URBANISM - LANDSCAPE - ARCHI TECTU R E - S U S TA I N A B I L I T Y
PORTFOLIO
N I N I K E C E L I ATA L A
Names and surnames: Ninike Ariel Celi Atala Place and date of birth: Portoviejo, March 20, 1991 Age: 25 years old Civil status: Single Citizenship card: 130774465-4 Address: Eloy Alfaro 2078 y 6 de Diciembre Phone: (593) 984644984 E-mail: ninikeceli@gmail.com Website - BLOG: www.ninikeceliatala.com Country, city: Ecuador – Quito
ACADEMIC STUDIES:
LANGUAGES:
Universidad De Las Américas (UDLA) / / Promotion 2015. Architecture facuilty.
- Spanish: High Level - English: Middle level
PROGRAM MANAGEMENT: -
AutoCad Autodesk AutoCad 3D Autodesk Sketch Up Adobe Ilustrador CS6 Adobe Photoshop CS6 GIS - Basic Level
Unidad Educativa Experimental Almirante Nelson (ANAN). Promotion 2009.
- Italian: Basic Level
CONFERENCES IMPARTED:
COURSES AND SEMINARS OBTAINED:
Conference: "Urban Encounters of Habitat III". Academic Network of Urban Studies.
- Seminar and workshop Ecotect-Program for sustainable Design. College of Architects Ecuador, 2014 (30 h).
Expositor: "Methodology for the Recovery of RavinesAaccording to the Urban Environment of Quito". 25 May 2016 PORTFOLIO
- Design and Construction Course for Green Buildings LEED 300. Ecuador Green Building Council, 2013 - 2016 (30 h).
AWARDS:
B i e n a l P a n a me ri c a n a d e A rq u i t e c t u ra d e Q u i t o (2 0 1 6 )
HONORABLE MENTIONS:
U n i v e rs i d a d d e l a s A mé ri c a s (2 0 1 4 , 2 0 1 5 )
- Course of Environmental Management: SECAP Quito, 2013 (60 h). - Eco Construction 2012 Symposium: University Santiago de Guayaquil, september 2012, Guayaqui - Ecuador. NINIKE CELI ATALA
E n c u e n t ro s U rb a n o s - H I I I (2 0 1 6 ) * See mentions and award-winning projects
WORK EXPERIENCE: - Investigation department - odD+ ARCHITECTS Urban Investigation and Analysis. Quito, November 2016 - Nowadays / Maud. Arch. Lucas Correa
- Research and Diagramming - ECODIVERCITY: Research and diagramming of sustainable strategies for the architectural contest of "Governmental Platforms". The project was carried out for a contest proposed by the Government of Ecuador in the city of Guayaquil. Quito, April - 2014 / Arq. Carolina Proaño
- Resident of audit - CELI CONSTRUCCIONES Inspection of the set of buildings "Torres Carré". Quito, April to October 2016 / Ing. Leonel Cumbal
- Collaboration in research, design and drawing - CARDNO, CAMINOSCA: C o l l a b o r a t i o n i n r e s e a r c h , d e s i g n a n d d r a w i n g o f sustainable urban consulting, project"Master Plan Guasmo Sur of Guayaquil". The project was carried out for the institution of the Government of Ecuador, INMOBILIAR Quito, February - March 2014 /Arq. Isabel J. - Arq. María Becdach.
- Design M.A. - NCA ARQUITECTURA Architectural design of the work "M.A.". Mindo, June 2016 - July 2016 / Dr. Galo Montenegro - Design and construction - Deck 001 - NCA ARQUITECTURA Design and construction of the work "Deck 001". Quito, June 2016 - July 2016 / Mrs. Margarita Proaño - Planning, design and drawing - PROJECT: Collaboration in the planning, design and drawing for the emerging proposal of Tasaste for Earthquake of April 16, 2016 in Manabí. The project was carried out for the Cáritas Quito, June - 2016 / Arq. María Alicia Becdach. - Planning, design and drawing - ECODIVERCITY: Collaboration in planning, design and drawing for emerging proposal of Bahia de Caraquez for the earthquake of April 16, 2016 in Manabí.The project was carried out for MIDUVI (Ministry of urban development and housing) Quito, May - 2016 / Arq. Carolina Proaño - Design and drawing - ECODIVERCITY - STUDIO 685: Collaboration in design and drawing for the landscape design of the square of the "New LinQ Building". The project was carried out for the institution of the Municipality of Quito, LinQ Quito, January - 2016 / Arq. Carolina Proaño - Residential design Samborondón - R.A. - NCA ARQUITECTURA: Architectural design of the work "R.A.” Samborondón, September 2015 / Mr. Fidel Regalado - Architectural Environmental Consulting - Jaime Miranda Architects: Environmental consulting for sustainable strategies for the new typologies of the (CIBV) Centre Children of the Good Living. The Consultancy was done for the new proposal of the (CIBV) by The Government of Ecuador. Quito, July - 2014 / Arq. Daniela Maldonado PORTFOLIO
- Collaboration in research, design and drawing ECODIVERCITY: Collaboration in research, design and drawing of sustainable urban consulting, of the project "Master Plan Portoviejo".The project was carried out for the institution of the Government of Ecuador, INMOBILIAR (Inmobiliaria) Quito, November - December 2013 / Arq. Cristina Gomezjurado and Arq. Carolina Proaño - Research and diagramming - ECODIVERCITY: Draftsman of the architectural and environmental consultancy of "Terrestrial Ter m inals in Ecu a d o r" . Pro je ct wa s ma d e fo r a p ro p o sa l o f th e Government of Ecuador. Quito, July - August 2013 / Arq. Carolina Proaño - Draftsman - ECODIVERCITY: D r a f t s m a n o f t h e a r c h i t e c t u r a l and urban project "Puerto Napo”. Project was carried out for the municipality of Ahuano, located in the Amazon of Ecuador Quito, April - May 2013 / Arq. Ernesto Bilbao - Arq. Carolina P. - Draftsman - ECODIVERCITY: Dra f t sma n o f t h e p ro je ct " G re e n Infrastructure - Private Set San Sebastián" Quito, March 2013 / Arq. Carolina P. - Arq. Ricardo Da Sousa - Drawing and Design - ECODIVERCITY: A ssista n t o f d ra win g and design of the project "Spring of the River Napo - Ahuano" Project was carried out for the municipality of Ahuano /Ecuador Quito, February 2013 / Arq. Carolina P. - Arq. Daniela M
NINIKE CELI ATALA
INDEX
T
Thesis Methodology to Recover Ravines According to the Urban Environment of Quito. 2015
A
Architectural Projects
Residence R.A. - Guayaquil, 2016.
C
Conceptual Projects
Porosity Concept - Quito, 2014.
Residence M.A. - Mindo, 2016.
U
Urban Projects
Deck 001 - Quito, 2016. Vantage Point / Group of Observation Decks Quito, 2013.
Ecological Platforms / Sections Connected as Ecological Zones - Guápulo, 2014.
Ahuano Dock / Building on guadúa cane in the Amazon - Ahuano, 2012.
Master Plan: Urban Project in the south lands of Guayaquil Providing Green Areas and Public Spaces - Guazmo, 2014.
E Master Plan: State Park and Institutions, Creating Public Institutions with Space for the City - Portoviejo, 2013.
Environmental Consultancy Projects
Jose Engling Catholic School - Ilaló, 2016. Arezzo Building - Quito, 2016.
L
Landscape Projects
LINQ Building / Landscape and Sustainability Proposal - Quito, 2016.
Fez Aqua Building - Cumbaya, 2015. Children's Center Typology / Good Living Ecuador (Coast, Sierra and Amazon), 2014. Bus Station Typology Ecuador (Coast, Sierra and Amazon), 2013.
PORTFOLIO
NINIKE CELI ATALA
M
Models
Models of various projects.
DESIGN PARAMETERS WATER
ALTERNATIVE MOBILITY Reuse of rainwater and gray waters into the building and for landscaping, while reducing water consumption, discharge to sewer and improves thermal sensation.
ENERGY
MATERIALS Use of sustainable materials, which have no environmental impact and that are native of the place.
SOLID WASTE Provide specific places for the classification of the different types of garbage / waste.
NATURE / BIODIVERSITY Creation of green areas for biodiversity of the area and its close relationship with the estuary, conserving the land with soil mulched.
PORTFOLIO
Built environment to be aesthetic and usable to the greatest extent possible by everyone, regardless of their age, ability, or status in life.
Walkable sectors with multiple services and quality public spaces for pedestrians, with different routes and bicycle parking.
ENVIRONMENTAL CONFORT Passive strategies reduce the necessity of energy consumption for ventilation and lighting; instead, they are complemented by high efficiency active solutions.
UNIVERSAL ACCESSIBILITY
INFORMATION TECHNOLOGIES Technological tools that help to make the building or project more sustainable and tools that provides a suitable comfort to the user.
Spaces designed for the user, with shade, water, materials and vegetation outside, and with a double faรงade for thermoregulation inside the building.
HEALTH & WELLNESS Healthy spaces for people, where nature is present and spaces free of contamination that damages health.
IDENTITY - LOCAL CULTURE Services and equipments for communal use integrating the property to the urban context, communal spaces that favor the social interaction.
COMMUNITY EQUIPMENT Incorporation of activities other than transport within the terminal for the diversification of the use of the place and to generate resources
NINIKE CELI ATALA
LIFECYCLE
$
Adequate investment of products and materials, which in a long time period, generates economic savings for its durability and quality.
MULTIPLE USE / FLEXIBILITY The spaces adaptability according to the different needs of its habitants, where each user has the possibility to appropriate each space according to the required functions
LOCAL ECONOMIC EFFECT Economic production of the urban or architectural project, designed to a group of people or a specific place.
T
Thesis Projects
PORTFOLIO
NINIKE CELI ATALA
T1
Methodology to Recover Ravines According to the Urban Environment of Quito MetodologĂa para la RecuperaciĂłn de Quebradas Segun el Entorno Urbano de Quito LOCATION
2015
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
2700 m.a.s.l.
Ecuador, Pichincha / QUITO PROFESSIONAL
ACADEMIC
LEVEL: Final Project TUTOR: Maud. Arch. Lucas Correa lcs.arch@gmail.com INDIVIDUAL WORK: - Arch. Ninike Ariel Celi Atala CHARGE: 1) Background 2) Analysis 3) Conceptualisation 4) Design and Proposal DESCRIPTION: Topographical conditions of Quito has peculiar characteristics, which give a strong identity, as the presence of mountains, slopes and ravines. Throughout its history, the city has undergone physical changes in the natural territory because of the uncontrolled urbanization and misguided intervention. Emphasizing the RAVINES, the reality of these is quite harmful, as it has been given a negative role and significance, filling them, using them as dumps, mouth of urban runoff, implementing urban infrastructure, PORTFOLIO
IMPLANTATION
$
waterproof them or even settling informal housing; affecting ecological areas and the rich biodiversity that these presents. Quito has begun to suffer the consequences of these misguided actions, such as the collapse of the sewerage infrastructure, floods, mass
movements, among other events.
of the city.
These events gave way to an awareness by the municipal authorities, initiating projects that give way to environmental and urban sanitation of these, looking for the city health, recognizing them as a biodiverse element, and life in the middle
For this reason in this thesis is created a methodology of intervention for streams and urban environment, in order to recover the ravines. Thus, the project is divided into three methodologies: a) Analytical, b) Conceptual c) Proposal
NINIKE CELI ATALA
FIRST PHASE
SUMMARY OF RISK MAP OF THE CITY OF QUITO WITH THEIR TYPOLOGIES OF STUDY
ANALYTICAL METHODOLOGY L. GRID
The first phase is a compilation of information geography, topography, climate, risk, environment, infrastructure, etc. of the city of Quito. The information is graphically reinterpreted in a mesh (pixels) on the map of the city. Here the stage with the map "Summary risk of Quito" was concluded to classify risks into 5 different levels (1 lower risk, 5 more risk), indicating the most vulnerable areas of Quito. To diagnose the current state of ravines, 12 typologies of study were identified by their urban conditions and its immediate environment. The types are represented in pixels of 500m x 500m, divided into 3 areas of analysis: the ravines, the edges of immediate protection and the urban environment.
ATACAZO
K. ENVIRONMENT SEMI-RURAL
l
VOLCÁN PICHICHA
d EL BEATERIO
j
k
AREA OF INTERVENTION (DIAGNOSTIC MICROPIXELES 50x50)
e
c
PARQUE METROPOLITANO DEL SUR
PANECILLO
b a g
i
f
The next step is the diagnosis of the typologies of study (pixel 500m x 500m) divided into micro-pixels of 50m x 50m.
RÍO
2
4
5
AN
GA
RA
I. RURAL ENVIRONMENT
h
H. PRESENCE OF INFRASTRUCTURE
10 km
A. ISOLATED BY INFRASTRUCTURE
B. INSTITUTIONS AND EQUIPMENTS
ILALÓ
C. GARDEN CITY
50m
50m
MA
PARQUE BICENTENARIO
PARQUE METROPOLITANO DEL NORTE
500m
ENTORNO URBANO
QUEBRADA FRANJA DE PROTECCION
PORTFOLIO
3
2. 50x50
500m
FRANJA DE PROTECCION
ENTORNO URBANO
1. 500x500
1
PARQUE LA CAROLINA
CH
The micro-pixels give information with scores (positive or negative), depending on the condition of each typologie in its three areas of study. Risk Levels
J. INDUSTRIAL AGRICULTURAL RESIDENCE
NINIKE CELI ATALA
D. RESIDENTIAL COMPLEXES
E. GARDEN CITY
F. NATURAL ENVIRONMENT
G. PIPED RAVINE
ANALYTICAL METHODOLOGY
In the second phase of analysis; the qualification system is a diagnostic of the typologies, which is based on a set of parameters that contain variables with scores, which help to establish witch were the "good" or "bad" urban interventions that have been made in the immediate environment of the ravines of the city. The diagnosis is based on parameters which are composed of variables and scores ranges from -2 to +2 (each score represents a micro-pixel color). The scores of the variables are dependent on the level of risk that each typologie shows on the "Summary risk map". That is, it is an urban "thermometer", graphically represented by pixels of colors. In the summary map risk were identify the parameters, their variables, and the urban typologies were located respectively to observe which level of risk is each of them. Such that, it resulted that the typology "J" will be the area for intervention, this one will be involved in the perform of the diagnosis qualifier of 50x50 (micropixel)
POINTS
QUALIFYING AND VARIABLE PARAMETERS
SECOND PHASE
RAVINE INFRASTRUCTURE
SOIL PERMEABILITY INTERVENED
INTERACTION WITH LOTS NOT BUILT
GROUND OCCUPATION /GROUND CONDITION
CONNECTIVITY
AREA WITHOUT VEGETATION
HEAVY TRANSPORT
LEVEL -1
FOOTWEAR FOR MOTORIZED TRANSPORTATION
MOTORIZED PRIVATE TRANSPORTATION
LEVEL +1
PUBLIC AND RECREATIONAL AREAS
PUBLIC TRANSPORT
AREAS OF AGRICULTURAL PRODUCTION
ALTERNATIVE ECOLOGICAL TRANSPORT
ALTURA E: HIGH HUELLA E: LOW
ECOLOGICAL AREAS
PEDESTRIAN
ECOLOGICAL AREAS
-2
DOWNLOAD OF WATERS SERVED FROM THE CITY
LEVEL -2
-1
DOWNLOAD OF WATERS SERVED IN INFORMAL PLACES PLANTED ON THE RAVINE
0
RAVINE PIPED
1
RAVINE WITH CONNECTION BRIDGE
LEVEL +2
NATURAL RAVINE
2
MOBILITY
CONDITION NEAR THE RAVINE
LOW POROSITY ALTURA E.: LOW HUELLA E.: HIGH MEDIUM POROSITY
HIGH POROSITY
ALTURA E: MEDIAIM HUELLA E.: MEDIUM
DENSITY / PENDING
VEGETATION DENSITY
NFORMAL CONSTRUCTION RAVINE BORDER
HIGH DENSITY PENDING: MORE THAN 35%
CONSTRUCTION DISTANCE “A” OF THE RAVINE
DENSITY: MEDIUM - LOW PENDING: MORE THAN 35%
CONSTRUCTION DISTANCE NORMATIVE OF THE RAVINE
DENSITY: MEDIUM - LOW PENDING: 20 %- 35%
LOW
ROAD INFRASTRUCTURE
DENSITY: PENDING: 0% - 20%
MEDIUM
ECOLOGICAL AREA
DENSITY: - (VEGETION) PENDING: MORE THAN 35%
HIGH
NON VEGETATION
QUALIFICATION DIAGNOSIS / TYPOLOGY “J”
-2
-1
POINTS: 37
POINTS: -14
POINTS: 63
POINTS: -41
POINTS: -3
Ravine infrastructure
Permeability intervened
Interaction with lots not built
Mobility
Connectivity
0
+1
+2
-2
-1
0
+1
+2
-2
-1
0
+1
+2
-2
POINTS: 82
POINTS: -11
POINTS: 12
Floor numbers in edification
Ground ocupation Ground condition
Condition near the ravine
-1
0
+1
-2
+2
-1
POINTS: 35
0
+1
+2
POINTS: -19
Density Pending
Vegetation density
TYPOLOGY “J” INDUSTRIAL ENVIRONMENT (AGRICULTURAL HOUSING) Qualification:
1
2
3
4
5 -2
Total points:
PORTFOLIO
-1
0
+1
+2
-2
-1
0
+1
+2
141
NINIKE CELI ATALA
-2
-1
0
+1
+2
-2
-1
0
+1
+2
-2
-1
0
+1
+2
CONCEPTUAL METHODOLOGY
CONCEPT
CONCEPTUAL STRATEGIES
The concept of the proposal stems from the strategies implemented in the three areas of the ravine.
RAVINE URBAN CENTRALITY
GREEN DAMPER
GREEN BARRIER
BROWNFIELDS
PUBLIC SPACE
COMMUNITY INTERACTION NATURE
CONNECTIONS
RAVINE CONSERVATION
PEDESTRIAN GREEN AXES
WASTE TREATMENT
URBAN GROUNDS
GARDEN UNUNDABLE
WATER COLLECTION RAIN PARTER AND EDGE
RECREATION WITH PASSIVE DESIGN
GREEN TERRACES
GREEN BEDS
URBAN QUARRY DEBRIS
RIVER FITORREMEDIATION
FLOOR FITORREMEDIATION
ECOLOGICAL TALUDS
URBAN ENVIRONMENT OF THE RAVINE: It consists of an urban modification, by interventions that restructure the urban morphology, turning the ravine into a centrality, that functions as the motor of the whole neighborhood. PROTECTION BANDS: Interventions turn the borders of the ravines into a PARK, through an urban program with all the necessary elements for the neighborhood, used as "tools" for the improvement of: quality of life and environment, sanitation, economic impulse, public space, Congregation of the neighborhood, protection and recovery of the ravines. RAVINE: It is proposed a natural and biological filters (phytoremediation) in greenhouses implanted in the ravine; to maintain control, research and decontamination processes (selected plant roots). The greenhouses are complemented with architectural program, like: laboratories, offices, workshops, services, etc. Located in large pavilions installed in the ravine that fulfill functions such as decontaminants of ravines, rain water collection, presence of biodiversity, public and educational space, orchards, composting, etc. Below are the strategies to be implemented in the project. PORTFOLIO
The integration of the proposals into the three study areas, forms a systematic pilot project, which can be applied in any ravine of the city (with respective modifications according to the conditions of each typology), which concludes in: "EXPERIMENTATION PARK FOR THE RECOVERY OF RAVINES" NINIKE CELI ATALA
PROPOSED METHODOLOGY
ZONE 1: IMMEDIATE URBAN ENVIRONMENT / URBAN RESTRUCTURING
0m
PIXEL 500M X 500M
100m
0m
PIXEL 500M X 500M
100m
TRAFFIC PROBLEMS AND ACCESSIBILITY 0m
Av. M
aldo
Q. C
Av. M
aldo
aldo
nado
Q. C
apul
nado
Q. C
nado
Av. M
4
1
í
PIXEL 500M X 500M 0m
aldo
1
nado
2
100m
1
Q. C
1
apul
1
apul
apul
í
CALLE VILLANUEVA
4
Av. M
PROPUESTA GENERAL URBANA
PIXEL 500M X 500M
100m
í
100m
aldo
Q. C
nado
apul
3
í
0m
Av. M
CALLE VILLANUEVA
PIXEL 500M X 500M
LEVELS OF OCCUPATION
USE OF GROUND
STATE OF BUILDINGSIONES
í
1 1
Bo liv
ho
Non-compliant (Modifiable) Complies with regulations
62%
ho
ón
1
upic
ho
Q.
im
Ca
Ca
Non-compliant (Modifiable) Complies with regulations
Hierarchy esc. city Hierarchy esc. sector Hierarchy e.neighborhood
Hierarchy esc. local Accessibility pathways Road conflicts
AV .S
upic
AV .S
ar
Q.
Bo liv
Ca
ón
Q.
im
upic
AV .S
ón
Bo liv
ar
Good condition Bad condition (Modifiable)
Ca
im
ho
AV .S
upic
im ón
ar Bo liv ón
Q.
im
Ca
AV .S
Q.
Bo liv ar
ar
1
upic
ho
Hierarchy esc. city Hierarchy esc. sector Hierarchy e.neighborhood
Hierarchy esc. local Modifiable batches Green axes
ZONE 2: PROTECTION FRAMES / MASS PLAN OF THE PARK LAYERS 1-4:
LAYERS 5-9:
AXES, RAVINE & ACCESS
MESH, PEDESTRIAN CIRCUITS and BICYCLE
LAYERS 10-14:
PAVILIONS, NODES AND PLAZAS
LAYERS 15-19:
LAYERS 20-28:
CHILDREN'S AND SPORTS AREAS
ORCHARDS, W.C. AND KIOSCOS
ZONING THE STRATEGIES IN THE TYPOLOGY “J” LOCATION OF AREAS:
GENERAL IMPLANTATION
a b c
PORTFOLIO
1) Phytoremediation of the ravines ground with plants. 2) Remodeling of Av. Maldonado Modification and restoration of bloks, lots and buildings. 3) Areas for recreation and interaction with nature. 4) Areas for urban agriculture. 5) Areas where Green Infrastructure strategies will be applied. 7) Green shock absorber, with high density and vegetation height. 8) Areas destined to the biodiversity and stay of the citizen. 9) Phytoremediation of the river with
NINIKE CELI ATALA
DESCRIPTION: native plants of the area. 10 Restructuring of bloks, lots and buildings. 11 Public parking New green roadway. 12 Discharge of non-recyclable waste. Kiosks of the agricultural production. 14 Places of social interaction. Green road, slow traffic. 16 Polyduct shaft - Peratonal green axis. a Pavilion A Purification and Research. b Pavilion B Production, composting, recycling. c Pavilion C Commerce and leisure.
By adding the maps of the information collection, we can see the zones and lots of the neighborhood that can be modified to make a proposal that solve the problems identified. The proposal, exposes the layers which explain the process of each one in a logical order. The sum of all these, throw the final result.
LAYER
1
+
LAYER
LAYER
2 + 3
= FINAL PROPOSAL
LAYERS 1-4:
PROPOSED METHODOLOGY
ZONE 3: RAVINE / DECONTAMINATING PAVILIONS
PLANTA MODULO
SECCION
EJEMPLO
AXONOMETRIA
1,2 m 1,2m
9,6 m
4,0 m
12m
1,2 m
13m 12m
MAIN AXES 0m 25m
PAVILION
PLANTA CIRCULACION
9,6 m
It was decided to create several types of spaces modulated volumetrically, that comply with an architectural program, and that when they are united with each other, they generate the final result of the pavilion; Like a heads breaking.
MODULO 10 m2
CONCEPT:
P. A
PABELLON- A
P. B
PABELLON - B
100m
P. C
PABELLON - C
JUSTIFICACIÓN P.C) Continue pedestrian axis P.B) Perpendicular to the ravines flow P.A) Continue green axis of the Polyduct
CIRCULATION AND ACCESSIBILITY
P. A
PABELLON- A
P. B
PABELLON - B
PAVILION - A,B,C Internal Circulation External Tour Access
P. C
PABELLON - C
ZONING PABELLON - A Invernadero Oficinas
HEIGHT PER MODULE
Servicios Laboratorios Herbario
Compostaje PABELLON- B Talleres Agricultura Invernadero Taller de Reciclaje Servicios PABELLON - C Invernadero Servicios/Cocina Comedor Sala de Eventos Locales Comerciales
0m 25m
P. A
PABELLON- A
P. B
PABELLON - B
PAVILION - A,B,C 1 height module 2 height modules 3 height modules
ACCESSIBILITY ROOF
100m
P. C
PABELLON - C
0m 25m
PABELLON- A
P. A
PABELLON - B
P. B
ROOF USE
Cubiertas: Uso
PAVILION - A,B,C Vegetation Gardens Vegetation Vegetation
100m
PABELLON- A
P. C
PABELLON - B
P. A
PABELLON - C
PABELLON - C
P. B
P. C
Natural light Greenhouse Dining Room Outdoor Circulation
PAVILION - A,B,C Accessible Not accessible
PROPOSAL: The architectural proposal, is located in the area of the "Qurebrada". It is based on pavilions, large structural containers that cross the ravine; Will have two main functions, the first one: the greenhouses, where the phytoremediation will be carried out to decontaminate the ravines; And the second: bridges, which connect one side of the ravine with the other.
Surrounding
m
l progra
itectura
s - arch
Module
tion
Circula
s
l slab
ctura
Stru
tion
nda
PORTFOLIO
NINIKE CELI ATALA
re
uctu
e str
Bas
Fou
PAVILIONS
PROPOSED METHODOLOGY
STRATEGIES, SECTIONS AND VIEWS
PAVILION A First Filter - Phytoextraction: The use of plants that absorb and concentrate contaminants contained in water and soil (often heavy metals) in their collectible parts (leaves, stems). Accumulating plants are used that are capable of tolerating and accumulating heavy metals. It is possible to improve the extraction by the addition of chelates in the ground. In most cases the plants are harvested and incinerated, the ashes are stored in places conditioned for it. PAVILION B Second Filter - Phyto-transformation: This filter uses enzyme-producing plants that catalyze the degradation of absorbed substances, which become less toxic or non-toxic by the metabolization of pollutants in plant tissues or by fed rhizosphere organisms by the plant.
Increase in biodiversity
Agricultural production
Natural Ventilation
Connection of the ravine
PORTFOLIO
Non-motorized Increase transport public space
Ravines Phytoremediation
Community interaction
+/-
+/-
PAVILION C Third Filter - Fitorrestauraciรณn: The last filter consists of the complete restoration of contaminated grounds and water to a state close to the operation of a natural ground. At this stage of phytoremediation, plants native to the area exposed to phytoremediation are used. It is tried to achieve the full restoration of the original natural ecosystems of the ravines, to recover the biodiversity from these.
Universal Accessibility
-
+
-
Nature & User interaction
Rainwater reuse
TYPE PAVILION
recycling / Composting NINIKE CELI ATALA
Reusable materials
Agricultural Trade
Educational tour
EXTERIOR VIEW 1
PROPOSED METHODOLOGY
EXTERIOR VIEW 3
EXTERIOR VIEW 2
CONCLUSION
QUALIFYING PARAMETERS / COMPARISION
All methodologies applied, design decisions and modifications in the urban environment, were able to convert the polluted, abandoned and unhealthy ravine, into a centrality for that area of the city with totally different results. The pavilions are made up of the assembly of several modules. There comes a point in the design of the pavilion, in which it is necessary to solve each element that composes the building, as a whole and no longer as separate elements. To verify, if the proposal of the "J" typology works, it became a diagnosis of the proposal with the qualifying parameters, and the result of the new typology was 946 points compared to the previous one which was 141 points. The established objectives and goals of the methodology were achieved.
PORTFOLIO
V1 V2
V3
TYPOLOGY J: 141 POINTS
PROPOSAL J: 946 POINTS
37
63
-3
-11
35
48
80
93
116
-14
-41
82
12
-19
134
32
85
116
NINIKE CELI ATALA
134 108
U
Urban Projects
PORTFOLIO
NINIKE CELI ATALA
U1
Ecological Platforms / Sections connected as ecological zones Plataformas Ecológicas LOCATION
2014
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
2850 m.a.s.l.
Ecuador, Pichincha / GUÁPULO PROFESSIONAL
ACADEMIC
LEVEL: 8 Semester TUTOR: MSc. Arch. Maria Alicia Becdach / mbecdach@gmail.com
AREAS FOR MEDITATION AND CHILDREN GAMES
TEAM WORK: - Arch. Ninike Ariel Celi Atala - Arch. Sophie Zurita CHARGE: Sketches, conceptuaization, diagramming and design DESCRIPTION: Section 1: Urban Ecological Platform. In this area of intervention there are 3 important perrons, of which only one has direct access to the main avenue “Los Conquistadores.” The proposal is to enable and rehabilitate the three staircases connecting them directly to the avenue. Section 2: Ecological Platform in Los Conquistadores and Green Corridor. The proposal wants to rehabilitate the avenue and improve the quality of public space with better lighting, universal accessibility, PORTFOLIO
RIVER PLATFORMS
BALCONY VIEW
$
vegetation, bus stops, priority for bicycles and pedestrians. The green corridor along the street, implements lush vegetation, recreation areas for children, good public spaces for the inhabitants. Section 3: Ecological Platform in the
pond area. This section has a big potential for its lush vegetation and its slope. However, it could be identified a plain terrain which has the objective of being the main culmination of the path from “Los Conquistadores”.This platform also collects the run-off water in ponds, in order to irrigate the orchards of this area.
NINIKE CELI ATALA
Section 4: Ecological Platform of an Urban Lab. This section is directly related with “Machángara River”. Its principal objective is to create consciousness of its highly polluted. This platform becomes a lab, where is shown the actual state and the strategies that might be applied to decontaminate the river.
DIAGNOSTIC & PLAN
URBAN PLAN
SITE ANALYSIS AND CONTEXT
Stay Area Stairway 2
Topography
Stay Area Stairway 2
A’
A
Stay Area Stairway 1
Balcony towards Miravalle
Path of wood deck with water channel
Path of stone and earth with water channel
Areas for meditation Direct relationship with nature and water ponds
Areas for meditation Picnic
Stay Area Stairway 1 Machángara River Bridge Connection with Miravalle
Section A-A¨
Topography 3D
Vehicular Flow
Pedestrian Flow
7 am Stairways: Recollection of rain water runoff
12 pm
Stay Area Stairway 3
18 pm
Pedestrian connection between exhibition area and stairway
Culmination of stairways 2 and 3
PORTFOLIO
Oxidation pond with vegetation
Water treatment with vegetation and river stones
Sidewalk and road are at the same level Culmination of exhibition area (balcony)
Games for children Safe zone
NINIKE CELI ATALA
Wetlands for recollection of haze Rest zone made of stone and wetlands
Stone path directed towards the urban lab in the river
Balcony for learning about river pollution
PROPOSAL
SECTION 1
Rehabilitation of public space and integration of vegetation.
SECTION 2
System of rainwater collection on the roofs.
Trunks of different heights
SECTION 3
Channel of rainwater.
Increased biodiversity and relationship with human beings.
SECTION 4
Trees
Water treatment with vegetation and river stones
River detour on a small scale to start natural treatment of water.
Ecological slope.
Structural wall pedestrian path. Canal of collected water, connected to the recollection system.
PERSPECTIVE: Stairways - rainwater collection system PORTFOLIO
Wood deck.
PERSPECTIVE: Game for children - Logs on water
SECTION OF PEDESTRIAN PATH: Walking down from the avenue.
NINIKE CELI ATALA
PERSPECTIVE: Urban Lab - Decontamination of water
U2
Master Plan: Urban Project in the south lands of Guayaquil Providing Green Areas and Public Spaces Plan Masa: Proyecto Urbano en los terrenos al sur de Guayaquil LOCATION
2014
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
4 m.a.s.l. 12 13 16
Ecuador, Guayas / Guayaquil PROFESSIONAL
11
6
1
10
ACADEMIC
18
2
10
18
9 17
CLIENT: Management Service of the Real Estate for the Public Sector.
18
5
15
DESIGN: CARDNO 4
SUPERVISOR: MSc. Arch. Isabel Jácome / isa.jacome@gmail.com
1 2
TEAM WORK: - MSc. Arch. Isabel Jácome - MSc. Arch. Maria Alicia Becdach - Arch. Ninike Ariel Celi Atala - Arch. Sophie Zurita - Arch. Bélen Pérez
3 4 5 6 7 8 9
0
Hospital General del Sur Instituto Tecnológico Superior Unidad Educativa del Milenio 1 Unidad Educativa del Milenio 2 Centro Infantil del Buen Vivir Citizen Attention Center Fire Department Flagrancy Unit Community Police Department 100
10 11 12 13 14 15 16 17 18
ZOFRAGUA offices Electrical substation Transportation Logistics Attention Center SENAE Warehouse CONTECÓN concession Harbourmaster Offices Agora Sports Area Children Games
250
18
3
1
14
17
500
8
IMPLANTATION - PROJECT PROPOSAL
CHARGE: Investigation, design and diagramming
$
DESCRIPTION: The plan focuses on generating a large space with active and passive recreation, that is transformed into a busy, ecological and safe park. In addition to meet the local needs, this park is sustainable because it serves as a purifying lung for the area. The design has movement through PORTFOLIO
1
organic gestures, which manag to create a connection between the human being and the area. This park is the container of various equipments that becomes a catalyst for the regeneration of this area through an acupuncture effect. Due to pre-existing conditions of the
property, a section already has a defined program. An outline of the planned area and the area available for intervention is presented. The proposal generates various pedestrian access, each of them leads to the different functions inside the park, considering their connections with their immediate context.
NINIKE CELI ATALA
2 3 4 5 6 7 8
Naval Base Guayaquil Planetarium CALT Electrical Substation Hospital ZOFRAGUA Offices SENAE Warehouse Guayaquil’s Port
Area available for intervention: 68.26 Ha. Programmed Area: 12.81 Ha.
1 2 3 7
4 6
8
5
DIAGNOSTIC
SITE ANALYSIS AND CONTEXT
DISTRIBUTION OF AREAS
Equipments: Existent vs. Proposed
A zoning strategy was used during the design process to implement the various institutions required by type of use; especially in the area of expansion of the operation port, in order to create a separation between the port and unrelated uses that surround it.
Potentiality
Equipment and parking surface: 36.11 ha. Public green surface: 32,16 ha. Public squares surface: 12,80 ha.
Manglar Accessibility Channel
Young People
BUILT AREAS
Commerce Services Education Health Port
RECOVERED PUBLIC SPACE: 44,96 ha.
GREEN AREAS
Parking Plazas Active Green Area Passive Green Area
MOVILITY SYSTEM The proposal aims to facilitate mobility in the sector, it presents solutions for increasing the circulation of light vehicles and prioritize the safety of students and users of the equipments implanted in the project. Limitation
Flammable silos
Pollution
Lack of Sewage
Clay
Incompatibility land use
Pedestrian and Bicycles Routes
Heavy transportation - Now
School vehicles / Small vehicles
Heavy transportation - Proposed
URBAN IMAGE: VEGETATION Connectivity of Urban Plan
The urban image of this project consists mainly of two types of materials: hard materials and planting trees and vegetation. It presents a development of these two types of materials and specific recommendations for this project. Planting trees and vegetation: This plan has considered in its design incorporate green areas for recreational purposes. Plant selection wants to prioritize the use of native species of the place. Hard materials: Preferably local materials that respect the environment, and above all have durability and are easy to maintain used in ecological trails, viewpoints, hard floors in squares, floors and furniture in general. Vegetation
PORTFOLIO
NINIKE CELI ATALA
Hard materials
ECOLOGICAL PATH (MANGLAR)
PROPOSAL
AERIAL VIEW
Treated wood deck, similar as a dock over the mangrove swamp. Lighting in every path to proide safety for the users.
PEDESTRIAN CROSSIN IN STREET
View from the avenue ¨25 de julio¨ towards the plaza of access. It forms an extension from the plaza to the street.
PLAZAS AND PARK ACCESS
GAMES FOR KIDS
COMMERCE
View from the plaza of access towards the street ¨Cacique Tomalá¨. Mix between grass and concrete in order to prevent flooding.
PORTFOLIO
NINIKE CELI ATALA
SOCCER FIELD
U3
Master Plan: State Park and Institutions, Creating Public Institutions with Space for the City Parque e Instituciones Estatales, Creating Public Institutions with Space for the City LOCATION
2013
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
AV. 15 DE ABRIL
AV. 15 DE ABRIL
15
53 m.a.s.l.
15 1
1
1
9
1
URUGUAY
8
ACADEMIC
CLIENT: Management Service of the Real Estate for the Public Sector.
8
BRE
8
7
NOM
6
IN LE S CAL
Ecuador, Manabí / PORTOVIEJO PROFESSIONAL
16
2
8
5 17
ON
T
ER
LD
CA
DESIGN: EcodiverCity
4
Hills
D AB
rds owa
250
on
12
cti
13
ELES
VIE
14 NAM
MB RE
Riv e
rc on
ne
21 ROAD
S RO
AD
21
ills
100
11. Indoor Court 12. Gerontology center 13. Centro Infantil Buen Vivir 14. CNT (telecommunications) 15. Boulevard 16. Institutional Plaza 17. Floodable Garden 18. Agora 19. Skate Park 20. Community Plaza 21. Neighborhood parks
sh
0
1. Commerce 2. Hospital de Especialidades 3. Hospital Services 4. Covered Parking 5. Inst. Tecnológico Superior 6. SENAGUA 1 7. SENAGUA 2 8. Comisión Tránsito Ecuador 9. ECU 911 10. SETEDIS
NAM
ELESS
Buildings and Public Spaces
NO
T
Hills
20
ard
CHARGE: Investigation and diagramming
VACANT LOT rds owa
11
19
21
w To
TEAM WORK: - MSc. Arch. Carolina Proaño - MSc. Arch. Ernesto Bilbao - MSc. Arch. Cristina Gómezjurado - Arch. Ninike Ariel Celi Atala - Arch. Juan Diego López
Hills
22
Proaño / carolina.proano.l@gmail.com
10
OS EVALL RDO C
ards
Tow
DE
MEDA
SUPERVISOR: MSc. Arch. Carolina
ON
18
3
500
To
wa
rds
PROJECT PROPOSAL / IMPLANTATIONhills
$
DESCRIPTION: A property of the State would be divided among several institutions and an integral planning was requested as a public space of the city without fragmenting it. The proposal considers 24 hectares for government uses including free access green areas. The buildings implanted in the area are organized PORTFOLIO
considering the solar incidence, potential interactions with the existing urban context and are grouped by function: health, social welfare, education, offices and shops, also, the potential of the property is used to consolidate a green infrastructure in the city, in order to create green areas that contribute to the prevention of risks.
Airport
Bus Station
Downtown
Way to Santa Ana
NINIKE CELI ATALA
URBAN INTEGRATION
SITE ANALYSIS AND CONTEXT
CURRENT SITUATION WITHOUT INTERVENTION OF PUBLIC SPACE
Equipments and Bus Routes
Area: 11,5 Ha SPECIALTY HOSPITAL MINISTERIO DE SALUD PÚBLICA Status: Construction
LOTES / PRIVATE PROPERTY
Area: 1,35 Ha Status: Existing
DIAGNOSTIC ZONAL CENTER ECU 911
Area: 1,35 Ha Status: Existing
Vial and Environmental Analysis
Caracterization
Land use
0
Land Occupation
Intervention area
100m
ATTENTION CENTER SETEDIS
250m
500m
Area: 1 Ha Status: Without project
Area: 0,6 Ha CENTRO INFANTIL DEL BUEN VIVIR Status: Projected GERONTOLOGIST CENTER M. DE INCLUSIÓN ECONÓMICA Y SOCIAL
INSTITUTO TECNOLÓGICO SUPERIOR / SENESCYT
PORTFOLIO
Area: 3,2 Ha Status: Projected
NINIKE CELI ATALA
RELOCATION DWELLINGS GAD MUNICIPAL
Area: 0,16 Ha Status: Construction
PROVINCIAL OFFICES SENAGUA
Area: 4,35 Ha Status: Partially Existent
EDIF. DIRECCIÓN y COMISIÓN DE TRÁNSITO DEL ECUADOR
Area: 1,6 Ha Status: Projected
LAND USE COMPARISON Private Public
Construction
PROPOSAL
SLOW MOBILITY
Vehicles
GREEN CONNECTOR
Private lots Business
Existent 62,52% 159941 m2
7,19% 18389 m2
15,16% 38797 m2 15,12% 38686 m2
Proposal 85,06% 217604 m2 13,38% 34229 m2
1,67% 4273 m2
CLUSTER
8,40% 21464 m2
COMPONENTS OF THE PROPOSAL
PROPOSAL - AERIAL VIEW
Slow mobility
Cluster
Green connector
UNIFYING SURFACE
Unifying surface
Superblock
PORTFOLIO
NINIKE CELI ATALA
L
Landscape Projects
PORTFOLIO
NINIKE CELI ATALA
L1
LINQ Building / Landscape and Sustainability Proposal Edificio LINQ / Propuesta de Paisaje y Sostenibilidad LOCATION
2016
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
IMPLANTATION
2670 m.a.s.l.
ROOF DESIGN
1 FLOOR
Ecuador, Pichincha / QUITO PROFESSIONAL
ACADEMIC
CLIENT: Municipality of Quito DESIGN: EcodiverCity SUPERVISOR: MSc. Arch. Carolina Proaño / carolina.proano.l@gmail.com
1. WATER FOUNTAIN WITH PLANTER
TEAM WORK: - MSc. Arch. Carolina Proaño - Arch. Ninike Ariel Celi Atala
2. BENCH WITH PERIMETER PLANTER
CHARGE: Investigation, design sustainable strategies and diagramming
4. ACCESS MOUNDS
OBJECTIVES:
3. BENCH WITH PLANTER
5. FLOODABLE GARDEN 6. GREEN WALL AND BAMBOO PLANTER
- Use the most recycled materials that can be recovered. -Use of passive systems in the interior and exterior. -Renewable energy production to partially satisfy the demand.
$
-Create a motivating and inspiring environment.
-Restoration of interior and exterior space on several levels.
-The space generated adapts to new specific uses without requiring large jobs or producing waste
Reduction consumption and effluent.
-Alternative mobility systems.
PORTFOLIO
NINIKE CELI ATALA
NORD FACADE
DETAIL1: WATER FOUNTAIN WITH PLANTER Concrete Curb
DETAIL2: BENCH WITH PERIMETER PLANTER
Vegetation: Hebes purple
Concrete cobble Stonelike 7 cm.
Vegetation:Asparagus 0,5
Garden
0,3
0,7
PROPOSAL
DETAIL3: BENCH WITH PLANTER Concrete ledge H: 40 cm
Topsoil
Railing
Grass Wood curb Gravel
0,1
Railing 4
0,7
Concrete bin with structure
0,4
2,8
0,1
n +10.52
Vegetation: jasmine
n +10.32
Topsoil
Concrete ledge f´c: 210Kg/cm2
Curb
Section 2-2' Concrete 210 Kg/cm2 Overflow Wood curb
Grass
Gravel
Finishing of waterproofing and drainage according to supplier specification
0,3
0,5
Concrete bin
Railing
Bank changes height
Grass
Concrete bin f´c: 210Kg/cm2
Gravel
Vegetation: Asparagus
Railing
0,1
n +10.82
0,25
0,2
0,6
n +10.52 0,4
n +10.32
0,15
impermeabilizante
0,1
0,27
0,6
0,65
0,03
1,15
0,15
0,4
0,2
0,5
0,4
0,1
Bank changes height
0,25
Wrought Iron Grille
Concrete bin f´c: 210Kg/cm2
Gravel
0,45
Concrete Cobble Stonelike 7cm.
0,4
Concrete slab
Grass
0,65
Wrought Iron Grille
n +10.82
1 1,24
0,8
Potable drinking water
PORTFOLIO
Bottom drain
Compacted earth
Mesh
Fertile soil
Draining and filtering layer
Draining and filtering layer
Building Slab
NINIKE CELI ATALA
Perforated tube 4 "
Bank changes height
Fertile soil
Draining and filtering layer
Perforated tube 4 "
Gravel 2-5 cm
Geomembrane
DETAIL4: ACCESS MOUNDS Filled earth
Fertile soil
PROPOSAL
DETAIL6: GREEN WALL AND BAMBOO PLANTER Grass
Geomembrane
Vegetation: liriope Wood Pergola Palm frond
Steel tensioning cable
3,87 2,7
1,16
Expansive steel anchor Drain and waterproofing according to provider’s specification 34%
Climbing plant
0,4 0,4
1,2
0,9
77%
Existing wall Grass
0,45
Topsoil Fertile soil Concrete ledge f’c: 210 Kg/cm2
0,5
Draining and filtering layer
DETAIL5: FLOODABLE GARDEN
Asphalt sheet waterproofing
Waterproofing
Exhaust pipe
0,4
River stone 5cm
Asphalt sheet waterproofing
0,25
Earth Mixed earth 40% earth, 40% sand, 20% fertilizer
Geomembrane Gravel
0,5
Slope formation 1%
Perforated tube 4 " Mortar
2.41 Wood pergola Steel tensioning cable 0,6
Palm frond
Expansive steel anchor
Railing Vegetation: bamboo 2,3
Bamboo planter
3,3
Perforated drainage pipe
PORTFOLIO
Crushed and washed gravel
Geomembrane
Climbing plant
0,2
0,25
0,6
Asphalt sheet waterproofing
0,4
1,5
Earth Drain and waterproofing according to provider’s specification
0,75
0,5
0,65
Concrete ledge f’c: 210 Kg/cm2
Geomembrane
0,4
Gravel
0,6
Mortar
NINIKE CELI ATALA
Existing wall
A
Architectural Projects
PORTFOLIO
NINIKE CELI ATALA
A1
Residence R.A. Residencia R.A. LOCATION
2016
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
4 m.a.s.l.
Ecuador, Guayas / GUAYAQUIL PROFESSIONAL
ACADEMIC
CLIENT: Familia. Regalado Astudillo DESIGN: NCA - Architecture SUPERVISOR: Arch. Ninike Celi Atala / ninikeceli@gmail.com TEAM WORK: - Arch. Ninike Ariel Celi Atala - Arch. Maria Angeles Naranjo CHARGE: Design and diagramming DESCRIPTION: The residence R.A. Was designed for a family with 4 members, located in a residential complex in the city of Samborondรณn. The modernist style, materiality and independent spaces were one of the requirements that the customers asked for. The architectural parti and the volumetry depart from a structural wall of material seen (Concrete), from which the main zoning of the residence is born. PORTFOLIO
EXTERIOR VIEW / V1
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It is important to mention that the building complies passive design strategies, such as: cross ventilation, elements to control the entrance of rays sun to the residence, green roofs and green walls (to increase biodiversity and help to climatize some areas).
Volumetric Process 6
NINIKE CELI ATALA
1
2
3
4
5
7
8
9
10
11
PROJECT RENDERS
PROJECT PLANS (1 FLOOR, 2 FLOOR, FRONT FACADE & SECTION A-A’)
Exterior view / V2
1 FLOOR
PROPOSAL FRONT FACADE Scale_1:150
V1
V3
Living room / V3
V4
V2
2 FLOOR
SECTION A-A’
Scale_1:150
Scale_1:150
Vertical circulation & double height / V4
PORTFOLIO
NINIKE CELI ATALA
A2
Residence M.A. - Mindo Residencia M.a. - Mindo LOCATION
2016
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
1250 m.a.s.l.
Ecuador, Pichincha / MINDO PROFESSIONAL
ACADEMIC
CLIENT: Familia Montenegro Alvarado
DESIGN: NCA - Architecture SUPERVISOR: Arch. Ninike Celi Atala / ninikeceli@gmail.com TEAM WORK: - Arch. Ninike Ariel Celi Atala - Arch. Cecilia Ordoñez CHARGE: Design and diagramming DESCRIPTION: The M.A. house, was designed for a family with 4 members, located in a humid climate. Is a traditional style which use materials such as wood, river stones, brick and concrete blocks The main objective of the project was to create environmental comfort and connect the user to the natural environment of the residence, through open spaces, flexible and family meeting. PORTFOLIO
EXTERIOR VIEW / V1
$ The main strategies of passive design were: the cross ventilation with open spaces towards the exterior, and the effect chimney which generates in the interior of the house thanks to the difference heights, where the warm air has an opening for it exit and a rapid renewal of air.
CONCEPT SKETCH
NINIKE CELI ATALA
EXTERIOR VIEW / V2
PROJECT RENDERS Exterior view / V3
PROPOSAL
PROJECT PLANS (1 FLOOR, 2 FLOOR, FRONT FACADE & SECTION B-B’) 1 FLOOR
FRONT FACADE
Scale_1:150
Scale_1:150
V3
Living room / V4
V4
SECTION B-B’
V5
Scale_1:150
V1
V2
Dinning room / V5
2 FLOOR Scale_1:150
PORTFOLIO
NINIKE CELI ATALA
A3
Deck 001 Deck 001 LOCATION
2016
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
2670 m.a.s.l.
Ecuador, Pichincha / QUITO PROFESSIONAL
ACADEMIC
CLIENT: Familia Atala Proaño DESIGN: NCA - Architecture SUPERVISOR: Arch. Ninike Celi Atala / ninikeceli@gmail.com TEAM WORK: - Arch. Ninike Ariel Celi Atala - Arch. Cecilia Ordoñez CHARGE: Design and construction DESCRIPTION: Deck 001, is a family project which the main purpose is the meeting and integration between the family. The 28m2 of the project consists of two zones, the first is an area that has BBQ, furnace with furnishings and shelves and a small dining room. The second area, was designed as a metting place with benches, fireplace and surrounded by greenery. The materials used in the project were: 1) Wood, in places such as PORTFOLIO
INTERIOR VIEW / V1
$
cover, furniture and in some areas of the floor; 2) Concrete seen, located in elements like the fireplace, mesons, floors and planters. Also, as a fundamental part of the design and construction, the tree plays a fundamental design because of its family history and meaning.
Sketch: Idea
NINIKE CELI ATALA
Modelo: Diseño
Realidad: Construcción
PROJECT RENDERS Exterior view (Entry) / V2
PROPOSAL
PROJECT PLANS ( FLOOR, VIEWS & PROCESS) PROCESS
FLOOR Scale_1:100
1
V1
2
V3 V2
V4
V5
3
BBQ view / V3
4
Exterior view (Backyard) / V5
5
Living room view / V4
6
PORTFOLIO
NINIKE CELI ATALA
A4
Vantage Point / Group of Observation Decks Mirador / Grupo de plataformas de observaciรณn LOCATION
2013
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
2670 m.a.s.l.
Ecuador, Pichincha / QUITO PROFESSIONAL
ACADEMIC
LEVEL: 7 Semester TUTOR: Arch. Diego Salazar d.salazar@udlanet.ec DESIGN: - Arch. Ninike Ariel Celi Atala CHARGE: background, conceptualization, diagramming and design DESCRIPTION: The Oteador, is a set of observation decks directed at key points in the area and the city, which seeks to give a leading value to the urban perspectives. - The volumetric designed consists on the formation of several viewpoints routed to the best views and perspectives of the sector, like the park, the ravine, Avenue Rodrigo de Chavez, El Panecillo, etc. Environmental strategies: - Materials with low impact. PORTFOLIO
IMPLANTATION
$
- Collection of rainwater (commun areas) - Solar panels. - Terrace Garden. - Flexible design spaces - Selection of recycled materials (T-Plack) - Smart Growth - Recycling and sorting trash - Passive Design Strategies
VOLUMETRIC DESIGN
Typology - Dpt. 1
NINIKE CELI ATALA
Typology - Dpt. 2
Circulation
Green terrace
PROJECT PHOTOS Interior Perspective
PROPOSAL
PROJECT PLANS (ELEVATION & SECTION) COMMUNAL AREA MODULE
Flexible Housing Module
Scale_1:50
Scale_1:50 Persianas - Direccionana entrada del Sol 3
Accessible terrace
Terrace
Void Round stairs Second floor connection
Movable module
1
Exterior Perspective
2
2
Ducts
Circulation
Service
Void 3
Second Floor
AREA TOTAL: 49m2
SECTION A-A
SECTION B-B
Interior Perspective
N +30.50
N +30.50
N +27.50
N +27.50
N +24.50
N +24.50
N +21.50
N +21.50
N +18.50
N +18.50
N +15.50
N +15.50
N +12.50
Exterior Perspective
N +9.50
N +6.50
N +6.50
N +3.50
N +3.50
N +0.50
N +0.50
N -6.00
NINIKE CELI ATALA
N +12.50
N +9.50
N -3.00
PORTFOLIO
Garbage Ducts
Circulation
Garden First Floor
Recycled chipboard
Mobile booths Small flexible offices
Mobile panels Flexible Communal spaces
N -3.00 N -6.00
Modular furniture
A5
Ahuano Dock / Building on guadúa cane in the Amazon Muelle de Ahuano / Construyendo sobre la caña de guadúa en el Amazonas LOCATION
2012
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
200 m.a.s.l.
Ecuador, Napo / AHUANO PROFESSIONAL
ACADEMIC
CLIENT: (MIDUVI) Ministry Of Urban Development And Housing DESIGN: EcodiverCity SUPERVISOR: MSc. Carolina Proaño carolina.proano.l@gmail.com TEAM WORK: - MSc. Arch. Carolina Proaño - MSc. Arch. Daniela Maldonado -Arch. Ninike Ariel Celi Atala CHARGE: Design and diagramming VIEW OF THE BUILT PROJECT
DESCRIPTION: It consists of a landscape and architectural study of a touristic and community infrastructure along the pier on the Napo River in the Amazon. A large covere is proposed as a landmark for sailors, shade for users and gatherer of rainwater as an autosupplier, which derives in its particular form. It is conceived in bamboo cane, material that is locally PORTFOLIO
$
available which is also rapidly renewable.This structure has shops, bathrooms, it serves as a dining room, it also has a communal space, parking for cars and bicycles, a waiting area, an outdoor plaza and an existing grotto of a local virgin on the site. NINIKE CELI ATALA
CONCEPT SKETCHES
GENERAL INFORMATION
PROJECT PLANS (ROOF & ELEVATION )
SPECIFIC LOCATION
ROOF PLAN
PROPOSAL FRONTAL ELEVATION
6
38
5
Existente Structure
5
4
3
2 1
1. Lighthing
D
E
7
3,92
2. Ventilation with mesh
8
380
4,74
3. Wood structure 0.04m x 0.04m for anchoring the glass that protects the virgin
4. Tempered glass 0.01m 5. Cobblestone floor
C
9
0,70
DOCK PLATFORM
B BUS STOP
A
RAMP/ STAIRCASE
0
38
A
10
7,67
38
2
1
5
ARRIVAL ZONE BOATS AND BARGE
B RO
3
AD
9
385
380
ROOF
COMMERCIAL PLAZA
4
C 8
4,80
17,36
7 6 5,56
D 5
17,36
4
E
2 1
3
6,00 PARKING
0,87
2,70 WAITING AREA
9,36
5,17
5
5,00 EXISTENT HOUSE
2,40
5,29 GROTTO
6,12
0,74
385
4,31
6,04
CONSTRUCTION SYSTEM
FRONTAL VIEW / MODEL
AERIAL VIEW / MODEL
STRUCTURE 2
3
4 5 6 7
Bamboo 10 cm
Bamboo 10 cm
Bamboo 10 cm 8 9
2,40
2,36
2,32
2,22
2,08
1,89 0,64
1,66
0,31
PORTFOLIO
4,03
3,85
1,31 0,73
0,63
0,42 3,99
1,01
3,94
NINIKE CELI ATALA
3,64
2,65
1,47
1,95
E
Environmental Consultancy Projects
PORTFOLIO
NINIKE CELI ATALA
E1
Jose Engling Catholic School Colegio Católico Jose Engling LOCATION
2016
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
3161 m.a.s.l.
Ecuador, Pichincha / ILALÓ PROFESSIONAL
ACADEMIC
CLIENT: Foundation José Engling
NATURAL HERITAGE:
DESIGN: Rafael Velez Architects
1. Conservation and participatory management of the ravine
SUPERVISOR: MSc. Arch. Carolina Proaño / carolina.proano.l@gmail.com
TEAM WORK:
3. Underground parking - Space optimization
CHARGE: Sustainable strategies and diagramming
4. Reforestation of the land with native plants
2
DESCRIPTION: The project proposes the protection of the creek next to the school Jose Engling, thanks of interest and support expressed by the community Chiviquí. The main idea is to recover the creek, and turn it into public space that recognizes the local biodiversity. For this reason, the presence of the College in this transition zone between city and nature is strategic PORTFOLIO
4
2. Orchards planted and harvested by the community of the school
- Arch. Ninike Ariel Celi Atala
-MSc. Arch. Carolina Proaño
3
1
IMPLANTATION
$
because it can become an actor to exercise responsibility in issues that are important for the city, involving the educational community with its social and environmental context, witch is a benefit for both, students and visitors in general.
CONCEPT: Architecture as a transition from urban to rural
NINIKE CELI ATALA
Natural Zone
Transition Zone
Urban Zone
PROPOSAL
ENVIRONMENTAL CRITERIA
STRATEGIES:
5
1. Reuse of materials site 2. Garbage management Waste collection point Differentiated classification
6
3. Soil permeability Environmental comfort 4. Roof gardens Control runoff
3
4
2 ms
Irrigation syste (Green)
5. Bioclimatic strategies of environmental comfort 6. Adaptation to the topography
water cistern
1
Sewage treatment
water cistern
MOVILIDAD & P. ENCUENTRO School bus circuit. Parking circuit.
a
Circuit private cars
c
a) Area school buses Boarding students
d
b) landing zone private cars Avoid traffic congestion on public streets
b
c) Underground parking Space optimization d) Main square entrance Meeting point
PORTFOLIO
NINIKE CELI ATALA
E2
Arezzo Building Edificio Arezzo LOCATION
2016
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
IMPLANTATION / GREEN AREAS
STUDY OF SHADOWS
3 PM
DISTRICT URBE 12 AM
9 AM
2400 m.a.s.l. MARCH SEPTEMBER Ecuador, Pichincha / CUMBAYA PROFESSIONAL
ACADEMIC
CLIENT: Ordoñez Architects. CONSULTANT: EcodiverCity
JUNE
SUPERVISOR: MSc. Arch. Carolina Proaño / carolina.proano.l@gmail.com
TEAM WORK: -MSc. Arch. Carolina Proaño
- Arch. Ninike Ariel Celi Atala CHARGE: Sustainable strategies and diagramming DESCRIPTION: The main purpose of the project is to grow in height, and to obtain this permit in the municipality, it is necessary to demonstrate that the building has certain requirements of sustainability and environment. It is for this reason that the proposal was developed to responds on the some basic needs that the project require to get its objectives. 1) Environmental comfort PORTFOLIO
DECEMBER Planter on slab Losa garden (communal) Losa garden (exclusive) Garden on floor (communal) Garden on floor (exclusive)
$
2)Natural ventilation 3)Separation of rain water on deck 4) Natural light and ventilation in subsoils 5)Solid waste classification 6)Supply and water treatment 7) Natural light and ventilation in circulation NINIKE ARIEL CELI ATALA
CONTEXT
Ciclo-ruta: Luluncoto - Cumbayá Ruta viva Av. Simón Bolivar Predio Arezzo
PROPOSAL
ENVIRONMENTAL STRATEGIES
Bicycle parking Cyclo-route: Luluncoto - Cumbayรก
Roof gardens Control runoff
Separati
on of ra
in water
on deck
Natural light and ventilat ion in circulation
Irrigation systems (green areas)
Environmental comfort Natural ventilation
Runoff of rain water infiltrates the natural soil
Tank Cisterna
lation in subsoils
d venti Natural light an
Solid waste classification
Greywater treatment
Supply and water treatment Waste sorting departments
PORTFOLIO
NINIKE ARIEL CELI ATALA
Storage of waste classified
Classified collection
E3
Fez Aqua Building Edificio Fez Aqua LOCATION
2015
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DISTRICT URBE
2400 m.a.s.l.
Ecuador, Pichincha / CUMBAYA PROFESSIONAL
ACADEMIC
CLIENT: Artec Group CONSULTANT: EcodiverCity SUPERVISOR: MSc. Arch. Carolina Proaño / carolina.proano.l@gmail.com
URBAN ENVIRONMENT
Project ground Alemán High School Filled ravine Ravines Main Road Ruta viva
Interior Gardens Vegetation Conservation
FIRST FLOOR
Garden Terraces
TEAM WORK: - MSc. Arch. Carolina Proaño - Ing. Lorena Gallardo - Arch. Ninike Ariel Celi Atala Rain water recollection
CHARGE: design and diagramming DESCRIPTION: This project was designed thinking about the best environmental strategies to be applied in the site. The strategies help the building to be more comfortable for the user. They respond to sustainable and environmental parameters including water management, use of vegetation, recycling, universal accessibility and access for pedestrians or bycicles; all of them result in happy and comfortable surroundings not only for the inhabitants but for the visitors. PORTFOLIO
Interior garden Irrigation
Irrigation System (exterior green areas) Cleaning of communal areas
Water Cistern
SECTION
Rain water treatment
Water mirrors
Water Cistern
Sewage Treatment
$
NINIKE ARIEL CELI ATALA
PROJECT LOCATION
E4
Children's Center Typology / Good Living CIBV - Centro Infantil Buen Vivir LOCATION
2014
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
between
DISTRICT URBE
Passive Ventilation
5 m.a.s.l. 3000 m.a.s.l.
Vegetation generating shadow
Module Floor Plan Sustainable Strategies
Ecuador, Coast, Sierra and Amazon PROFESSIONAL
Cross ventilation by module
ACADEMIC
CLIENT: Ministry of Economic and Social Inclusion DESIGN: Jaime Miranda Architects.
Flexibles spaces Cross ventilation in social areas
SUPERVISOR: MSc. Arch. Daniela Maldonado / cd.maldonado@udlanet.ec
TEAM WORK: - MSc. Arch. Daniela Maldonado -Arch. Ninike Ariel Celi Atala Charge: Sustainable analysis, calculations, and diagramming
Vegetation generating micro weather Natural lighting suitable for the weather that the building is implanted
O
DESCRIPTION:
Ing reso
Public space
The main intention in this consulting project is to design a typology of educational building in each of the three regions of Ecuador (Coast, Sierra and Amazon). For this, the relevant parameters are defined in the environmental and sustainable areas, according to the use and context of the project. Thus, a qualitative scope is proposed that is expected to arrive in each theme between the current situation and the optimum horizon of sustainability PORTFOLIO
It is recommended that the location of the module, is addressed to 45 °, the solar axis (East - West), because the natural light may enter into the module indirectly, without raising the climate temperature inside the building or allow the entry of natural light directly affecting the user comfort.
S
Ing reso
de
luz
natu
ral
de
ma
nera
de
luz
natu
ral
de
ma
nera
ind
irec ta
N
ind
irec ta
Permeable pavement E
PROJECT PROPOSAL
Module Floor Plan Sustainable Strategies
Floor Type / Sustainable Strategies
$
NINIKE CELI ATALA
Natiral lighting
PROPOSAL
COAST / AMAZON REGION MOISTURE
MOISTURE The module is made of materials which allow a slight moisture permeability loss inside.
SUSTAINABLE STRATEGIES Design and use of windows in strategic locations to allow continuous air exchange.
Increased biodiversity through vertical gardens, on the walls of the modules.
Using vegetation to create shade in exterior and interior spaces to the module. It also helps lower the humidity inside the module affected by the climatic conditions of the region.
Sloping roofs, with system of rainwater harvesting.
Rainwater collection for use of health services.
Cistern for the recollection of rainwater.
Rainwater collection for irrigation of green areas of the project.
Rain water infiltration into permeable soil. It contribute and attracts the conservation of biodiversity in the area.
TEMPERATURE The module is made of materials that allow light permeability to allow entry of air and lower the temperature inside.
Design and use of windows in strategic locations to allow continuous air exchange.
Using vegetation to create shade in exterior and interior spaces to the module. It also helps to lower the climate temperature inside the module affected by the climatic conditions of the region.
Design and use of windows in strategic locations to allow continuous renewal of air accumulated inside the module, through cross ventilation.
VENTILATION Design and use of windows in strategic locations to allow continuous renewal of air accumulated inside the module, through cross ventilation. The module is made of materials that allow light permeability for air income.
Use of vegetation, as a barrier module, to reduce air and noise generated outside the center contamination.
MATERIALS
Design and use of windows in strategic locations to allow continuous air exchange.
WATER Rainwater collection for use of health services. Sloping roofs, with system of rainwater harvesting. Cistern collecting rainwater.
Rainwater collection for irrigation of green areas of the project. Rain water infiltration into permeable soil. It contributes and attracts the conservation of biodiversity in the area. Product served to the sewer system of the city water.
PORTFOLIO
NINIKE CELI ATALA
The module is made of materials that allow light permeability for the entry of cold air.
Using vegetation to create shade in exterior and interior spaces to the module. It also helps to lower the climate temperature inside the module affected by the climatic conditions of the region.
Used water served to the sewer system of the city.
PROPOSAL
MOUNTAIN REGION SUSTAINABLE STRATEGIES
MOISTURE
Using vegetation to create shade in exterior and interior spaces to the module. It also helps lower the humidity inside the module affected by the climatic conditions of the region.
Increased biodiversity through vertical gardens, on the walls of the modules.
Photothermal panels on the roof, to heat and raise the temperature inside the modules.
Sloping roofs, with system of rainwater harvesting.
Rainwater collection for use of health services.
Photothermal panels on the roof, to heat and raise the temperature inside the modules.
Using vegetation as a barrier to even the wind and the low temperature that is routed inside the modules.
TEMPERATURE
Photothermal panels on the roof, to heat and raise the temperature inside the modules.
Using vegetation as a barrier to even the wind and the low temperature that is routed inside the modules.
Cistern collecting rainwater.
Rainwater collection for irrigation of green areas of the project.
Rain water infiltration into permeable soil. It contributes and attracts the conservation of biodiversity in the area.
Used water served to the sewer system of the city.
Use of vegetation, as a barrier module, to reduce air and noise generated outside the center contamination.
Arupo
-its scientific name Chionanthus Pubescens Kunth - is characterized by its varied colors: red, pink and white. Trees reach 6 to 8 meters high. It grows on the slopes and valleys.
Poplar (silver)
- its scientific name is Populus alba - It is a tree that reaches 20 meters high. Its leaf deciduous, ornamental, very attractive foliage, contrasted by the white reverse leaf green.
Pajilla
- It is a herbaceous plant from 1.5 to 2.5 meters high, without a visible stem. Has simple leaves, grouped and forming a rosette, with sheets of up to 65 cm long, fan-shaped, folded and with serrated edges.
Vincas
- They are herbaceous, with slender branches 1-2 meters in length. The branches often take root when they touch the ground, allowing the plant to spread widely. Leaves simple, broad, ovate 1-9 cm long, green.
VEGETATION Rear garden and green area Gardens and green side areas
Gardens
PORTFOLIO
NINIKE CELI ATALA
COAST-AMAZON
Design and use of windows in strategic locations to allow continuous renewal of air accumulated inside the module, through cross ventilation.
MOUNTAIN
VENTILATION
Ceibo
- its scientific name is Erythrina crista-galli - It is a medium-sized tree with a diameter that can exceed one meter, and heights of 5 to 10 m, rarely reaching up to 20 m. Its root is a taproot with nodules produced by nitrogen-fixing bacteria.
GuachapelĂ
- its scientific name is Albizia guachapele. - It is a tree that reaches up to 15 meters high, its flowers are white and elongated shape of the fruit.
Mocora straw
- is characterized by having the shape of a palm tree trunk whose medium size without fan-shaped leaves emerging from the ground, supported by long cylindrical petioles. It needs to be cultivated in humid soils.
Balsam
- its scientific name Is Saxifraga geranioides - is characterized for its multiple branches stem from the base. It reaches a height of 20 centimeters, with leaves 2 cm wide, hairy and slimy texture. Flowers grow in the form campanular
Grass
COAST/MOUNTAIN Grow into a dense cover. They are used as ornamental plants in lawns and gardens or as ground for a variety of sports and recreational activities.
Importance of vegetation: The presence of vegetation in the urban environment and above all in architecture satisfies an ecological and psychological need, and also has many uses such as improving the environment; One of the examples is to improve air quality because it purifies it and also stores pollutants
E5
Architectural Typologies of Bus Stations Tipologías Arquitectónicas de Terminales Terrestres a Nivel Nacional LOCATION
2013
URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
between
Local economical effect
Flexibility
5 m.a.s.l. 3000 m.a.s.l.
Commerce
Handmade brick
Stone
Materials
ACADEMIC
CLIENT: (MIDUVI) Ministry Of Urban Development And Housing
Concrete
Bamboo
Wood
Plants Vegetation
Open
Covered
Construction
Workforce
CONSULTANT: EcodiverCity SUPERVISOR: MSc. Arch. Carolina Proaño / carolina.proano.l@gmail.com
$
Identity- local culture Agora
Vegetation
Commerce
TEAM WORK: - MSc. Arch. Carolina Proaño - Ing. Romel Arboleda - Arch. Ninike Ariel Celi Atala
Lifecycle
Water
s
s
Ecuador, Coast, Sierra and Amazon PROFESSIONAL
DISTRICT URBE
CHARGE: Sustainable strategies and diagramming
Energy
Adaptable space to cultural conditions.
DESCRIPTION:
PORTFOLIO
Bus station wraparound adaptable to climatic conditions.
vegetation and adaptable to climatic conditions.
Communal facilities
Dry
M
Ca ñ
a
ad
er a
Al u
m
in
io
Wet
Semi - wet
NINIKE ARIEL CELI ATALA
s
s
This project consists in a typology of bus stations that can be implanted in any city of the country, which can change certain characteristics according to the climatic area. It is considered a guide to how volumetrics should be designed, not in form, just in place according to these strategies, for example with the use of different materials, considering water management, vegetation, natural light.
s
Materials
s
Commerce
PROJECT LOCATION
PROPOSAL Materials
Solid waste
Masonry
Wrap
Roof
Biodiversity
Shadow
Glass
Barrier
Finishes
Confort (active)
Waterproof floor Rain water runoff directed to pipes.
Use
Structure
Windows
Masonry
Waste sorting (consumer)
Confort (Passive)
Permeable floor Runoff of rain water seeps down
Weighing classified waste
Building Classified recollection
Electricity
Environmental quality
ACTIVE
PASSIVE
High rainfall
Reduce electricity consumption with passive design decisions.
Lavatory supply
Potable water system Lavatory
Artificial climate
Low Rainfall
Recollection
Provision efficient toilets
Toilets supply Irrigation system (green areas)
Irrigation systems (Green area)
Artificial lighting Land infiltration
PORTFOLIO
Rain water treatment
Land infiltration Eviction sewage
Potable water system
Gray water treatment
Paper/cardboard
Storage of classified waste
Barrier
Recollection
Plastic
Building
Shadow
Water supply / Sewage
Common
Eviction sewage
NINIKE ARIEL CELI ATALA
Natural lighting
Avoid air conditioning with passive design decisions.
Photovoltaic panels
Artificial lighting
PROJECT LOCATION
C
Conceptual Projects
PORTFOLIO
NINIKE CELI ATALA
C1
Porosity Concept Concepto Porosidad URBAN ARCHITECTONIC LANDSCAPE CONCEPTUAL CONSULTANCY
DESIGN: - Arch. Ninike Ariel Celi Atala
PORTFOLIO
LIGHT POROSITY
- Property of the bodies to pass through FLUIDS. - Ability to transmit a fluid. - Material consisting of actual amount of material and amount of the voids (porosity). - The relationship between pore volume and total volume. - Permeability.
CHARACTERISTICS - Ability to hold something - Ability to allow fluid inside - Materia/solid contains pores - Skeleton material - Filled with fluid - Network of pores - Permeable - Resistance - Conductivity
VEGETAL POROSITY
The percentage between the volume’s voids of a certain material and the total volume of this; the pores allow absorption and flow of environmental elements or substances (light, connectivity, spaces, etc.) through the material or "solid".
ELEMENTS
DESCRIPTION:
CHARACTERISTICS
CHARGE: Sketches, conceptuaization, diagramming and design
MEDIUM POROUSE
-Absorbs -Connects -Fragments -Transmits
The experiences are impacts causing constant changes and transformations to the mind of a person.
POROUSE
CHARACTERISTICS - Empty space of a material -Gaps/Voids/Perforations an element allows another one to pass through it - Space: texture permeability - routes - Interstice - Permeability - It's a space
NINIKE CELI ATALA
Porosity
Students Teachers Administrative Services External
FLUID
CHARACTERISTICS - Continuity - Is deformed when subjected to a solid/ It molds the solid - Fluid moves through gaps or pores or structure - Its properties are: Speed - Pressure density - temperature.
ABSORBS
TUTOR: MSc. Arch. Maria Alicia Becdach / mbecdach@gmail.com
As learned from experience the theory is created
-Absorbs -Process -Connects -Pulls answers -Transmits (information)
TRANSMITS
You learn and solve problems through EXPERIENCES, practices, etc.
Brain
The brain of a human being, conceptually speaking, is not a solid element. Two of its main features are FLEXIBILITY and POROSITY. It is through the experiences of human beings that the brain ABSORBS knowledge and information (like a sponge).
PROJECT PROGRAM SPACES
LEVEL: 8 Semester
How the brain acquires information through EXPERIENCES?
CONNECTS
ACADEMIC
KOLB methodologies
ARCHITECTURAL VOLUME SOLID
PROFESSIONAL
When in practice the theory is checked
LEVELS OF PRIVACY
Ecuador, Pichincha / QUITO
The theory is taught
LEVELS OF OPACITY AND TRANSPARENCE
2670 m.a.s.l.
TEACHING METHODOLOGIES
Common methodologies
DISTRICT URBE
FRAGMENTS
2014
LEARNING THROUGH EXPERIENCE
LOCATION
USER Light - Illumination Sound - Acoustics Visual - Transparency Air - Wind
PLANS
PORES
Floor Plan 1
FLUIDS
PROGRAM
ILLUMINATION
LEVELS OF POROSITY Floor Plan 3
LUMINOUS POROSITY (LIGHT)
+
POROSITY-
USERS
AIR - WIND STUDENTS
TEACHERS
ACOUSTIC POROSITY (SOUND)
WIND POROSITY (VENTILATION)
VISUAL POROSITY (TRANSPARENCY)
1
2
3
1
2
3
1
2
3
LABS
WORKSHOPS
GYM
LABS
WORKSHOPS
GYM
LABS
WORKSHOPS
GYM
4
CLASS HIGH SCHOOL
7 CAFETERIA
10 SERVICES
5
CLASS PRIMARY
8 RECTORY
11 ADMINISTRATION
6
4
CLASS PRE KINDER
CLASS HIGH SCHOOL
9
7
LIBRARY
CAFETERIA
12
10
AUDITORIUM
SERVICES
5
CLASS PRIMARY
8
6
4
CLASS PRE KINDER
CLASS HIGH SCHOOL
9
RECTORY
11 ADMINISTRATION
7
LIBRARY
CAFETERIA
12
10
AUDITORIUM
SERVICES
T1
T4
T7
T10
T2
Wind porosity Luminous porosity Acoustic porosity
Wind porosity
Wind porosity Luminous porosity Without: Visual porosity Acoustic porosity
Acoustic porosity Visual porosity Without: Wind porosity Luminous porosity
Acoustic porosity Visual porosity Luminous porosity Wind porosity
Without: Visual porosity
PORTFOLIO
ACOUSTICS
VISUAL TRANSPARENCY
ADMINISTRATION
SERVICES
OUTDOORS
SUMMARY
Class Workshops Labs Recreational Areas Bathroom Cafeteria Library Auditorium Cellar Rectory Administration Guardian Infirmary DOBE GYM Teacher’s room Parking Copies
Floor Plan 2
Floor Plan 4
PROPOSAL
LEVELS OF POROSITY
Without: Visual porosity Luminous porosity Acoustic porosity
T8
T11
Acoustic porosity Wind porosity Without: Luminous porosity Visual porosity
Acoustic porosity Luminous porosity Without: Wind porosity Visual porosity
T3
T6
Without Porosity
Acoustic porosity Without: Wind porosity Visual porosity Luminous porosity
NINIKE CELI ATALA
T9 Wind porosity Visual porosity Without: Acoustic porosity Luminous porosity
5
CLASS PRIMARY
8 RECTORY
11 ADMINISTRATION
IDENTIFICATION OF POROUS WALLS
1
2
3
1
2
3
6
4
5
6
4
5
6
9
7
8
9
7
8
9
10
11
12
10
11
12
CLASS PRE KINDER
LIBRARY
12 AUDITORIUM
T5 Luminous porosity Without: Wind porosity Acoustic porosity Visual porosity
T12
SUM OF POROSITIES
Luminous porosity Visual porosity Without: Wind porosity Acoustic porosity
By having the schematic reinterpretation of the matrix with each of the fluids (one fluid per mesh), all these meshes are joined, giving a single result. What will be achieved with this is to identify the porous conditions of the edges of each space of the program. Each edge will be convetirá in panels with different conditions, which will indicate to me what type of porosity transmits each panel to the various spaces of the project.
PROPOSAL
VOLUME
As for the parti and architectural volume of the project, it is identified a new "fluid" or porosity standard , which answers to the privacy levels (the more private, the less porous + the less private, the more porous). IDENTIFICATION OF AXES - SUN AND WIND
PROJECT PROPOSAL
ARCHITECTURAL PARTI
ABSORBS One of the characteristics of a porous medium is the absorption, in the project, this is represented at the meeting point, or main point of agglomeration that will have the educational unit (absorbs users inside this point).
WIN
WIN
D
D
In this case it is the main courtyard of the building (soccer field).
CONNECTS
TRANSPARENCY AND LUMINOCITY (full and empty)
W
IND
SUN
The yellow are axes located 55 ° from the axis of the sun, this will allow the building to be illuminated indirectly with sunlight. The blue axis follows the direction of the wind. This results in a mesh, which will be the guide for the volume.
The connectivity is represented by means of the circulations in the building.
A porous medium (building), has transparencies, this allows to have visuals to other sides of the project and the entrance of light.
The volumetry of the educational unit is fragmented by volumes, as we can see in the diagram, we have circulations that connect these volumes.
POROSITY IN GROUND ACCORDING TO PRIVACY
9
Privacy
12
1 2 3 7
6
In the project this is represented by gaps found in the building (yellow squares in the diagram) that allows that transparency from one side to another and the entry of light.
We mark two potential entries to the land, which would be to define more private (less porous) (more porous) and less private areas on the ground.
Porosity not only connects, it also fragments. As can be seen in the diagram, the volumetry is formed by bars that fragment each other, the red ones interrupt the green ones and vice versa.
`In the diagram we can see that each bar has a different level of porosity, depending on its location in the field.
Each area of the architectural program was located in different porous axes according to the level of privacy and porosity required for each space.
PORTFOLIO
Porosity
Poin
Privacy
ess
Porosity
This feature is one of the most important that was taken into account when designing the building, since the zoning and composition of the building is composed according to the privacy levels of each space.
8 11
sP oint
Porosity
es
Privacy
FRAGMENTS
t
A
cc
PRIVACY LEVELS
4
Acc
#* *
5
Most porous, less private
Porosity Privacy
NINIKE CELI ATALA
INTERNAL AND EXTERNAL VIEWS
PROPOSAL
MATERIALS AND PANELS (POROSITY IN SPACES)
T3
T1
T4 T6 T9
MATERIAL 1: Aluminum Blinds Porosity Winds Acoustic porosity
The social contribution that gives an educational unit to society is of great importance and of great impact to the population, since it is the means in which children and young people will be formed for their own well-being and of the society.
Without porosity: Low luminous porosity Low visual porosity
Ny
lon
MATERIAL 2: Nylon Mesh Light Porosity Porosity Winds Acoustic porosity
D Gla ouble Ny Alum lon ss W ini G ind lass W Mes um B h lind ow ind s ow
Me
sh
T5
N Alu ss W ylon min ind Me ium Blin ow sh d
Gla
s
T8
T7
Without porosity: No visual porosity
Focusing more on architecture and its user, the main objective of the building is to achieve comfort spaces through the "porosity" and its materials.
MATERIAL 3: Glass window Light Porosity visual porosity Acoustic porosity Without porosity: It does not allow the entrance of air and wind MATERIAL 4: Double Glass Window Light Porosity visual porosity Acoustic porosity Without porosity: No noise input Does not allow air to enter
One of the advantages that this school brings to the society, is to be facing the neighborhood as part of the urban and natural landscape. It also contributes to the public space of the area. Is open to the public and is a familiar meeting point.
PORTFOLIO
Four different types of materials were selected, each of which avoids passing one of the "flows" according to the characteristics of the material. Once these 4 materials have been identified, we combine them with each other according to the requirements of the different types of panels needed in each space.
NINIKE CELI ATALA
D Gla ouble Alum ss W ini G ind lass W um B lin ow ind ow ds
D Gla ouble Ny lon ss W G ind lass W Mes h ow ind ow
T10
Gla
Labs
T3 - T4 - T7
T3 - T12
Ny
ss W
s
Rectory
ds
T12
T11
Gla Alum ss W ini ind um b ow lind
Classrooms
Ny Alum lon in Me ium Blin sh
ind
lon
ow
Workshops T7
Library
T7 Services
T5
T6 - T3
D Gla ouble ss W G ind lass W ow ind
me
sh
ow
GYM
Cafeteria
T2 - T8 - T12 Administration T12 - T3
T2 Auditorium T3 - T5
M
Models
PORTFOLIO
NINIKE CELI ATALA
M1
Models / Pictures Maquetas / FotografÃas
PORTFOLIO
NINIKE CELI ATALA