Architecture Portfolio | July, 2024

ONLINE VERSION https://issuu.com/maria.ines.neves

PRINTED VERSION https://www.behance.net/marianeves29

2017 - 2024 JULY, 2024

ARCHITECTURE

ARCHITECTURE

ARCHITECTURE

INTERIOR ARCHITECTURE

URBAN RESEARCH

ARTWORKS

ABOUT ME

Date of birth

30.SEPTEMBER.1999

Location

PORTO, PORTUGAL

Phone +351 919951550

Email

maria.ines.neves.arq @gmail.com

EDUCATION

Skills / III

PORTUGUESE III ENGLISH III SPANISH II ITALIAN I

ARCHICAD III AUTOCAD III RHINOCEROS I SKETCHUP I TWINMOTION II LUMION I PHOTOSHOP I INDESIGN II ILLUSTRATOR I OFFICE II MODEL MAKING DRAFTING

TIME MANAGER CRIATIVE TEAM WORKER ACTIVE CRITICAL THINKER ADAPTATIVE

FACULDADE DE ARQUITETURA DA UNIVERSIDADE DO PORTO 2017 -2024 • average: 16 /20 • Porto, Portugal

FACULTAD DE ARQUITECTURA, DISEÑO Y URBANISMO DE LA UNIVERSIDAD DE BUENOS AIRES 2021/22 (semester) • Intercambio • Buenos Aires, Argentina

FACOLTÀ DI ARCHITETTURA DELL’ UNIVERSITÀ SAPIENZA DI ROMA 2019/20 (full year) • ERASMUS + • Roma, Itália

COURSES

INTERVENTIONS ON CONTEMPORARY HERITAGE

september.2023 • User Centered interventions group • BIP Erasmus + • ETSA UPV • Valencia, Spain

WORKSHOP ARQUITETOS EM FAMÍLIA

september.2023 • Habitar • 1o Direito - PRR • Vila Nova de Foz Côa, Portugal

THE QUESTION OF HOUSING IN NEB GOES SOUTH july.2023 • New European Bauhaus • BIP Erasmus + • Porto, Portugal

SUSTAINABLE CITIES AND COMMUNITIES

april.2023 • Visibility and Image group • BIP Erasmus + • Istanbul Technical University • Turkey

WORKSHOP NATURAL IS THE NEW NORMAL march.2023 • Experiment building techniques with wood and cork • Cortiçada • Porto, Portgal

VIENNA ARCHITECTURE SUMMER SCHOOL

september.2022 • Tools for urban exploration studio • Vienna, Austria

PORTO ACADEMY july.2022 • WOJR studio • FAUP • Porto, Portugal

PLANNING & DESIGN OF SANITATION SYSTEMS AND TECHNOLOGIES april.2022 • Coursera- École Polytechnique Fédérale de Lausanne • online

INTERIOR ARCHITECT FREELANCER

Porto, Portugal • march.2022 - currently

FA ARQUITETOS

Porto, Portugal • Architecture Internship • may - july.2022

DECATHLON and MJP CATERING

Porto, Portugal • Sales, Waitress and Administrative Assistant • february.2022 - march.2023

VOLUNTEER PROJECT COORDINATOR

Porto, Portugal • VO.U. ‘Rodar Cultura’ • 2022/23

ACHIEVEMENTS

IJUP - YOUTH INVESTIGATION OF U.PORTO

Porto, Portugal • Presentation of my master thesis • may.2024

ANUÁRIA

Porto, Portugal • Exhibition of different works carried out as a student • 2017 - 2021

NATIONAL ACHIEVEMENTS AS A BASKETBALL PLAYER

Portugal • national champion and national team • 2013 and 2016 - 2017

PROJECTS

XXXIV PLADUR® CONSTRUCTIVE SOLUTIONS CONTEST

Sierra Nevada, Spain • april.2024

DETAILED PROJECT OF A KITCHEN AND BATHROOMS

Leça da Palmeira, Portugal • november.2023

INTERIOR PROJECT OF A T0 FLAT FOR AirBnB

Matosinhos, Portugal • january.2023

INTERIOR PROJECT FOR A BUFFET RESTAURANT

Porto, Portugal • december.2022

ARTISTIC EXHIBITION ABOUT THE WATER IN THE CITY OF VIENNA

Vienna, Austria • Group work • Vienna Summer School • september.2022

INTERIOR DESIGN OF A T1 FLAT

Matosinhos, Portugal • may.2022

REDESIGN OF A COMPANY ADMINISTRATIVE SPACE

Matosinhos, Portugal • MJP Catering • march - may.2022

PROJECT AND CONSTRUCTION OF A WOODEN GREENHOUSE

Matosinhos, Portugal • In collaboration with my brother • 2021

RECONVERSION OF A CAMPERVAN

Porto, Portugal • In collaboration with my brother • 2019 - 2022

URBAN PROJECT

TYPOLOGY

URBAN PLANNING FOR AN ABANDONED INDUSTRIAL ZONE

PURPOSE

URBAN PROJECT UNIT

YEAR

2021 - FADU UBA TEAM

FABIÁN APAZA, CAMILA GEREZ, SILVIA RODRIGUEZ

SITE LOCATION

AVELLANEDA, BUENOS AIRES, ARGENTINA

AREA

510.000 m2

THIS PROPOSAL HOLDS IMMENSE PROMISE FOR THE FUTURE, ENVISIONING THE REVITALIZATION OF A SITE THAT WAS THE CITY’S MAIN INDUSTRIAL ZONE IN THE 20TH CENTURY. IT AIMS TO MEET THE URBAN IDENTIFIED NEEDS OF THE AREA WHILE TRANSFORMING THE RIACHUELO INTO A LANDSCAPED ATTRACTION, CONTRIBUTING TO ENVIRONMENTAL CLEANUP. THE PLAN INCLUDES A COMMERCIAL STRIP ALONG THE INTERVENED AREA, OPTIMIZING INTERIOR SPACE FOR DIVERSE PROGRAMS, AND A RESIDENTIAL ZONE OUTSIDE THIS STRIP TO PROVIDE WELL-PLANNED, DECENT HOUSING. TO REVIVE A SEMBLANCE OF ITS LOST IDENTITY, THE PROPOSAL PRESERVES THE ONLY ACTIVE FACTORY AND INTRODUCES A TECHNOLOGICAL HUB ADJACENT TO IT.

GENERAL PLAN

FEATURES

ARCHITECTURE PROJECT

TYPOLOGY

INTEGRATION INTO THE ENVIRONMENT, REHABILITATION AND AMPLIATION, MOUNTAINEERING SCHOOL

PURPOSE

XXXIV PLADUR® CONSTRUCTIVE SOLUTIONS CONTEST

YEAR 2024 TEAM

JOANA GOMES, JOANA FERREIRA

SITE LOCATION

ELORRIETA REFUGE, SIERRA NEVADA, SPAIN

AREA

500 m2

IN THIS PROJECT, THE EXTERIOR REMAINS INTACT, WITH RESTORED CONSTRUCTION AND AN EXTENSION INTEGRATED INTO THE MOUNTAIN, UTILIZING ITS NATURAL FEATURES AND MAINTAINING THE ROCK’S APPEARANCE. THE ARIDITY OF THE ROCK CONTRASTS WITH THE SOFTNESS OF PLADUR®, TRANSITIOINING FROM A PLASTERBOARD-CLAD SPACE TO A DOMINANT, PRE-EXISTING ROCK ENVIRONMENT. THIS PROPOSAL EMBODIES THE ESSENCE OF DUALITY: THE COLD OF NATURE AND THE HUMAN WARMTH, THE NANOMETRIC SCALE VERSUS THE SCALE OF THE MOUNTAIN, EMPTINESS VERSUS MASSIVENESS, AND PLADUR® VERSUS ROCK. THE DESIGN INVERTS THE MOUNTAIN, TRANSFORMING ITS NEGATIVE SPACE INTO A POSITIVE ONE, ALLOWING ENJOYMENT EVEN IN ADVERSE WEATHER CONDITIONS AND OFFERING CLIMBERS A NEW DIMENSION OF EXPERIENCE.

VACÍO OCULTO

MARIA INÊS NEVES

LONGITUDINAL SECTION

VACIO OCULTO

1. Sistema trasdosado al preexistente Trasdosado directo ENAIRGY® EFFICIENT R4,40 Pladur® (13OMNIA+140 ISOP+® 32) 152,5mm de espesor

ENAIRGY Isopop® R4.40 OMNIA 13 +140 Argamassa adesiva MA Enairgy ® situados cada 300 mm en horizontal y 400 mm en vertical. Tratamiento de juntas (pasta de juntas, pasta de agarre y cintas de juntas, etc) Separación 10mm

Soporte Enlucido

3. Sistema de separación Tabique Pladur® 200/400 (70-35+e+70-35) 4OMNIA 2MW Livre 210mm

Dos placas Pladur® OMNIA de 15mm de espesor Estructura doble de cámara única libre, de acero galvanizado de 70mm de ancho cada una y separadas 10mm entre sí. Formadas a base de: Montantes de disposición reforzada Pladur® M7035 (elementos verticales) de alas de 35mm

Canal Pladur® C 70 (elementos horizontales)

Tornillo Pladur® PM Tratamiento de juntas

Separación 10mm

Lana mineral Fijación a soporte

CONSTRUCTIVE DETAILS

diferenciadas:

y,

2. Sistema de distribución simples Tabique Pladur® 92/400 (62-45H) 2N MW 92mm de espesor

Placa Pladur® N de 15 mm de espesor Estructura reforzada en“H”de acero galvanizado de 62 mm de ancho, a base de: Montantes Pladur® XL 62-45 (elementos verticales) de alas de 45 mm, separados entre ejes 400 mm Canales Pladur® C 62-30 (elementos horizontales) Tornillo Pladur® PM Tornillo Pladur® MM Tratamiento de juntas Lana mineral Fijación a soporte

línea de cresta acceso cm

Estancias de descanso

4. Sistema de distribución hidrofóbico

Bunk beds built into the stone

Tabique Pladur® 120/600 (70-35) 4H1 MW 120mm de espesor

Pre-existing stone vault

Placa Pladur® H1 de 12,5mm de espesor

Infrastructure tunnels

Estructura de acero galvanizado de 70mm de ancho, a base de: Montantes Pladur® M 70-35 (elementos verticales) de alas de 35mm, separados entre ejes 600mm

Water collection tank

Canales Pladur® C 70 (elementos horizontales)

Tiling system to the pre-existing ENAIRGY® EFFICIENT R4,40 Pladur® direct cladding

Pre-existing stone structure

White plaster (RAL9003)

White resin floor finish

El exterior permanece intacto. Se ha restaurado toda la construcción existente y la ampliación se ha diseñado para habitar exclusivamente el cuerpo de la montaña y aprovechar sus características naturales y atmosféricas, manteniendo incluso el aspecto de la roca.

vez, resina blanca, con el objetivo de dar coherencia con el uso del Pladur®. A modo de cierre, al dejarse excavar en el interior de la montaña, la escuela pretende revelar a los montañeros la esencia de su naturaleza ancestral -precisa, árida e implacable- con la que contrasta Pladur®, que a través de sus superficies lisas y ligeras consigue un espacio propio y humano, provocando sensaciones espaciales diametralmente opuestas e invitando a la reflexión y al tacto.

Tiling system to the pre-existing ENAIRGY® EFFICIENT R4,40 Pladur® direct cladding stone in sight

Tornillo Pladur® PM Tratamento de juntas

Lana mineral Fijación a soporto

*En el caso de las particiones entre baños y habitaciones no húmedas el sistema varía con un solo panel de Pladur®Nenlacaranohúmedadeltabique,ymontantes Pladur® XL en el caso de espacios más elevados.

Pladur pintado a blanco

Roca

Resina blanca

La aridez de la roca se enfrenta a la suavidad del PLADUR®. De un espacio preexistente completamente revestido de cartón yeso, se pasa paulatinamente a un entorno tectónicamente antagónico, en el que domina la roca, también preexistente. Se implementó así un contraste de materialidades distantes, de características, colores y sensaciones diametralmente opuestas.

Cuerda de alpinismo

ARCHITECTURE PROJECT

TYPOLOGY

REHABILITATION AND AMPLIATION , E-LEARNING AND FITNESS CENTER

PURPOSE

PROJECT 4, CONSTRUCTION 3, AND STRUCTURAL SYSTEMS UNITS

YEAR

2020/21 - FAUP TEAM

INDIVIDUAL

SITE LOCATION

ASPRELA, PORTO, PORTUGAL

AREA

1.888 m2 in 7.900 m2

SITUATED AT THE HEART OF THE CITY’S PRINCIPAL UNIVERSITY CAMPUS, THIS FORMER QUINTA METAMORPHOSES INTO A LIVELY SOCIAL CENTER. WITH A CAFÉ, GYMNASIUM, AND INDOOR SWIMMING POOL, IT ENCOURAGES PHYSICAL ACTIVITY AND LEISURE, WHILE EXTENDING THE EDUCATIONAL ENVIRONMENT WITH STUDY ROOMS FOR STUDENTS. THE PROPOSAL CONNECTS THE GARDEN WITH THE CITY VIA AN UNDERGROUND PASSAGE THAT ELEVATES TO THE E-LEARNING FACILITY. THE PRESERVED MAIN BUILDING HOUSES A SWIMMING POOL, CREATING A SYMBOLIC AND INTIMATE SPACE, AND IS LINKED TO THE FITNESS CENTER ON A HIGHER FLOOR WITH OPEN GROUND SPACE FOR OUTDOOR ACTIVITIES, BLENDING EXISTING STRUCTURES WITH INNOVATIVE ELEMENTS. AN EXPERIMENTAL CYLINDRICAL PAVILION IS DESIGNED TO HOUSE THE CURRENT QUINTAKEEPER OR FOR FUTURE USES.

QUINTA DAS LAMAS

PLANS

GROUNDFLOOR

GROUNDFLOOR

Water-repellent paint

Plasterboard

SECTION

Fixed wooden frame

Insulation 4cm

Mortar for laying

Waterproofing mesh

Travertine marble

Reinforced concrete

PLAN

CONSTRUCTION DETAILS

ARCHITECTURE PROJECT

TYPOLOGY

SUSTAINABLE AND SELF-SUFFICIENT REFUGE

PURPOSE

SUSTAINABLE ARCHITECTURE UNIT YEAR 2021 - FADU UBA TEAM

JOANA GOMES, RAQUEL CONCEIÇÃO

SITE LOCATION

TIRO FEDERAL, FORMOSA, ARGENTINA AREA

50 m2 in 21.700 m2

THIS PROPOSAL EMBODIES ARCHITECTURE STRIVING TOWARDS NEARLY 100% SELF-SUSTAINABILITY, FUNCTIONING ALMOST LIKE A LIVING ORGANISM THAT CAN DEPEND ON ITSELF. WITH A CLIMATE-COMFORTABLE ZONE WITHIN THE REFUGE, CALCULATED THROUGH THE GIVONI PSYCHOMETRIC GRAPH, IT PRIORITIZES NATURAL VENTILATION, SUITED VEGETATION, ELEVATED GROUND DISTANCES TO COUNTER FLOODS, LOCAL BUILDING MATERIALS, AND ECONOMICAL CONSTRUCTION. ADDITIONALLY, IT HAS SOLAR PANELS TO COVER ALL ELECTRICAL NEEDS, WATER TANKS TO REUSE RAINWATER, NOT ONLY FOR DIRECT CONSUMPTION, USING FILTERS, BUT ALSO FOR OTHER UTILITIES.

SUMMER

21st of Dicember at 12:00

We use the vine because in summer it provides shade, while in winter, due to its deciduous leaf, it lets in the sun. We chose to raise the ground floor 50 cm, in order to favor air ventilation, protect the building materials from wear resulting from natural contact with the ground, prevent damage from possible flooding and limit the entry of small animals.

We store most of the rainwater that falls on the surface of the house, in a tank strategically connected to a wall shared simultaneously by the bathroom and the kitchen, using gravity to facilitate the water distribution process. Also keep in mind that the water tank, being black in color, heats the water more quickly, saving energy that would otherwise be needed to heat the water more and that the whole process is easily done with the slope of the roofs. [fig.1]

We decided to install 6 MONOCRYSTALLINE photovoltaic solar panels (1), using a 4KWh battery (2) because, with the battery, it is possible to store it for use at other times, such as at night when there is no sun to produce energy. From the battery it goes to the power plant (3), which distributes it throughout the house. [fig.1] In summer, despite producing more energy than necessary, it can still be sold to the company that supplies the house. Thus, energetically, the house is totally sustainable, and can be sold for service, ending up financially offsetting the initial

The materials were selected to prioritize local and sustainable options while ensuring optimal thermal comfort, as calculated by the Givone psychrometric chart. The structure and finishes primarily feature wood, with brick strategically incorporated into specific walls. investment in equipment.

The option of using a cross ventilation system is very beneficial because, in addition to using only the infinite resource that is the wind, it gives the occupant a better thermal sensation and the comfort of always having fresh and pure air coming in, instead of use air conditioning, for example. In our project, the openings are made on opposite sides, both in plan and in section. Thus, since the bioclimatic zone is mainly characterized by higher temperatures, warm air tends to rise and exit through the upper window, while cold air enters and creates a softer interior environment. In addition, the entire project can be transformed according to the will and comfort of the occupant. The use of Japanese panels inside the upper floor allows the passage of air to be combined with greater privacy in the rooms.

GREEN EARTH WATER SUN WOOD FLOW

WINTER

21st of June at 12:00 15°C

INTERIOR ARCHITECTURE PROJECT

TYPOLOGY

DETAILED DESIGN OFTHE KITCHEN AND BATHROOMS

STATUS

BUILT

YEAR

nov.2023 - apr.2024

TEAM

INDIVIDUAL AS AN INTERIOR ARCHITECT FREELANCER

SITE LOCATION

LEÇA DA PALMEIIRA, PORTO, PORTUGAL

AREA 10,94 m2

THIS PROJECT EXEMPLIFIES THE CLOSENESS OF ARCHITECTURAL DETAILING, WITH METICULOUS EXECUTION DRAWINGS FOR THE BATHROOMS AND KITCHEN OF THE HOUSE. HOWEVER, ONLY THE KITCHEN DESIGN IS SHOWCASED HERE, DEMONSTRATING THOROUGHLY EXPLORED THOUGHT AND DETAIL. THE PROJECT CENTERS ON THE USE OF WOOD, THE CREATION OF AN OPEN-PLAN SPACE, AND A MOBILE ISLAND THAT CAN BE POSITIONED ACCORDING TO NEED OR TUCKED AWAY INTO THE WALL TO MINIMIZE OBSTRUCTION. IN THIS DESIGN, AESTHETICS AND FUNCTIONALITY SEAMLESSLY MERGE.

LEÇA

URBAN RESEARCH PROJECT

TITLE

URBANISM OF THE HUMAN FLOWS. BUENOS AIRES AS A STARTING POINT

PORPUSE

FINAL MASTER THESIS

YEAR 2024 - FAUP

ORIENTATION

CRISTINA EMÍLIA RAMOS E SILVA - FAUP

MARTÍN DIEGO ALVAREZ - FADU UBA

LOCATION

BUENOS AIRES, ARGENTINA

ONLINE DOCUMENT https://repositorio-aberto.up.pt/handle/10216/157869

THIS DISSERTATION EXPLORES THE VASTNESS OF THE GLOBAL THEME OF (URBAN) MIGRATIONS BY EXAMINING THE CITY OF BUENOS AIRES AS A MICROCOSM, ILLUSTRATING HOW ITS ARCHITECTURE AND URBAN FABRIC HAS BEEN INTERWINED AND TRANSFORMED OVER THE CENTURIES UNTIL 2023 BY THE MOST SIGNIFICANT HUMAN FLOWS FROM OR TO THE CITY.

ORIGINAL FLOW

COLONIAL FLOW

Mobility, intrinsic to the human essence, had shaped human history and continues to challenge borders and barriers in every known dimension. This complex phenomenom requires an interdisciplinary approach to understand it, even if the focus lies on the urban and architectural plane. Buenos Aires was idealised and built as a european city in the heart of the pampean plain, originally inhabited by native ethnic groups, emerges as a living testimony to the diversityof human flows that have shaped its urban, cultural and identity landscape, from its colonial foundation in 1580 until today.Each chapter was composed by text, chronological lines of significant socio-political events, graphs and drawings, and was delimited and defiined by each dominant flow. This chronologic study analyses the impact of these flows on the formation and metamorphosis of the city, highlighting the vital interconnection between human movements and urban evolution. Ends in contemporary times, where it faces the challenges arising from emigration. The city, marked by uncontrolled growth and social segregation, reflects a complex and constantly changing reality.

do Parque

Río de la Plata

Fluxo de trabalhadores

WORKERS FLOW MASS FLOW LAST ULTRAMARINE FLOW LIMITING FLOW EMIGRATORY FLOW

Fluxo de massas

Fluxo final ultramarino

Fluxo limítrofe

Fluxo emigratório

das DF3.8

1ª Hotel de Imigrantes ou percurso percorrido pelos imigrantes a pé

Alfândega Nova

estações terminais edificado em 1850s terreno linhas de ferro percurso percorrido pelos imigrantes de barco

0 200 400 m land built in the 1850s terminal stations railway lines route travelled by immigrants by boat route travelled by immigrants on foot

[ D F 3 8 ] P l a n t a a p r o x i m a d a d e Buenos Aires na década de 1850, com foco no percurso dos imigrantes c h e g a d o s d e b a r c o à c i d a d e A localização do Hotel de Imigrantes é incerta, visto que a autora não tem i n f o r m a ç ã o d o l a d o e m q u e s e encontra

ARTWORKS

TYPOLOGY

DRAWINGS

PAINTINGS

SCULPTURE

PHISICAL MODELS

PURPOSE

FAUP - DRAWING, TGOE AND PROJECT SAPIENZA - PROJECT PORTO ACADEMY VIENNA SUMMER SCHOOL OTHER PROJECTS

YEAR 2017 - 2022

THIS ADITIONAL SECTION OF THE PORTFOLIO SERVES TO SHOW A TAPESTRY OF SKETCHES, OUTLINES, HAND-ELEVATED, RIGOUROUS DRAWINGS AND BOLD CREATIONS IN OIL PASTELS, WATERCOLORS, AND COAL. MY WORK IS EXPLORED BY PORTRAITS, STILL LIFES, LANDSCAPES, CITYSCAPES, AND IMAGINATIVE REALMS. THE “GARBAGE MODEL” PROJECT REIMAGINES DISCARDED OBJECTS INTO INNOVATIVE SPATIAL FORMS, WHILE THE PORTO ACADEMY CHALLENGE INVOLVES SCULPTURAL STAIRCASES LEADING TO BOTH SOMEWHERE AND NOWHERE. CULMINATING IN THE VIENNA SUMMER SCHOOL EXHIBITION, “WET VIENNA,” MY WORK TRANSFORMS URBAN WATERSCAPE EXPLORATIONS INTO A DYNAMIC SPATIAL NARRATIVE, REVEALING THE INTERPLAY BETWEEN ART, ARCHITECTURE, AND THE CITY.