TORINO, ITALIA
CGSM, COLOMBIA
FACATATIVÁ, COLOMBIA
MADRID, ESPAÑA
BARCELONA, ESPAÑA
SELECTION OF PROJECTS
Ex-Scalo Vanchiglia
Tecno-Fenotipo Biotransmutable M.I.T.A
Parque del Sol
La Perla Verde
Contexto Urbano
.19
.21
.23
TORINO, ITALIA
CGSM, COLOMBIA
FACATATIVÁ, COLOMBIA
MADRID, ESPAÑA
BARCELONA, ESPAÑA
SELECTION OF PROJECTS
Ex-Scalo Vanchiglia
Tecno-Fenotipo Biotransmutable M.I.T.A
Parque del Sol
La Perla Verde
Contexto Urbano
.19
.21
.23
URBAN CENTER PROJECT
LOCALIZATION: Torino, Piedemonte (ITALIA)
PROFESSOR: Juan Jacobo MolinaFernando Rubio
The economic cycles that led to the closure of the Scalo Vanchiglia station generated a process of economic obsolescence that manifested itself in industrial relocation. This relocation process, still in force, has led small companies to colonize spaces abandoned by large industries that entered into crisis. As a result of the above, new services have emerged that have diversified the productive sector but architectural and urban values have been lost. With this, a partial urban renewal plan is proposed that manages to reintegrate the town of Vanchiglia into a new industrial context.
HOW HAS THE TERRITORY BEEN CHANGED BY THE IMPLEMENTATION OF PRODUCTIVE SPACES IN THE TOWN OF VANCHIGLIA AND HOW HAS THIS INFLUENCED THE TRANSFORMATIONS OF THE ACTIVITIES OF THE SECTOR, AND THE RELATIONSHIP OF THESE WITH THE POPULATION?
MASTER PLAN
Different environmental strategies proposed are evident in order to compose a more permeable territory that has a rising character in Biodiversity. The aim is to encourage the integration of the urban with the already established environmental component and the future in order to achieve the creation of different sustainable spaces which propose milestones of social integration. Furthermore, the integration with the conditioning of the environmental component that starts from the hill of Turin (South of the study area) is reinforced and begins to provide a greater connection with the rest of the city's territory, thus achieving a decrease in segregation by what the sector is going through today.
It is prospected as a porous territory which allows the different sectors to be integrated and whose activities and productions manage to have a relationship with external agents, it is sought that through the reduction of endogenous barriers in the sector it will be possible to initiate a network of complementary services and productions that manage to integrate and articulate with the rest of the city.
In the study area there is a transformation of uses, but not of its morphology, where new types of intangible production and services derived from the industry are integrated, benefiting it. This integration causes the development of new technologies and fosters a character of integrity in the industrial sector.
The transformation of the space was generated from the migration in the Vanchiglia sector. This caused the occupation of empty places that were previously dedicated to industrial production and later transformed into temporary housing and artisanal production; such as the Ex Scalo Vanchiglia, the industrial zone via Amedeo Ravina and the Barriera di Milano, giving the possibility of cultural development.
WHAT
The role of the Cemetery device is to propose new axes of mobility and flow that manage to integrate into a network of urban layout on a Metropolitan scale, the composition of a Boulevard is intended which functions as an articulator between public space and spaces of permanence, in addition the proposal for the projection of a new cycle route. It is proposed that the public space be integrated into vegetative renaturation spaces in order to promote the Biodiversity of the sector.
Generate new milestones and urban activities that propose social transition nuclei which aim to integrate the community of the sector and provide spaces for inclusion.
The reactivation of the Ex Scalo Vanchiglia will be carried out through the creation of an energy park where an articulation with the main ecological structure is achieved, by taking advantage of the Po River variant to obtain hydroelectric energy and where at the same time biodiversity is enhanced. of the place taking advantage of the existing connection with the Della Colleta park.
The main role of the innovation cluster device is to energize a sector that is “dead” due to the development that has been given to the habitability of public space and commercial development. For this reason, an innovation cluster is proposed that has the arrival of new technology companies, and with positive effects such as; This new type of production takes up less space than other types of industry, giving way to the development of collective spaces and in turn the habitability of public space. When these components begin to be developed, streets that were disused and abandoned are also reactivated, giving way to the prioritization of pedestrians and cycle paths.
Multifunctional buildings that allow various productive, commercial, social activities to be carried out and even the provision of services, which provides a collective meeting space.
- Prioritize pedestrian and bicycle circulation.
-Establish new road and block axes in order to generate internal pedestrian networks and external vehicular circulation.
-Create new metropolitan connections using the current surrounding tram lines.
-Recycle free spaces from the old industry.
DIGITAL LANDSCAPE PROJECT
LOCALIZATION: Cienaga Grande, Santa Marta
PROFESSOR: Cesar Ramírez
The project arises from rethinking architecture and understanding it as the possibility of composing a living being in the future. Four projects were conceptualized, “architectural organisms” which were implemented in the CGSM. The function of the Techno-Phenotype is to absorb carbon molecules and phenotypes from the environment for a subsequent decomposition and regrouping of these into new compounds and genetically modified beings that are integrated into the swamp, this in order to create new ways of habitability for all species, thus achieving an ecocentric approach to spatial experience. The scales of the project start from the micro to the planetary.
The sequence in which carbon and proteins are transmitted into its interior and subsequently integrated into collective software as it descends into the species as liquid data is distinguished. The species works from the top down, with level 3 being the input of information and level 1 being the reintegration of this into the environment.
Over the years the species generates changes in its environment, it absorbs information and reinserts it after modifying it genetically/molecularly so that over the years the swamp is transformed morphologically.
SCALE 1:157
ECHOGRAPHIC LEVEL
LEVEL 2
SCALE 1:157
PLANTA ECHOGRÁFICA
NIVEL 1
ESCALA 1:157
The species has two key moments of life, integrated into the swamp, absorbing data to later move by identifying, through collective software, places with natural decay in which it reintegrates the absorbed nutrients.
HABITABILITY SIMULATION
LEVEL3
Through the quantum tunnel, the data obtained from the environment was retransmitted through a gallery composed of a nanostructure of silica crystals that function as databases that integrate the data with modified molecules to create new compounds.
From the combination between organic and inorganic layers, the retransmission of the absorbed materials is carried out and transforms them into quantum data that reaches a layer of silica crystals that store the information.
The aorta-type portal allows the entry of the different molecular compounds absorbed by the species. This portal is composed of a material similar to cardiac tissue in order to emulate the electrical impulses that generate its opening through the reaction of the compounds.
From a micro scale, a genetic transmutation begins to be generated where a change in the structure of the DNA is evident, causing the transcription of data to enter a period of increase, thus creating artificial morphologies on the meso scale in order to compose software. biomolecular compatible between species, thus achieving a polymorphism of beings that make up the same natural space.
LOCALIZATION: Facatátiva, Cundinamarca
PROFESSOR: Manuel Moreno, Eduardo Baquero
A facility is proposed in the city of Facatátiva that manages to integrate with a global context, creating spaces that seek to provide society with a set of democratic services and provisions for public use. A place that combines technology with academics in everyday life. This in order to connect Facatativá to an entrepreneurial industry and give its inhabitants the necessary tools to be part of a global network rooted in agriculture and its optimization through technology.
The Metacenter is made up of three polyhedra (Cultural, Agrotech, and Innovation). They are spaces for the experimentation and application of new technologies focused on eco-productivity in order to generate new goods and services rooted in digital and tangible products, data optimization and the application of new ways of working in the field. It is proposed as a space for social initiatives that start from agricultural technology and unite different types of users to create a space that distributes knowledge and connects the population of Facatativá to an information context on a global scale.
The concept arises from the intention to replicate the formal conditions that occur around the tunjo stones and their implementation in the northern area of the city. Through the geometrization of the stones, the tubular structure that supports the polyhedra is obtained. The roof elevations are generated taking into account the mountains that surround Facatativá, in order to emulate stones that are embedded in an artificial mountain composed of a spatial mesh and arboriform columns.
A multifunctional/multi-scalar equipment is proposed in which new methods of agricultural and livestock practices are implemented and disseminated. New technologies can be a means to generate a network that integrates and enhances economic and industrial relations rooted in concepts of modernization and learning.
STRUCTURAL
ARCHITECTURAL PLAN S2
STRUCTURAL PLAN S2
PEI INTERNATIONAL
LOCALIZATION: Madrid, Spain
Given the conditions of a public space which was not optimized and did not invite use, the aim was to create a device which could change its use with the passing of the time of day and the weather. A transitional space where during the day it will function as a children's park for recreational and educational purposes. In the afternoon it functions as an exhibition and marketing area, at night it transforms into a recreational recreation device, and its program can also be changed and combined as necessary. A device which generates intangible products from its daily use, the space generates mechanical energy which feeds its charging sources and provides electricity to the lighting of the public space.
IMPLANTATION
Render Children's and recreational recreation space
The space is annexed to the terraces of the already existing determinants in order to weave a public space which manages to connect all the actors in the sector. A space for the appropriation of citizenship and the joint creation of community.
Interactive Screens: Automated that project activities which help the cognitive development of children. Besides, in the afternoons, artistic
Interactive Touch Screens: Screens that allow learning through fine motor skills, you can draw on them with your hands, different games and activities influenced by the pressure exerted.
Sound Systems: Incorporation of tools for instrument amplification so that people can connect to the device through their instruments.
The operation of these bicycles occurs through a chain that connects the block of the bicycle with the motor of the first dynamo, this transmits the impulse through diodes to the battery where the kinetic energy is stored and can be distributed thanks to the Last element, an inverter which will be responsible for distributing the energy to the interactive screens
DEVICE SIDE VIEWPEI INTERNATIONAL
LOCALIZATION: Barcelona, Spain
ARQUITECTOS DE CABECERA & MACBA
In conjunction with the MACBAmuseumand ArquitectosdeCabecera, a device was devised which is a pirate ship that navigates the streets of the Raval neighborhood in search of hidden treasures housed by its inhabitants. The crew is led by children, who, through play and fun, will learn the importance of taking care of their community's garden collectively. Caring for nature is the means of learning and through this furniture we seek to strengthen the ties between the community through play.
Cultivation and Sowing
Relationbetweentheuserand nature
ASSEMBLY STEPS
Playing and fun
Recreation spaces for children
Transmit knowledge and encourage imagination
The aim was to create furniture that could be transported through the streets of Raval, Barcelona. His purpose was to store different species of plants in order to generate an object which promoted learning through play and the teaching of nature, promoting the imagination.
ELEVATION
La Perla Verde functioned as a prototype to continue the integration processes between the ElRavalneighborhoodand the MACBAmuseum.
UNIVERSITY INTERNSHIP
LOCALIZATION: Bogotá, Colombia
CONTEXTO URBANO S.A
During my professional internship at Contexto Urbano S.A., a prominent company in the architectural services sector of Bogotá, I had the opportunity to become deeply involved in the creation and development of the Primera Este Building. This experience allowed me to be in charge of the details and construction planimetry, working meticulously on the conception and execution of the plans. My contribution to the project reflects the company's commitment to innovation and quality, characteristics that Contexto Urbano S.A. has maintained since its founding in 1989 and which are reflected in its growing team of professionals and in the emblematic projects that it has led in the Colombian capital.
CONSTRUCTOR: I.C
DESIGN CONTEXTO URBANO S.A
This is a residential building located on Calle 60 with Carrera 3 in the sector of Chapinero in Bogotá. Its design, winner of an IC Constructora competition, stands out for its innovation and the way it integrates with its context of the hills.
In preparing the planimetry of Primera Este, it can be seen that the building has 9 types of standard floors that are distributed over 27 floors. Given this, almost all the plants had to be delimited individually because each floor had variations. This arrangement allows for variability in heights and areas that generates dynamic spaces and an interesting formal staggering that translates into a striking and attractive façade. In addition, the play of heights generates spaces such as a basketball court or an outdoor BBQ.
One of the most notable construction qualities of Primera Este is its focus on energy efficiency and the use of sustainable materials, which makes it an eco-friendly building. In addition, it has EDGE certification, which recognizes its efficiency in the use of energy, water and construction materials.
For Primera Este, different types of kitchens have been designed to offer variety and adaptability to the needs of the building's future inhabitants. In general, three main types have been considered: L-shaped kitchens, Cshaped kitchens and bar kitchens.
The advantage of using parametric families in kitchen modeling lies in the possibility of establishing different parameters that allow modifying its dimensions,such as the length of the dishwasher or countertop, in addition to the widths of the furniture. The position and orientation of the elements that make up the kitchen can also be adjusted.
The kitchen models were integrated into the general model to subsequently generate all their construction documentation following the design guidelines stipulated by CHALLENGER. The bar kitchens in some cases have also parametric islands which may or may not have a lowered table that works. as auxiliary dining room. The design of these kitchens is not only for Primera Este but will also function as part of the catalog of parametric families of Contexto Urbano, this so that they can be replicated and applied in all housing projects that need these types of kitchen with adjustable parameters.
I had the opportunity to actively participate in the creation of details for the Primera Este project, using the BIM modeling software Revit. In this building, multiple challenges were presented due to the diversity of window types and variations in the facades as the height of the building increased, still they were confronted and solved.
I worked on various location plans in the Primera Este project. In this case, the location of the bathrooms on one of the floors of the building is presented, having generated similar plans for all floors with different levels of detail. Unlike doors and windows, which are already finished, bathrooms are in an advanced stage of design.
Additionally, I worked on the wall details of the Félicia project, a Social Interest Housing project located in Tocancipá. My job consisted of correcting the colors of the wall plans, detailing the spaces where masonry was used and, based on this, organizing the best arrangement for the bricks.
Each window was carefully documented, as they were mostly not identical. Some of the differences included the presence or absence of balconies, the dimensions of the windows, and whether they were sliding or swinging. In addition, the integration of the doors into the overall design, as well as their functionality and aesthetics, was taken into account.
Architechtures is an artificial intelligence designed to optimize architectural design processes up to level of development (LOD) 350. This tool allows you to accelerate the design process significantly, generating detailed and accurate models in a much shorter period of time compared to conventional methods. Architechtures is an artificial intelligence designed to optimize architectural design processes up to level of development (LOD) 350. This tool allows you to accelerate the design process significantly, generating detailed and accurate models in a much shorter period of time compared to conventional methods.
However, it should be noted that in practice, Architechtures has shown difficulties in complying with construction standards. Although capable of producing technically advanced designs, it has demonstrated limitations in adapting to the specific requirements and complexity of building regulations.
Made a variation in the design of the kitchens at the request of the client. This modification was not only an exercise in adapting to change, but also an opportunity to explore different forms of architectural design. The kitchen had to follow a C typology and also had to be parametric.
I had the opportunity to design a space for Nexus Inmobiliario located on Calle 93 con Carrera 15, a project that was enriching for starting from scratch. The regulations were strict: since it was not a Social Interest Housing (VIS), the building had a limit of 9 floors. A commercial space was also required on the ground floor and only one basement level. Despite these restrictions, the final design incorporated 8 apartments per floor, for a total of 72 residential units. Every decision, from conceptualization to finalization of plans, involved careful consideration of requirements, regulations and the needs of future occupants.