F R AN C I SCO MARĂ?N NIETO A rc h i tecture / Urbanism R e s e a rc h + Design P ortfolio
FRA N C I SC O M A R Í N NI ETO 01 / 08 / 1989 Málaga (Spain) +34 645 137721 / +31 645 716160 fmarinn@gmail.com
EDUCATION 09/2015-06/2017 MSc Architecture, Urbanism and Building Sciences (Track Urbanism), Cum Laude. Faculty of Architecture and the Built Environment. Delft University of Technology, The Netherlands. 10/2007-06/2014 Bachelor of Architecture. Escuela Técnica Superior de Arquitectura de Málaga (eAM’). Universidad de Málaga, Spain. 08/2010-05/2011 Exchange year. ISEP (International Students Exchange Program). College of Architecture. University of NebraskaLincoln, USA. 09/1998-06/2008 Classic Guitar Professional Diploma. ‘Gonzalo Martín Tenllado’ Professional Conservatory. Málaga, Spain.
RELEVANT EXPERIENCE 09/2014 Research Scholarship at the Royal Spanish Academy in Rome (Real Academia de España en Roma). Introduction to research, on the topic of midcentury Italian architecture and urbanism. Rome, Italy. 08/2014 DJarquitectura. Collaboration on the proposal for an international competition. Motril, Spain. 10/2012-09/2013 Student assistant in the Department of Urban and Territorial Planning. Coordinator: Prof. Susana García Bujalance
SKILLS SOFTWARE: AutoCAD 2D/3D Revit Architecture SketchUp Adobe Photoshop Adobe Illustrator Adobe InDesign ArcMap QGIS CypeCAD Microsoft Word Microsoft Excel Microsoft PowerPoint Rendering and post-production LANGUAGES: Spanish English German ADDITIONAL APTITUDES: Good communication and presentation skills, both in physical and verbal formats; High adaptability to different working environments; Great teamwork and cooperation skills, capable of adopting a leading role if required.
S EL EC T E D WO RKS URBANISM - RESEARCH AND DESIGN - TU DELFT: -SUSTAINABLE SELF/LIVABLE NET. 2017 Graduation proje ct. -POWERSCAPING FLEVOLAND. 2016 -UPGRADING THE RIVER ROTTE. 2016
ARCHITECTURE - UNIVERSIDAD DE MÁLAGA -CHICAGO CHILDREN’S MUSEUM. 2014 -PREVIOUS ARCHITECTURE PROJECTS. 2008-2013
SUS TA I N A B L E S EL F / LI VA BL E N ET 2017 GRADUATION PROJECT. INDIVIDUAL WORK TU DELFT The first stages of this projects have a strong research approach. The main initial focus is on sustainability and livability as two important dimensions of urban environments that are normally found to be in a constant imbalance. The achievement of a sustainable and livable city is hindered by the constraints of urban form. Density, in particular, has a crucial role in defining the performance of urban environments in terms of livability and sustainability. Research shows that higher levels of density tend to result in more sustainable and less livable environments, and vice versa. In contemporary research, the understanding of the reasons behind this issue represents an urgency. The manifestation of this imbalance can take multiple forms. Being it an eminently abstract issue, its reduction to a manageable and well-studied problem facilitates research and the exploration of possible solutions. In this respect, the Urban Heat Island effect is a phenomenon that represe nts the essence of the issue and that is closely linked to spatial factors. The manifestation of the UHI effect in Mรกlaga (Spain) constitutes a concrete problem, especially in the context of temperature rises and an aging population.
Theoretical framework Sustainability - livability imbalance -Represented by the UHI effect. -Enhanced by form (Density)
Analytical framework Influence of metropolitan structures on temperature
-Design of a system of corridors. -Water functions at metropolitan level. Local manifestations and constraints. Definition of typical environments. Study of density.
UHI EFFECT
THERMAL COMFORT
Self
GLOBAL WARMING
N et
The heterogeneity of Mรกlagaโ s fabric, where different levels of density are present, can both explain the uneven manifestation of temperature in the city and define limitations and potentials regard ing the exploration of solutions. From an analytical point of vie w, this work seeks to define a criteria for the characterization of different density environments and a way to understand how temperature relates to their form through different scales.
Fig. 1. S c h e ma t i c re p re s e n ta tio n o f th e re la tio n s h ip be tw e e n ur ban f o rm a n d t e mp e r a tu re. Tmax
T0
Design
-Integration at local level. -Design alternatives in the s mall scale.
Transferability of design principles
Fi g. 2. D ensi t y t ype Density Density types (FSI + GSI ) types #1
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Fi g. 3. Land Sur fac e TemperatTemperature ure (ยบC 38 37 36 35 34 33 32 31 29,7
ยบC ยบC ยบC ยบC ยบC ยบC ยบC ยบC ยบC
38,0 37,0 36,0 35,0 34,0 33,0 32,0 31,0 29,7
Mor phology
Ty pic al e nv ironment s Re pre s e ntativ e s it es
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N ue v a Mรกlaga
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La Tri ni dad
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(Top) Fig. 4. 0,15 C om par ativ e 0,25 dis tr ibution of 0,35 s ur fac e s pe r st udy 0,50 are a. (Bottom )0,70 Fig. 5. GSI 0,60 Spac e m ate mat ri x. FSI and G SI v alues of each ur ban bloc k . Area La Trinidad
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Fig. 6. Subje c tiv e c har ac te r iz ation of the st udy si t es.
A. Greywater collection
B. Greywater treatme nt
C. Integration at street level D. Storage and use in public space
E. Discharge into main stream
From a design-oriented perspective, the goal is to define a systemic approach to the issue and explore the ways in which urban form shapes the spatial manifestation of the solutions. In this particular case, the proposed solution is based on the generation of a metropolitan-scale system of vegetated corridors. This system accommodates, by itself, some powerful cooling functions and, more importantly, also enables the impleme ntation of a city-scale water system, capable of purifying, storing and discharging water and using it for an enhanced cooling down of the city.
(Top) Fig. 7. Ele m e nts c onfor m ing the m e tropolitan s y s te m . (Right) Fig. 8. Propos al for a m e tropolitan s y st em, in re lation to the s e le c te d s tudy s ite s .
At a local scale, design demonstrates its true potential as enabler of the metropolitan system. The technical aspects of the design at a metropolitan scale need to find a compromise with local constraints and potentials. The same spatial principles (water, shade, vegetation, permeability) can be presented and integrated multiple forms.
(Top) Fig. 9. Sc he m atic s um m ar y of the s e v e n desi gn inte r v e ntions (not all of the m are dis play e d in det ai l on this doc um e nt). (Right) Fig. 10. Propos e d ne w public s pac e in La Tr inidad.
(L eft) F i g . 11 . P ro p o s a l o f lo n g -te r m b lo c k transfo rma t i o n i n La Tr in id a d . (L eft) F i g . 1 2 . P ro p o s a l o f q u a lifica tio n o f p u b lic s quare in Gam a rra . (D own ) F i g . 1 3 . P ro p o s ed q u a lified c o r r id o r a n d its integra t i o n i n t h e e x is tin g fa b r ic.
Ultimately, the introduction of physical measures would not only help to mitigate the UHI effect, but constitute a step towards the necessary balance between sustainability and livability. (Good) design is crucial in the process of unfolding each of the sites’ potentials and results in a clear addition of qualities to both the built and public realms.
Fig. 14 to 19: Te c hnic al propos al and re s ulting m ate r ializ ation of s pac e s , aim ing for a be tte r t hermal adaptation. Re s ulting s patial qualitie s .
P OWER SCA PI NG F L EVO LA ND 2016 R&D STUDIO: SPATIAL STRATEGIES FOR THE GLOBAL METROPOLIS. GROUP + INDIVIDUAL WORK TU DELFT “To what extent can Flevoland transform itself into a sustainable energy landscape?” At the group stage, different spatial strategies were developed at regional level to explore how Flevoland, one of the provinces of The Netherlands, could take a leading role in the transition to renewable energy sources. These explorations take into account existing features of the territory, as well as different energy scenarios in order to offer a vision that takes into account the whole energy spectrum: the production, distribution and consumption of energy (Fig. 1).
Team members: Francisco Marín Nieto, Kritika Sha, Anouk Klapwijk, Marcello Vietti, Jiabiao Lin Five crucial spatial interventions would help to reach this vision, one of them being the transformation of subsiding agricultural land into floodable areas with the capacity of growing energy crops or storing water (Fig. 2 and 3). This intervention was developed individually and explored the landscape qualities and functions that could be compatible with different degrees of subsidence. All images produced by the author.
3C Water storage
3B Wetlands
3A Energy crops
2 Addition of platforms
(L eft) F i g . 1 . R e g i o na l vis io n fo r F lev o la n d . (Top) F i g . 2 . R e su l t i n g q u a litie s o f th e la n d s c a p e . (Right) F i g . 3 . S c h e m e o f th e tem p o r a l ev o lu tio n of agricu l t u ra l u n i t s.
1 Initial state
UP GR A D I N G TH E R I V ER RO TT E 2016 R&D STUDIO: SOCIO-SPATIAL PROCESSES IN THE CITY. INDIVIDUAL WORK TU DELFT The site chosen for the studio was the River Rotte, in Rotterdam, a natural/urbanised axis along which the city has developed in a heterogeneous way. With a special focus on the human scale and a strong design-oriented approach, the goal was to improve the qualities of the river ’s urban landscape, aiming for higher levels of social integration and an increased livability along its banks. Each section of the river offered a different set of potentials and limitations, which could evolve into multiple design approaches. The project displayed on these pages shows the example of one particular urban block which, due to its position in relation to infrastructure, remains isolated from any ped estrian life. Furthermore, it acts as disconnection between the urban and suburban sections of the river.
In order to revert this situation, the project proposes a series of small, progressive interventions at different levels (infrastructure, buildings and public space) (Fig. 1). Regarding infrastructure, the goal is to solve the conflict between the intensity of transversal transit and any possible pedestrian/ bicycle traffic along the river. As for buildings, the project aims for the readjustment of the built form in order to add mixed uses, permeability and human scale. Finally, the operations in the public space try to add a different quality to the empty area among buildings, creating a meeting point for the community and a space with a special phenomenolo gy, which derives from a reinterpretation of the hortus conclusus (Fig. 2). All images produced by the author.
(Le ft) Fig. 1. Se t of s m all-s c ale inte r v e ntions . (Top) Fig. 2. Vis ualiz ation of the inne r c our ty a rd.
CH ICAGO CH I L D R EN’ S M U S EUM 2014 ARCHITECTURE GRADUATION PROJECT UNIVERSITY OF MÁLAGA The project aims for the integration of Chicag o’s new children’s museum at the city’s Lakefront. In Grant Park, current regulations do not allow the presence of buildings or volumes above ground level. The project proposes the creation of an underground, parallel public space, which occupies part of the existing parking garage and extends towards Lake Michigan, to which the museum’s program is attached. This is done through two different operations: on the one hand, the qualification of the existing parking garage through a series of perforations; on the other, the juxtaposition of a new void volume, which serves as an underground connection between the Park and the Lake. All images produced by the author.
Fig. 2. S e c t i o n a l d ra w in g .
(Top) F i g . 3 . De t a i l e d a x o n o m e tr ic vie w. (Right) F i g . 4 . C o n c e p tu a l a x o n o m e tr ic vie w s .
Diagram of operations: (i) Existing parking garage; (ii) drillings; (iii) addition of a void volume; (iv) extension to the Lake.
P R EVI OU S A RC H I TE C TU R E PRO JEC T S 2008-2013
BE13 - Competition entr y. 2013
Back to the fields. Collective housing. Design Studio. 2012
AIA Nebraska. Corporative space. Design Studio. 2010
Parque del Sur. Public facility. Design Studio. 2010
Salyt. Residential masterplan. Design studio. 2009
Corral de Corralas. Collective housing. Design Studio. 2008