PORTFOLIO

P O R T F O L I O

VENTANILLA WETLANDS

INTERPRETIVE CENTER

ARCHITECTURE STUDIO III

DIGITAL GRAPHICS

QUINCHA HOUSING FOR THE HIGHLANDS

CONSTRUCTION I

PURUCHUCO CULTURAL CENTER

ARCHITECTURE STUDIO IV

SINGLE-FAMILY HOUSE IN IQUITOS

ENVIRONMENTAL CONDITIONING I

CURRICULUM VITAE

PÁG 04

PÁG. 18

PÁG. 24

PÁG 30

PÁG 42

ARCHITECTURE STUDIO III

VENTANILLA WETLANDS INTERPRETIVE CENTER

ASSIGNMENT

For this project, we designed an eco-friendly space that mimics the natural context of the Ventanilla Wetlands, as well as being made of suitable materials so as not to damage the environment in which it is located due to the delicacy of the soils, highlighting the visuals of the place, and its functional range characteristics.

DESCRIPTION

The wetlands of Ventanilla are a preserved natural area in the city of Lima, where fauna and flora abound, especially the avian category. For this reason, the project did not have a heavy contact with the ground; it was located 60 centimeters from the ground and the contact with it was by means of structural beams. Likewise, to maintain the natural character and achieve a mimicry with the environment, the construction method chosen was wood and for the enclosure of the spaces a plant that grows in abundance in the area is used, called Junco, which is used by the villagers to carry out different finishes, from handicrafts to roofs. The shape comes from the analogy of a bird's nest, with a hierarchical room that is enveloped by the other spaces and which in turn serves as an entrance for users to each environment of the building.

The spatial program of the project is designed to allow users to transit through the hierarchical room Likewise, the walkable ceilings reach the middle of the exhibition hall, highlighting the visuals both towards the natural water mirrors, as well as the sighting of birds of the area, such as the Huerequequeque, the Yanavico or the Chorlos.

Model Isometric View

Model Isometric View

DIGITAL GRAPHICS VENTANILLA WETLANDS INTERPRETIVE CENTER

DIGITAL GRAPHICS

VENTANILLA WETLANDS INTERPRETIVE CENTER

DESCRIPTION

For the Digital Graphics course I used the Centro de Interpretación Humedales de Ventanilla (Ventanilla Wetlands Interpretation Center) made at Architecture Studio III In this work I made photomontages in two and three dimensions of the project and its environment Aditionally, a panel with diagrams indicating the Form, Context, Space and Program was presented to achieve a better understanding of the project.

For the photomontages the Photoshop program was used; I modeled the three-dimensional model in the Sketchup program, and the diagrams of Form, Context, Space and Program were made both in Photoshop and Adobe Illustrator, taking into account the analysis made in Architecture Studio III about the location, users, site analysis, structure and biodiversity of the project.

QUINCHA HOUSING FOR THE HIGHLANDS ASSIGNMENT

For this assignment in the Construction I course, we were asked to design a house with a construction method native to the Peruvian Andes, in my case, I used the Quincha

CONSTRUCTION METHOD: QUINCHA

Regarding the use of quincha, I used quincha filled with braided cane, and mud mixed with straw for the cladding. The window openings and doors are inside the wood panel modules. As for the water and drainage pipes of the bathroom, and the electrical installations, they must remain on the outside, and are tied with wire, also, in the smooth parts of the modules I placed the mesh, as in the column of the bathroom

The roofs are sloped and are made of calaminas (construction material, composed of a mixture of cement with asbestos, mainly used in the form of corrugated sheets to cover the roof), because in areas where this type of housing is used, the weather tends to be cold and there are recurrent rains, so the sloping roofs help the water does not stagnate and avoids contact with the quincha. This construction method provides thermal inertia, which means that it retains the heat of the day to be released at night when temperatures drop, allowing greater comfort for users, who mostly live in rural areas, and the quincha is an accessible method because it is composed of natural materials that are easy to find in nearby areas

FIRST FLOOR AND ELEVATION 1/25

CONSTRUCTION DETAIL

Wall

Mud and Straw Filler

Rendering

Wooden Column

Stem Wall Ground Level

Wooden Column

Anchoring Nails

Fooling Sole

Clove

Calamina

Wooden Truss

ARCHITECTURE STUDIO III

PURUCHUCO CULTURAL CENTER

ASSIGNMENT

EA modern research concept space with a linear facade integrated to the Mayorazgo hill through an exterior patio, counterbalanced with curved furniture that delimits the internal spaces.

DESCRIPTION

This project was located in the district of Ate, specifically in the area of the Huaca de Puruchuco, where is located a media library that provides the user a research experience with technological resources, which is located on the slopes of the hill where the Huaca surrounds this sacred place full of religious beliefs of the Andean population, which leads us to organize ourselves to guide citizens in the preservation of this important archaeological heritage, while allowing this area to become a new tourist focus; designed with an accessible access road and bicycle path, exploiting the potential of the area and placing a building with a modern concept that blends in with the context.

ENVIRONMENTAL CONDITIONING

SINGLE-FAMILY HOUSE IN IQUITOS

DESCRIPTION

Llevar a cabo el acondicionamiento de una vivienda en una determinada región de Perú, y diseñarla teniendo en cuenta la climatología del área para lograr el mayor confort de los usuarios.

The project was designed to fit out a house in a specific region of Peru, and to design it taking into account the area's climatology in order to achieve the best comfort for the users.

CONSTRUCTION METHOD: WOOD

Basado en gráficos como el Givoni Welfare Climogram, el Sun Hours and Solar Projections Chart, Wind Rose Chart y el Ombrothermal Diagram: Analyze temperature and precipitation, se analizó la ciudad elegida y se llevó a cabo las estrategias proyectuales necesarias para que los ciudadanos que ocupen la vivienda no se incomoden por las altas y húmedas temperaturas del lugar.

IQUITOS

GIVONI WELFARE CLIMOGRAM

Iquitos has a warm climate most of the year, with an average minimum temperatureof21Candamaximumof31C o o

Comfort is not achieved in any month of the year, so natural ventilation and air conditioningmustbeused

Rainfall in Iquitos is frequent; therefore, a rainwater drainage system should be consideredtopreventpossibleflooding

Theuseoflightcolorsisrecommendedtoavoidheatgain

Slightoscillationvariationtérmica.

Thereisnogreatchangeintemperaturesbetweenseasons

Failuretoreachthecomfortzone

Theclimateisgenerallywarmandhumid

SUN HOURS AND SOLAR PROJECTIONS CHART

The critical months range from July to October, with a number of hours of sunshinefrom47,amaximumpeakof50,to48

Regarding the critical hours, it could be marked from 9hrs, where the azimuth begins to reduce notoriously, for example in the month of August, where at this hour it would be 6954°, and decreases drastically at 12hrs withadegreeof-332°,until15hrs,wheretheazimuthwouldbe-7024°

In the month of October, the critical hours would be from 10hrs with an azimuthof10790°,until16hrs,withadegreeof-9993°

Thanks to the equidistant solar projection graph we can know the trajectory of the sun for which we can see that the path is close to the north which meansthatitisinthesouthernhemisphere

As it is a warm and humid place, constant natural ventilation isrequired

It is advisable to use mechanical cooling systems due to excessiveheat

The sunshine hours graph shows the variations in sunshine hours depending on the months, which indicates that August with almost 5 hours of sunshine is the month with the most sunshine, whileMarchwith33hoursisthemonthwiththeleastsunshine

OMBROTHERMAL DIAGRAM: ANALYZE TEMPERATURE AND PRECIPITATION

The ombrothermal graph shows that the month with the highest rainfall is March and November is the month with the highest temperature compared to the others Similarly, it can be seen that in Iquitos rainy months predominate because rainfall is higher than the average temperatureofthearea,soitmaybeessentialtotrytoraisetheproject

March is the month with the highest rainfall

Rainy months predominate because rainfall is higher than the average temperature of the area

It may be essential to try to elevate the project

As for the wind direction in most months the direction is the same, which comes from the northeast and travels to the southwest, that is why it would be recommended to make the openings in the side facade and the main facade for the wind to go through the project.

With respect to the sun, the month with the greatest amount of sunshine is August, so thanks to this date and the critical hours analyzed (9hrs/15hrs), the azimuth and height angle for solar protection was obtained, due to the fact that the location of the land has a warm climate

LIGTER COLORS

Light colors on the facade to prevent high heat absorption inside the project.

MORE PERFORATIONS

Considering that the climate is hot and humid, the space will require constant indoor airflow

LOWER WALL WEIGHT FOR LOWER THERMAL INERTIA

Lighter walls due to the fact that the warm climate does not vary drastically throughout the year

LESS SEATED

The project will have to be less settled in order to prevent flooding due to constant rainfall.

MORE TRANSPARENCY

Greater transparency to generate natural lighting in the interior of the project, protecting these spaces is key to avoid solar radiation

MORE VEGETATION

Take advantage of the vegetation for greater radiation protection, these at a prudent distance to avoid humidity in the project

LESS COMPARTMENTALIZATION

To ensure maximum air circulation inside the project, it should be considered to have little compartmentalization

DOUBLE ROOF

The project will incorporate a double roof in order to allow greater ventilation without exposing the project to solar radiation

LOWER COMPACTNESS

As it is a warm climate, the project should be as compact as possible, so there will be more contact in this case with the winds

The project will have to be well insulated to avoid heating inside the project

The project should have a larger volume for better ventilation inside the project

The site is located in a warm-humid region It was placed in such a way that the north and east facades receive the least amount of sunlight, so that the wind can flow through the project

FIRST FLOOR SECOND FLOOR

KITCHEN DININGROOM LIVINGROOM LAUNDRY VISITINGBATHROOM GARAGE

BEDROOMS MAINBATHROOM FULLBATHROOM TVROOM TERRACE

GREATER HEIGHT

More height for better ventilationinsidetheproject

DOUBLE CEILING

Increased isolation in order to prevent temperature elevation inside the project

PERFORATIONS

Due to the warm climate, it was necessary to take advantage of the constant inflow of air through perforations

VEGETATION

Vegetation was strategically added in order to protect the boreholes from solar radiation

TRANSPARENCY

Greater transparency in order to provide natural lighting to the interior of the project, avoiding as much as possible direct lighting

LESS COMPARTIMENTATION

Less compartmentalization, greater air circulation within the project.

The double roof provides natural ventilation without exposing the project to solar radiation.

LIGHT WALLS

Lightweight walls were added to achieve lower thermal inertia, which would help since the warm climate does not vary drastically throughout the year

LIGHTER COLORS

Use of light colors on the facade to avoid solar gain and thus prevent the interior from raising its temperature

ISOLATION SETTLEMENT

Less contact with the ground to avoid flooding

LESS COMPACITY

Reduced compactness to avoid heat accumulation

CURRICULUM VITAE

Creative Skills

I am genuinely passionate about creative work Making ideas come to life has always come effortlessly to me Thanks to the passion I have for design and simplicity I have been able to produce architectural materials that have been highlighted by its neatness and practicality

Languages

Spanish Native English C1

Architecture Skills

Sketchup

Microsoft Office

Autocad

Revit Rino

Graphic Edition Skills

Photoshop Adobe Illustrator

Statical Skills

ADRIANA REVILLA

Adress: Phone Number:

E-Mail: Date of Birth:

Place of Birth:

Education

B S in Architecture

University of Lima

Third upper class

Abraham Lincoln High School

Graduated with Bilingual International Baccalaureate Diploma

Nuestra Señora del Pilar High School

Secondary studies until 9th Grade

RIBA President's Medals Competition Internal Call for Entries (Part I)

ARCHITECTURE EXPOSITION

First Place of the Architecture Workshop Semester 2022-2

INTERNACIONAL BACCALAUREATE BILINGUAL

DIPLOMA

TINKUY TOK 2019 (Certificate of Participation in Theory of Knowledge encounter )

Encounter for International Baccalaureate students

CLOUD NINE COLLEGE (Certificate of Achievement in C1

English Level)

Educational trip in Vancouver

CAMBRIDGE ENGLISH (First Certificate in English)