Portfolio

portfolio michelle lavayen

email:

michellelavayen05@yahoo.com

web:

issuu.com/michellelavayen

index A || Master in Advanced Architecture 01 . Self Sufficient Block

06

02. Barcelona 0 emissions

14

03. Designing associativity

20

04. Material Systems

24

05. Digital Fabrication

28

B || Undergraduate 06. House prototype

32

07. Tecnopark Panama

36

C || Professional Experience 08. Element tower

44

09. Oasis 18

46

10. Oceania

48

11. Rocky point

54

D || Extras 12. Research . Housing

60

13. Photography

64

|| Master in Advanced Architecture

01

Self Sufficient Block

Type: Location: Poblenou 22@, Barcelona, Espa単a. Site area: 100,000 sq.m. Year: 2011 Individual work Tutor: Vicente Guallart, Javier Pe単a. (Guallart Architects, Xpiral Arquitectura)

The objective of the project is to transform one Cerda Block of Barcelona into a Self oping the block were to free the ground level, create an underground patio and use it as a public green space in order to connect and give back interactive spaces to the city. to better location and connecting them through a green loop that will serve for vertical farming. The inverted topography and the courtyards of the building will work as for sustainable elements, it also becomes the skin of the building.

06

view of physical 1:200 model

This metabolic structure will serve to harvest water to produce energy, clean grey water for farming and public green areas, waste management, geothermal system and solar photovoltaic panels on south side of the block were it can take advantage of the most of radiation.

07

top view of courtyards and green vertical farming loop

01

Self Sufficient Block

08

Site analysis and actual conditions

education

Linear Arrangement vs. Loop Arrangement

student housing

commercial

street

food court

housing

library

apart hotel

linear arrangement = unroll activities

apart hotel

housing

position of the sun through the day and consume more energy. Organizing programs according to best location, allows to control the overexpense of energy and also having better conditions for that place. Example: Library and education are oriented to south to have better natural light. The assorting of the programs will variate depending of programs

student housing

commercial library

block that could collaborate to each other. Mixed uses like living, working, studying and commercial can collaborate in having a varied types of activities and reducing the transportation and energy consuming.

education

results in every block. loop arrangement

NORTH

farming + green

green terraces

WEST commercial

existing housing

apart hotel

existing housing commercial

interconnecting programmes vertical circulation

housing

09

vertical farming student housing

housing (unifamiliar)

exhibitions / open public

SOUTH library

programme

green loop vertical farming

education

EAST

green public space = conexion to the city grid

rolling activities to best location mobility

01

Self Sufficient Block

Defining courtyards Courtyards are serving to improve the environmental conditions in the block. They are working as vertical circulation, structure of the building, connecting activites, and working as the metabolic system of the block and distributing light. Depending of the activity that they have beside the courtyards are sorted through the block. be changed through sliders adaptating size and shape acoording to the program needs. This will also variate from block to block according to program and orientation.

courtyards parameters

gridshell steel structure = structure + skin closed closed open

open

elevated from ground twist to prevailing winds

10 closed

water collection

open

wind

open

inserting light

closed

distributing light

optimization of top mesh to best solar radiation for energy production wind

distributing light

inserting light

distributing light

water collection

arranging courtyards

wind

inserting light

Form analysis with grasshopper + galapagos + geco

A gridshell steel structure will allow to to change the slabs heights according to the needs of the program and creates free open spaces in order to be changed through time. Will serve also as the skin structure that will variate depending on its location: facade, top and lower roof, courtyards. In the facade will create a double skin to protect from the radiation letting pass the natural light. In the top roof, solar photovoltaic panels will be in the most radiated parts. And also open structure to farming and green spaces on the last

01

Self Sufficient Block

CARRER DE TANGER acceso peatonal

plaza level +0.00

plaza level +0.00 level +0.00

level -1.00

level -1.00 level -1.00

level -1.00

level -2.00

CARRER D' AVILA

CARRER D' ALABA

ramp

ramp

level +0.00

level +0.00 level -1.00 ramp

acceso peatonal

level -1.00 ramp level -2.00

acceso peatonal buses

level -2.00 green vertical farming level -2.00

ramp

ramp level -2.00

level -2.00

level -2.00

ramp plaza level +0.00

ramp

plaza level +0.00 acceso peatonal

sidewalk bicing

C A R R E R D E S A N C H O DE A V I L A

ground floor plan 12

vertical garden

level 100 plan

1. clean water collect - clean - use rainwater

2. grey water 3. energy

collect - clean - reuse services - back to network produce - store - use hydroelectricity: collecting water from terraces

4. movility

logistic and movement parking systems with sensors. spaces: cars, bycicles, motos. peaktimes vs. night times . 24 hours of parking use. movement : people : living users in the block + working users + visitors

5. information

data produced vs. consumed mapping the performance of the block temperature 20 - 25 degrees (summer or winter) lighting 500 lux. appropiate for working moving sensors to turn on lights

6. waste

recycling food waste and garden waste convert to rich fertiliser for soil.

7. food

produce - consume (habitants of block) - sell (to neighborhood) verticrops . farming

13

02

Studio 1. Barcelona zero emissions

Type: Urban planning, sustainability Location: Barcelona city, Spain Neighboorhood: Putget i Farro, Vila de Gracia, El Camp d’en grassot y Gracia Nova. Team: Michelle Lavayen, Daniela Quesada, Yashaswini Apte. Year: 2010 Tutors: Lluis Viu, Jordi Pages (Max de Cusa Arquitects)

14

Hydroelectric power (hydropower) is a largely untapped source of energy which can be harnessed without producing harmful emissions. The mountainous area of Putxet is well suited for hydro-electric power

1) Mapping of the street rain water collection network in the area, this includes mapping the location of rain water collection chambers along the road and sewers, highlighting the

f rain velocities through the slopes, and down the 2) Identifying building with terraces for water collection and calculation of the quantity of water collected. Mapping of the down the streets and that is collected on the terraces of the buildings shall be used to power the neighbourhood using the ‘Micro- from the terraces to the rain water collection hydroelectric system’. We propose to locate chambers. turbines and generator houses at infrastructure of the existing sewer systems located at 3) Study of the above two maps in conjunction to comprehend the rain water collection head locations. In order to tackle the irregularity in the precipitation, reservoirs to store provide a proposal for generating electricity water can be located strategically, so that this for the neighbourhood of Putxet. water can be used to generate electricity during periods of low or no rainfall.

Zones of potential water harness areas that have a combination of and underground infrastructure to sustain possible micro hydroelectric systems.

source of water through the formula:

P=n• p • g• h • q P: power p:density of water g: gravity- 9.81 m/s2 h: head

17 15

02

Studio 1 . Barcelona zero emissions

We propose to generate Hydroelectric power using the ‘Pico-hydroelectric system’ for the buildings in Putxet. Electricity will be generated by individual buildings using the rain water collected on the terraces.

water pipe connected to underground reservoir rain water pipe connected to turbine & pump underground water reservoir connection with reservoir from another block

This system shall be installed in buildings having a water head > 20m. Water turbines alongwith generators shall be located at the bottom of the terrace rain water downtake pipes. The energy generated by the water

underground water reservoir

A plan of a single building block

electrical energy that drives the generator. Electricity is generated using the speed of

overhead water reservoir

Total terrace area = 2820 sq.m. Total water collected on terrace = 408 cu.m. for direct power generation

The rain water reservoirs ensures that the system can operate even during periods of low or no rainfall.

Total water collected on terrace = 1258 cu.m.

hydro-electric generator

D

converter & battery

section

16

converter: DC to AC & battery storage hydro-electric generator

return pipe; water is pumped at low peak hours

water routes:

water collecting/ water pumping

daytime water collection and energy generating through hydro-electric turbines & generators in drains. night time- low peaks in energy used to pump the water back up the sewer line infrastructure from the low to the high reservoir.

water collecting

daytime water collection and energy generating through ters down to low reservoir.

water reservoir (24m x 24m) and substation At each substation there are electric converters and batteries, as well as connections to the main grid, and a monitoring station.

underground reservoir

17

Neighboorhood scale proposal

02

Studio 1 . Barcelona zero emissions

WATER COLLECTION AND REUSE TO GENERATE HYDROELECTRIC POWER The main idea of the proposal is to take advantage of the water collection through the drainage system and planning a water pumping system to generate electricity in the peak demand hours. For less impact, we are using the existing system and taking advantage of the deposits of rain water located around Barcelona.

RAIN WATER FLOW: 42 hm3 per year CITY EXPLOITABLE AQUIFER: 20 hm3 per year EXISTING WATER DEPOSITS: 522,400 m3 PLANNED WATER DEPOSITS: 778,100 m3

1. Recognizing the exisiting water network in Barcelona.

MAIN NETWORK SECONDARY NETWORK EXISTING RESERVOIR PLANNED RESERVOIR PROPOSED RESERVOIR WATER PUMPING DOWN

2. Recognizing the potencial sites according to topography

where we can apply the model of our barrio Putxet in all Barcelona.

18

3. Connecting the existing water deposits with the pumping loops acoording to topography. and using the main existing network.

WATER PUMPING UP

19

Barcelona plan . city scale proposal

03

Designing associativity . Building component mpon mpo pone nen ent nt

Seminar: Designing associativity Team: Michelle Lavayen, Liliana Viveros, Renata Stefanelli Year: 2011 Tutor: Luis Fraguada (Lan architecture)

The goal of the assignment was to study the relationship between information, design and fabrication and implement that -

skin according to its shape and surface. This eventually would help calculate f greater which is the best possibility for amount of energy production (kwh.) This research is very important and useful to our group because we are working with

worked with a building component (a skin) that changes its behavior based on climactic forces such as solar radiation. In this example,

Studio. The tools used where Rhino, Grasshopper,r,r Kangaroo, Weaverbird, Geco and Ecotect.

solar radiation capture/absorbance of the

20

3d printed model

Having as a base the IaaC’s block . We that will work as skin on the top of the buildings. In order to analyze the amount of sunlight it can capture throughout the year, we calculated through Geco that combines Grasshopper with Ecotect. To turn our design into a physical object we used prototyping equipment – 3d printer.

2.

1.

1.

2.

21

Digital fabrication process

03

Designing associativity . Tool to calculate energy produced

Seminar: Designing associativity Team: Michelle Lavayen, Liliana Viveros, Renata Stefanelli Year: 2011 Tutor: Luis Fraguada (Lan architecture)

The project integrates architecture, form and sustainability gathered in one whole system. Integrating Grasshopper, Diva and Ecotect into this process to help us design according to energy. The goal is to calculate the amount of energy produced according to the form and location of every element in the building, so by that we can change and transform the form and see which one is the most appropri-

use this system as a tool for any other project change the latitude and longitud acoording to hours to calculate the energy produced in result we received values in (kwh) produced by the surface.

energy conditions. At the same time we can

1. Create a mesh

Draw some curves in rhino. In this case we draw 4 curves of 100 m. in order to compare with the Cerda Block in Barcelona (100m. x 100m.). Reference the curves to grasshopper and loft them. Convert the surface to mesh and divide 20 x 20 for more detailed calculations.

2. Surface color acoording to insulation received 22

We connect a vector using DIVA and put the latitute and longitute of Barcelona. Set the bounds, domain components and gradient to have a graphical representation of the changing insulations through the day. Yellow being the higher value to blue lower value.

3. Geco calculations

Using the pluging of Geco that links Grasshopper and Ecotect. We connect the same surface and set the controls of export mesh to ecotect and eco sol cal, attached the weather file of Barcelona. Setting an eco day of the year and connect with the month, day and hours reference in the diva vector used in the beginning. Having the same calculations of Diva in Ecotect creating more specific values of radition received. Values that will use in the last step to do the calculation of the energy produced.

4. Responsive surface openings

We decompose the mesh to recognize every square of the grid and could managed the openings independently, then connect the DIVA vector (sun) created in the beginning.The result is a list of generic data, we managed that list with a domain for major and minor apertures for the openings, connected to sliders to be changable.

7.- Transforming ransforming values into energy gy produced

When we get the amount of solar radiation of Ecotect the value came in Wh/m2. Convert the value in Kwh/m2, then find the average value and multiply this value with the mesh area divided by the photovoltaic solar panel efficiency f fficiency (acoording to the type of solar panel to use) to get the total Kwh produce by the mesh in one day.

23

04

Material systems . Responsive fabrics

Seminar: Material, materiality and material systems. Team: Michelle Lavayen, Marisa Margariti, Daniela Quesada, Erina Filipovska. Year: 2011 Tutor: Claudia Pasquero, Marco Poletto (Eco Logic Studio)

Fabric structures are architecturally innovaend users a variety of aesthetic free-form building designs. In the research to create new fabrics that could improve in rigidity, strength, durability, and environmental resistance. We combined a spandex fabric that would be more rigid and at the same create interesting patterns on the fabric. It will depend on how is the force applied into the fabric and the points from where is going to kind of forms into the material.

24

experiment process

Responsive Fibers . Reversible phase transitions to external stimulia. A composite mesh. The properties of the synthesis of these results in a material that reacts to heat in reversible ways. Reversible phase transitions to external stimulia. A composite material of properties of the synthesis of these results in a material that reacts to heat in reversible ways.

25

experiment process

04

Material systems . Responsive fabrics

Grid parameters

[GP]

Colorspandexffin

[CSF]

Pattern Fabric Component

[PF]

time

26

force Description_ based on a grid for pushing the points of the surface in order to create parameter that will determine the patterns on the fabric accoording to the points, time and force of the pushing. Based on an (xy) axis plane we will increase the time an the force of the pushing beginning from 0,0 grid of points.

Description_ This elastic and light material allows to create interesting patterns into the material that works as minimal path finding. We control the pattern of the fabric creating a certain sequence and defining the pulling points within a predefined grid.

Description_ This material can be used as an architectural fabric that function primarily in tension for a variety of aesthetic free-form building design. Depending on its support structure and the type of tension into the fabric it will create different patterns. Also it’s a insulating material that absorbs the solar radiation.

Temp responsive fabric

[TRF ]

Urban Green House

[UGH]

Tromb Wall Faรงade

[TWF] 27

Description_ The surface reacts to the change of temperature. Creating a clear surface at a high temperatures and becoming translucent when it lose heat. This material can absorb the temperature acting as a good material for insulation.

Description_ An additive facade system to existing buildings to capture sunlight and solar heat for the purposes of possibly implementing green houses in high-rise buildings.

Description_ A full south-facing faรงade system that may be used to collect solar heat and play with the visibilities of desired views. In colder climates the heat collected by the material can then be released during the night; reducing operational costs.

05

Digital Fabrication

Seminar: Cnc cutting, milling, 3d printing Team: Michelle Lavayen and Erina Filipovska. Year: 2011 Tutor: Tomas Diez (Fab Lab Barcelona) We created a bench based on designing a waffle structure and getting into the process of fabricate our model with a laser cutter machine. The bench is actually a part of group a furniture, in order to do that we had some restrictions, the size should not exceed of the given bounding box (500 x 500 x 350 mm) and we should keep the 2 outer sides in that way all the benches could be put it together. We design a bench that could be comfortable, like a resting sofa.

Sectioning Laser cutted bench 28

Pieces to assemble

Assembing

Final model

Milling . Barcelona model . Barrio 16_Putxet, Gracia, Camp el Grassot y Gracia Nova

As part of our digital fabrication class, we had the task of milling in foam our barrio, as part of the overall Barcelona model at 1:2000. The process of milling in foam included preparing the digital file first in 2D CAD format and then importing into Rhino to generate the 3D extrusions for the milling machine. 29

milling process

milled model

|| Undergraduate

06

House Prototype

Type: Housing Location: Playa Blanca, Panama. Site area: 190 sq.m. Year: 2004 Individual work Tutor: Benjamin Barney (Colombia)

The project in charge is a group of houses located in the beach near panama city. The main objective of this project was to build a prototype house which can be used in this project and can work at another location too. The concept is to create a modular design prototype has to take advantage of climatic conditions of the site. The facades have to be open to allow the cross ventilation in all the spaces and conserving the views to the sea or place where is located. Based in these principles the proposal is a interior divisions made of prefabricated panels making very practical, economic, and its construction can be realized in a short period of time.

32

Facade front view

Bringing all the prefabricated pieces of the structure, facade panels and wall panels to the site. The services of the house like kitchen, laundry and bathrooms are concentrated in just one around it, we can leave the open space or we can change it into a bedroom or study. The facades are composed by modules of louvers that permit ventilation in the house, we can regulate them to be more open or more closed depending on the climate change and conditions. The double inverted pendant roof recolects the rain water that will be saved and treated for reusing water for the services of the house and exterior areas maintainence.

33

Interior view

06

House prototype

terrace

covered terrace

bedroom services

living

living services

bedroom

bedroom

Lower plan . level 000

Upper plan . level 100

34

Section a-a

Section b-b

35

cross ventilation diagram

sun prottection diagram

preliminar study models

07

Technopark Panama

Type: Urban planning and commercial Location: City of knowledge, Panama city. Site area: 98,950 sq.m. Year: 2006 Thesis project Tutor: Fernando Gordillo (Colombia)

Technopark is a bussiness park oriented to innovating culture and to the development of Technologies is conformed by universities, research institutions and companies in

The project became to my interest when a urban planning project for the city of knowledge, where the project it is located, were developing. This site was part of the reverted areas that the Americans left when they end their period in the management of the panama canal. There is many projects of restoration and urban planning running in this area, but none of them has take care of the actual conditions of the site. They don’t evaluate the impact of re-densify. The technopark was the perfect site to develop the project. The concept of the project was to maintain the central green space, respect the scale of the actual buildings of the site and taking advantage of the climatic conditions of the place. One of the needs of the technopark was nies to come.

36

The proposal is six underground buildings with a central park between them, a plaza with an auditorium building for the public use of city of knowledge and administration underground allows the project to still have a big green space that respect the actual views of the old buildings, also creates a new condition to the advantage of the climate using sustainable techniques in the building that place.

17 37

07

Technopark Panama

TERRAIN EXISTING BUILDINGS SPORTS AREA

Aerial view of site

GREEN SPACE MAIN ROADS (VEHICULAR) SECONDARY ROADS (VEHICULAR)

Actual conditions of site

Existing building type

38

GREEN PUBLIC AREA SPORTS AREA MAIN PLAZA PEDESTRIAN WALK OFFICES NEW BUILDINGS MAIN ROADS (VEHICULAR)

Proposal urban master plan

pedestrian parkings

3.

2.

pe d

es

tri an

1.

auditorium

park sports

4.

parkings

pede

strian

main plaza.

5. 6. adm.

Six underground buildings, park, pedestrian walk, main plaza, sports areas, auditorium, and administration. 39

Conserving the scale of the open spaces, Giving a new commercial use to the site, Converting the road into a pedestrian walk.

07

Technopark Panama

VENTILATION = CHIMENEES HUMIDITY = VEGETATION

transversal section

40

SUN PROTECTION = EAVES + LOUVERS VENTILATION = DOBLE SKIN FACADE

ENERGY = SOLAR DUCTS sustainable concepts

41

ENERGY = GEOTHERMAL AIR CONDITIONING

This concepts support the savings of natural resources in places with high use of electricity.

|| Professional Experience

08

Element . Ventura arquitectos

Type: Residential Location: Ave. Balboa, Panama city. Construction area: 21,432 sq.m. Year: 2008 Status: in construction Role in project: coordination in develop ment plans, interior design details and materials. Tutor: Jaime Ventura

Element is a residential tower located in The tower has 100 units ranging in size from Balboa Avenue in Panama city. The privileged location at the bay of the city and the high tower with 2 bedrooms 2 baths and terraces; cost of the land in this area create this kind of boutique apartment project. And in the last levels are the duplex penthouses. The particularity of the project is the form that the balconies of the apartments create. The continuous zigzag form through the main faรงade.

parking

lobby

44

port-cochere

public

hall

a.

b.

b.

a.

balconies

Site plan . lobby . level 000

45 31

Interior view

09

Oasis 18 . Mallol & Mallol

Type: Residential Location: El Cangrejo, Panama city, Panama. Construction area: 3,930.58 sq. m. Year: 2008

Status: In project development Role in project: preliminar design and coordination Tutor: Juan Carlos Saenz (Colombia)

Oasis is a residential project of 18 apartments located in the center of the city of Panama, a residential neighborhood with houses and buildings of a maximum of three levels. The concept was to create central patio that becomes the center of the project and characteristic space of the building. The patio becomes the lobby of the building in the main level and in the other floors we find the entrance of the six apartments using bridges that cross this open triple height space. The organization was challenging because the form of the lot was irregular and it has a wide programme for the size of the area permitted for building in that place. The apartments begin in 120 sq. m. up to 160 sq. m. And count with an open social area on the top floor and parkings and lobby on the ground floor.

46

Preliminar study 3d model view

entrance

a.

b. c. atrium

47

atrium

f. d. parkings

e.

10

Oceania . Mallol & Mallol

Type: Commercial Location: Panama. Construction area: 8,992 sq.m. Year: 2009 Status: in construction Role in project: coordination, design and interiors. Tutor: Ignacio Mallol

The plaza is considered as an extension of the showroom which allows to realize outdoor events or activities.

Btesh & Virzi, renamed real state company that counts with a wide variety of proyects around The program consists in a showroom that Panama. My collaboration to this tower was to exhibits the projects of the company open to coordinate the project, in terms of develop- visitors and clients, located in the ground ment, design and construction. has a double height, open areas divided by The design proposal is to create a crystal large interactive touch-screens that show the volume, which at nights resembles a light - In the levels 100 to 300 are the operative glazed curtain wall with a pattern of gradient dots that form the principal facades of the with gym, lounge bar, movie theater, kitchen, tower. of a plaza and a water mirror that integrate the covered terrace for private events of the company. tower 3000 into the oceania complex.

48

49

10

Oceania . Mallol & Mallol

terrace - events

entertainment

mezzanine

plaza

parking parking

Plaza connects public space with showroom

Oceania . Tower 3000 . section

50

plaza exterior view

showroom interior view

port-cochere lobby

plaza exterior

showroom

public space Oceania . Tower 3000 . site plan . level 000

51

plaza exterior view

Terrace . level 700

showroom view

Facade . double glazing + pattern

10

Oceania . Mallol & Mallol

42 52

th ide the id idea ea of ea of cr c creating reating e a str sstructure truct truc uctu tur ure - bridge bridg is i to t co conn connect nnect nnec ect towe ttower ower 1000 and 2000 at this ower thi le llevel eve ev vel el u unifying the th e soc social ial area areas ea ea ass o off the th 2 towe ttowers owers ower

tower 1000

conferences

lounge bar food court

conex io

n brid

ge

events

tower 2000

gym

Oceania . Tower 1000 and 2000 . Social Area . level 1400

53

plaza exterior view

Interior view of events

showroom view

Interior view of the bridge

11

Rocky point . Mallol & Mallol

Type: Residential Location: Coronado, Distrito de Corona, Panama. Construction area: 8,250 sq. m. Year: 2009 Status: In project development Role in project: preliminar design Tutor: Ignacio Luis Mallol

This project is a building apartment in the beach of Coronado, Panama. The terrain has privileged ocean view, but the main faรงade is narrow in comparison to the bottom of the lot. Giving those parameters the design proposal are 6 long and narrow apartments organized by 3 main interior patios. And all the apartments have sea view and the patios allow the cross ventilation in all the apartments. The patio gives a particularity to the interior space of the apartment and at same time organizes all the areas. The social areas and the private areas are divided by this space. The

can use that for the lobby and for the parking. The common area of the building is located on the roof of the building.

54

55 45

11

Rocky point . Mallol & Mallol

parking

entrance -100

lobby - 100

56

entrance -100

private

patio

a.

patio

patio

b.

c.

d.

e.

private

patio

f.

social

social

57

General section

|| Extras

12

Research . housing

Type: Containex . Housing Construction area: 28 sq.m. Year: 2009 - actual Status: in progress Individual research of practical and funtional housing

This is a self motivated project about the study These concepts also support the feasibility of of optimization of spaces in a dwelling. sending dwellings overseas because the service module can be placed inside the The aspects that the project is based are: containers with the structures needed for the advantages of minimum spaces, possible adaptation to the site and can be transported emergent dwelling, multiple site adaptation, by container ships. The prefabricated unit will economic construction methods, green be ready for adapt it to the site and could be a materials, reuse of structure, easy overseas easy alternative for temporal or permanent possibility of house extension.

The study began in the concept of reusing old containers for the advantages of transportation and economic construction. The project ment of concepts and construction methods. consists in two containers of 20 feet (6 meters), in a total of 28 sq. meters.

Space planning

20 feet

14 m2.

natural disaster or for solutions to low-income housing complex.

20 feet

+

=

14 m2.

28 m2.

60 Site adaptation

plain

slope

mountain

61

12

Research . housing

The proposal consider a service module, with a compact kitchen and a bathroom, this centralize the services and piping of the house, creating an integrated piece that can be reproduced a lot of times, making it sustainable in terms of becoming an emergency housing project. This module spaces depending on the numbers of people time.

module = kitchen + bathroom

insulation = energy saving = reuse of supplies = recycling =

62

container section

green roof solar tubes water recycling materials

63

plaza exterior view

showroom view

“

�

The position of the module create different arrangement of spaces

13

Photography

54 64

Nature

55 65

13

Photography

56 66

Nature

57 67

plaza exterior view

showroom view

Luz Michelle Lavayen Pazan email: web:

michellelavayen05@yahoo.com issuu.com/michellelavayen

cv EDUCATION 2010 - 2011 Master in Advanced Architecture. Self Sufficient Buildings; IAAC (Institute of Advanced Architecture of Catalonia). Barcelona, Spain.

2002 - 2006

1998 - 2001

Bachelor of Architecture; Isthmus High School Diploma in Science; Sek (Escuela de Arquitectura y Diseño de Internacional College. Panama city, América Latina y el Caribe). Panama city, Panama. Panama.

WORK EXPERIENCE 2008 - 2010

2007

2006

Mallol Arquitectos in the schematic Ventura y Asociados Arquitectos collabo- Musa Asvat Arquitectos, schematic design department and collaboration ration in the design and development design area. Panama city, Panama. with development on site. Panama city, area. Panama city, Panama. Panama.

2005 Internship in José Ramón Moreno Arquitectura, design department. Seville, Spain.

COMPUTER SKILLS Autocad. Advanced Rhinoceros. Advanced Grasshopper. Intermediate. Ecotect. Intermediate. Processing. Beginner. 3ds Max 2011 with Vray. Advanced Adobe Illustrator. Advanced Photoshop. Advanced In design. Advanced

email:

michellelavayen05@yahoo.com

web:

issuu.com/michellelavayen