Architecture Student Portfolio - 2020

PORT FOLIO 14 19 ARCHITECTURE STUDENT PORTFOLIO

licogianluca

Born in Vibo Valentia, Calabria, in 1994. He recently graduated in Architecture at the University of Reggio Calabria with honors. Studies conducted during the five years of the university allowed him to train and develop an interest in architecture and urban design with a focus on the themes of innovation, regeneration and sustainability. He is looking for a dynamic and creative work environment in which to learn as much as possible to grow professionally.

INDEX 2019

LANDSCAPE SCALE

PENTIMELE PARK pg.2

2018

URBAN SCALE

MAREGROSSO DISTRICT pg.8

2017

CITY BLOCK SCALE

MuTeMe pg.12

2016

BUILDING SCALE

GRID HOUSE pg.16

LANDSCAPE SCALE

PENTIMELE PARK

CIRCULAR ECONOMY AND REGENERATIVE CITY: Design of a new urban and receptive park REGGIO CALABRIA, ITALY #Thesis

Prof: Arch. Consuelo Nava Time: April 2019 - October 2019 Level: Final year, Individual work Skill set: Rhinoceros, Vray, Autocad, Photoshop, Illustrator, Model-Making, 3d Print

The challenge of this thesis was to face two absolutely new issues in the field of innovation and sustainability, the circular economy and the regenerative city. To see how they can respond in a operative way to the needs of an abandoned area. The area of Reggio Calabria ‘s former fair. Currently, the area, of about 100,000 m2, is in a very strong state of neglect and environmental and architectural degradation, with insufficient connections and places of social and cultural aggregation.

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The design involved the creation of a new urban park which would make the area a real catalyst with a quality recreational and cultural offer. Not just for the neighborhood, but for the whole city.

In fact, the innovative structure of this park could be a great novelty for the Reggio Calabria’s citizens as it would allow the development of programs that the city does not offer currently. Also becoming a strong motivation for innovative and sustainable attitudes oriented to the development of other abandoned areas, which represent a rooted reality of this territory. So, specific objectives are addressed that reflect the performance required by circular and regenerative models. These include an increase in aesthetic value and use value, an increase in permeability, a reduction of CO2 emissions, the use of renewable energy sources and a reduction in the consumption of raw materials.

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MOBILITY AREA

PENTIMELE AREA

SPORTS ARE

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Axnometric View

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Pentimele Park

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1. 2. 3. 4. 5. 6. 7.

SERVICES AREA

FAIR AREA

URBAN SPORTS AREA

Sports Center 5-a-side football pitches Basketball courts Volleyball courts Climbing site Green area Events-Shows Area Green area 8. Relax area Relax 9. Study area 10. Picnic area Relax 11. Study area Bar 12. Ristaurant Cultural workshop Conference room 13. Warehouse 14. Shadow area 15. “Wood” area Light installation 16. Water square 17. Skate park (Water square) 18. Dog run 19. Fitness-Crossfit area 20. Playground area (6-12) 21. Bike sharing station 22. Parking lots for zero-emission car Car sharing 23. E-charging station 24. Public space with open playin field 25. Public space 26. Palapentimele 27. Shadow area 28. Outdoor exhibition area

RELAX AREA Existing tree n.120 Project tree n.232 Low meadows and lawns High meadows and shrubs

EA

Ecological niches n.9 (bug hotel, bee hotel)

REFUSE 14177,22 m3 - Waste materials (usable for other projects) Compensatory actions 2048,82 m3/Recycled material - Artificial hillocks - Filling the foundations of demolished buildings Excavations 3055,96 m3/Material removed Demolitions 1239,56 m3/Existing buildings

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Depaving 11930,52 m3/Asphalt and waterproof flooring

Urban Sports Area

Environmental System Pentimele Park

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Landscape section Planimetric section

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Inside the sports area we find the sport center. The aim of the Sport Center is to help improve public capability to adapt and respond to climate change through re-use of waste itemsm, collecting and reusing a variety of old/ broken construction materials such as scaffolding steel pipes, sheet metals, bricks, and throught efficient use of energy (424,2 mq of photovoltaic system and 18,0 mq of thermal solar system).

Planimetric section

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Sports Area

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a. b. c. d. e. f.

Solar water heating Solar-electric panels Sheet metal PU foam sheets Steel pipes D20 mm Steel pipes D48 mm

1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

Multifunctional space Locker rooms Public toilets Public showers Health station Massage room Service room Administration room Storage Office toilet

Ventilation and natural lighting are efficiently managed by means of a roofing system, which prevents sunlight from radiating directly to the building and allows optimal air circulation. Finally, a very important role is played by the system for the recycling of water, which allows rainwater and gray water to be reused for the functional needs of the building (sinks, showers, etc ...).

natural ventilation

screening system

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2

2

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7 active solar technologies integration

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Ground Floor Plan Longitudinal Section & Bioclimatic system Sports Center (Sports Area)

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of CO2

- 13305,1 t

HEALTH AND WELLNESS

n.105 innocent steel pipes O 48,3mm x 1,00m

+232 new vegetation +9 ecological niches + 24658 mq new public green space (relax area, study area, ecc...) + 9341 mq new public space

n.206 innocent steel pipes O 48,3mm x 0,50m

ZERO WASTE

passport of recyclable resources (from the old fair)

1128 mc post-demolition recycling aggregates

522,5 mq corrugated sheet

n.1048 innocent steel pipes O 48,3mm x 2,25m

2,5 km cycling/pedestrian track 1,0 km running track +2 bike sharing stations (18 public bicycles) +11 e-charging stations

n.32 innocent steel pipes O 48,3mm x 1,20m

+ 2048,82 mc recycled material

- 11930,52 mc de-paved volume -1239,56 mc demolished volume -3055,96 mc volume removed (escavations)

n.5 prefabricated concrete wall 1,00m x 8,00m

n.28 prefabricated concrete wall 2,00m x 8,00m WATER RECYCLE

+n.4 water squares TOT. 2151 mq (storage capacity 1600 mc) +n.1 underground tank (storage capacity 25 mc)

14177,22 mc waste material (usable for other projects)

MOBILITY

151,4 mq ceramic tiles flooring 300mm x 300mm

n.1918 steel connections

+58 parking lots for zero-emission cars +2 cycling/pedestrian subways +3 new accesses to the beach 4 bus stops

n.238 innocent steel pipes O 48,3mm x 2,80m

500,7 mq wood coating

SOIL

adoption of permeable paving systems (rammed earth, ecc...)

SALE

+4 interactive totems (for disseminating culture) + initiatives connected to the park’s cultural activities (time bank, ecc...) + local microeconomics connected to the park’s paid activities and hiring new staff to manage the park

LOCAL CULTURE AND ECONOMY

n.14 HEA steel pillars 140mm x 133mm

n.18 fixtures: n.7 L 0,90m H 1,20 m n.4 L 1,20m H 2,40 m n.2 L 1,80m H 1,20 m n.5 L 3,00m H 1,00 m

SALE

SUSTAINABLE MATERIALS

n.4 prefabricated concrete pillars 300mm x 300mm

n.10 aluminum ceiling lamp

ENERGY

424,2 mq photovoltaic system 18,0 mq thermal solar system

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Sustainable Circular Framework

Circular System

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URBAN SCALE

MAREGROSSO DISTRICT

Restructuring and expansion of the area south of Messina MESSINA, ITALY #Architectural Design 3

Prof: Arch. Francesco Cardullo Time: February 2018 - June 2018 Level: Fifth year, Individual work Skill set: Rhinoceros, Vray, Autocad, Photochop, Illustrator, Model-Making, 3d Print

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The project involved urban regeneration and the redesign of the urban network of the area south of Messina. An area that presents itself in conditions of abandonment, degradation and decline. A decisive economic and urban reprogramming was therefore urgent that would be able to regenerate this now compromised fabric. To return to citizenship a part of the city that has been forgotten.

re the void flows continuously between constructed volumes arranged in a matrix.

The project develops a hypothesis of an open, permeable, flexible city where the urban value does not necessarily reside in the architecture of building but in the spatial qualities of the void that is generated. We imagine a high density city as a necessary condition for the production of complexity by proposing an open system whe-

This regeneration is associated with the design of the “system� area of essential services and the regeneration of the area adjacent to the coast redesigned as a linear park. This would restore an area of breath and tranquility now suppressed by massive densification.

The frames, homologously rectangular in shape, take on variable dimensions and heights, reacting progressively to the surrounding urban conditions, generating an urban model that generates areas of different density with continuity.

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+10,80m

A total of 14 blocks have been designed with 160 residences for a total of between 300 and 400 inhabitants. These courtyard housings are equipped with a population density such as to create the “city effect� and at the same time they are provided with internal public spaces which, through the search for an urban quality, improve the quality of life.

+9,80m

+8,50m

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Ground Floor Plan

Ground Floor Plan

First Floor Plan

+7,50m

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Partial Floors Plan

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+5,80m

Maregrosso District 8

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MAREGROSSO DISTRICT

alignment with the existing

SERVICE “SISTEM� OF NEW DISTRICT NEW LINEAR PARK

saturation

2 courts

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3 8

permability

4 5 6 7

heights variation

District Quantitative Data (in compliance with building standards)

242 RE/HA 2,80 m2/re 5,70 m2/re 6,70 m2/re 11,30 m2/re

Population density Parking Services (Library, ecc...) Education services Green

The simple planivolumetric structure of the type houseblock conceals a great typological richness, from residences to commercial premises. The system of open spaces on the residential block is able to interact with the surrounding urban space. The building envelope designed through an innovative layering with high energy efficiency preserves continuity with the existing buildings through transparent vertical closures, taking up the existing rhythms and proportions.

1. Maregrosso Square 2. Museum Shopping Center 3. High School 4. Library 5. Middle School 6. Covered Parking 7. Health Pole 8. Railway line Residential block Mixed block

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Block diagram & Axonometric view of Maregrosso District Longitudinal Elevation Standard Block

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1.

Entrance Hallway Kitchen Living room Bedroom Bathroom Storage room Veranda Balcony Dressing room Locale commerciale

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3. 4. 5. 6.

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+4,90m

7. 8. +1,40m

+0,90m

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apartment tipology a. 133 m2 - 4/5 people

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b b. 75 m2 - 3 people c. 67 m2 - 3 people 3

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In the design of apartments, the evolution of the traditional family to the 2.0 family has also been taken into account from a social point of view. Already Le Corbusier had introduced the need for the insertion of flexible, typologically different spaces adaptable to different family needs, all combined with the importance of the interconnection of different family groups. direct sunlight into the plaza

natural ventilation into the plaza

+10,90m +7,90m +4,90m +1,90m

+0,90m

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First Floor Plan Longitudinal Section Standard Block

natural landscape view +1,40m

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+0,00m

CITY BLOCK SCALE

MuTeMe

MUSEUM OF MESSINA “EARTHQUAKE” MESSINA, ITALY #Architectural Design 2

Prof: Arch. Francesco Cardullo Time: February 2017 - June 2017 Level: Fourth year, Individual work Skill set: Rhinoceros, Vray, Autocad, Photochop, Illustrator, Model-Making, 3d Print

The project involved the construction of a museum with its external and internal spaces, which was to contain and reconstruct documents and materials that showed the development of Messina’s city. From its origins to the 1908 earthquake, from the last reconstruction until the Second World War.

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We wanted to address the need to create a place of memory, a place where to find an urban and architectural identity. Architectural identity is largely compromised and dispersed by the development of the city, without ideas and design, from the sixties of the twentieth century onwards.The museum is structured by a courtyard structure that fits into the urban context following its main axes and heights, keeping

a glimpse of the surrounding landscape. The structure develops through four floors above ground, the last three of which rest on the “glazed” ground floor creating the illusion of a “floating monolith”, and from a basement. A “monolith” characterized by a perforated metal coating that makes the building a landscape. “A landscape that reflects green, a landscape shimmering like water, a landscape flickering like clouds.” The basement floor is characterized externally by the “memorial for the fallen of the 1908 earthquake”, which can be reached via a long ramp, which leads directly to the museum entrance.

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The double layer of perforated metal panels would accomplish numerous objectives. It would reflect the clouds, daylight, and water during the day and strategically placed LED lights at night. The faรงade would diffuse the daylight, allowing in enough to illuminate the interior, but keeping out direct light that could prove to be harmful to the art. Finally, the panels would make the building unique without upstaging its collections and visiting exhibitions.

Render

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Facade detail

MUSEUM

EARTHQUAKE MEMORIAL

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#MEMORIAL FOR THE FALL OF THE “1908 EARTHQUAKE”

The memorial is intended to symbolize the drama experienced by the city. A physical and emotional void, passable through a ramp that leads to a lower altitude, symbolic of the old city, and then goes back to the modern city. Where, through the MuTeMe, wants to keep alive the memory of the events that have marked the territory. alignment

emptying

connection with MuTeMe

1. 2. 3. 4.

Entrance “Earthquake” Memorial Outdoor exposure Parking lots

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Axonometric view Memorial diagrams & Main elevation MuTeMe

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alignment with the existing S

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emptying

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“monolith” addition

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1. Temporary exhibition 2. Library Book shop 3. Bar 4. Restaurant 5. Offices 6. Storage room Warehouse 7. “Earthquake” Memorial 8. Outdoor exposure 9. Entrance Hall 10. Models exhibition 11. Parking lots

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The museum access is located in the basement where the hall is characterized by a full-height space overlooked by the paths of the promenade architecturale. Small internal courtyards characterize the museum walk and contribute to its natural lighting as well as providing it with a space for rest and reflection on the themes of the exhibitions.

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First Floor Plan & MuTeMe Diagrams Cross Section MuTeMe

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BUILDING SCALE

GRID HOUSE

Architectural and Functional reconfiguration of a building confiscated from Organized Crime LIMBADI, ITALY #Architectural Design 1

Prof: Arch. Ottavio Amaro Time: February 2016 - June 2016 Level: Third year, Individual work Skill set: Rhinoceros, Vray, Archicad, Autocad, Photochop, Model-Making, 3d Print

The project involved the functional requalification and reconfiguration of a building confiscated from organized crime located in the municipality of Limbadi, in Vibo Valentia. A building left over the years in an embryonic state, present only the framed structure in reinforced concrete.

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The GRID House design was based on this structure with the creation of two volumes which, dematerialized by a wooden structure, take on the weight of a simple and regular 3D shape designed to experiment with the expressive power of the facade and the 2D towards the surroundings. The context area is characterized by sparse buildings, left with only the structure, which recall the facade.

The framed structure of the “GRID House� has a rectangular plan on 4 levels around which there is the parametric decorative system formed by wooden elements that manage to develop regular prismatics, obtained by interlocking joint. Like a virus that literally engulfs the architectural work, the decoration comes out and departs from it to emerge with overwhelming poetry outside and inside, the modules of the size of a square meter on which the management of all living space is based.

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The design of this structure is inspired by the striking structural solution of the GC Prostho Museum Research Center designed by Kengo Kuma & Associates. It consisted of taking up the challenge of creating a medium-scale wooden structure built by combining wooden elements based on a traditional wooden toy from the region of Hida Takayama in Japan, the Chidori.

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Common space, ground floor

GRID HOUSE

PARK

The main facade of the building is involved in an important transformation and is governed by the grid modules; dense vertical vegetation is grafted onto it, obtained by inserting green-boxes that perform a dual function: they give the building a particular sensitivity to the natural world and allow residents to be able to dedicate themselves to small indoor cultivations.

Interlocking grid system from PC Prostho Museum, designed by Kengo KUMA & Associates

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Common space, ground floor

Grid House Diagrams & Axonometric view Main elevation Grid House

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existent buildung duplication 4 4

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+6,00m

cut

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addition 2

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Based on the analysis of the urban context, an oblique distribution walkway connects the buildings, creating simplex and duplex of limited size, thus creating, in the two buildings, 8 residential units and 4 commercial spaces. The module-grid is transformed into a living staircase by returning to the apartments and forming an integral part of the furniture itself. The roof is destined to become a social space consisting partly of a garden roof and partly of aggregation spaces for residents.

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Common space Living room Kitchen Bedroom Bathroom Study room Commercial space

Ground System a. Ground b. Wood ground container c. Wood grid

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Second Floor Plan Cross Section Grid House

EXTRA: GRAPHIC DESIGN

Tel: +39 3275777984 E-mail: lico.gianluca94@gmail.com Ig: gianluca.lico

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Graphic Report

20° Annivesary of Belvedere SpA

https://issuu.com/pmopenlab/docs/report_belvedere_def_-_pagine_separ

availableonissuu