “Cars can’t even cross the area when a match is taking place”
4
Public Building
Public Garden
A deciduous extends theRio Madrid Rio Park landscape and configures a new south façade for the CGC. A transition between natural A barrier on the border offorest Madrid Park ecosystems graduates from the natural riverside park to the urban landscape.
nsport
To Main Street
lic Tra
To Pub
“Lots of money have been invested in the park”
BIOCLIMATIC APPROACH OF THE CGC
TRANSITION OF LANDSCAPES:
The complex seeks the total closure of the water cycle in recover Preserve andorder opentothe old rainwater from the roofs and pedestrian platforms first and reuse grey and agricultural water after it hasiconic been used with afor lagooning structure leisure system located on the former south stands. This area is covered by the already mentioned forest, which serves as a natural sunscreen, protecting the whole complex from the hardest south radiation. activities The orchards over the area where the football grass used to be become the heart of the CGC, providing it with almost all 3 the raw material needed for its economic activity., as well PAR K as with a visual and physical link between visitors, users and employees. All three ecosystems are Double ground level: of vital importance to create a micro-climate able to soften the heat island effect of the urban environment. The building itself is improved so that cross-ventilation, natural light and passive heating and cooling areparking assured,under as wellorchards as it generates all the electricity needed in the CGC. All this is achieved with 1 only 2 a 5few elements: the adjacent greenhouse, light and heat towers, an optimized photovoltaic screen and care for the skin and the orientation of the façades.
More and easier accesses to the complex and direct connection with public transport Madrid Rio ->
Forest 3
->
Wetland
CLOSED WATER CYCLE
5
An icon for the area and the city “Everyone recognises the silohuette of the stadium”
6
REUSE AND ADAPTATION OF THE EXISTING STRUCTURE
South forest and lagooning preserving the “façade” contour
Efficiency and sustainability start by saving resources. The CGC reuses the whole underground structure, where a public parking
“It all begins when cars slow down blindedarebylocated, the sun area and the logistics andwhen recovers the parts of the volume that meet the urban, landscape, bioclimatic 4 and5programatic they come out of the tunnel” necessities. The East stands are removed and South ones from the first floor up, as to enable the creation of the new natural environments and allow the sun-rays into the orchards and buildings during the whole day. In the North construction the stands are removed together with the top floors in order to show the primitive triangle-shaped structure and host the public market and business incubator. Finally, the free-standing West stands are preserved and integrated in the Madrid Rio park as an icon, a public equipment and solar protection from the more horizontal rays at dusk.
THE CGC AS AN INTEGRAL PROJECT
3 4 5 6 Extend the walking path and the park into the complex and over the road
All in all, we get a sustainable gastronomic complex in all levels: ecological, economical, social and urban, that will continue being an icon while becoming a source of activity and social cohesion both to the neighbourhood and the city of Madrid all through the year.
Agricultural
Crops
Rainwater is storaged
Grey water Main building
Black w
BIOCLIMATIC BUILDING H AIR FRES
FR E S H A I
R
HE ATIONG
Madrid Rio Park
Instead of the fortress e with the neighbourhood
10
11
ND
1
The South volume should recompose the proportio
............ STAKEHOLDERS RESEARCH
THE PROGRAMME IN THE COMPLEX
Centr
ES1-13016-E3
WHAT IS THE CURRENT A visit to feel the real ex setting strategies fot th
......................... ON SITE RESEARCH
Given the complexity of the site, the programme and the urban area were the new gastronomic complex was to be designed, our team took the challenge of learning the current inconveniences and future possibilities of the Calderon stadium directly on site. Thus, we visited the area to experience the space, magnitude and life of the area in our own skin. Once there, we also carried out several surveys among local people and visitors to the Madrid Rio park to complete the understanding of the area, the stadium and the future role of the complex and, as well as to understand how the area was daily lived and what specific needs the real future users had. All this visual, spatial and ethnographic information helped making a first diagnosis and setting strategies for the project. The main goal for the team was to design a sustainable gastronomic complex in all levels: - Ecological. Efficiency and sustainability start by saving resources, so two were the main considerations in order to reduce the CO footprint. - Economical. As to help develop the economy of the area, not only does the CGC provide with the programme proposed, but it also becomes an equipment for neighbours to develop own activities and reinforce the neighbourhood feeling. - Urban. Thanks to its strategic location, the CGC could not lose the golden opportunity of synergic landscapes and environments and extending the park to the inner neighbourhood, solving the current barrier problem. - Social. The blend of productive and leisure programmes provides with visual and physical link between visitors, users and employees. http://www.campus-archizinc.com/en/campus-archizinc/ resultats/2nd-edition-results.html
1. General Strategy: the CGC as a response to a complex context
CO O L I N G
A
A transition of landscapes links the park to the core of the neighbourhood.
REORGANIZATION OF THE FLOWS New pedestrian platform continuing the park and covering the highway and traffic separates flows and solves the current barrier problem.
BIOCLIMATIC APPROACH In the big scale 3 main concepts were introduced: closed water cycle, vegetation to create a fresh microclimate to mitigate the heat island effect and energy sufience. In the building scale, passive construction for energy optimization is the main goal.
REUSE AND ADAPTATION OF THE EXISTING STRUCTURE Efficiency and sustainability start by saving resourcesThe CGC reuses the whole underground structure, where a public parking area and the logistics are located, and recovers the parts of the volume that meet the urban, landscape, bioclimatic and programatic necessities.
........................................................................................... LANDSCAPE AND ARCHITECTURE STRATEGIES
........................................................................................... THE CGC AS AN INTEGRAL PROJECT
EXTENSION OF THE MADRID RIO PARK INTO THE CITY
TRANSITION OF LANDSCAPES:
Madrid Rio ->
Forest
->
Wetland
->
Crops
->
Gardens
->
City
CLOSED WATER CYCLE
Rainwater is storaged
Crops
Agricultural water
Grey water
Water is cleaned in the wetland and storaged
Main building Black water to urban sewage system
STUDY AND ADAPTATION OF THE EXISTING STRUCTURE Previous state:
New structure proposed:
Clara Medina G | 25
se · nhou ree
venturi effect control ventilated or not air chamber
solar chimney with thermal inertia wall
hot air exit (winter) air intake (summer)
greenhouse-effect accumulator
ney · chim lar - so
gg
When the platform meets ground level, a protecting pergola continues to prevent drivers from dazzling.
The top West stands are left as part of hte park, and the space inside the building will be remodelled for neighbours to rent .
· photovolt aic lat ti
· ce
.................................................................................................................. BUILDING DESIGN AND PERFORMANCE
· heat accum ula tor
· heating-v ent ilat in
photovoltaique panel over wood decking system movable wooden blades A net from the roof enables plants to climb protecting and shading the pedestrian area.
Working paths separate the crops and serve as access for farmers and workshops.
26 | Centre Gastronomique Calderon CGC
Elevated paths enable the approach of the general public to the agrarian works.
Floor Plans 1:500 FIRST FLOOR: BUSINESS INCUBATOR
The North Zinc Facade In Detail 1:30 GROUND FLOOR: MARKET, GREENHOUSE AND CROPS VMZINC IN MOTION FACADE
First floor: business incubator
Ground floor: market, greenhouse and crops
The envelope for the business incubator in the north facade is built using two different constructive solutions for the “VMZINC Z panel” in quartz finishment.
vmzinc finishements
The closed areas of the facade are built with the usual Z profile vertically mounted (Nr. 8 in detail section).
vmzinc z profile panel
The glazed openings are thermal and lighting protected using an unusual solution for this profile proposed by our team. It involves sewing two Z profiles and filling the space in between with XPS thermal insulation obtaining vertical blinds up to 3 m lenght.
vmzinc “double seaming” z profile panel
Thermal behaviour of the doble glass CLIMALIT enclosure is improved with a cellular polycarbonate layer making two non ventilated air chambers. This sollution also diffuses the illumination for the inner spaces.
.............. BIOCLIMATIC RESPONSE
GROUND FLOOR: MARKET, GREENHOUSE AND CROPS WINTER STRATEGY Min. Solar attack angle = 26.6º 1. Photovoltaic optimized lattice allowing solar irradiance on south facade. 2. Green deck. 3. Solar chimney with thermal inertia wall. 4. Greenhouse hot air facade chamber. 5. Greenhouse effect thermal acumulation area.
4
South
1
3
2
North
SUMMER STRATEGY Max. solar attack angle = 73.4º 1. Photovoltaic optimized lattice protecting south facade. 2. Green deck with water-fed loop for radiant cooling. 3. Solar chimney with thermal inertia wall forcing crossed ventilation inside the culinary incubator. 4. Venturi effect on greenhouse’s hot air facade chamber forcing crossed ventilation inside the market.
We have added a separated air intake to obtain cross ventilation inside the business incubator forced by the solar chimneys of the complex. This intake is closed with the movable sollution for the Z profile.
4
1
5
3
2
This motion facade offers different finishments for the building for different climatic conditions; summer and winter, night and day.
South
inner heat thermal insulation winter
North
cross ventilation controled facade shading summer thermal insulation inner heat street lighting night
diffuse inner daylighting day
Clara Medina G | 27
........................................................................................ INTERIOR SPACE AND CONSTRUCTION DETAILING
VMZINC IN MOTION FACADE The envelope for the business incubator in the north facade is built using two different constructive solutions for the “VMZINC Z panel” in quartz finishment.
vmzinc finishements
The closed areas of the facade are built with the usual Z profile vertically mounted (Nr. 8 in detail section).
vmzinc z profile panel
The glazed openings are thermal and lighting protected using an unusual solution for this profile proposed by our team. It involves sewing two Z profiles and filling the space in between with XPS thermal insulation obtaining vertical blinds up to 3 m lenght.
vmzinc “double seaming” z profile panel
Thermal behaviour of the doble glass CLIMALIT enclosure is improved with a cellular polycarbonate layer making two non ventilated air chambers. This sollution also diffuses the illumination for the inner spaces.
The greenhouse gives a bright green end to the market space.
We have added a separated air intake to obtain cross ventilation inside the business incubator forced by the solar chimneys of the complex. This intake is closed with the movable sollution for the Z profile.
This motion facade offers different finishments for the building for different climatic conditions; summer and winter, night and day.
inner heat thermal insulation winter cross ventilation controled facade shading summer thermal insulation inner heat street lighting night
diffuse inner daylighting day
CONSTRUCTION DETAILED SECTION LEGEND 1. Green deck: soil and vegetation layers.. 2. Green deck: filter sheet. 3. Outer closed water loop for nocturnal radiative cooling. 4. Green deck: Floradrain FD 60 system 5. Green deck: retention, root barrier and waterproof layers. 6. Precast cellullar concrete slab. 7. North façade: brich layer. 8. North façade: VMZINC Z profiled façade panel. 9. North façade: ventilated air chamber. 10. North façade: XPS thermal insulation.
North façade design and performance
28 | Centre Gastronomique Calderon CGC
11. North façade: engine for mobile façade panels. 12. North façade: double seaming VMZINC Z profiled façade panel with internal XPS therman insulation. 13. North façade: CLIMALIT double glass. 14. North façade: non-ventilated air chamber and cellullar polycarbonate. 15. Roof fancoil. 16. Inner water loop for nocturnal radiative cooling. 17. Air intake grille for cross ventilation.
Meeting areas are located under the light and ventilation towers.
IAM _ THE TOOL FOR THE WORK ENVIRONMENT OF THE 21st CENTURY | 2013 User Centred Innovation Masters Final Project | h2i Institute
https://vimeo.com/61110736
............................................................ ethnographc research
RESEARCH TOOLS
What do an architect, a graphic designer, a web developer and a businessman do together in an innovation team? h2i Insititute is a Private Innovation School founded by the Design Consultancy Firm Designit. In the User Centred Innovation Master we learnt about all phases and tools for designing with the focus on steakholders and final users, including Creativity (Creative Problem Solving), Design Research (Generative Social Research and Participatory Research), Design (Strategic Design, Prototyping and Service Design) and Business (Business Model Canvas and Implementation). Parallel to theory, transdisciplinar teams applied the learnings on a real project for a Sponsor. I Am is the project I developed with my team for Sage. Our challenge was to find a space of opportunity in the working environment of the 21st Century. After documenting and researching on the challenges both of the 21st Century and the world of work, we decided to focus on how companies could find and manage talent and their relationship with the freelancer. The outcome was IAM, a web and mobile platform for talent showoff and finding and optimum group assembling.
ANALYSIS OUTPUTMAPPING: THE UNIVERSE OF WORK
More info Social, technological, business and working trends documentation analysis
12 in-depth interviews
2 co-creation sessions
3 personas to work with their related work routine blueprints
cocreationS, focus group activities AND BLUEPRINTS for user input
Clara Medina G | 29
s)
del siglo XXI emergentes
Flexibilidad
“El trabajo tiene que permitir tener tiempo para la vida social y familiar y ser feliz”
OCIO
TRABAJO
OCIO TRABAJO
IDEAL
“El trabajo ideal no existe, tienes que adaptar tu trabajo a ti” TIEMPO
SOLEDAD
Ocio
REALIDAD
LUGAR
ORGANIZACIÓN
FLEXIBILIDAD
Valoración
Reuniones
“Queremos ver cómo hemos satisfecho nuestras expectativas y las del cliente”
“Afortunadamente no todos los días tienes reuniones”
REUNIONES
Momento Café
Competencias y Habilidades
“De tener oficina fija echo de menos el café de las mañanas, que alguien te cuente algo del día anterior o un comentario, las risas, el día a día”
“Mi puesto de trabajo no existía. El feeling de caernos bien nos hizo plantearnos el trabajar juntos”.
=
+
PRODUCTIVIDAD
y redes
Es la primera vez en la Historia de la Humanidad que una tecnología (la tecnología digital) cambia a la vez el sistema productivo y el sistema de transmisión de conocimiento.
=
?
Our main findings in the research stage were the trigger for the development of out prototype. The concepts lying underneath were: - It was the first time in history of humanity that a technology (digital) was transforming the productive system and the knowledge transmission medias at the same time. - The elements that defined what work is were: Remuneration & Reward, Evolution and Growth, Feeling Special, Relationships with clients, relationships with coworkers, Flexibility and the definition or lack of physical working space. How these elements are quickly evolving pictured a new working environment with new challenges to be taken care of. Among all the possibilities opened by the analysis, the team decided to focus on: Talent Management - How to find what I need when I need it - How to show what I have to offer - How to form “perfect teams” - Adaptation to an ever-changing market defined in projects DISEÑAR EL PUESTO DE TRABAJO DEL SIGLO XXI: ADAPTARLO A LOS NUEVOS HÁBITOS SOCIALES
Es dificil ver y valorar lo ESPECIAL de alguien y mostrar lo ESPECIAL de uno mismo
the universe of the working environment
EL UNIVERSO DEL TRABAJO
Compañeros “Algunos de mis mejores amigos son del trabajo” “Sin un buen equipo no llegas a ningún objetivo”
Evolución y Crecimento
Remuneración y Recompensa “Cubiertas las necesidades básicas buscamos algo más”
Soy especial
Remuneración y Recompensa
Cliente
Dinero
“Tienes que traducir sus necesidades. El esfuerzo es tuyo”.
Valoración
Jefes LA IMPORTANCIA DEL DINERO
Dinero
Evolución y Crecimiento “Llegas antes a muchos objetivos más cercanos que a uno muy alto al que no llegas y al final desistes”
Estándar
¿?
Cliente
Sin oficina
Compañeros Reuniones
“Los sin oficina necesitan improvisar mesa, sala de reuniones…”
Empleados
Momento café
A medida
CLIENTE INTERNO CLIENTE EXTERNO
INVERSORES Ocio Flexibilidad
IE
R
PE EX
WIFIS IA
C
N
Sin oficina
YO O S
ura fija
ethnographic research insights and starting point for service design
R ET
así como
.......................................................................................................................... creative problem solving
PUESTO DE TRABAJO DEL SIGLO XXI: ADAPTARLO A LOS NUEVOS HÁBITOS SOCIALES
30 | IAM _ The tool for the work environment of the 21st century
REUNIONES LA EMPRESA COMO ESTRUCTURA FIJA PASA A CONVERTIRSE EN COLABORACIÓN DE INDIVIDUOS Y REDES PARA PROYECTOS CONCRETOS
I am I AM
Proyecto SAGE desarrollado por Carla Damerell, Eva Giménez, Rogelio Márquez y Clara Medina para h2i institute (2012-2013)
INFOGRAFÍA DEL SERVICIO
EMPRESA EMPRESA eMPRESA eMPRESA
............................................................................................................... IAM SERVICE COMMERCIAL PROPOSAL
EMPRESA
IAM MOBILE APP MOCKUP
Explanation More info
I am
EMPRESA EMPRESA
CCÓ
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CÓMO C ÓL M O E LE
CÓ
EMPRESA
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ENCUENTRA EL EQUIPO PERFECTO PARA CADA PROYECTO
EMPRESA
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CÓMO
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NUEVA FORMA DE MOSTRAR AL MUNDO SU TALENTO
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RECONOCE Y RETIENE EL TALENTO INTERNO
PERMITE DISEÑAR SU TRAYECTORIA PROFESIONAL
LOCALIZA EL TALENTO EXTERNO QUE NECESITA
CONECTA CON PERSONAS Y EMPRESAS DE SU INTERÉS
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................................................................................................................ IAM SERVICE CONCEPT INFOGRAPHY
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I am
IAM WEB PLATFORM MOCKUP
Clara Medina G | 31
Clara Medina G | Architect clara.medinag@hotmail.com +34 659 86 08 02
THANK YOU!