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Marina Polets, M.Arch
selected works 2011-2014
architecture + urban planningPORTFOLIO
* workshop in Como 2013
“Architecture is basically a container of something. I hope they will enjoy not so much the teacup, but the tea”
Yoshio Taniguchi
01|02
07
0913
17192327
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49
Curriculum vitae
Bachelor thesis | New town square in Canzo | Italy
Master thesis | School of tomorrow | Turkey
Information point | Russia
Box it through Varzo | Stockalperweg | Italy | group project
The Green Island on Vistula River | Cracow | Poland | group project
Rising Tides | Waterline | Vancouver | Canada | group project
Domodossola residential city edge facing nature | Italy
Archaeological pavilion | Wislica | Poland
Environmental architecture | Ice rink | Zakopane | Poland
eVolo skyscraper | United States | group project
Memorial | Warsaw | Poland | group project
Amateur photography | or how I see the world |
table of CONTENTS
diploma projects
international workshops projects
projects during the University studies
competitions
03|04
“Simplicity is the ultimate sophistication”
Leonardo da Vinci
05|06
MARINA POLETS [email protected] Milan: +393473949101 Address: 20141 | Via Francesco Brioschi 50/5 | Milan | Italy Born in Astana | Kazakhstan Polish nationality 13.06.1990
04.2014 – 09.2014 Organization activity for the international workshop and conference ECOWEEK London 2014
07.2013 - 10.2013 Junior architect at ADM Studio Milano
01.2012 - 01.2013 Teacher at Children center „Crazy mazy”
08.2012 - 09.2012 Junior architect at Architectural studio TOO “Akmol – Project”
07.2011 – 08.2011 Promoter at marketing campaigns 06.2010 - 09.2010 Secretary at Embassy of Poland in Kazakhstan
2013 – 2014 The Tadeusz Kosciuszko Cracow University of Technology Master of Architecture (M.Arch.) | Architecture in English Workshop and internships:
05.2014 Cracow Poland | International Design Workshop | Rising tides - working with the waterline. Case study: Vancouver
11.2013 Cracow Poland | Cracow Zakrzówek – Inner City Edge
10.2013 Cracow Poland | ECOWEEK | Design. Innovation. Experiment. Lifestyle | An International Seven-Day Think-Tank
07-10.2013 Milan Italy | ADM Studio Milano | Erasmus internship
Nation and international competition:
03.2014 ISOVER Multi-Comfort House Competition | School of tomorrow – Gaziantep | Gaziantep city | Turkey 02.2014 Concept for the monument to Polish who saved Jews during the Second World War | Warsaw | Poland 01.2014 eVolo 2014 Skyscraper competition | United States
Curriculum Vitae
Work experience
Education background
2009 – 2013 The Tadeusz Kosciuszko Cracow University of Technology Bachelor of Architecture (B.Arch.) | Architecture and urban planning
Workshop and internships:
08.2012 Ukraine | inventory of local houses | plain-air 04-05.2012 Italy | International Design Workshop in landscape and environmental Design | projects and solutions for the re habilitation of the Varzo Simplon Stockalperweg and for the civil reuse of some military fortifications | improving the local touristic economy
10.2011 Moscow Russia | projecting Information point building in natural reserve
2008 – 2009 International Centre of Education of Cracow University of Technology
| study of Polish language for foreigners | Graduated with honors
2004 – 2008 Art School in Astana | Kazakhstan | Graduated with honors
1997 – 2008 High School | Astana | Kazakhstan | Graduated with honors
IT
Skills & Expertise
Languages
Interests
AutoCAD | Revit | SketchUp | Rhino + Grass | 3D StudioMax
| Artlantis Studio | Adobe Photoshop | Adobe Illustrator |
Adobe InDesign | Adobe Premiere Pro | Microsoft Office |
Hand Drafting and Modeling | Digital fabrication | Laser Cutting
Native language
Bilingual proficiency
Speak fluently and read / write with high proficiency
Intermediate level
Basic knowledge
Russian
Polish
English
Italian
Kazakh
Travelling | language learning | painting in oil | classical literature |
abstract art | tennis | aerobic | acroyoga | cycling | active life style
* references upon request07|08
CANZO| BACHELOR THESISNEW TOWN SQUARE | ITALY
The main task of diploma project was design new master plan for little town in Italy - Canzo with San Giovanni XXIII square, where would appear several new objects and functions, like: hotel, restau-rants, hostel and conference halls. Also behind the sport area was designed new recreation zone with public activities. On the new amphitheater, which use natural slope and difference with ground level, would be organized concerts, festivals, meeting of local people and tourists, sport games. San Giovanni XXIII square is located near to the train station and the main square in Canzo. This area has extremely profitable localization for new functions. This square have to become the new recreation center not only for local citizens, but also for tourists and people who just pass through the city. The two new buildings on town square have different functions; they are for different class of society. Family with children, stu-dents, pupils from school, young couples, old people, disable as well would feel there comfortable and safe. Everyone can use roofing system of both object. Bars, cafes, cocktail-bar and snack bars on every floors and green terraces on the roof could attract during the day, as at evening and night. Problem with huge parking for cars and buses solved into the project by the proposal of underground parking, with 106 parking spaces, for guests.
09|10
CANZO| BACHELOR THESISNEW TOWN SQUARE | ITALY
11|12
GAZIANTEP | MASTER THESISSCHOOL OF TOMORROW | TURKEY The subject of the project is designing a primary school with surrounding area located in the city Gaziantep in Turkey. The idea was to create a building’s unique in its form and expression that will give the individuality to the place. Such a character of the building is its continuation in the proposed land use adjacent land, together forming a coherent aesthetically assumption. Tetris and Lego pieces, which children use for playing, inspires the shape of school. Simple architecture form makes unique connection with the natural lines of slope and paths of the garden near the school. The shape of school is engraved into the natural slope of terrain. The sport hall is divided from the school building in order to create an amphitheater between the two buildings. Such designing solu-tion creates a safe space for children to play. It’s been designed a school that combined classical school elements with modern learning facilities taking into account the existing realities for the new ECO Project developed by the Municipality of Gaziantep, Turkey. The school is dedicated to children between the ages of 6 to 10 and will accommodate 500 pupils.
Active 5 elevation solar collectors -> (warming and hot water for school)
Active 5 elevationPhotovoltaic panels -> (providing electricity for the school, and extra energy is transmited into the central electric plant)The glass roof
with the system ofblinds on the skylight allows to control amount of sunlight
Green terracedroof is available for the pupils.
movable woodblinds on facadesallow to control theamount of sunlight
The veil from the busyroad in the form of therow of wooden structurefor hanging greenery.
The underground connection between the school and a gym.
Ideological assumptions of the project
The use of sloping ground. The construction is partly dug down the ground, which reduces the energy loss
On the roof, and the southern part of walls are located solar collec-tors (active 5 elevation)
Relation of building and surroundings
The last level of the roof is available for children
Viewing veil of a busy street and The sound absorption by greenery
The shape of the school
The combination of different levels-> the main integration points andaccumulation of children's activity ->staircases as the open amphitheatre
The central part of the assumptiondesigned for playing and learningactivity of the children. The colors, the diversity of the levels, ramps, greenery, recess on the walls designedwith thinking about education of the future generations.
Part of the school is functioningalso during the weekends-> the Cinema, Music school,Art school, conference rooms.
Part of the school is functioningin classic mode, is available for pupils with common class rooms.
The idea of the open school
Diagram of the availability and functioning of the sun shades on the roof
Active 5 elevation solar collectors -> (warming and hot water for school)
Active 5 elevationPhotovoltaic panels -> (providing electricity for the school, and extra energy is transmited into the central electric plant)The glass roof
with the system ofblinds on the skylight allows to control amount of sunlight
Green terracedroof is available for the pupils.
movable woodblinds on facadesallow to control theamount of sunlight
The veil from the busyroad in the form of therow of wooden structurefor hanging greenery.
The underground connection between the school and a gym.
Ideological assumptions of the project
The use of sloping ground. The construction is partly dug down the ground, which reduces the energy loss
On the roof, and the southern part of walls are located solar collec-tors (active 5 elevation)
Relation of building and surroundings
The last level of the roof is available for children
Viewing veil of a busy street and The sound absorption by greenery
The shape of the school
The combination of different levels-> the main integration points andaccumulation of children's activity ->staircases as the open amphitheatre
The central part of the assumptiondesigned for playing and learningactivity of the children. The colors, the diversity of the levels, ramps, greenery, recess on the walls designedwith thinking about education of the future generations.
Part of the school is functioningalso during the weekends-> the Cinema, Music school,Art school, conference rooms.
Part of the school is functioningin classic mode, is available for pupils with common class rooms.
The idea of the open school
Diagram of the availability and functioning of the sun shades on the roof
13|14
Active 5 elevation solar collectors -> (warming and hot water for school)
Active 5 elevationPhotovoltaic panels -> (providing electricity for the school, and extra energy is transmited into the central electric plant)The glass roof
with the system ofblinds on the skylight allows to control amount of sunlight
Green terracedroof is available for the pupils.
movable woodblinds on facadesallow to control theamount of sunlight
The veil from the busyroad in the form of therow of wooden structurefor hanging greenery.
The underground connection between the school and a gym.
Ideological assumptions of the project
The use of sloping ground. The construction is partly dug down the ground, which reduces the energy loss
On the roof, and the southern part of walls are located solar collec-tors (active 5 elevation)
Relation of building and surroundings
The last level of the roof is available for children
Viewing veil of a busy street and The sound absorption by greenery
The shape of the school
The combination of different levels-> the main integration points andaccumulation of children's activity ->staircases as the open amphitheatre
The central part of the assumptiondesigned for playing and learningactivity of the children. The colors, the diversity of the levels, ramps, greenery, recess on the walls designedwith thinking about education of the future generations.
Part of the school is functioningalso during the weekends-> the Cinema, Music school,Art school, conference rooms.
Part of the school is functioningin classic mode, is available for pupils with common class rooms.
The idea of the open school
Diagram of the availability and functioning of the sun shades on the roof
GAZIANTEP | MASTER THESISSCHOOL OF TOMORROW | TURKEY
PLUSES OF ENERGY-EFFICIENT CONSTRUCTION
Reduction of expenses for operation
Comfortable temperature
Minimum electric power consumption
multi-ComfortHouse
ENERGY-EFFICIENT HOUSE
Hea
lth m
icro
clim
ate
Security
Dura
bili
ty
Envi
ronm
enta
l friend
liness
Aco
ust
ic c
om
fort
aqueduct
REDUCTION OF WATER DEMAND
drinking water personal hygiene
food preparation dishwasher
cleaningwashing machine
irrigation
toilets
rainwater
non-drinkablewater
filtration and storage tank
Sustainable strategies in constructionNatural ventilation
Fully daylight interiors with lighting controls
High performance glazing
Sun shades
Deep overhangs for shading
Trees for shading
Exterior circulationless conditioned space
On-site cistern for strormwatergrey water retention and coolwater storage
sustainable glued laminated timber
bioswale
stream restoration
reuse of materials
photovoltaics
green roof
01
01
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03
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Social sustainability
The meaning of colors in children’s perception in school
Space for childrenand teachers
Activity / playing
Education /knowledge
Healthy microclimate
Daylightaccess
Perception ofcolors
Meeting / talking / gathering
PLUSES OF ENERGY-EFFICIENT CONSTRUCTION
Reduction of expenses for operation
Comfortable temperature
Minimum electric power consumption
multi-ComfortHouse
ENERGY-EFFICIENT HOUSE
Hea
lth m
icro
clim
ate
Security
Dura
bili
ty
Envi
ronm
enta
l friend
liness
Aco
ust
ic c
om
fort
aqueduct
REDUCTION OF WATER DEMAND
drinking water personal hygiene
food preparation dishwasher
cleaningwashing machine
irrigation
toilets
rainwater
non-drinkablewater
filtration and storage tank
Sustainable strategies in constructionNatural ventilation
Fully daylight interiors with lighting controls
High performance glazing
Sun shades
Deep overhangs for shading
Trees for shading
Exterior circulationless conditioned space
On-site cistern for strormwatergrey water retention and coolwater storage
sustainable glued laminated timber
bioswale
stream restoration
reuse of materials
photovoltaics
green roof
01
01
02
02
03
03
04
04
04
05
05
05
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14
Social sustainability
The meaning of colors in children’s perception in school
Space for childrenand teachers
Activity / playing
Education /knowledge
Healthy microclimate
Daylightaccess
Perception ofcolors
Meeting / talking / gathering
PLUSES OF ENERGY-EFFICIENT CONSTRUCTION
Reduction of expenses for operation
Comfortable temperature
Minimum electric power consumption
multi-ComfortHouse
ENERGY-EFFICIENT HOUSE
Hea
lth m
icro
clim
ate
Security
Dura
bili
ty
Envi
ronm
enta
l friend
liness
Aco
ust
ic c
om
fort
aqueduct
REDUCTION OF WATER DEMAND
drinking water personal hygiene
food preparation dishwasher
cleaningwashing machine
irrigation
toilets
rainwater
non-drinkablewater
filtration and storage tank
Sustainable strategies in constructionNatural ventilation
Fully daylight interiors with lighting controls
High performance glazing
Sun shades
Deep overhangs for shading
Trees for shading
Exterior circulationless conditioned space
On-site cistern for strormwatergrey water retention and coolwater storage
sustainable glued laminated timber
bioswale
stream restoration
reuse of materials
photovoltaics
green roof
01
01
02
02
03
03
04
04
04
05
05
05
06
07
08
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14
14
Social sustainability
The meaning of colors in children’s perception in school
Space for childrenand teachers
Activity / playing
Education /knowledge
Healthy microclimate
Daylightaccess
Perception ofcolors
Meeting / talking / gathering
PLUSES OF ENERGY-EFFICIENT CONSTRUCTION
Reduction of expenses for operation
Comfortable temperature
Minimum electric power consumption
multi-ComfortHouse
ENERGY-EFFICIENT HOUSE
Hea
lth m
icro
clim
ate
Security
Dura
bili
ty
Envi
ronm
enta
l friend
liness
Aco
ust
ic c
om
fort
aqueduct
REDUCTION OF WATER DEMAND
drinking water personal hygiene
food preparation dishwasher
cleaningwashing machine
irrigation
toilets
rainwater
non-drinkablewater
filtration and storage tank
Sustainable strategies in constructionNatural ventilation
Fully daylight interiors with lighting controls
High performance glazing
Sun shades
Deep overhangs for shading
Trees for shading
Exterior circulationless conditioned space
On-site cistern for strormwatergrey water retention and coolwater storage
sustainable glued laminated timber
bioswale
stream restoration
reuse of materials
photovoltaics
green roof
01
01
02
02
03
03
04
04
04
05
05
05
06
07
08
08
09
09
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Social sustainability
The meaning of colors in children’s perception in school
Space for childrenand teachers
Activity / playing
Education /knowledge
Healthy microclimate
Daylightaccess
Perception ofcolors
Meeting / talking / gathering
15|16
NATIONAL PARK | WORKSHOPINFORMATION POINT | RUSSIA
Project location is in the National park in the North region of Russian Federation. This park is 800 km far from Moscow almost the same from St. Petersburg. Natural untouched for-est, clean air, transparent water within lakes, rivers and streams attract tourists and hunters to spend here couple of weeks during summer and winter as well. Information point’s task is to be place for rest, to get new information about nature and to save tourists from snow and rain on their journey among the touristic pedestrian path or boat trip. From this information point exist connection to the island, which is located in the middle of the river, by wooden bridge. The main idea for this object is a labyrinth, which is made by little difference between square wooden plat-forms, creating floor of structure. From one of the platforms we can get to the bridge, another platform is a kind of outdoor terrace on the riverfront. Entrance to the object is from two sides. Construction system for project is very simple and made in the traditional way of North region of Russian Federation.
003003
00330
030
0
250
200
300
003003
300 300 300
250
200
300300300300
003003
003003
300
East elevation scale 1:100
Plan scale 1:100
Nort
h e
leva
tion
scale
1:1
00
West elevation scale 1:100
17|18
VARZO / STOCKALPERWEG | WORKSHOPBOX IT THROUGH VARZO | ITALY
19|20
VARZO / STOCKALPERWEG | WORKSHOP
VARZO / STOCKALPERWEG | WORKSHOPBOX IT THROUGH VARZO | ITALY
21|22
VARZO / STOCKALPERWEG | WORKSHOP
CRACOW / VISTULA RIVER | WORKSHOPTHE GREEN ISLAND | POLAND
The green island on Vistula River is the conceptual project for the city of Cracow in Poland. Bad ecological situation in the region make necessary to solve several problems of the river. The green island has recreational, cleansing, bubbling, regenerational and cultural functions. The location of the project suggests also to make scene for concerts and events during the summer and winter. Recreational activities, like cafe, green amphitheater and ice rink during the winter, including special educational activities by regenerational aquariums with fishes make the island open for everyone from children to old people. The green island produce energy by the water stream power and also make water more livable for fishes, animals, birds, insects and plants of the Vistula River. Mother Island with the dots island make the whole object functional, helpful for the nature, useful for people and effective for the city of Cracow.
23|24
CRACOW / VISTULA RIVER | WORKSHOPTHE GREEN ISLAND | POLAND
25|26
WORKING WITH THE WATERLINE | WORKSHOPRISING TIDES | VANCOUVER | CANADA
Superhydrophobia.city. Was decided to develop an architectural construct that is resilient to the threats of rising tides. Their proposition is two fold – firstly there is a series of bio-domes that replaces the ‘lost lagoon’ and keeps growing as the sea levels rise if the human race is unable to eliminate the drastic effects of global warming. These bio-domes begin as R+D laboratories and ‘awareness centres’ for Vancouverites who slowly and inevitably have to adapt to losing their recre-ational shoreline. As the situation worsens, the second phase of this proposal introduces floral-like structures that become ‘islands of desire’ which shall house new recreational amenities for Vancou-verites. This highly programmed plateaus also become ‘light wells’ for the underwater recreational bio-domes. This typology also creates a new topological terrain beneath the surface of the water that becomes an ‘aquatic-farm’ for breeding fish and aqua-sports.
Stanley Park
Lost Lagoon
0 m
Vancouver downtownEnglish Bay
Vancouver Harbour
Lost Lagoon
Stanley Park+2 m
Vancouver downtownEnglish Bay
Vancouver Harbour
Stanley Park+4 m
Vancouver downtownEnglish Bay
Vancouver Harbour
Stanley Park+6 m
Vancouver downtownEnglish Bay
Vancouver Harbour
27|28
RESIDENTIAL CITY EDGE FACING NATUREDOMODOSSOLA | PIEMONTE | ITALY
29|30
RESIDENTIAL CITY EDGE FACING NATUREDOMODOSSOLA | PIEMONTE | ITALY
Project area is located in the North part of Italy, in the small city called Domodossola. The proj-ect site is located direct on the railway station on the other side of not used train rails. The main idea for urban concept was to use nature and greenery as dominant. How that was made in New York, proposition was to use partly old train rails and create big green park in this area. Abandoned railway stores and building can be used how new museum with new public functions and programs. Along this park there are pedestrian paths, where could spend time by children, as well old, disabled peo-ple and young and adult people. New district of multi-family housing is placed which functions how independent object in the same time also how connecting element with all city, new part, bridge and adapted industrial zone. This is completed with underground parking lot, ground parking spaces, restaurants, bars, small shops, little libraries, offices and studios on ground floor. What is unique in this project, that every building has access to the semipublic garden of about 500-600 sqm.
31|32
WISLICA | POLAND | UNIVERSITY PROJECTARCHAEOLOGICAL PAVILION The main idea for new archaeological pavilion is the division in 3 different levels the whole new investment. Each level is independent, but at the same time, everything is one object with different functions. Entrance designed from backyard, where appear little square for waiting and enjoying time with friends or groups of people. This makes effect of interior, continuation of the hall, of thepavil-ion, just to invite people inside to visit this monument. In the first part of new investment appear main hall, ticket office, information point for the tourists, cloakroom for visitors and bookshop with sou-venirs as well and place for sitting and waiting. After making tickets excursion starts with watching movie about Wislica, history of this place, Main Church and foundations of Saint Nicholas Church. The shape of cinema allows in comfortable position watch movie from every seat, from every height and in the same time this room using differentiation of levels and has opportunity directly to get to the underground level. On the underground level there is main exposition. From this part of pavilion, there is an access to the foundation of Gothic Minor Basilica of the Birth of the Blessed Virgin Mary, emergency exit, to the underground parking lot, and main part of investment - foundation of Saint Nicholas church. Openings in the roof (3 big skylight) make the foundation have illumination from the top. This effect allows the decrease losing of energy and to illuminate underground floor.
33|34
WISLICA | POLAND | UNIVERSITY PROJECTARCHAEOLOGICAL PAVILION
35|36
ICE RINK | ZAKOPANE | POLANDENVIRONMENTAL ARCHITECTURE
ICE RINK | ZAKOPANE | POLANDENVIRONMENTAL ARCHITECTURE
37|38
ICE RINK | ZAKOPANE | POLANDENVIRONMENTAL ARCHITECTURE
ICE RINK | ZAKOPANE | POLANDENVIRONMENTAL ARCHITECTURE
39|40
UNITED STATES | GROUP PROJECTeVOLO SKYSCRAPER COMPETITION
PROBLEM
SOLUTION
MODEL FOR HIGHT SKYLINE MODEL FOR LOW SKYLINE
CARBON POLLUTION GLOBAL SCHEME
LIVING PARTICLE SECTION
PARTICLE FILTER SECTION
GLOBAL CARBON EMISSION SCHEME
POLLUTION HAS BEEN WITH THE HUMANITY SINCEIDUTRAL REVOLU -TION. THROUGH YEARS AND THE MARCH OF THE CIVIL iSATION THE PROBLEM STARTER TO GROW WITH EVERY YEAR. NOWADAYS THE PROB -LEM IS EVEN MORE PAINFUL FOR AND THE EMISSION OF CO2 CAUSES MORE DAMAGES THAN EVER BEFORE.
PLUGED IN SCYSCRAPER CONSTANTLY CLEANING THE AIR IN METROPOLITAM AREAS
COMP
OSITI
ONFU
NCTIO
NING
URBAN VACUUM CLEANER URBAN VACUUM CLEANERMETRO LINE RAPID TRANSIT SYSTEM
URBAN VACUUM CLEANER URBAN VACUUM CLEANER
PLACE FOR: WATER,WASTE PRODUCTS,HEATING SYSTEMS,ENERGY COLLECTOR
PRIVATE ZONE: NIGHT/SPLEEPING ZONEHYGIENE ZONE
PUBLIC ZONE:DAY/ACTIVITY ZONEWORKING ZONEEATING/COOKING ZONELIVING ZONE
HELIUM GASto stabilize living unit position
The upper part of living unit function is to provide all structure in vertical position
PLUGGEDG E T
IN
FUTURE DE VELOPMENTOF THE STRUC TUR E
CLEAN AIR
FILTER
LIVING/WORKING
ZONE
CIT Y
ME TRO
175
0
190
0
180
0
195
0
2000
185
0
NOWA
DAYS
2024
2034
2044
THE FUTURE WITH ECO - SCYSCRAPER
PLAZMA FILTER
BIO FILTER
CATALYST
ELECTROSTATIC FILTER
ELECTRODE
CONDENSATION CHAMBER
WATER VAPOUR
OZON FILTER
CARBON FILTER
PREFILTER
PROBLEM
SOLUTION
MODEL FOR HIGHT SKYLINE MODEL FOR LOW SKYLINE
CARBON POLLUTION GLOBAL SCHEME
LIVING PARTICLE SECTION
PARTICLE FILTER SECTION
GLOBAL CARBON EMISSION SCHEME
POLLUTION HAS BEEN WITH THE HUMANITY SINCEIDUTRAL REVOLU -TION. THROUGH YEARS AND THE MARCH OF THE CIVIL iSATION THE PROBLEM STARTER TO GROW WITH EVERY YEAR. NOWADAYS THE PROB -LEM IS EVEN MORE PAINFUL FOR AND THE EMISSION OF CO2 CAUSES MORE DAMAGES THAN EVER BEFORE.
PLUGED IN SCYSCRAPER CONSTANTLY CLEANING THE AIR IN METROPOLITAM AREAS
COMP
OSITI
ONFU
NCTIO
NING
URBAN VACUUM CLEANER URBAN VACUUM CLEANERMETRO LINE RAPID TRANSIT SYSTEM
URBAN VACUUM CLEANER URBAN VACUUM CLEANER
PLACE FOR: WATER,WASTE PRODUCTS,HEATING SYSTEMS,ENERGY COLLECTOR
PRIVATE ZONE: NIGHT/SPLEEPING ZONEHYGIENE ZONE
PUBLIC ZONE:DAY/ACTIVITY ZONEWORKING ZONEEATING/COOKING ZONELIVING ZONE
HELIUM GASto stabilize living unit position
The upper part of living unit function is to provide all structure in vertical position
PLUGGEDG E T
IN
FUTURE DE VELOPMENTOF THE STRUC TUR E
CLEAN AIR
FILTER
LIVING/WORKING
ZONE
CIT Y
ME TRO
175
0
190
0
180
0
195
0
2000
185
0
NOWA
DAYS
2024
2034
2044
THE FUTURE WITH ECO - SCYSCRAPER
PLAZMA FILTER
BIO FILTER
CATALYST
ELECTROSTATIC FILTER
ELECTRODE
CONDENSATION CHAMBER
WATER VAPOUR
OZON FILTER
CARBON FILTER
PREFILTER
PROBLEM
SOLUTION
MODEL FOR HIGHT SKYLINE MODEL FOR LOW SKYLINE
CARBON POLLUTION GLOBAL SCHEME
LIVING PARTICLE SECTION
PARTICLE FILTER SECTION
GLOBAL CARBON EMISSION SCHEME
POLLUTION HAS BEEN WITH THE HUMANITY SINCEIDUTRAL REVOLU -TION. THROUGH YEARS AND THE MARCH OF THE CIVIL iSATION THE PROBLEM STARTER TO GROW WITH EVERY YEAR. NOWADAYS THE PROB -LEM IS EVEN MORE PAINFUL FOR AND THE EMISSION OF CO2 CAUSES MORE DAMAGES THAN EVER BEFORE.
PLUGED IN SCYSCRAPER CONSTANTLY CLEANING THE AIR IN METROPOLITAM AREAS
COMP
OSITI
ONFU
NCTIO
NING
URBAN VACUUM CLEANER URBAN VACUUM CLEANERMETRO LINE RAPID TRANSIT SYSTEM
URBAN VACUUM CLEANER URBAN VACUUM CLEANER
PLACE FOR: WATER,WASTE PRODUCTS,HEATING SYSTEMS,ENERGY COLLECTOR
PRIVATE ZONE: NIGHT/SPLEEPING ZONEHYGIENE ZONE
PUBLIC ZONE:DAY/ACTIVITY ZONEWORKING ZONEEATING/COOKING ZONELIVING ZONE
HELIUM GASto stabilize living unit position
The upper part of living unit function is to provide all structure in vertical position
PLUGGEDG E T
IN
FUTURE DE VELOPMENTOF THE STRUC TUR E
CLEAN AIR
FILTER
LIVING/WORKING
ZONE
CIT Y
ME TRO
175
0
190
0
180
0
195
0
2000
185
0
NOWA
DAYS
2024
2034
2044
THE FUTURE WITH ECO - SCYSCRAPER
PLAZMA FILTER
BIO FILTER
CATALYST
ELECTROSTATIC FILTER
ELECTRODE
CONDENSATION CHAMBER
WATER VAPOUR
OZON FILTER
CARBON FILTER
PREFILTER
This is the philosophy which underpins the concept of the eco skyscraper which is designed to breath in poisoned city air and breath out fresh air. The structure combines the two ideas of having a living space which also functions as large-scale city air purifier. The cleaning process is simple. Theskyscraper network utilizes the existing city metro system to form a conjoined grid system of pipes that penetrates the whole metropolis. This means that the interconnected structure not only cleans air in the local vicinity but that of the whole metropolis. The new structure will become the lungs of the city constantly filtering and cleansing the air. The skyscraper structures themselves are made up of living units which at the same time serve as air cleaning units. Each of these units is able to slowly rise and fall thanks to the helium gas stored in the upper part of the unit and it is this helium which also maintains the structural stability of the building. At the bottom of the unit there is an area for wa-ter, waste, heating systems and an energy collector.
WHY DO WE USE SUBWAY GRID?The most developed c i t ies in the world a l ready have an extensive subway gr id. This has a hugely posit ive e�ect on the c i ty , because underground transport does not re ly on the terrestr ia l parts ground of the c i ty . People can move eas i ly and f reely without delays and so parts of town where metro sta-t ions are located become highly s igni�cant.
The spheres are for d i�erent purposes and wi l l therefore have di�erent dimensions, depending on their funct ion. The whole system is connected in two places with the exist ing c i ty . The most important part of the system is 20m wide and i t i s here that contaminated a i r f rom the metro system and drainage system is col lected. The a i r pur i�cat ion system is des igned to produce biological ly act ive a i r for humans, animals and plants in the c i ty . The second part of the "Get plugged in" skyscraper i s connected, a l lowing people to t ravel f reely to these work and l iv ing units . Access to the e levator i s f rom the streets of the c i ty as wel l as the metro stat ions to provide a more e�cient t ransport system between the exist ing c i ty and the new ground structures. This third type of unit wi l l be 15 m wide and f rom these units people wi l l have access to indiv idual res ident ia l spheres by us ing capsules powered by cables between the ground units .
This type of unit i s 40-50 meters above ground level which wi l l c lean pol luted a i r . This type of unit wi l l a lso be 15 m wide and is a system of progres-s ive pur i�cat ion which �rst ly c leans a i r through a carbon ozone �lter , and then by us ing electrodes, an e lectrostat ic �lter and a catalyt ic converter . F inal ly the a i r i s t reated us ing biological �ltrat ion and a plasma �lter , which produces pure oxygen, known as dead a i r , to which is safe for both plants and animals .
Transport hubs, bui ld ings of part icular importance for the funct ioning of the c i ty center and also human habitat ion are created and as a consequence, more and more pol lut ion is created. The main idea for the "Get plugged in" skyscraper i s to c lean the a i r in c i t ies . In the metro tunnels equipment wi l l be instal led to col lect pol luted a i r which wi l l a lso send this impure a i r to the a i r �lter systems which �oat over the c i ty . The tubes wi l l draw air d i rect ly over the main transport hubs, and wi l l resemble in appearance a water drainage system and wi l l �t in aesthet ical ly with the exist ing surroundings. This metro based solut ion is suitable for c i t ies with ta l l bui ld ings. For c i t ies with no metro system such a Krakow for example, col lect ion and accumulat ion system wil l be integrated into the exist ing sewer and ra inwater drainage system.
As a result of industr ia l development and transport , 50% of people in the world today l ive in towns and c i t ies . According to predict ions, in 2025 63 % of the world’s populat ion wi l l l ive in c i t ies , and in 2050 this wi l l jump to 75 %. C it ies are centers of sc ience, new technologies , and i t i s here where the state’s �nancial resources and intel l igents ia accumlate and grow. As di rect result of these factors the world’s metropol ises have grown and become denser . As c i t ies expand i t i s taking longer and longer to get to places of work, schools , and places of entertainment. In some parts of Moscow for example, i t can take up to four or �ve hours to t ravel across the capital as the c i ty l imits are dozens of k i lometers apart . The "Get plugged in" structure is the solut ion to this problem.
The working and l iv ing spaces �oat over the c i ty and can be place in pract ical ly any locat ion and because of this �exibi l i ty they wi l l not restr ict l ight or create shade for ex ist ing res idents . The "Get plugged in" skyscraper ’s has the potent ia l to expand and develop l ike a t ree in nature and is able to increase in s ize both upwards and outwards. The system as a whole acts as the lungs of the c i ty and even in i ts shape resembles the shape of the tree. In the future, this solut ion wi l l be deployed at major subway stat ions and at the same t ime solve the problems of pol luted a i r , increas ing urbanizat ion and lack of p laces for people to l ive and work.
WE CLEAN AIR AND GO HIGHER AND HIGHER
FILTER
LIVING UNIT
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UNITED STATES | GROUP PROJECTeVOLO SKYSCRAPER COMPETITION
UNITED STATES | GROUP PROJECTeVOLO SKYSCRAPER COMPETITION
PROBLEM
SOLUTION
MODEL FOR HIGHT SKYLINE MODEL FOR LOW SKYLINE
CARBON POLLUTION GLOBAL SCHEME
LIVING PARTICLE SECTION
PARTICLE FILTER SECTION
GLOBAL CARBON EMISSION SCHEME
POLLUTION HAS BEEN WITH THE HUMANITY SINCEIDUTRAL REVOLU -TION. THROUGH YEARS AND THE MARCH OF THE CIVIL iSATION THE PROBLEM STARTER TO GROW WITH EVERY YEAR. NOWADAYS THE PROB -LEM IS EVEN MORE PAINFUL FOR AND THE EMISSION OF CO2 CAUSES MORE DAMAGES THAN EVER BEFORE.
PLUGED IN SCYSCRAPER CONSTANTLY CLEANING THE AIR IN METROPOLITAM AREAS
COMP
OSITI
ONFU
NCTIO
NING
URBAN VACUUM CLEANER URBAN VACUUM CLEANERMETRO LINE RAPID TRANSIT SYSTEM
URBAN VACUUM CLEANER URBAN VACUUM CLEANER
PLACE FOR: WATER,WASTE PRODUCTS,HEATING SYSTEMS,ENERGY COLLECTOR
PRIVATE ZONE: NIGHT/SPLEEPING ZONEHYGIENE ZONE
PUBLIC ZONE:DAY/ACTIVITY ZONEWORKING ZONEEATING/COOKING ZONELIVING ZONE
HELIUM GASto stabilize living unit position
The upper part of living unit function is to provide all structure in vertical position
PLUGGEDG E T
IN
FUTURE DE VELOPMENTOF THE STRUC TUR E
CLEAN AIR
FILTER
LIVING/WORKING
ZONE
CIT Y
ME TRO
175
0
190
0
180
0
195
0
2000
185
0
NOWA
DAYS
2024
2034
2044
THE FUTURE WITH ECO - SCYSCRAPER
PLAZMA FILTER
BIO FILTER
CATALYST
ELECTROSTATIC FILTER
ELECTRODE
CONDENSATION CHAMBER
WATER VAPOUR
OZON FILTER
CARBON FILTER
PREFILTER
PROBLEM
SOLUTION
MODEL FOR HIGHT SKYLINE MODEL FOR LOW SKYLINE
CARBON POLLUTION GLOBAL SCHEME
LIVING PARTICLE SECTION
PARTICLE FILTER SECTION
GLOBAL CARBON EMISSION SCHEME
POLLUTION HAS BEEN WITH THE HUMANITY SINCEIDUTRAL REVOLU -TION. THROUGH YEARS AND THE MARCH OF THE CIVIL iSATION THE PROBLEM STARTER TO GROW WITH EVERY YEAR. NOWADAYS THE PROB -LEM IS EVEN MORE PAINFUL FOR AND THE EMISSION OF CO2 CAUSES MORE DAMAGES THAN EVER BEFORE.
PLUGED IN SCYSCRAPER CONSTANTLY CLEANING THE AIR IN METROPOLITAM AREAS
COMP
OSITI
ONFU
NCTIO
NING
URBAN VACUUM CLEANER URBAN VACUUM CLEANERMETRO LINE RAPID TRANSIT SYSTEM
URBAN VACUUM CLEANER URBAN VACUUM CLEANER
PLACE FOR: WATER,WASTE PRODUCTS,HEATING SYSTEMS,ENERGY COLLECTOR
PRIVATE ZONE: NIGHT/SPLEEPING ZONEHYGIENE ZONE
PUBLIC ZONE:DAY/ACTIVITY ZONEWORKING ZONEEATING/COOKING ZONELIVING ZONE
HELIUM GASto stabilize living unit position
The upper part of living unit function is to provide all structure in vertical position
PLUGGEDG E T
IN
FUTURE DE VELOPMENTOF THE STRUC TUR E
CLEAN AIR
FILTER
LIVING/WORKING
ZONE
CIT Y
ME TRO
175
0
190
0
180
0
195
0
2000
185
0
NOWA
DAYS
2024
2034
2044
THE FUTURE WITH ECO - SCYSCRAPER
PLAZMA FILTER
BIO FILTER
CATALYST
ELECTROSTATIC FILTER
ELECTRODE
CONDENSATION CHAMBER
WATER VAPOUR
OZON FILTER
CARBON FILTER
PREFILTER
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43|44
UNITED STATES | GROUP PROJECTeVOLO SKYSCRAPER COMPETITION
WARSAW | POLAND | GROUP PROJECTMEMORIAL | COMPETITION
The conception of the project is based on an interpretation of division and unity. Memorial wall becomes an integrative part of the monument. It sets out the division of the monument into two parts, the first representing the Polish nation and the second one corresponding to the Jewish people. The Jewish part designed below the floor level, symbolizes the people imprisoned in the Warsaw Ghetto. Another aspect that has been included in the project is to create images. Fun space of the square and the images that we see between the walls. Monument interacts with elements of the square and its buildings. Each of the “images” has an individual symbolism and meaning, which also refers to three words presented on the memorial wall. Thee three words and the wall accrual translucent material is a symbol of Jewish hope, courage and the Polish union of these two nations. Three words, which appear on the memorial wall (“FAITH”, “MEMORY” and “FREEDOM”), present the idea of the project.
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MEMORIAL | COMPETITION WARSAW | POLAND | GROUP PROJECT
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AMATEUR PHOTOGRAPHYor how I see the world
2011 | 2012 | 2013year
place Varenna | Como | Milan | Assisi | Florence | Greve in Chianti | Vienna | Barcelona | Poznan
* Varenna | Lake Como | Italy
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* Museu Blau | Barcelona | Spain
* Assisi| Italy
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* Vienna | Austria
* La Sagrada Familia | Barcelona | Spain
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* Poznan | Poland
* Como| Italy
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* Milan| Italy
* Greve in Chianti | Toscania | Italy
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