Portfolio Barbara Sopolinska

PORTFOLIO BARBARA SOPOLINSKA

CURRICULUM VITAE EDUCATION 09.2015-

Msc in Technology of Architecture, Aalborg University

Performance Aided Design, sustainable design, Zero Energy Buildings, structural and acoustical analysis

02.2014-06.2014

Construction Architecture, Erasmus Exchange Programme, VIA University College in Horsens, Denmark

design, solving details, indoor climate, sustainability, work in group

10.2011-06.2015

Bsc in Architecture and Urban Planning, Warsaw University of Technology

hand drawing and painting classes, model making and sculpture course, Architecture Design Classes, History of Architecture, History of Urban Planning, History of Art, Landscape Architecture, Interior Design, Construction & Building Materials classes, Building Physics

ACHIEVEMENTS

category of Innovation and Architecture for the Sea Jacques Rougerie Foundation International Competition, 2014

2nd prize

WORK EXPERIENCE

My name is Barbara Sopolinska and I am 23 years old architecture student. I graduated from Warsaw University of Technology in June 2015 and currently I am during my Master studies in Technology of Architecture at Aalborg University. I constantly try to develop myself professionaly, through academic studies and individual work. Examples of my work you can see here on my portfolio.

Vesterbro 84 1 tv. 9000 Aalborg, Denmark +4550268895 sopolinska@gmail.com

07.-08.2014

Intern in Michalewicz&Tanski Architects

concepts, 2d drawing, 3d modelling, visualisations,

06.-09.2013

Graphic designer in NS MARKETING, advertising

vector and raster graphics, posters, folders

06.-09.2012

Inventory of The Trinity Church in Warsaw

survey of the XVII century church, plans, sections, elevations, Autocad and hand drawings

SKILLS TECHNICAL Rhinoceros 3D 3ds max + Vray Revit Autocad Archicad Adobe Illustrator Adobe Photoshop Adobe InDesign

LANGUAGES Polish / native speaker English / advanced Danish / beginner Icelandic / beginner

OTHER Drawing and painting skills Model making Problem solving Teamwork Ability to work under pressure

ACADEMIC WORKS

01

HATLEHOL CHURCH

location:

Ålesund, Norway

date:

11.2015 - 01.2015

project designed for:

1 sem MScArch, Aalborg Univesity

in collaboration with:

Irene Ank Jørgensen, Kristian Bue Jensen, Jonas Wittrup Larsen, Aleksandra Przesmycka

This project is based on a competition issued for Hatlehol in Ålesund municipality, located on the western coast of Norway. It should serve as a catalyst for the area to come together as a community. . Through analysis of context and reference projects, it is defined that the design of a church should be executed using Nordic architecture, local materials, traditional architecture and a coherence with the surrounding nature.

Views are cut through the volume to frame surrounding nature.

Other functions are placed and the church is shaped.

Volume of the church room is enlarged to make it stand out.

Cuts are covered to make hallways

Church room gets shaped through PAD and to expose the bell tower.

Roofs are pulled up to create synergy

3

FLOORPLAN LEVEL 0

SECTION AA

PHYSICAL MODEL

SECTION BB

EAST ELEVATION

4

NORTH ELEVATION

CONGREGATION HALL

FRAMING NATURE

CHURCH HALL

5

02

DGNBI 2016 KITCHEN

016

tchen module per e each module e of module is also created h can be used as her is good.

illion was maxicross ventilation m through the vertical shutters ves through the dows located ccording to the ht) pavillion

Energy fo artfiiprovided thanks e roof. Roof is also ct rainwater, ed further develhe pavillion is n’t be enough rain in water tanks

m recycled e. Palletes are d boards and bonate sheets. ayers of sand acteristic for the ide the building friendly for l nature. tes of size 1200 oject are result of

and used in mselves can be onnected into

location: date:

Aalborg Havnefront, 09-16.03 2016

project designed for:

MSc02, Aalborg University individual work

The task was to create temporary kitchen pavillion for DGNBI sports camping in Aalborg. Main principal of shaping temporary kitchen pavillion for was maximizing natural ventilation, enhancing cross ventilation and stack effect. Energy fo artfiicial light and water pumps for taps is provided thanks to the polycrystaline solar cells on the roof. Roof is also shaped to give the possibility to collect rainwater. . The kitchen is mainly constructed from recycled palletes, nailed to the timber structure. Palletes are further clad from inside with plywood boards and from outside with translucent polycarbonate sheets. Cavity created this way is filled with layers of sand and pebbles - mate+ rials that are characteristic for the local fiord. polycarbonate panels

recycled palletes

pebbles / sea sand

plywood

CROSS VENTILATION / STACK EFFECT

back elevation 1:50 SOLAR PANELS POSSIBILITY OF WATER COLLECTION

CROSS VENTILATION VERTICAL SHUTTERS

GAS BOTTLE

scheme

6

opment in this project. Although, as the pavillion is temporary (and perhaps there wouldn’t be enough rain during that time) water is magazined in water tanks under kitchen stands.

OUTSIDE KITCHEN DGI- GAMES AALBORG 2016

The kitchen is mainly constructed from recycled palletes, nailed to the timber structure. Palletes are further clad from inside with plywood boards and In my project I decided to createpolycarbonate 1 kitchen module from outside with translucent sheets.per approximately 100 -this 150 tents, where eachofmodule Cavity created way is filled with layers sand and pebbles materials that are characteristic for the consists of 4 cooking stands (example of module local Use ofsite these material provide thecreated building location onfiord. included plan). There is also thermal mass, stability of structure, is friendly for dining space and a small terrace which can be used as environment and also represents local nature. a diningPalletes spaceused as well whenare the weather is in project europalletes of good. size 1200 x 800 mm, and dimensions of the project are result of using thisof module. Main principal shaping kitchen pavillion was maxi-

8850 4800

3600

2000

mizing natural ventilation, enhancing cross ventilation Pavillion elements can to be the remounted and used the in and stack effect. Air goes room through another place, as well as palletes themselves can be main opening, which is covered with vertical shutters reused again. Pavillions also can be connected into so it’s size can be controlled , and leaves through the bigger ones. chimney above kitchen stands or windows located higher on the other side of kitchen. According to the local wind direction (as well as sunlight) pavillion entrance is facing south - east.

POLICRYSTALINE SOLAR PANELS

2000

8200

Kitchen is equipped with gas bottles. Energy fo artfiicial light and water pumps for taps is provided thanks to the polycrystaline solar cells on the roof. Roof is also shaped to give the possibility to collect rainwater, however its filtering system would need further development in this project. Although, as the pavillion is temporary (and perhaps there wouldn’t be enough rain during that time) water is magazined in water tanks under kitchen stands.

FLOORPLAN

8850

The kitchen is mainly constructed from recycled palletes, nailed to the timber structure. Palletes are further clad from inside with plywood boards and from outside with translucent polycarbonate sheets. Cavity created this way is filled with layers of sand and pebbles - materials that are characteristic for the local fiord. Use of these material provide the building thermal mass, stability of structure, is friendly for environment and also represents local nature. Palletes used in project are europalletes of size 1200 x 800 mm, and dimensions of the project are result of using this module.

floorplan 1:50

3600

2000

4800

PLYWOOD

8200

Pavillion elements can be remounted and used in another place, as well as palletes themselves can be reused again. Pavillions also can be connected into bigger ones.

SIDE ELEVATION

side elevation 1:50

+

2000

polycarbonate panels

recycled palletes

pebbles / sea sand

plywood

CROSS VENTILATION / STACK EFFECT

floorplan 1:50

BACK ELEVATION

FRONT ELEVATION

back elevation 1:50 SOLAR PANELS POSSIBILITY OF WATER COLLECTION

4,30

CROSS VENTILATION

3,20

2,40

2,55

VERTICAL SHUTTERS

GAS BOTTLE

side elevation 1:50 0,15

SECTION

+

0,00

polycarbonate panels

section 1:50

7

CROSS VENTILATION / STACK EFFECT

POLYCARBONATE PANELS

recycled palletes

REUSED PALLETES

pebbles / sea sand scheme

PEBBLES/ SAND

plywood

PLYWOOD

03

MULTISTORY HOUSING

location: Sady Zoliborskie, Warsaw date: project designed for:

11.2013-01.2014 4th semester, Warsaw University individual work

The complex of building located in Warsaw district Zoliborz, surrounded by post-communism prefabricated concrete blocks. Aim of the project was to create the cozy enclave of relatively low buildings. Buildings are shaped to provide in each apartament the maximum of daylight and to create external common spaces. During creating the apartament layout important was keeping separate open day zone and more private night zone, in the same time creating flexible storage spaces.Materials used on elevation are yellow brick, wood and perforate copper panels that are covering the staircases.

8

TYPES OF APARTMENTS

INTERIOR

SITE CROSS SECTION

SITE LONGTITUDE SECTION

FLOORPLAN

9

04

MODEL SHOP INTERIOR

location: Wilcza Street, Warsaw, Poland date: project designed for:

03.-05.2014 interior desing, 4th semester, Warsaw University Iindividual project

Model shop interior made for Interior Design classes. The main idea was to remove existing floor between ground floor and basement and to create instead vertical structure made out of cardboard boxes. The structure has both exhibition and storage function.

10

SECTION AA

FLOORPLAN

SECTION BB 11

COMPETITIONS

05

THE CLOUD CHARGER

2nd prize in Sea Category, Jacques Rougerie Competition 2014 location: date:

drought areas 11.2015 - 01.2015

project designed for:

Jacques Rougerie Competition, Sea Category 2014

in collaboration with:

Marta Szczepanska, Daria Wojciechowska

Our design is a mobile response to the problem of drought. Seas and oceans constitutes 97.5% of the water on Earth., while humanity needs fresh water to produce food. The idea is simple: to desalinate water on the sea and send it remotely over drylands. It would consist of two major elements – offshore crew-operated desalination plants as “docking stations” and a group of drones plugging in to the plants and absorbing fresh water. Stations in our design are using energy of marine currents, so they are freely drifting in regions that currents occur, while also being close to areas affected by droughts.

dry areas

currents

stations range

13

Reverse Osmosis Process A high pressure pump is used to increase the pressure of salty water and force it across the semi-permeable membrane, leaving almost all (around 95% to 99%) of dissolved salts behind in the reject stream. The more concentrated the feed water, the more pressure is required to overcome the osmotic pressure. Desalinated water is pumped into the upper tank.

helicopter landing zone

living area

technical room work & navigation area

charging station

communication area

living area

storage area

THE

desalinated water

THE DOCKING DOCKING STATION walking paths

section salty water

STATION

accumulators turbines

Ocean water flows inside of the station through the whale baleen filtering system

ballast

helicopter landing zone

the tank The drones are charged and filled up with water from the main tank.

charging station

25

0

cross-section SECTION

50 m

the drones are ready to set off and fly onto drought affected areas.

plan level 0

FLYING

Drones are defined as an aircraft without a pilot. In our design their tracs are controlled form navigation base in desalination station. They are using rotaries of around 8 meters diameter.

WATERING

Water is transported in special tank with sprinklers system, which is activating above cultivation areas.

living area

technical room work & navigation area

communication area

living area

storage area desalinated water

salty water

THEDRONESDRONES THE REMOTE CLOUDS CLOUDS REMOTE

walking paths

accumulators turbines

helicopter landing zone

CHARGING & MAITENANCE

Drone start its work at a base station. It includes loading water and charging with energy that station is harnessing from marine currents. The platform that connects drones with the station allows easy maitenance.

ballast

charging station

LANDING

0

25

During flight hovercraft system is hidden in a special panel. As a drone is getting close to the water, the hovercraft opens and the drone is able to land and float on a surface of water.

50 m

plan level 0

FLOORPLAN LEVEL 0 14

UNDERWATER VIEW

DRONES AT WORK

15

06

PUBLIC TOILET IN GDYNIA

location: Gdynia waterfront, Poland date:

11.2015 - 01.2015

project designed for:

Kolo Competition 2014

in collaboration with:

Agnieszka Ros

Project inspired by modernism character of architecture of Gdynia. Main features of this style are light colours , rounded corners and simplicity of design. Its principals are functionalism and aesthetics. Industrial atmosphere of nearby shipyard also affected the project. Another criteria was location on the beach boulevard.A terrace on the roof gives an opportunity to admire views on the sea, shipyard and the developing city.

16

FLOORPLAN

SECTION AA

ELEVATION

17

07

HOUSE IN THE WOODS

location: date:

Jozefow, Poland 11-12.2013

project designed for:

Builder Magazine student competition 2013

in collaboration with:

Daria Wojciechowska

Main idea was to create heart of the house - center of the family life created on the round plan. From our exp erience in almost every house such a natural center is the kitchen. In outr design the kitchen is opened on day zone spaces, while around the center we created storage spaces. Day zone is divided into 3 parts : work space, cozy fireplace and small tv room. Entrance to the house is hidden between stone-slate. ‘curtains’

18

SECTION AA

LEVEL 0

SECTION BB

LEVEL +1

19

LIVING ROOM

KITCHEN

20

08

SPECTACLE OF SENSES

Ă˜ya Festival, Oslo, Norway location: date:

02.2014

project designed for:

120 hours challenge

in collaboration with:

Agnieszka Ros Krzysztof Jakubow

Project created for 120 hours competition 2014. The subject of the competition was different approach to sustainability. The task was to create a kind of installation - meeting point at Ă˜ya Festival, that would aware people of the sustainability issue.

Main idea of sustainability is that a man can naeve be considered as a single being

Even if alone, he is alwas connected with reality

21

We want to create shelter that can isolate while stimulating the connection

In that way man can sense and recon true identity of this connection

22

THANK YOU!