JPSC Portfolio 2018

2018

JPSC JuanPabloSepulvedaCorradini

1

SUMMARY

ABOUT ME

........................................................ Page 04

WORK EXPERIENCE ........................................................ Page 12 AECOM Elioth M+R Pro-Développement Museography Independent Work

VOLUNTEERING

........................................................ Page 94

DRAWING

........................................................ Page 100

TRAVEL

........................................................ Page 104

CONTACT

........................................................ Page 108

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ABOUT ME

5

Facade Engineers

MEP Engineers

Architects Structural Engineers JPSC

GBCA

Lighting Designers

JPSC I’m a Chilean-Italian Architect, with a Master of Town Planning and 13 years of professional experience, specialised in Environmentally Sustainable Design. I like assisting architects to achieve high-performing sustainable design through advanced building physics simulation: thermal analysis, daylight assessment, solar radiation studies, weather and function analysis. My goal is to design low energy, high comfort buildings that, thanks to their configuration and design, are optimally adapted to their environment and function requirements. I consider the biggest challenge facing the field today is to reduce the impact that buildings are having on the environment, without compromising the user’s comfort. I am fascinated by the approach that engineers are developing in this field, as I believe that their scientific vision, methods and accuracy are changing the way that buildings are designed for the better. My professional development and career aspirations are driven by this approach, in which the climate, the environment and the functions are taken into account to improve the design of a building. I am most interested in finding creative solutions to complex problems by combining engineering, architectural and urban planning tools, skills and visions.

7

Environmental Engineering & Sustainable Design JPSC’S SKILLS & TOOLS Sustainable Bioclimatic Design AutoCad

Climate analysis

Ecotect

Strategy development

Meteonorm

Architectural design

SketchUp Illustrator

Stormwater capture

Excel

Europacity

Natural Light Analysis Ecotect + Radiance

Daylight factor Glare analysis

SketchUp + Radiance

Daylight autonomy

Rhino + Grasshopper + Diva + Radiance

Illuminance

AUTOCAD

SKETCHUP

PHOTOSHOP

INDESIGN

Ouagadougou International Airport

ILUSTRATOR

ECOTECT

Insolation Analysis Absorbed radiation

Ecotect

Sunlight hours Rhino + Ladybug + Grasshopper

Shade analysis Sky factor

New Sorbonne Campus

Computational Fluid Dynamics (CFD) Fluid flow & heat transfer 6Sigma

Air speed & turbulence

FLOVENT Natural ventilation Comfort analysis

Montpellier TGV station

Dynamic Thermal Simulation (DTS) Heating & cooling loads

IES VE

Monozone DTS

Rhino + Honney bee + Grasshopper PHPP (Passive House)

Natural ventilation

Excel (Clim Elioth)

Comfort analysis

EXCEL

RHINO

H%

T°C

GRASSHOPPER

LADYBUG

HONNEYBEE

FLOVENT

IES

9

2017

PASSIVE HOUSE CERTIFIED DESIGNER Passive House Institute

2014

BREEAM ASSESSOR International Construction 2013 BRE

2011 - 2012

PROFESSIONAL CERTIFICATE IN THE ENVIRONMENTAL QUALITY OF BUILDINGS French Order of Architects (L’Ordre des Architectes) and the French Environment and Energy Management Agency (ADEME), Lyon, France.

2006 - 2009

MASTER OF TOWN PLANNING AND SOCIAL SCIENCES Université Paris I, Panthéon Sorbonne, Paris, France.

1997 - 2004

MASTER OF ARCHITECTURE Pontificia Universidad Católica de Chile, Santiago, Chile. Final project: “The ALMA Project in San Pedro de Atacama: architecture and the landscape, inhabiting the uninhabitable”.

2001

UNIVERSITY EXCHANGE Architecture school of the Università degli Studi Roma Tre, Rome, Italy. Specialisations: urban management, history and methodology of restoration, project workshop.

EDUCATION & TRAINING

Languages: Spanish, English, French, Italian Nationalities and visa: Double nationality - Chilean/Italian ; Australian visa permanent resident. Hobbies : Martials Arts : Tae kwon do (black belt) and Hapkido (beginner), travel sketching, photography, history.

COMPLEMENTARY INFORMATION 11

WORK EXPERIENCE

AECOM Senior Environmental Engineer

“Aecom is a multinational engineering firm that provides design, consulting, construction, and management services to a wide range of clients, both public and private sector. AECOM has approximately 87,000 employees in more than 150 countries� .

I work in the Environmental Sustainable Design team. I play the following main roles: A) Environmental Engineer -

I produce ESD concepts to feed the architectural team in the early stages of project designs - I provide ESD guidance to the MEP and facade teams - I do computational simulations to improve project designs and to orientate the team’s choices

B) Performance Sketching: Commercial Development -

With Kieran Rice, Facade Technical Director of AECOM, we have created a new methodology to interact with the Design team at very early stages of the project.

C) Passive House Certified Designer: I passed the Passive House Designer examination, in order to guide the design team in AECOM’s first certified Passive House building in Australia.

D) Promotion of AECOM’s projects and ideas at external events: - Blue sky workshops (Vicinity) - International conferences (South Pacific Passive House Conference) - Forums (Institute of Healthcare Engineering Australia ) - Technical seminars (International Building Performance Simulation Association)

SELECTED WORK & PROJECTS

17

Environmentally Sustainable Design

CLAYTON CAMPUS Victorian Heart Hospital ESD team lead

Winter Strategy

Summer Strategy

PV DHW

HP

DWH Panel

GSHP

COOL STORAGE

GSHP

Brief description

Australia’s first specialist stand-alone heart hospital will be situated at Monash University’s Clayton campus. A product of a partnership between the local Government and Monash Health, this 55,000m2 facility will have 195 beds.

- Structural and Mechanical engineering: to include a Ground Sourced Heat Pump exchanger embedded in the building’s foundation; - Architecture, façade engineering and hydraulics: to integrate a bioclimatic-solar double skin façade, capable of boosting domestic hot water heat pumps and passively regulating internal conditions.

2017-2022

The strategy I proposed explored a “building fabric first” approach to drastically reduce energy needs, combined with an on-site energy production plan to cover more than 70% of the building’s heating and cooling needs. To make this happen, different specialties of the design team have to be coordinated:

HOSPITAL

Why I’m Proud

19

Environmentally Sustainable Design

FOOTSCRAY, AUSTRALIA Footscray Hospital Master Plan ESD team coordinator

Solaire Thermal

PV

Geothermal

Anaerobic Digestion

Wind

HP

Solaire Thermal

HP

Brief description

Geothermal

ESD component of the Master Plan for the new 100,000 m2 Footscray Hospital

Why I’m Proud Instead of delivering a classic environmental master plan based in certifications (Green Star, LEED, etc.), I proposed a more ambitious plan which, in addition to standard ESD components, provided two further elements to place the hospital in a broader spatial and temporal context. The first, inspired by industrial ecology, explored possible partnerships to exchange energy with the surrounding buildings, promoted energy production from the hospital’s waste, and suggested leveraging the hospital as medical “hub” to associate with complementary associations and research partners. The second aimed to “future proof” the building by setting a long-term plan to reduce the building’s greenhouse gas emissions, minimise its electricity grid dependency and generate a multisource virtuous energy mix.

2017

Geothermal

HOSPITAL MASTERPLAN

Renewables Assessment

21

Environmentally Sustainable Design

MORNINGTON PENINSULA, AUSTRALIA 62°

1,100

Monash Student Accommodation Passive House Designer and ESD team coordinator

62°

Lighting

Classic Passive House in Frankfort

75°

Appliances

Equipment

Athypic Student accommodation PH in Melbourne

1,490

1,100

kWh/m2.a 29°

kWh/m2.a 16°

kWh/m2.a

16°

Lighting

Appliances

Equipment

Lighting

Appliances

Equipment

- 2 times more internal gains - 26% more solar irradiation

Located on the Monrnington Peninsula at the third largest of Monash University’s urban campuses, the project will demonstrate Monash’s commitment to its Net Zero Initiative; The new building, designed to meet Passive House design standards, will supply 150 additional beds, helping to satisfy increasing demand for accommodation on the campus.

Why I’m Proud

This was a highly ambitious project delivered on a very tight schedule. The Passive House Certification imposed a different building logic that was new to all members of the team, and the main structure was designed in Cross Laminated Timber (CLT) which was a new material for all those involved. The most challenging issues were to translate the Passive House principles to the Australian context, and to take into account the client’s expectations. I used weather analysis, the Passive House standard and the client’s project brief to identify an overheating risk in the architect’s original design, and to propose a modified design that removed this risk while meeting Passive House standards and the client’s requirements. I did this by calculating how to optimize natural cross ventilation in the common areas and performing a detailed parametric assessment of the sun shading devices to regulate the interior conditions.

2017-2018

Brief description

STUDENT RESIDENCE

Project v/s Business as usual

23

PERFORMANCE SKETCHING, ANZ Business development Co-creator ESD/Facade Team

Why I’m Proud

The initial idea was to link the ESD and Façade team to deliver a more complete service to our clients. With time this has been expanded to include the QS and services teams. This approach has helped to bridge and better coordinate the architect’s (our clients) intentions with engineering (our company’s) concepts.

2008-2040

Performance Sketching is a cross-disciplinary work approach that I co-created to guide design at the early stages of a project. Using building physics and quantity surveyors and cost planning (QS) tools, an analysis is made to identify the most important design parameters to focus on for each project. The main goal is to provide informed early guidance and a coordinated, holistic design strategy to the projects, where all the different engineering disciplines work together to enhance the architectural concept.

BUSINESS DEVELOPMENT

Brief description

25

ELIOTH, egis concept Environmental Engineer

“Elioth is a multidisciplinary team of engineers, architects, designers, graphic designers and datascientists, involved in consulting and innovative design. Elioth focuses its specialised expertise on complex structures and geometries, and on façade engineering, within a dedicated program which deals with energy, climate and environmental challenges at both the scale of the building and of the city.â€?

MY ROLE I worked in the energy and environment team. I played three main roles:

A) Environmental Engineer - I produced ESD concepts to feed the architectural team in the early stages of project designs - I provided ESD guidance to the MEP and facade teams - I made computational simulations to improve project designs and to orientate the team’s choices (CFD, TDS, Daylight, etc…)

B) “Competition cluster” manager - I was in charge of this cluster, developing better methods for our engineering team to interact with architects. - One of my goals was to improve the communication between architects and engineers, and harmonise the architectural and engineering concepts of our projects. - I developed tools to quickly test preliminary bioclimatic ideas and give feedback on them to the team (e.g. grasshopper scripts) - With an intern I developed a vectorial library that helps the team to present concepts in an attractive, accessible way through diagrams.

C) Commercial development - My role was to spot up-and-coming architects and to approach them to form teams with us to participate in competitions - I organised architecture-themed conferences, where the above-mentioned architects had the opportunity to explain to our team of engineers the logic behind their design and architectural concepts.

ARCHITECT

PROJECT

Jean Nouvel.................... (France) M

Zaha Haddid ................... (UK) Architecture Studio........ (France) Elemental........................

M

(Chile)

Dominique Perrault........ (France) Jean-Paul Viguier...........

(France)

Ricardo Bofill.................. (Spain)

Alborz Cielo La sorbonne nouvelle Pont Issy Gare Maritime Sete

(France)

Nice Merida

Moatti et Rivière.............

(France)

La poste du Louvre

Marc Mimram.................. (France)

PEM Montpellier

Parc Architects............... (France)

Ilot 5

Lin Architekten..............

MEV

(Germany)

Arep................................. (France)

Nanterre la Folie

Rudy Riciotti................... (France)

Cité Musicale

(France)

63 rue de Charenton

Vallode & Pistres............ (France)

Europa City

Sophie Delhay................. (France)

Ordoner Reinventer Paris

Varozzi Veiga................... (Spain) Enia Architectes

(France)

CLIENTS & PROJETS IN ELIOTH SELECTION

Valenciennes

Chaix et Morel................

Périphériques.................

M

R4

BDIC Airport Burkina Faso

TYPOLOGY Art Gallery & Office Congress And Exhibition Centre Pharmaceutical Science Park Exhibition Stand University Campus Office Building Sea Port Office Building Post Office High Speed Train Station Office Building Meisenthal Glass Museum Office Building Concert Hall Pritzker Prize

Laboratories & office building Commercial Building

M

Mies van der Rohe Award

Housing

Prix de l’Équerre d’Argent

Library And Documentation Centre

AJAAP

International Airport

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SELECTED PROJECTS

31

Environmentally Sustainable Design

PARIS, FRANCE Line 16, Parisian metro ESD team coordinator

Natural ventilation

Canadian well

VH : 2 sorties d’air de 8 m² (SU). Des ouvrants motorisés.

5 400 m3 de moins à traité

50 m² de moins de locaux techniques à prévoir

Moins d’entretien à faire

De sensation thermique gagné en confort d’été

13 Vol/h

- €

En été assuré passivement. Air hygenique couvert en hiver

euros d’économie estimé par an

Brief description

This new metro line is part of a very ambitious regional plan for Greater Paris. The goal is to better interconnect inner Paris with the surrounding suburbs. This long-term plan will be completed in phases, the latest one to be completed by 2030. Budget: 5.7 Billion Euros.

Why I’m Proud We had the opportunity to provide feedback on the already-advanced architectural project. The original program included air conditioning in the main halls for all the stations. We built a methodology that took into consideration the temperature felt by the user and showed that air conditioning was not necessary. I coordinated our team for the study of six stations, and I studied one of the stations myself. Our work on metro line 16 was so well-received that we were invited to extend our services to work on metro line 15 as well, undertaking extensive environmental studies on all the stations along the line.

2008-2040

-3°C

M²

METRO STATIONS

VB : 2 entrées d’air de 8 m² (SU). Conduit enterré avec grilles anti intrusion

Ligne 16

Saint-Denis Le Bourget Pleyel La Courneuve

Aulnay Le BlancMesnil

Sevran Beaudottes

Sevran Livry

Chelles Clichy Montfermeil

NoisyChamps

33

Environmentally Sustainable Design

BORDEAUX, FRANCE N20 Office Consultant

Why this is relevant This experimental office building inspired other buildings in France. The most important of them is the Balard, commonly known as the ÂŤFrench PentagonÂť, a government building of a much bigger scale. I provided consulting services during the construction phase. The client requested some modifications to the original design for budgetary reasons. My role was to provide expertise on the feasibility of these changes and how they would affect the performance of the building. I also visited the building site to inspect the progress of the construction.

2008-2016

This office building in Bordeaux mixes poly-sensorial comfort with low energy use. The challenge was to provide thermal comfort without air conditioning. A system of four thermal chimneys assured natural ventilation for each floor, with an adequate flow to purge the internal heat. Thermal mass and sun protection were also studied to allow a comfortable ambient temperature all year round.

OFFICE BUILDING

Brief description

35

Environmentally Sustainable Design

MONTPELLIER, FRANCE High-Speed Train Station ESD team leader

37

34°C

26°C

Why I’m Proud We were competing against high-profile teams such as Norman Foster & Partners. The jury awarded our design team top marks in all areas, which reflected the cohesion of the engineering and architectural design team. Below are some of the key design issues I worked on with the team: - Designing the patterns of the piercings in the roof in order to minimise solar gain and at the same time meet the requested standards of natural light. These parametric studies were made with Grasshopper-Diva and Ladybug, which allowed us to give the architects quick feedback. - Dimensioning and calculating a summer comfort system, which included natural ventilation and misting. Thermal Dynamic Simulations and Computational Fluids Dynamics were made to ensure the temperature in the user zone of the central hall didn’t rise above 26°C, without air conditioning. - Designing a method to predict condensation under the roof, which was not insulated. Through this we were able to reduce the time in which this phenomenon happens by 70%.

2013-2017

This new high-speed train station in Montpellier will provide a faster link between Spanish and French Mediterranean cities (Barcelona-Perpignan-Montpellier-Nîmes). The 3500m² station will be an important part of a new neighbourhood in the south of the city. The estimated cost is EUR 180 million. The project is covered by five pierced domes, made of fibre-reinforced concrete (BFUP). The station will be connected to the city centre by a tram.

HIGH-SPEED TRAIN STATION

Brief description

39

Environmentally Sustainable Design

VALENCIENNES, FRANCE Congress & Exhibition Center Competition. ESD team leader

41

Why I’m Proud I played the interface between the engineering team and Zaha Hadid associates. The architectural requirements and concepts were enhanced with passive strategies, adding an additional “layer” to the project, in which high comfort and low energy demand were the central concerns. - The roof was designed to provide diffuse natural light, collect stormwater, and reduce solar gain in summer. - The landscape architecture was designed in order to seal off and contain the polluted industrial soil (local treatment). - An existing water tower, a landmark and heritage of the site, was recycled as a local data centre capable of harvesting excess heat and giving it away to surrounding buildings.

2013-2014

This project was part of a major renovation of an abandoned industrial area in northern France. The complex included a congress and an exhibition centre. The main concern of the project was related to the optimisation and flexibility of the different space configurations. The form finding was focused on reducing the envelope in relation to the interior area of each space. Natural fractals were the inspiration for this concept.

CONFERENCE & EXHIBITION CENTER

Brief description

43

Environmentally Sustainable Design

ALBORZ, IRAN Pharmaceutical Science Park ESD team leader

Why I’m Proud We were able to integrate a passive approach into the design, inspired by the rich Iranian vernacular architecture which we reinterpreted through a contemporary architectural proposition. Thermal inertia, natural ventilation and solar radiation control were the key concepts used to achieve high comfort with minimal energy use. We proposed holistic water management, which included storm water collection, grey water recycling, black water treatment (ENESYS system) and water saving appliances.

2013

This park will be the most important of its kind in Iran. Developed on 170 hectares of land, it will host a diversity of programs, such as a manufacturing plant, research centres, a hotel for visiting researchers, an extensive outdoor public area and start-up incubators. A LEED certified complex was proposed, with water and energy management chosen as the main foci.

MEDICAL & RESEARCH COMPLEX

Brief description

45

Environmentally Sustainable Design

OUAGADOUGOU, BURKINA FASO Ouagadougou International Airport ESD

Why I’m Proud The preliminary plan presented to our team by the architecture studio we were partnered with did not consider the local climate and the country’s energy resources. The original proposition comprised a main building with a large proportion of glass surfaces. After the preliminary environmental studies (thermal simulation, radiation simulation) we conducted, and a first estimation of the cooling needs and operating costs, the external envelope changed dramatically. The main building envelope concept included a large proportion of opaque surfaces and carefully designed protected glass surfaces.

2012

The government planned to close the current International Airport, situated in the centre of the city, as it is a source of risk and pollution. The new one was to be built 35km from the centre of the capital. This USD 650 million airport was to comprise a military base, presidential facilities and cargo facilities. Unfortunately, the project was never realised due to political instability in Burkina Faso.

INTERNATIONAL AIRPORT

Brief description

47

Environmentally Sustainable Design

Ile Seguin, FRANCE Portail Des Arts ESD

Why this is relevant We achieved a high standard of thermal comfort through a mixed passive / active strategy. High thermal mass and natural ventilation openings passively provided a base level of comfort, and minimised the need for this to be complemented by active heating and cooling. A mix of Thermal Dynamic Simulation and Computational Fluid Dynamics were used to optimise the comfort strategy.

2012-2013

In the developer’s words, «R4 is a project that will bring together, on the same site and in an innovative manner, varied and complementary protagonists from the world of art and thus generate a stimulating and creative environment. Original and pioneering, R4 will provide the opportunity for encounters between artists and gallerists, collectors, art lovers and cultural institutions, providers of logistics services and exhibition organisers, and thereby create a “vibrant art community»

ART GALLERY & OFFICE

Brief description

49

Environmentally Sustainable Design

GONESSE, FRANCE International Competition ESD

INPUT

solar thermique

eaux pluviales

Réssources renouvelables eaux pluviales

photo voltaïque

geothermie

geothermie

RDC

Consommables

eau

électricité

chaud

TFP

chaud

chaud

froid

Sortants eaux usées Biomass

Brief description

+

+

froid

Nappe

TFP

chaud

Déchets

Recyclage sur place

+

froid

Methanisation

Incineration

BIO

OUTPUT

According to the developers, this will be “the new destination for leisure in greater Paris”. This 490 000 m² project includes retail, parks, a cultural centre, hotels and restaurants.

Why I’m Proud This project was a great opportunity to integrate many of the basic concepts of Industrial Ecology, which are well-suited to large-scale projects and urban projects. By applying these theories, we took a holistic approach to the project, where the different parts were connected entities of a metabolism. Energy cycles, water cycles and material cycles were created in order to reduce resource needs and waste generation, and to retro feed the system (outputs from some processes become inputs for others).

Air/Eau

2011-2012

Besoins

COMMERCIAL BUILDING

Basse conso

51

R & D : Environmentally Sustainable Design

A

B C

VINCENNES, FRANCE Vincennes Primary School Multi-Objective Optimisation: Tool Developement

A

C

Brief description

A B

We participated in a public competition to build a primary school meeting the standards of the French environmental label (HQE©). At first we thought that this was going to be straightforward. In the early stages of the design, however, we realised that the thermal and light performance was very difficult to achieve due to the urban planning rules, the compact nature of the building, the curved shape of the main façade and the orientation.

Why I’m Proud I developed a script in Grasshopper and Octopus to find the fittest answer between two diverging objectives (thermal and light comfort). The script was first developed in Grasshopper and tailored to study the optimal position of the vertical fixed blinds for each room, which had different conditions and orientations. The two criteria - thermal comfort and light - have opposite optimums: on the one hand less solar irradiation helps minimise solar gain and overheating, on the other hand this reduces the natural daylight entering the room. We used Octopus to evaluate what the fittest dimensions and positions were to respond to both criteria through an evolutionary algorithm

2016

B

R&D: EDUCATIONAL BUILDING

C

53

R & D : Environmentally Sustainable Design

PARIS, FRANCE Prototype development Polysensorial comfort

Why this is relevant We provided the technical expertise and made sure that the concept was reliable. We used computational fluid dynamics to optimise the position of the fans and panels, and to dimension them.

2013

Archipel is an innovative concept for office furniture. The central idea is to be able to adjust the thermal comfort in the space directly surrounding each individual. The desk provides hygienic air supply, and a radiant panel and fans for heating and cooling. This strategy allows the natural differences between people’s thermal comfort standards to be taken into consideration, and reduces energy needs by delivering cooling, heating, light and air where it is really needed.

R&D: FURNITURE DESIGN

Brief description

55

R & D : Environmentally Sustainable Design

OUAGADOUGOU, BURKINA FASO Ouagadougou International Airport ESD R&D

Tympane - masque

noue paysagère

noue paysagère - évaporation - rafraîchissement - irrigatiion arbustes - contrôle orages

Murs (BA+brique terre crue) - inertie - contrôle hydronometrie - changement phase (eau)

- évaporation - rafraîchissement - irrigatiion arbustes - contrôle orages

Brief description In addition to the main airport building (see p. 35), an array of offices were part of the program and represented a very important area of the complex. A « zero solar gain» concept was proposed to minimise the use of air conditioning. I proposed a classic double ventilated roof with some added optimisations. The outer light aluminium roof was painted white to reduce the albedo. A wind-powered extractor was included in the centre of the roof in order to increase the effectiveness of the solar gain evacuation. Solar angles were studied to ensure that the sun did not directly hit the glass surfaces. A mix of outer walls with high thermal mass and thin internal insulation was used to reduce the need for air conditioning and to slow down the heat gain. Finally, collected rainwater was used to occasionally irrigate local vegetation and create a cooler microclimate (adiabatic cooling).

2012

- expulsion air chaud - mise en depression bâtiment - masque

R&D: AIRPORT OFFICE FACILITIES

Double Toiture (toile)

57

Commercial Development

Conference Organiser

Brief description I was in charge of organising architectural conferences for our engineering team 3 to 4 times a year. In a 40-minute format, the guest architects presented selected works and explained the key conceptual strategies they used to develop their projects.

2014-2016

- Build a more constructive dialogue with architects; - Better understand the logic behind architectural choices; - Better collaborate with architects and help them achieve better climate-adapted architectural design.

CONFERENCES

The aim of these conferences was help our engineers to:

59

Competition Cluster Management

AUTONOMIE EN EAU

Consommation totale EP Consommation totale

10 % d’autonomie pour les postes suivants : - arrosage - nettoyage voiries

Plus de 6.500 m3 récuperés par an Volume de cuve

200 m

3

LENS, FRANCE ESD Graphic design

Convention avec la mine

Smart-grid à l’échelle de l’agglomération

Ouverture borne Autolib-Lens sur le site

Stockage ENR

Tesla

Stockage minier

Eolien

Production ENR

Solaire

Méthanisation

Géothermie Réseau

2020

2030

2040

2050 Baril de pétrole 300$ 4émé choc pétrolier

Installation site industriel de fabrication d’éolienne dans le Nord Pas de Calais Parité réseaux pour panneaux solaires photovoltaïques Passage à la 5G sur l’internet des objets Fermeture Fessenheim

61

Station de traitement d’eau potable eau potable

eau naturelle

75 262 m3/an 143 085 m3/an

eau pluviale

CHU de Lens

Nature ?% 62%

Jardins

9%

29% <1%

eau grise

?%

eau toxique eau noire

Lagunes

eau traitée

eau nucléaire

Filière déchets d’activités de soin

Phyto traitement Cuve de décroissance

Station d’épuration Filière spécifique

électricité

aliments

compost

fournitures

Agriculture

Industrie

matières premières

biogaz CHU de Lens Recyclage Jardins

Méthanisation

déchets organiques

déchets déchets chimiques toxiques pièces déchets anatomiques nucléaires

Crématorium Cuve de décroissance

Filière spécifique

Traitement

Filière spécifique

déchets recyclables

Incinération

biogaz

électricité

chasses d’eau à double commande

Appoint Stockage

Récupération de chaleur

EF

CHU de Lens

103 000 m3

Solaire

Charbon Heures de pointe Eolien

75 000 m3

dont ECS

24 000 m3

75 000 m3

15 000 m3

Besoins initiaux

Besoins réduits

4 000 m3 Besoins finaux

Quartier

Brief description Our team participated in a competition to build a hospital in the city of Lens in northern France. The program imposed an ambitious global performance for the building, inspired by Jeremy Rifkin’s Third Industrial Revolution. The communication of ideas and results was a primary concern for the Elioth “competition cluster”. The challenge was to develop a “language” that could clearly communicate ideas to a very broad audience including experts, authorities and the general public. These images are an example of some of the diagrams we submitted for the competition. The diagrams show our proposition, mixing icons and Sankey diagrams to communicate our strategy in a readily-understandable format. 1% 3%

Autres déchets Papiers carton DASRI

15%

2015

Air extrait Eaux grises

Robinetterie hydro-économe

Méthanisation

Récupération de chaleur

Géothermie

WC

HOSPITAL BUILDING

Nucléaire Heures creuses

Incinération

récupération de chaleur

10%

Déchets organiques

24%

Plastiques Verre

DCT Métaux

31% 2% 8%

7%

Déchêts spécifiques dangerouses

63

M+R ARCHITECTS Architect

This mid-sized architecture office is specialised in large retail projects in France and Poland. They develop housing projects in the Burgundy region as well.

MY ROLE I worked as an architect developing retail and housing projects, from concept to construction.

Architect

DIJON, FRANCE Housing project, in progress, 47 apartments Architect, team leader

Why I’m Proud I was the leader of the design team. Together we developed solutions that applied sustainability concepts. All the apartments were facing south. This privileged orientation (NB northern hemisphere!) was enhanced by the creation of interstitial spaces (balconies and sliding panels) which regulated sun radiation and noise from the main street. All the apartments, except the studios, were double orientated, allowing natural cross-ventilation. Common circulation spaces were minimised, and all the ducts and shafts were aligned in order to reduce cost and construction time.

2011-2017

This was part of a large urban renovation project in the south of Dijon, France, which mixed commercial buildings and housing. We participated in the competition for one of the seven housing blocks (block F), which consisted of 47 apartments, from studios to fourbedroom apartments.

HOUSING BUILDING

Brief description

67

Architect

DIJON, FRANCE Architectural design Building site overseer

Why this is relevant I had the opportunity to develop all the different phases of the project: from the pre-design to the construction. I got to interact with the investors and the engineering team, develop the construction detail and oversee the building site. This experience gave me a global vision of a classical construction process.

2009-2011

This project consisted of a building of 24 student apartments located near a train station in Dijon, France. The budget was EUR 1.5 million. We were contracted by private investors.

HOUSING BUILDING

Brief description

69

PRO-DEVELOPPEMENT Architect & Town Planner

Pro-Développement provides feasibility studies for urban and architectural projects. Their services are characterised by strong “out of the box” propositions that identify urban and program opportunities and propose program synergies.

MY ROLE I started as an intern, and by the end of the internship, I was hired as a project manager. I was in charge of providing ideas, benchmarks and helping the directors to identify and develop the core strategy for each project.

Architect & Town Planner

NICE & PARIS, FRANCE Poste Office (Les Poste Cathedral) Architectural Program & Feasibility Plan

Why this is relevant I learnt to apply a clear analytical method to understand a program as complex as a post office: flux, spatial links and particular requirements e.g. common and restricted access areas, ensuring that the service chain was not interrupted. It was especially interesting to take these different requirements into account, to deal with the architectural heritage conditions of the building, to improve the ecological footprint and to enhance the integration of the building and its services into the urban tissue.

2008

The French Post Office (“La Poste”) launched a plan to renovate all of their buildings. Exceptional treatment was given to the most emblematic post office buildings, which they called “cathedrals” because of their exceptional space and volume. We were commissioned to study three of these “cathedral” buildings, two in Paris and one in Nice. A detailed study of the building’s functions and the neighbourhood dynamics was done. We gave feedback on the current dysfunctions and on opportunities for future development.

POST OFFICE

Brief description

73

Architect & Town Planner

CASABLANCA, MOROCCO International Stadium of Casablanca Urban Program & Feasibility Plan

Why this is relevant I participated in the urban analysis, which had to link a very complex local context with the government’s ambition of the new Stadium being of international prestige. Bringing positive externalities to the local community was the guiding principle of the proposed urban development (sporting facilities, public transport, business and job creation).

2008

The Kingdom of Morocco launched an international call for tender on the urban and architectural feasibility studies for the new International Stadium of Casablanca. Pro developpement was part of the winning team with Chemin Faisant and ISC. A rather controversial site was imposed: Sidi Moumen, a poor, informal settlement on the outskirts of the city infamous for its unrest. An initial deep urban analysis was made in order to identify the strengths, weaknesses and particular challenges of this urban area.

INTERNATIONAL STADIUM

Brief description

75

MUSEOGRAPHY Architect, freelance

This unexpected professional experience started in the first week that I arrived in France. I helped reformulate a refused proposal for an exhibition in the «Grand Palais» of Paris. The new architectural proposal was accepted and a contract proposition and different partnerships followed. I did this parttime during my Master’s degrees.

Architect

LE BOURGET, FRANCE TREND 900 Architect

Why I’m Proud My role was to propose a strategy to best exhibit the engine. I based my design around three main concepts: - Illustrate the scale: I proposed to draw the silhouette of an Airbus 380’s wing on the floor - Appropriately position the object: between the sky and the earth, the object never touches the ground. - A functional and creative support structure: an extrusion of the projected shadow of the engine supported this massive object. It also displayed the general information about and supported the lighting of the engine.

2010

Rolls Royce designed, constructed and produced the turbofan for the largest commercial airplane in the world: the Airbus 380. This engine is the top-end technology of the enterprise. Unknown to the general public, Rolls Royce donated one of these engines to the Musée de l’Air et de l’Espace (The Air and Space Museum) in Le Bourget (a suburb just outside Paris) to promote their brand.

STAND CONCEPT

Brief description

79

Architect

TUBINGEN, GERMANY The Best 4 the Better Architect (Co-author: Emilio Berrios)

Why this is relevant I was solicited by the Institut fßr Kulturaustausch to lead the conceptual design. I had previously collaborated with them for the Saint Exupery exhibition in Le Bourget. We proposed a podium-like stand, which the user could walk through following a didactic circuit that allowed them to learn about and understand the key information about the Foundation. The stand was divided into two thematic zones; the first one showed the Foundation’s different actions, and the second one showed their values. These were linked by a third space showing the world sportsmen and women of the year.

2007

Laureus is an International Foundation, created in 1999 by Daimler Chrysler and the Richemont group. Their goal is to promote sport as a vector of social change. The Foundation wanted to be better known through an itinerant stand, showing their actions and values. Four German teams were consulted to present a proposition.

STAND CONCEPT

Brief description

81

Architect

LE BOURGET, FRANCE Espace Saint-Exupery Architect (Co-author: Christophe Piffaut)

Why I’m proud We structured the exhibition around the concept of “lightness”. Three thematic spaces were conceived: the Airmail Pilot, the Multifaceted Artist and the War Pilot. The walls were bare; instead, the objects were exhibited as if they were suspended in space. We also gave the illusion that the walls were suspended, and they were pierced with transparent panes with some of his most famous quotes written on them, thereby visually and conceptually linking the three spaces.

2006

In 2004, near Marseille, the wreckage of Antoine de Saint-Exupery’s plane was found. The pieces of the Lockheed lightning P38 were recuperated by the French Defense Ministry, which subsequently gave them to the Air and Space Museum in Le Bourget for conservation. Two years later, the Museum organised an exhibition to celebrate Saint-Exupery’s life.

LAYOUT & EXHIBITION CONCEPT

Brief description

83

Architect

PARIS, FRANCE Passion Transport Architect

Why I’m proud This was my first job as an architect in France. A first proposal presented by a different architect was refused by the Grand Palais. I had the chance to formulate a different proposal, which was subsequently accepted. The space was divided into three sections: Air, Water and Earth, a simple way to organise the different means of transport. A fourth space, in the center, introduced the topic and articulated the three other spaces. I proposed that all stands be in the form of an ellipsis. This shape echoed the curved shapes of the Grand Palais, and was also a way to evoke the aerodynamic forms that characterise all means of transport.

2005

The temporary exhibition “Passion Transport” took place under the main dome of the Grand Palais, Paris in November 2005. It presented technological developments over time across a range of transport modes.

GENERAL EXHIBITION CONCEPT

Brief description

85

INDEPENDENT WORK Architect

In parallel of my stable jobs, I have had the opportunity to develop a few architectural designs; one for a friend, one for my family-in-law and one for myself.

78% Less heating needs

Architect & Environmental Design

ALL YEAR 1.8Mwh

54%

Per year production (10 panels)

Useful Daylight Illuminance

92% WC & washing machine autonomy Storm Water Harvesting

SUMMER 55%

28°C

Less hours over 28°C in relation with the outside T°C

94% Of time in comfort zone T°C over 26°C

WINTER 78% Less heating needs

ALL YEAR 54%

1.8Mwh

92%

POINT LONSDALE, AUSTRALIA Useful Daylight Illuminance

ESD Architect

Per year production (10 panels)

WC & washing machine autonomy

Storm Water Harvesting

Why this is relevant This is the first time I worked under Australian regulations, and the first time that I worked as an architect and an environmental engineer in the same project.

2016-2017

This is a 4-bedroom beach house located in Point Lonsdale, 100km from Melbourne. The public and private areas of the house are clearly divided and articulated around a corridor and stairway area. The volumes are open to the garden and closed to neighbouring properties for privacy. The clients wanted thermal comfort 365 days a year. I proposed a passive design to achieve this. In summer: - The balconies and overhanging roofs will reduce the solar gain. - Thermal mass will help to increase thermal comfort through the radiant temperature of the wall (free cooling) - Outside coating with insulation will prevent excessive heat gain. - Cross ventilation is guaranteed in all the rooms, and the openings are positioned in order to increase the air flow over the occupants reducing the perceived temperature. In winter: - The solar gain is harvested through the glass surfaces and gradually stored in the high thermal mass of the walls. - Thermal comfort is provided through thermal insulation and double-glazing. In addition, we reduced the environmental footprint of the house through harvesting rainwater to supply the WCs and washing machine, incorporating 10m² of solar panels, studying the natural light through a UDI method (Useful Daylight Illuminance), using materials with low embodied energy (wood and limestone) and upcycling the wood of the demolished house to construct a new fence.

INDIVIDUAL HOUSING

Brief description

89

Architect

KITCHEN: Enlargenment Meal space integration BATHROOM: Direct access from the public zone Natural light access BEDROOM: Built in robe LIVING ROOM: Enlargement GENERAL: Thermal efficiency improvement (double glazing + intermal thermal insulation) Wooden floor restoration

SANTIAGO, CHILE

Investement, Architectural interior design (Co-author: LUSTRE Carolina Beovic)

Why this is relevant This was a personal investment project, and as such I had the unique opportunity to view the process from the perspective of an investor. This enhanced my appreciation of striking the balance between investment and returns.

2012-2013

This 50m2 apartment in the centre of Santiago, Chile was built in the 1940s. The original layout was not suitable for today’s needs, mainly because the only accesses to the bathroom were from the two bedrooms. The project involved the complete renovation of the bathroom and kitchen, the creation of an access to the bathroom from the public space (and removal of the old ones), the restoration of the original wooden floor, a total thermal insulation upgrade (glazed and opaque surfaces), and the removal of one of the bedrooms in order to extend the kitchen and living space. I worked with Lustre, a local enterprise that provides architectural and construction services.

ARCHITECTURAL INTERIOR DESIGN

Brief description

91

Architect

MONTREUIL, FRANCE House extension, Interieur Artchitectural design Architect (Co-author: Tania Feldzer)

Why this is relevant We had to adapt to the local regulations, and to manage the budget and construction team. This was one of my first experiences applying environmentally sustainable design.

2008-2011

This project consisted of the extension and renovation of a single-family house located in Montreuil, a Parisian suburb. The owner wanted to have more space, more light and better energetic performance. To meet these requests, we: - added an additional storey, - channelled the light through a new stairway - replaced all the single-glazed windows, - insulated (where possible) the house on the exterior - added 4 solar thermal panels to reduce the heating needs. A cross-ventilation strategy was included in the new stairway, and a layer of vegetation on the roof assured the thermal comfort during the summer.

EXTENSION & INTERIOR DESIGN

Brief description

93

VOLUNTEERING Architect

During my high school years volunteering was part of my school’s philosophy. I participated in missions with the scouts in the south of Chile. At University, some internships were proposed in a volunteering format. The idea was to offer our skills to local communities. I made a restoration guide for traditional churches in the northern Chilean highlands and a proposition for a tourist/community centre on the coast of central Chile.

Intern

ALGARROBO, CHILE Intern Architect

Why this is relevant I explored a program that confronted a common dilemma in touristic areas: how to harmoniously combine economic development with local social development. I gave an architectural solution through space mutualisation and space sharing, combined with an economic business plan in which revenues from the summer activities subsidised the winter activities.

2004-2005

This project consisted of the creation of a flexible Cultural Centre in Algarrobo, a Chilean seaside holiday town. The local authorities asked that the centre fulfil the following functions: - During the summer, promote cultural and leisure activities for holiday makers; - During the winter, host associations and cultural exhibitions for the locals. A cafe and a stage were proposed to host theatre, small concerts and ceremonies.

CULTURAL CENTRE-CAFE

Brief description

97

Intern

PUTRE, CHILE Intern Architect

Why I’m proud

I got the opportunity to use what I learnt during my university exchange in Rome, Italy. The guide was based on the class “Teoria e storia dell’restauro” (History and Theory of restauration) given by Elisabetta Palotino, and the book « Teoria del restauro » (Restoration Theory) by Cesare Brandi (1906-1988).

2002

This was a project to improve the restoration of heritage churches in the highlands of northern Chile. A recurring problem in the area is that the churches are restructured to restore their functionality, but in a way that undermines the aesthetic and heritage value of the local architecture. In other words, there is little notion of the difference between restructuration and restoration. I proposed to the local authorities to develop a simple guide to restore the Andean Heritage Churches. The guide provides a theoretical framework and some regulations to respect. The Church of Socoroma was taken as an example. A preliminary project was undertaken to illustrate the restoration procedure.

RESTORATION GUIDE

Brief description

99

DRAWING

As an architecture student I learnt that drawing is a powerful and useful tool. Sketching for me is a way to observe and interpret reality. By drawing you can study a detail, understand a building’s structure, express ideas and learn from what you are sketching. As a designer, sketching is a way to think in 3D, to solve spatial problems, and to quickly iterate a variety of possible solutions to a problem. I sketch on a regular basis to give form to concepts as an Environmental Engineer, and also when I travel to capture things that attract my attention.

Drawing

ESD Sketches

Anatomy & Life Drawing 103

TRAVELS

I grew up in Chile, a distant southern place where the opportunity to travel is scare. During my architecture studies, we were eager to read architecture magazines to find out what was being built around the world. To then have the opportunity to visit those places and have a real sensorial experience was a privilege and a very important learning experience. As an architecture student, the experiences that were particularly significant were my exchange semester in Rome (Italy) and my internships in Vicenza (Italy) and Berlin (Germany). Later, when I moved to Europe permanently in 2005, I could travel at ease on a regular basis. As part of my further studies I went on field trips, first to Stockholm (Sweden) in as a town planning student at la Sorbonne, then to Tubingen and Stuttgart in Germany during my Environmentally Sustainable Design training. Today I continue to draw architectural inspiration from my travels. For example in 2010 a made trip to Iran motivated by the vernacular “Wind Towers�, a millenary passive cooling system developed in the Middle East. I enjoy learning from contemporary techniques as much as learning from vernacular architecture’s wisdom.

Travel

AMERICA

MIDDLE EAST

EUROPE

Chile Uruguay USA Mexico Peru Brazil Argentina Bolivia

Iran Israel Jordan

Denmark Iceland Greece Malta Estonia Latvia France Sweden Finland England Poland Netherlands Spain Belgium Italy

AFRICA Morocco South Africa Swaziland

ASIA OCEANIA India South Korea Japan Turkey Australia Thailand Cambodia Indonesia New Zeland

Germany Croatia Portugal Czech Republic Slovenia Austria Hungary Switzerland

Long stay or residence

TRAVEL 107

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CONTACT