portfolio Agnieszka Panasiuk
Master Student Architecture Faculty of Architecture and the Built Environment TU Delft University of Technology. tel: 0048 666 325 033 email: agnieszka.bp@gmail.com
/curriculum vitae
Agnieszka Panasiuk
Date of Birth: Place of Birth: Place of residence: Phone number: Email:
12th May 1994 Bielsk Podlaski, Poland Van Hasseltlaan 419 2625 JB, Delft, The Netherlands +48 666 325 033 agnieszkapanasiuk.bp@gmail.com agnieszka.bp@gmail.com
EDUCATIONAL BACKGROUND
ACHIEVEMENTS AND EXTRA-CURRICULAR ACTIVITIES
2017 - present
Master of Architecture, Delft University of Technology, Faculty of Architecture and Built Environment, Track Architecture
Nov 2017 - now Feb - Jun 2017 Jan - Sep 2017
2013-2017
Bachelor of Architecture Faculty of Architecture, Warsaw University of Technology, Poland
Feb - Apr 2016 Nov 2015
Feb-Jun 2016
Erasmus+ student exchange VIA University College Architectural Technology & Construction Management Exchange programme, Horsens, Denmark .
Sep 2015
Oct 2014 - Jun 2017 Jun 2012 - Jul 2013 Jun 2011 - Aug 2012 RELEVANT EXPERIENCE
SOFTWARE SKILLS
Oct-Nov 2015
Revit Rhino VRay 3ds Max Grasshopper Archicad Autocad
Aug 2015
Jul 2015 Jul 2014
2013-2015
Visualization and graphics design traineeship, FAMA Advertising Agency, Warsaw, Poland Preparing two-dimensional graphics to be used in advertising. Architecture traineeship, Szcześniak Denier Architekci architectural studio, Warsaw, Poland Working on large-scale projects documentation. Construction training at a building site. (Supervised by the Faculty of Architecture, WUT) Cognition of the nature of works performed on a building site. Architectonic Inventory Training in Przydrujsk, Latvia. (Supervised by the Faculty of Architecture, WUT) Registration of the Katholic Church of the Assumption of the Blessed Virgin Mary. It involved preparing hand-made and AutoCAD drawings of the facades. Drawing and painting tutor of architecture candidates in Pracownia Rysunku Domin in Warsaw, Poland. Preparing drawings and watercolour paintings which served as instruction material for the tutorials. Carrying out lessons, leading a large group of students.
Dutch Elementary 2 Course Delftse Methode Dutch Elementary 1 Course Polish-Dutch Friendship Association, Warsaw, Poland Active participation in the works of “Parametric Architecture” student body at Warsaw University of Technology. Autodesk Revit Architecture 2016 - Essentials, Horsens, Denmark Athens Programme Course, TU Delft, The Netherlands. -Topic of the course: Earthquakes in Holland, opportunities for the integral transformation of an entire region. Participant in WWU2 urban workshops held by Warsaw department of SARP - Polish association of architects, Park Morskie Oko, Warsaw, Poland The objective was to make urgent and real changes that ought to change the life of the users of the facility as well as initiating a process of a bigger change. Rector scholarship for the best students, Warsaw University of Technology, Poland Drawing and painting course in Pracownia Rysunku Domin in Warsaw, Poland Developing the skill of architectural hand drafting and watercolour painting. Drawing course Kuba-studio in Białystok, Poland,
Adobe Photoshop Adobe Illustrator SketchUp Artlantis Studio Adobe Lightroom Adobe Indesign
LANGUAGE SKILLS Polish - native speaker English Belarussian Russian Spanish Dutch 2
/contents
Selection of projects 2013-2017
4
Retirement home in Supraśl, Poland Spring 2017 l Bachelor thesis project l Individual Project
Prague test-tube l Prague district culture promotion centre in Michl’s granary complex Warsaw, Poland
9
Summer 2016 l Competition entry l Individual Project
Mimersgade social housing estate renovation I Horsens, Denmark
15
Spring 2016 l 6th semester l Academic project l Group project
Revitalisation of Nowa Praga District in Warsaw
22
Autumn 2016 l 7th semester l Group Project
Hydro-active Kunsthal
26
Autumn 2017 l Building Technology project l Individual Project
House next to a wall l Czersk near Warsaw
30
Multistorey residential building l Warsaw, Poland
35
Falconry l Modlin Airport near Warsaw
40
My interests
43
Spring 2015 l 4th semester l Academic Project l Individual Project
Autumn 2015 l 5th semester l Academic Project l Individual Project
Spring 2014 l 2nd semester l Academic Project l Individual Project
Selection of works 2013-2017
* All the visualisations, drawings and photographs have been done by me alone unless otherwise stated.
3
Retirement home in Supraśl Supraśl, Poland
Completed 19/06/2017 l Bachelor thesis project l Individual Project l My role and contribution: entire content and development made by myself
I have prepared this project as a Bachelor thesis project at Warsaw University of Technology. It tackles with the challenges of residential architecture for elderly people, I have decided to place the project of the retirement home in Supraśl - a small town, located in Podlaskie province in Poland. I have chosen a picturesque site by the pond ”Zajma”.
4
/Site analysis
Weavers houses have been spaced evenly along the road. Rythmic arrangement.
height of buil02 The dings decreases
parcels seem 03 The compact from the
small 04 The between
01
towards the centre of the plot.
oustide and irregular from the inside.
distances buildings facilitate social life of neighbors.
inner part of 05 The parcels is filled with
alignment 06 The wooden planks
of on the gable walls of the houses of Supraśl weavers.
greenery
Localisation plan
Natural environment analysis
Pedestrian connections analysis widok 3d_oĹ› widokowa
GSEducationalVersion
Heritage analysis
Terrain elevation analysis GSEducationalVersion
/Site plan concept
Site plan
Pedestrian, bike and ve- Amenities for the disahicle communication ro- bled. utes.
Distribution of spaces Gradation of height of serving various functions. plants. 5
/concept development -30o
5o -25o
25o
20o
5o
-20o
15o 5o
10o
The conditions of the site influencing the design
Schemat rozmieszczenia typów pomieszczeń Komunikacja Pokoje mieszkalne Przestrzenie wspólne Kuchnia Pomieszczenia porządkowe, sanitariaty Pomieszczenia pracowników
A photograph of the physical model
Diagram showing disposition of rooms.
Podział budynku na strefy funkcjonalne Pawilony mieszkalne Pokoje osób całkowicie niesamodzielnych Pokoje osób częściowo niesamodzielnych Pokoje osób samodzielnych Pawilony mieszczące wspólne pomieszczenia Pawilon rekreacyjny Pawilon mieszczący bibliotekę i część artystyczną Pawilon medyczny
Ścieżki piesze Drogi komunikacji kołowej Ścieżka pieszo - rowerowa
A photograph of the physical model
6
/relation to the surroundings
A photography of the physical model depicting the western facade of the retirement home. Gypsum cast.
Ground floor plan.
Basement plan.
7
/facade and details
Eastern facade. The town of Supraśl in the background
S10 rośliny piętra niskiego kątownik perforowany rynna
Diagram showing the principle behind the formation of facades. In order to supply the apartaments of seniors with both southern sunlight and a view of the city and the water pool at the west, I have decided to form a „creased”
zewnętrzna aluminiowa część profilu okiennego
S4
obwodowa izolacja akustyczna z wełny mineralnej profile stalowe “T” płyty gipsowo - kartonowe
P1
Section of one of the northern facades of dormitory pavilions. The varying arrangement of wooden planks visible. Double layer wooden battens grid supporting the outer layer of the wall. Aluminum flashing elements painted white. The window frames are extruded.
Section of one of the southern walls of dormitory pavilions. Loggias and terraces.
podwójny ruszt drewniany polistyren ekspandowany mocowany za pomocą kotew aluminiowy profil “L”
S1
P5
8
Prague test-tube
Prague district culture promotion centre in former Michl’s granary complex, Warsaw, Poland
Completed 28/08/2016 l Competition entry l Individual Project l My role and contribution: entire content and development made by myself
I have prepared this project as an entry to the IVth edition of a nationwide Competition for Young Architects organized by magazine ”Builder”. The assignment was to find a neglected building and turn it into a cultural landmark of the neighbourhood. The Michl’s granary complex is an example of brick neogothic food industry architecture, which has changed owners and function many times. I recognized the former granary and lodge, which are located near the street, as best preserved and most valuable of the many buildings at the plot. Hence they became the object of my design actions.
9
01
/concept development
granary’s size, thick walls and small windows caused difficulties while attempting to plan it’s interior. Thereof I decided to subtract a rectangular volume from it with the longer wall along its length.
The granary is a landmark of the area, visible in the historic skyline of Prague.
The industrial architecture is characterized with it’s closed character. Buildings situated in a sort Układ budynków are fabrycznych Układ zamknięty of a ring. Oddziaływania do wewnątrz
Forming an open character street. The objects situated along it have a public character. Układ budynków przy ulicy Układ otwarty Oddziaływania do ulicy
An axis crosses the Michl’s complex and Drucianka - an abandoned factory. My proposal was to create a promenade that goes through both of the complexes and connects the Podlaska Street and the Michałowski Park.
Michałowski Park
Railroad tracks
The big
I 02 As place
roof of the 05 The granary is shaped in a reversed form of a typical city house roof in order to attract the sight of a distant viewer.
wall joining 06The the granary and
wanted to big rooms on the lowest two floors, I decided to rotate these two levels of the subtracted volume by 90 degrees.
the lodge is perpendicular to the axis that leads the viewer’s sight to the interior of the granary.
03 The ted
subtracvolume formed an atrium. Light reaches the ground floor through a square-base 5 storey high core of the atrium.
07
04 As ry
connector 08 The and the lodge are
Objazdowa Street
Drucianka - former industrial complex
t tree
aS
leck
Basilica
ja Ob
d Sie
Po d
las
ree t
ka
St
L Academic High School
Tram depot Prague
Locatisation plan
t tree
t tree
aS
ock Otw
School of Management
District Sport’s Centre Kawęczyńska Michałowski Park
S wa zdo
t tree
ka S
yńs
ęcz Kaw
The level of the ground floor varies - it is lifted in the lodge, equal to the ground level in the connector and is lowering inside the granary towards the amphitheatre scene.
XX Secondary School
the granais situated at the end of a quiet street, it is invisible from the ground level until it is approached. In order to make the granary more visible from a large distance, I slightly lifted the construction, which was supposed to be placed inside it.
covered with a common roof. A glass ribbon encircles both of them.
10
/site plan
The market
The amphitheater
The picinic area
The playground �on the hills�
11
/function disposition and interiors
staircase 46 toilet 45 art room 44 play room 43 music room 42 5th floor floor for children
floor for children floor for younger and older adults
46
45
staircase 41 toilet 40 administration room 39 corridor 38 info point and waiting room 37 psychologist office 36 business consulting 35 conference room 34 business consulting 33 4th floor floor for younger and older adults
open space library auditorium multipurpose space
42
5th floor 4th floor 3th floor 2nd floor 1st floor amphitheater
44 36
26 Work space for small and big groups
37 38
35
41
34
40 38
33
staircase 32 toilet 31 kitchenette 30 canteen 29 rest corner with grass carpet and swings 28 work space for small groups 27 work space for big groups 26 3rd floor open space
Diagram showing function disposition
ground floor
43
39 26 39 27
28
32
27 31
27 26
staircase 25 toilet 24 librarian’s desk 23 seats and book boxes 22 stairs with seats 21 shelfs with seats 20 computer positions 19 2nd floor library
9 Scene
29
30 23
19
20
25
24
21 22
16
staircase 18 toilet 17 auditorium 16 corridor 15 1st floor auditorium
18
7 Permanent exhibition about the history of the neighbourhood
17
15
13
Diagram showing comunication All the floors can be reached via a staircase, located in the northeastern corner of the granary. The stairs in the connector lead to the lodge, the floor of which is placed above a cellar. Diagram showing lighting conditions I formed a concave roof in order to improve the light conditions inside the granary even further. The construction consists of a dense grid of trapezium-shaped beams which are painted white. This is done to enable dispersion of the light and facilitate its transfer to the most distant corners of the building.
9
cafe garden 14 amphitheater 13 staircase 12 toilet 11 storage room 10 scene 9 multipurpose room - temporary exhibitions or performances 8 permanent exhibition about the history of the neighbourhood 7 cafe auxiliary rooms 6 administration room 5 toilet 4 bookshop 3 cafe 2 lobby - info point and waiting space 1 ground floor multipurpose space
12
8
11
10
7
14
1 Lobby - info point and waiting space
1
2
3
4
5
Orthogonal exploded view
6
2 Cafe
12
/plans
1
2
3
4
5
A
1
2
A
B
B
B
B
C
C 38 corridor 25m2
B
B 17 toilet 3m2
38 corridor 35m2
D
39 administration 14m2 movable walls at the corners
E
E
F
F
A
A
B
B
E
E 39 administration 14m2
33 buisness consulting 17m2
F
F
1st floor plan
4th floor plan
5
A
A
B
B
B
12 staircase 27m2
A
B
C
B
C
C
B
B
11 toilet 3m2
D
D
E
E
F
F
B
45 toilet 3m2
24 toilet 3m2
11 toilet 3m2
B 46 staircase 27m2
C
C
B
A
46 play room 65m2
24 staircase 27m2
library 160m2
C
D
40 toilet 3m2
34 conference room 21m2
D
D
15 corridor 62m2
4
B
41 staircase 27m2
C
17 toilet 3m2
D
B
37 info point and waiting room 43m2
35 buisness consulting 18m2
C
3
5 A
18 staircase 27m2
2
4
36 psychologist office 14m2
16 auditorium 120m2
1
3
A
42 music room 76m2
D
44 art room 53 m2
D
D
10 storage room 8m2 corridor 12m2
E
multipurpose room 230m2
F G
E
F
2nd floor plan
F G
Detal II
1
2
1
3
lobby 92m2
1’
2’
1'
55
4
A
4’
A
5’
H
H
I
I
B
B open space 142m2
B
32 staircase 27m2
18
2 cafe 90m2
C
J
L
4 toilet 6m2
dirty kitchen 6m2
4 toilet męs i 6m2
administration room . 6m2
L
J
L
Detal IV
clean kitchen 11m2 L L
C 31 toilet 3m2
B D
D
E
E
storage room 9m2
K
K
3 bookshop 67m2
L
L L
1’
2’
E
E
4’
L
F
5’
Ground floor plan
1
2
3
4
F
5
3rd floor plan
F 1
2
3
4
5
5th floor plan
I hope to make this cultural centre an inspiration for the locals to gain new skills and thereby enter the labour market. Therefore I propose a program which consists of many functions. The activities offered on the lowest floors have a more open character whereas the ones on the upper floors involve smaller groups of people. Creating a space in which people might feel the presence of others and at the same time isolate a piece of it for themselves was my goal. A multipurpose hall, situated on the ground floor, may serve as a place of lectures, gatherings or as a showroom. The highest platform hosts a constant exhibition about the history of the neighbourhood. The remaining platforms can be used either as a place for termporary exhibitions or as an audience. An external amphitheater is situated on the other side of the granary’s northern wall. The two spaces may be connected by opening the doors.
13
/sections and details
- New component - Old component
viii
vii
vi
v
Perspectivic view, lodge roof detail
I decided to keep nothing but the external walls of the i three-layer laminated two buildings. The old brick works did not seam to be glass in a good enough condition to apply extra loads onto wooden grid, trapezium them. Hence, I created an independent pillar-beam -shaped beams, painted construction inside. white The walls of the connector are covered with corruga- ii wooden stairs with ted aluminum sheets. Both the sheets and the brick shelves and seats work become a background of the light and shadow iii flooring theatre. The cold shade of aluminum contrasts with screed the warm colour of brick. trapezoidal metal sheet
Section A-A
cavity/ wooden beam with changing height of section 250x600-900 gypsum board plaster iv flooring screed mineral wool waterproof foil concrete slab
gravel bed v clinker tile 20mm cavity/z profile 40mm vapour impermeable foil mineral wool 150mm brick wall vi tunnel skylight vii cavity/c profile 40x20mm aluminum corrugated
plate 100mm viii felt x2 weatherboard 20mm mineral wool 200mm trapezoidal metal sheet 100mm beam/cavity 100x200mm
Section B-B
14
Mimersgade social housing estate renovation Horsens, Denmark
Completed 16/06/2016 l 6th semester l Student Project - awarded first prize in an internal contest l Group Project l Members of the group: Agnieszka Panasiuk, Ludovic Le Geouff, Marta Kaniuk, Sergio Rivera l prof. Erik Toft - sip:et@via.dk l My role: analysis, main concept, analysis, roof refurbishment l My contribution: 3d modelling, site plan, plans, sections, facades, details, graphic representation
The project was performed during my exchange studies at the VIA University College in Horsens, Denmark which I attended as part of the Erasmus+ programme. The main objective was to propose refurbisment of a single unit as well as the whole Mimersgade neighbourhood. There was emphasis on providing realistic and economic solution. This was a group project done in stages. My task in the bigger scheme was the redesign of the whole neighbourhood and also the renovation conception of a single unit. Individually, I worked on developing the plans of all the floors and collaborated with my team members to design the outlook of the building. The largest part of the design work was developing the construction and technological solutions. I was responsible for the roof refurbishment. I also prepared some of the diagrams and visualisations and all of the plans, sections and elevations. *Drawn in cooperation with Marta Kaniuk.
15
/concept development
Social structure observations Mimersgade is an area inhabited by the part of the society which has low income. The group of it’s inhabitants is shrinking rapidly. The condition of the place where they live is deteriorating and needs renovation. This provides an opportunity to improve the quality of the living conditions at this place. Requirements of the inhabitants: Keep the changes to a mini- Create versatile outdoor spaMeet the expectations of Adjust the building to the reduGive each dwelling it’s mum. ces. various groups of society. ced number of inhabitants. personal identity. Our actions:
01
Current shape: Pitched roof building with six oriels on one side. One in each apartment at a floor.
Preserve the red-brick outlook Each building is designed to Two types of building planes Removal of one of the outer have a private and a public respond to the needs of people walls as well as joining and enof the facade. side. By mirroring every se- who have different age and follarging apartments. cond building, different spaces low a different lifestyle. between the objects could be created. Mirroring principle and it’s application The arrangement of rooms is subject to, what was called by us, a mirroring principle. All buildings have night spaces and day spaces placed on separate sides of an axis, which runs along the load-bearing wall in the middle of the building’s width. Planes of two example buildings are proposed. Work on the functional plan of the type II residential unit was continued. While the type I remains an idea to be developed.
the western external walls a symetrical shape was obtained. The lack of oriels is consistent with the amount of apartments reduced to 4 per floor.
were 03 Volumes ”pushed through” the building, subtracting mass on one side and forming extrusions on the other. Voids and extrusions were used as loggias and balconies.
result: 04 The Every second building was mirrored so that the facades of similar character face each other.
*Drawn in cooperation with Marta Kaniuk.
Type II.
DAY ZONE
Results of applying the mirroring principle. Plan design principle A clear distribution of spaces, which have different character was acquired. We got a chance to adapt the building to the requirements of two age groups. The proposition I responds to the needs of the retired group of people. The proposition II responds to the needs of the professionally active group. The entrances to the staircases remain on the eastern facades.
NIGHT ZONE
Type I.
Type I.
Type I Type II Sun in the living zone in the mor- Sun in the living zone in the evening. Suitable for retired people. ning. Suitable for employed people.
NIGHT ZONE
to the de02 Due molition of one of
Diversifying the facades by creating recessions in them.
Type II.
Variety of the rental structure: 2-room apartments 3-room apartments 4-room apartments
*Drawn by me.
16
/master plan
Playgrounds and outdoor activities Lin d
Alternate private and public squares.
vig
Mimersg
sv ej
ade Ve
j
Commercial and common areas d
ga
ris
g Ae
ej eV
e ad sg er
im M
One of the paved public squares. j Ve
Private squares
*Drawn by Marta Kaniuk.
Site development strategy Upon a closer look we saw that the spaces around the buildings were all arranged in a similar fashion with a clear lack of personal character, which we thought could diversify the range of outdoor activities. Hence we divided the space into more ”private” and more ”public” spaces. On that principle we developed the site plan for the whole neighbourhood. Commercial and common areas We placed the commercial and common areas along the Mimersvej in the squares, which we classified as public. Also we located them on the crossing of Aegirsgade Vej and the long pedestrian path. Private squares The paths run along curves there. Soft lines are also visible in the idea to locate little hills there. Entances to the staircases can be accessed from the private squares. Most of the private squares are covered with greenery. Public squares While planning them we payed attention to the needs of visitors of commercial services. Entances to the restaurants and shops can be accessed from the public squares. They are preceded by paved areas, which can serve as commercial service extensions. Pavement covering predominates on those yards. Pedestrian and biking paths We increased the length and the amount of routes designed for pedestrians and cyclists. We closed part of the Mimersgade Vej for car movement. It is narrower and can only be accessed by four-wheeled vehicles in case of emergency such as conflagration. Car access and parking spaces As a part of the Mimersgade Vej is closed for car movement, parking spaces are located only along the remaining part of it and along Sonderbrogade Vej and Lindvigsvej. We placed the biggest concrentration of parkings in the south-western corner of the neighbourhood covered by our site plan.
Public squares Private hills covered with greenery.
Pedestrian and bike paths
One of the private squares. Paths digged in the little hills.
Car access and parkings
Buildings’ locatisation
*Drawn by me.
The encasement of the entrance - inspired with the previous.
*Drawn in cooperation with Marta Kaniuk.
17
/plans and facades
Apartment A.
Apartment B.
Apartment C.
First floor plan
Type I - Groundfloor plan
A
Apartment D.
B
Layouts of the apartments Type II - Groundfloor plan - further developed in the project.
.
C
D
Second floor plan Architectural details We decided to displace some of the balconies Thereby the balconies are optimally shaded by the ones above them.
Since the external brick layer is no longer a load-bearing component, we decided to use brick bonding without the displacement. Zinc seams prolong the brick plot. Western elevation
Southern elevation
Recessions in the brick layer diversify the facade and thereby make it possible for the inhabitants to identify where their apartment is from a significant distance. Roofing above the entrances recalls the the outlook of the facade prior to the renovation.
Eastern elevation
*Drawn by me.
18
/roof construction and section
A
B
C
Ventilation system Rafters All remaining roof layers
D
11,81
E
240
In the subsequent design phases we worked individually and made all the major decisions regarding the choice of materials, technologies and the treatment of the building structure. I was responsible for the refurbishment of the roof and the complete upper part of the building. Existing roof construction analysis EXISTING EXISTING ROOF ROOF CONSTRUCTION CONSTRUCTION ANALYSIS ANALYSIS
25
591
8,66
Rafters - compressive force
Diagonal beams - tensile force
Pillars - compressive force
New windows in old openings
Clamps beams
Ceiling joist tensile force
Wall top plates
132
Partition walls
251
Solar panels and skylights
5,9 38
41
260
38 216
254
139
Wall covering ventilated facade
35
Changes of the roof structure I concluded that ceiling beams need to be replaced and additional rafters have to be placed on both sides of loggias in order to bear the load from the shortened rafters.
Balconies
5,85
CHANGES TO THE ROOF STRUCTURE
80
CHANGES TO THE ROOF STRUCTURE
2,95
2,90
Underpurlin beam
Shortened top plate beam
Additional rafter
254
+/- 0,0
- 0,05 35
41
New or replaced building components.
80
Old building components.
260
Shortened rafters 216
New ceiling beams
139
Current structure
Thermal insulation
38
35
35
41
Load - bearing structure: brickwork and slabs
- 1,01
3
54
164
140
130
140
5
4 130
140
310
140
296
77
83
72
52
140
A
400
140
27
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56
6
77
330
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140
310
140
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130
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130
140
6,61
M01_T04_H4_E 06_N9
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M01_T 04_H4_E 06_N10 M01_T 02_H4_E 06_N33
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455
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B
828
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R
648
9,5
72
R
738
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8,33
100%
72
R
s ewage vent
414
B
10,6
- 2,58
sewage vent M01_T04_H4_E 06_N3
M01_T 04_H4_E 06_N2
24%
24%
vent outlet
455
R
S
S
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S
S
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S
11,81
S
S
sewage vent
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R
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- 2,95
C D
12,89
vent inlet
s ewage vent
M01_T 04_H4_E 06_N12
s ewa ge vent
12,89
s ewa ge vent
S
S
S
S
S
S
S
- 3,25
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M01_T 04_H4_E 06_N16
C D
12,89
- 1,31
A
7,23
B R
9
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99
M01_T 03_H2_E 06_N4
1 A
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100% 90 332
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1095
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952
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414
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M01_T 02_H4_E 06_N35
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M01_T 04_H4_E 06_N17
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F 5,85
EXTERNAL WALL LAYERS 164 54
1
140
346 560
2
428 500
3
90
140
113
355
188 1092
4
140
220
140
163
370
137
140
1095
5
A
Roof plan
64
426
140
MIME R S G ADE R E NOV ATION
155
567
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C
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1 : 50
M01_T03_H2_E 06_N4
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6
New rafter
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8
9 A
M01_T 04_H4_E 06_N9
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Legend
new roof structure element exis ting roof s tructure element wind compres sion
M01_T 04_H4_E 06_N10
20 5 34
brick cladding steel plate cavity/z section windproof layer 200 rockwool/steel hangers system vapour impermeable foil 110 brickwork 90 cavity 150 brickwork 25 2xgypsum board 5 plaster
B
455
M01_T 02_H4_E 06_N33
M01_T 04_H4_E 06_N4
M01_T04_H4_E 06_N16
B
C
D
D
150
455
255
C
E
05/04/2016
R OOF P LAN
9
140x200 rafter a dded ne xt to an old rafter
1
D
N C ampus HOR S E NS
360
499
6
4419
B
Section
As thermal properities of the existing partitions were not satisfactory, mineral wool was placed on their outer side. In order to preserve the brick outlook, ventilated facade was brought into use. Recessions, which give the facade an unique look, were sculpted by narrowing the insulation layer in some places.
All the roof layers except for some elements of the roof construction were replaced. Roof is covered with titanium zinc sheets. The subroof below it is ventilated. In order to improve the thermal properities additional layers of insulation were placed between battens above the layer of rafters.
M01_T04_H4_E 06_N15
M01_T02_H4_E 06_N35
M01_T 04_H4_E 06_N6
M01_T04_H4_E 06_N8
90
top plate 130x130mm - laying on the wall underpurlin 160x300 - rafters enforcement
M01_T04_H4_E 06_N17
D
N
E
120
E
D
540
540
54
1095
499
4419
2
3
4
5
A
6
54
12
7
E
1
Roof construction plan
C ampus HOR S E NS
567
20 39
1092
screw - fixing C section to mansonry wall
8C section 9 200x100
12 80
500
E
560
20 39
54
200
top plate 130x130mm laying on wooden columns
15
E
D
110
wooden columns 130x130
C section 120x60 screw - fixing Z section to C section cavity formed using galvanized steel Z section CORIUM clip plate galvanized steel CORIUM tile mortar screw
225
15
480 225
MIME R S G ADE R E NOV ATION
20/04/2016
R OOF C ONS R UC TION P LAN
1 : 50
Agnies zka P anasiuk
AH51P -S 16
M01_T03_H2_E 06_N3
*Drawn by me.
19
/construction details 40
60
40
20
0 13
1 30 300
1 75
rafter 1 30x1 30mm M6 screw shear plate 2 mm thick 200x300 mm
1 05
70
M6 screw tape fitting M20 screw
200
22 0
couter batten 40x60mm nail M6 180mm couter batten 40x60m nail M6 80mm
galvanized steel tape 2mm thick, 60mm wide
batten 60x220mm bolt M1 2 300mm
bolt M12 300mm
top plate beam 1 30x1 30mm
batten 60x220 mm
60
external flange face fix ha nger with 1 2mm holes, pre-ga lvanized mild steel 1 60x235x75mm screw M1 2 80mm
372
batten 40x60mm nail M6 1 80mm nail M6 1 80mm
0 16
auxillary rafter 1 30x1 30mm rafter 1 30x1 30mm
a
Wind compression. Upper part of the rafter
auxiliary rafter 1 30x1 30mm shear plate 2 mm thick 200x300 mm M20 1 00mm screw tape fitting rafter 1 30x1 30mm M6 30mm screw
1 30
200
1 30
300
1 30
1 30
d Connection of two rafters on one of the sides of a loggia
galvanized steel tape 2mm thick, 60mm wide underpurlin beam 1 60x300mm top plate beam 1 30x1 30mm batten 60x220 mm
6 70 0
60
c
a
f
e
1 60
d b
b Wind compression. Bottom part of the rafter 1
2
double standing seam
450
nail M6 1 80mm couter ba tten 40x60mm nail M6 80mm distance batten 40x60mm
nail M5 30mm nail M6 80mm
C
rafter 1 30x1 30mm
31
underlayment
1 50
screw M1 2 60mm screw M1 2 60mm exte rnal flange beam joist hanger with 1 2mm holes, pre-galvanized mild steel 1 40x1 40x75mm underpulin beam 1 60x300mm
ventilation space/ counter batten 40x60mm waterproof foil
256
1 05 13 30
20
40
rafter 1 30x1 30mm
40 13
b batten 40x60mm
0
vapour impermeable foil
2
5
nail M6 1 80mm
L-shape profile 40x40mm rod suspension hanger with adjustment spring - spacing every 900mm beam joist hanger
45
1 75
70 1 2 22
6
450 1 00
31
titanium zinc cap flashing decking - wooden planks net against insects drag load fastening
22
0
s steel lintel
C
C-shape section - carrying channel 20 39
200
21 1
1 30
540
1
c
2
Intersection of the gable wall and the mezzanine floor
e
Connection of the shortened rafter and the underpurlin beam
f
The ridge
*Drawn by me.
20
/architectural details
6 20 40 40
40
13
0
0
22
0 4 0 25
130
770
130
770
130
5
B
4
00
D
D
225
15
100
240 225
28 487
367 360 15
225
15
225
15
480 225
15
225
15
13 5
15
104 255
350 360
E
28
20 39
E
25 95 63 15
100
200
70 88
25 130 4040 5
415
487
60
127
130
211
121
400
200
825 955
540
400
110
90
1322
400
130
13 0
150
88
255
A
285 20 39 100 100 110 90 540
A
65 150 25 5
B
In order to provide habitable conditions on the mezzanine floor I decided to hide some of the roof structure such as pillars and diagonal beams behind a partition wall. The boxshape gutters are concealed. They are heated with cables in order to prevent snow and ice from gathering inside them. They are also shielded with leaf screens.
The downpipes The downpipes are hidden as well. Before maintanance work is done, steel plates that cover them may be removed. Downpipes are fixed with hangers with are mounted to C-profiles, which are holding the insulation.
Ventilation system The ventilation devices are placed in the attic. There is an in-take and exhaust duct. The „distribution chambers� - wide boxes facilitate air slow -down before it leaves the building.
Solar panels A bypass of the clean water distribution system reaches beneath the solar panels. Hereby water is initially warmed up and the panels are cooled down if the temperature becomes too high. *Drawn by me.
*Drawn in cooperation with Marta Kaniuk.
21
Revitalisation of Nowa Praga District in Warsaw Urban Planning Project
Completed 09/01/2017 l 7th semester l Academic Project l Group project l prof. Sławomir Gzell l dr inż. arch. Maciej Lasocki l My role and contribution: made in cooperation with Ewelina Czerwińska
The Revitalisation of Nowa Praga project was carried out as an academic assignment. The goal was to recognize the potential of a neglected area of becoming the centre for the local community. Curently the area between Namysłowska and 11 Listopada streets is a properity of the Polish military forces and thereby remains inaccessible for the inhabitants of the neighbourhood. Our intention was to open pedestrian connections across the area and place residential buildings inside the plot and office, retail and cultural buildings along the perimeter of the area.
22
/conclusions from the analysis railway tracks 7,2%
ventilation corridor
cementary
industrial areas
overpass allotments accelerated traffic road
railway tracks bus depot
12,8%
24,7%
11,8%
01
02
The directions of people influx into the area under consideration.
Access bariers.
03
Program that has the potential to crate nodes of focus.
04
The corridors of greenery and ventilation.
U Cultural Centre Social Assistance Centre Market
Former Schinkel’s Factory
pedestrian route
vehicle route
M
Haller’s Square
01
Prospective connection between the Schicht factory and Haller Park.
connection between the Placement of residential and serviin the program of existing of pedestrian and vehicle 02 Prospective 04 Changes 05 Separation streets on both sides of Namysłowska 03 ce program. buildings. movement routes.
/design decisions
01
Buildings which serve a public function.
02 Public squares.
03 Vehicle connections.
04 Residential buildings.
05 Pedestrian connections. 23
/visualisations
Section of the market hall and the square in front of it.
Section of the main pedestrian path.
Section of one of the main green corridors.
Section of one of business park. Dominating high building on the north.
24
/visualisations
The market in the western part of the area
The business hub of the district. Park in the background
The W-E pedestrian path. Diverse materials on the facades and on the pavement
The square in front of the cultural centre. 25
curtain wall steel insulated post
90o degree pipe 180o degree pipe terracotta cooling louvre
mounting the frame to the curtain wall post- aluminum bracket mounting the frame to the curtain wall post- aluminum L-profile aluminum perforated frame
solar collector louvre
Hydro-active Kunsthal
Natural cooling and heating strategy for Kunsthal
Completed October 2017 l Building Technology project l Individual Project l My role and contribution: entire content and development made by myself l tutor: Freek Speksnijder
Context - improving the rank of the building, while exposing the qualities of the existing architecture.
aluminum L-profile
The solution, I am proposing, adresses the main problems of Kunsthal, that is the inconsistency of the external envelope, large susceptibility of the interior climate conditions to the changes of weather and dependence on an external energy source for cooling and heating. Two systems are integrated in the building envelope - an evaporative cooling system and solar water heating system.
26
inner glass tube aluminum pipe holder copper pipe 8mm water
4
14
/design concept & climate strategy
Winter heating
6
7 1
highly water-retentive terracotta louver elastic adhesive aluminum profile - core
2
2
4
1
3
Clay - evaporative cooling Air can be effectively cooled down as it comes in contact with water evaporating through the surface of clay elements.
8
1
3
14
a4 1:2
7
9
6
13
GSEducationalVersion
Terracotta cooling louvre
5
7
5
2
12
4
4
CPC reflector outer glass tube 30mm aluminium nitrite absorber coating inner glass tube aluminum pipe holder copper pipe 8mm water
10
4
9
12
8
13
11 14
Heat flow - the process of heating
Summer cooling
Winter heating
heating loop - water heating loop - glicol
Cacti Cacti has the ability to shade itselft, condense water on it’s needles and to cool itself down. It maintains constant temperature level.
Solar collector heating louvre
7
7
highly water-retentive terracotta louver elastic adhesive aluminum profile - core
2
2
4
14
10
6
1
3
8
11
6
1
3
9
GSEducationalVersion
5
5
Parthenon Ancient structures were erected using one material. Due to that fact they could often serve as „mine field” in the following centuries.
4
4
12
13
10
9
8
12
Heat flow the process of cooling
13
11
The principle of cooling down the facade GSEducationalVersion
11
9 4
8
Moisture storage capability. Huge internal surface area of clay. 3
10
GSEducationalVersion
The temperature of air trapped between two layers of glass is rising as the solar radiation is not able to escape. GSEducationalVersion
Solar collectors heating system Terracotta cooling system
Western facade 1:100 The location of the modules of the cooling and heating systems
1 Roof gutter 2 Downpipe 3 Rainwater storage tank 4 Cooling system - pump 5 Cooling system - upflow pipe delivering rainwater to the upper part of the facade 6 Cooling system - the horizontal distribution pipe 7 Cooling system - circulation pipes - water flowing down 8 Filters 9 Heat exchanger 10 Potable warm water 11 Pump 12 Heating system - upflow pipe delivering water with glicol to the upper part of the facade 13 Heating system - water flowing down the pipes on facade
The circulation of water in the facade
27
Column splice. Blind scarf splice. Beams are spliced above columns, where moments are the smallest.
/structure The choice of the structural material was dictated by guidelines of durability, ease of disassembly, low level of material processing, low CO2 footprint and high accesibility of material. I have designed a timber structure. The wooden elements are joined by the means of woodworking carpentry joints. They can be dismanteled and used in another structure. Thanks to the lenght of structure members the use of crae is not needed.
plice.
13,95
DET 1
13,85
100 5 50 10 20 260 5 20 40 320 5 10 5 850
Blind scarf splice. Beams are spliced above columns, where moments are the smallest. Joint used where beams having three perpendicular axes meet.
13,00 engineered soil filtration layer drainage layer water-impermeable layer x2 plywood board thermal insulation/wooden battens vapor barrier plywood board cavity cavity/suspended ceiling aluminum heat conducting plate calcium silikate board silicate-based paint
heating pipe
120 120 20 120 5 20 260 5 10 5 685
D
Joint used where beams having three perpendicular axes meet. splice. Beams are spliced above columns, the scarf splice Column splicewhere moments areBlind
louvers aluminum plate cavity larch impregnated board vertical battens/cavity waterproof membrane plywood board vertical battens/thermal insulation - mineral wool vapor barrier calcium silikate board silicate-based paint
D
Joint used where perpendicular beams meet
10,00
9,69
120 120 20 260
louvers aluminum plate cavity double layer of untreated glass
hopper window
C
where beams having three perpendicular axes meet.
C
DET 2 vent in the curtain wall
timber beam screwed to the top of the main beam 6,40
6,09
15 5 5 50 10 60 100 10 40 20 5 310
flooring - wooden panels load distribution plate heating pipes embeded in an aluminum heat conducting plate wood fibre panels plywood board cavity/wooden subfloor acoustic insulation - mineral wool/wooden subfloor plywood board cavity/wooden subfloor calcium silikate board silicate-based paint solid wood main beam 600x200mm solid wood beam 240x120mm
untreated glass outer pane 4mm argon-filled cavity 16mm untreated glass inner pane 4mm solid wood column 400x400mm
steel curtain wall mullion
DET 4
+/- 0,00
The order of assembly of the first structural frame
Western Facade
Section B-B
Section A-A
28 GSEducationalVersion
/details Detail 1 Attic 1:5
Detail 3 The corner pillar 1:5 90o degree elbow pipe Ø40mm
90o degree elbow pipe Ø40mm screw Ø8mm screw Ø6mm cooling system - distribution pipe Ø40mm
GSEducationalVersion
10
90o degree elbow pipe Ø40mm
90o degree elbow pipe Ø40mm
leaf guard gutter cap
screw Ø10mm box gutter boxed gutter hanger screw Ø6mm
2 1 5 0,5
GSEducationalVersion
downpipe - used for removing rainwater when the cooling system is not operating cooling system - distribution Ø65mm pipe Ø40mm cooling system - upflow pipe Ø40mm
26
perforated L-profile
downpipe - used for removing rainwater when the cooling heating system upflow pipe system is -not operating Ø40mm Ø65mm
round pipe bracket
plug-in box gutter outlet
2 0,5 4
85
cooling system - upflow pipe Ø40mm pvc cover flange backing rod round pipe bracket sealant
90o degree elbow pipe Ø40mm downpipe - used for removing rainwater when the cooling system is not operating Ø65mm
heatingsystem system--upflow distribution heating pipe pipe 30mm Ø40mm
terracotta louver cooling system - 90o degree elbow pipe Ø40mm
pvc cover flange cooling system pipe Ø30mm backing rod curtain wall steel insulated post sealant
cooling system - pipe Ø30mm
mounting the louvres frame to the curtain wall post - L-profile
32
cooling system - upflow pipe Ø40mm suspended ceiling - hanging rod larch planks, flat joint
mounting the louvres frame to heating system - distribution the curtain wall post bracket pipe- 30mm
cooling system module aluminum frame suspended ceiling - C-profile larch planks, flat joint
terracotta louver cap mounting the louver to the frame ceramic bracket cooling system pipe Ø30mm curtain wall insulated post mounting the steel louver to the frame - L-profile 0,5 1 0,5
pipe clip heating system - heating pipe heating system -aluminum conducting sheet suspended ceiling - border profile suspended ceiling - T-profile
mounting the louvres frame to terracotta louver the curtain wall hopper post - L-profile window mounting the louvres frame to the curtain wall post - bracket terracotta louver cap mounting the louver to the frame ceramic bracket mounting the louver to the frame - L-profile
61 1 2 0,5 6
terracotta louver hopper window 12
12
2
12
0,5
2
26
12
0,5 1 0,5
12
2
12
2
6
5
1
6
5
1
40
26
68,5
GSEducationalVersion
Detail 2 Connection of the facade and the first floor 1:5
Detail 4 Drainage 1:5 12 26 61 1 2 0,5 6
heating system module aluminum frame
40
GSEducationalVersion GSEducationalVersion
aluminum L-profile screw Ø6mm screw Ø8mm aluminum bracket heating system pipe Ø30mm cooling system - distribution pipe Ø40mm GSEducationalVersion
hopper window aluminum L-profile
main structure - timber column 400x400mm
1 1 2
screw Ø8mm curtain wall mullion embeded vent heating system - heating pipe acoustic dylatation elastic strip
5
1
5
stainless steel flashing
31
L-profile
10
cooling system pipe Ø30mm
main structure - timber sill plate 200x400mm
pipe- wall penetration
4
1
steel support bracket concealed downpipe Ø65mm main structure - timber column 400x400mm screw Ø30mm
2
GSEducationalVersion
stainless steel sheet stainless steel flashing
heating system distribution pipe Ø40mm L-profile
U-shaped profile
concealed downpipe concealed downpipe
main structure - timber sill plate screw Ø8mm 200x400mm
steel support bracket drain concealed downpipe Ø65mm screw Ø30mm
pipe- wall penetration drainage around the building
stainless steelsealant sheet backing rod pvc cover flange pvc cover flange waterproof membrane collar
29
GSEducationalVersion
concealed downpipe concealed downpipe
U-shaped profile screw Ø8mm drain
House next to a wall Czersk near Warsaw
Completed 10/06/2015 l 4th semester l Academic Project - awarded with distinction l Individual Project l prof. Konrad Kucza-Kuczyński l dr Piotr Trębacz - pt@ati.waw.pl l arch. Witold Orzechowski - waorzechowski@wp.pl l My role and contribution: entire content and development made by myself
The project is an assignment we were given during architectural design classes on detached housing. We were told to choose an inspiring family from our surroundings. The living and working spaces were to be fitted into the design. We were expected to rethink the layout of the house and the plot and establish a dialog between the new component and the existing elements. Plenty of consideration was given to the choice of materials, appropriate scale, visibility and hiding the building and exhibiting the beautiful views. Localisation The project site was allocated in Czersk. It was one of the most important Mazovian cities in the medieval times. The settlement hosts famous ruins of a castle. We could choose one of the plots on the sloping surface in valley of one of Vistula’s tributaries’ - Cedron. The vast choice of landform offered places suitable for letting our imaginations run wild.
30
/localisation and concept development
Localisation plan The place. Observations and fascinations One of my first presumptions was to initiate a tight connection between the house and the castle. Therefore I decided to place it just underneath the ruins on the other side of a trodden trail. It seemed reasonable to create a barrier shielding the inhabitants of the house from unwanted eyes while providing them with as many sights of the landscape as possible . In spite of that, I made an attempt to avoid turning my
01
project into a screening structure. At that time my interest in the wall structure occured. I was fascinated with its solidity, mass and secular character. While analysing the castle structure. I noticed that the huts, bastion and the towers seem to be attached to the wall - following it and dependent. The castle reminded me of a thread in the landscape and the buildings of volumes strung on it. Idea I checked if the principle governing the castle
structure would also work fine when applied to a one-family house. A parallel to the castle structure is achieved by repeating the wall and by dividing the house into three volumes. The first one is a garage, workshop and auxiliary rooms. The second one hosts the living areas and the third one hosts the inmate’s bedrooms. Moreover, I higlighted the contrast between the massive wall and light, openwork buildings.
07
Tight bond to the castle. The chosen plot lays just underneath the castle.
ommu04 Cnication. A corridor runs along the wall and distributes the movement in the house.
The gradation of the lightness of the interiors. Auxiliary windowless rooms next to the wall.
shape 02 The of the plot
of the 05 Parts house se-
roof 08 The leveling is
recreated in the trace of the wall.
parated and following the wall. The wall surrounds the entire plot.
parallel to the terrain.
slo03 The ping terrain.
opeProviding access to the view from the 06 Large nings al- 09 road, above the house thanks to the
Wall situated longways the slope.
most in all of the rooms provide views.
sloping roof.
Site plan
31
/plan zoning
Ground floor plan
First floor plan
The plan The house has a longitudunal shape. A corridor runs along the wall. That is also where the view axis runs. The corridor is not interrupted with any rooms or walls in order to preserve the clarity of view. The prevailing part of the house is situated on the ground level. Therefore, the bedrooms and the living room have their own exits to the garden. The complicated landform enforced the use of stairs. One of them leads from the courtyard to the main entrance, The other ones connect the living and the sleeping part of the house. The third ones are situated in front of the parents’ bedroom. Program zoning Working spaces are situated in a double height space. The entire southern wall is glazed and shielded with moveable blinds. The living zone consists of a northern part of closed rooms such as boiler room, storage room and a toilet. The rest of it is a large open space with a second exit to the small yard in between both parts of the house. The gradation of the lightness of the interiors is most vivid here. All bedrooms have doors leading to terraces.
Garage, workshop and auxiliary rooms
Living zone
Night zone
1555 plot 5.3 auxiliary rooms 4 wardrobe
30.7 workshop
15 21 corridor WC and laundry
56 92 garage
9 10.5 storage rooms anteroom
67 107 bedrooms
15 kitchen
66 100.5 living room with dining space
6.4 staircase
Program (sg meters)
Living room interior - wooden skeleton exposed
32
ducationalVersion ublisherEngine 374.16.26.100
/relation to the surroundings
Eastern elevation 110.7
110.8
3
109.9 109.5
5
108.8 108.5
107.5
108.1 107.8
107.9
107.5
107.0 106.8
106.8
1
105.4 6
105
105.0
105.0 104.1 104.0 103.5 4
Section A-A
103.5
103.3
2
Western elevation Site plan The terrain is sloping towards the south and the valley of Cedron. An overwhelming part of the plot is surrounded with the wall. The plot can only be entered by crossing the wall. There are three entrances. The one on the northern wall and the one in the south-eastern corner of the area are designed for the pedestrians. The doorway in the north-eastern corner is used by vehicles.
The paved areas and the greenery The western part of the plot is covered with greenery, whereas the eastern piece is mostly paved. Clinker was used to cover the surfaces of the courtyard, the terraces and the paths. The route cutting the loan in two is unpaved. High-rise plants were rejected in order to avoid veiling the view. The wall The wall is 100 cm higher than the building. In places, where it is not adjacent to the house, it is as high as a fence.
33
/section and details
Structure The load bearing structure consists of an airbrick wall and a timber frame. The rafters transfer the loads both to wooden columns and to the brickwork. The contrast between the massive wall and lightweight timber frame is highlighted by exposing the wooden skeleton inside and outside the building.
Window openings I proposed low and longtitudional windows in the brick wall. They are placed on various heights depending on the ground level next to the window. The openings in the timber frame wall extend from the floor to the ceiling. Thereby some parts of the wall top plate beams are visible through the glass.
Section B-B.
34
Multistorey residential building
Madalińskiego Street, Mokotów, Warsaw, Poland
Completed 21/01/2016 l 5th semester l Academic Project l Individual Project l prof. Stefan Wrona l arch. Sławomir Kowal - slawek@kowalstudio.pl l My role and contribution: entire content and development made by myself
The assigned task was to propose a design of a residential building in the imposed area. Students were expected to prepare a building scheme solving the relation with the surroundings, functional challenges, appearance and structural issues. The project work was preceded with profound analysis of the location. Localisation Mokotów district of Warsaw is a lively place. It’s architecture is a mixture of components, whose history can be traced back to the enlightenment era, interwar and the post-war years. The richness of the styles and patterns forms a collection of inspirations. From this set, I derived numerous examples alluding to neoplasticism. Their propinquity to this style is comprised in angular shapes, resignation from using the ornament and the aim to obtain open space.
35
/concept development Idea Transfering a play of lines and surfaces from a leaf of paper to a three-dimmensional form. Horizontal lines Horizontal lines Balance. - tranquility - tranquility
Balance.
Vertical lines -Vertical lines -Symetry. height, height,
Symetry.
Perspective. Perspective. Emphasis.
Emphasis.
Focal point.
Focal point.
Repetition.
Repetition.
Proportion.
Proportion.
Alternation.
Alternation.
Negative volume.
Negative volume.
Dominant.
Dominant.
01
Mokotów neoplasticism. Lines and surfaces.s. neoplasticism.
cal 03 Vande r t ihori-
05 Repeatable floor
zontal lines. Wooden battens.
on top of separate volumes.
arying 02 Vshape sur-
cal 04 Vande r t i hori
e 06 Mmento v ena
zontal lines. Main construction.
bled between the separate volumes.
faces.
Mokotów neoplasticism The district is rich with buldings derivingTransformation. from neoplaTransition, Transition, Transformation. sticism. The buildigs listed below helped me understand the context.
a
Łowicka Residence, Łowicka Street, 2012. Loose arrangement of window fields.
b
Pułsowski’s house, Kielecka Street, 1937. Dark plinth. Recessed corner.
c
Słońce (The Sun) Colony, Madaliń skiego Street, B. Pniewski, 1930. Openwork.
d
Klewin house, Madalińskiego Street, 1937. Shaping by substracting, concrete frames, ship references. Negative volume.
b
d Ró życ
kie
Str ee t
a
Ki
el
ec
ka
St
re et
c
go
Locatisation plan
Groundfloor and plot arrangement scheme
36
/plans 1-room dwelling 2-room dwelling 3-room dwelling 4- and 5-room dwellings common spaces
A large part of the time spent on working on the project was consumed by compiling the repetitive floor plan. I located the smaller dwellings nearby the square and the bigger ones either above the slope leading to the garage or in the western part where the light can access the interior through windows on three walls. OM S RO
B
OM S
LIV OM ING S RO
04
M
S
OM S
M
RO
First floor plan
LIV ING
Living spaces along the street. Bedrooms on the yard side.
21 x 16,67 = 350
02
O DR OMS BE
D BE
L IV ING
Loggias on the street side. Balconies on the backyard side.
LIV ING
RO O
RO
OM S
S
L IV ING
03
The bathrooms ROOM on two lines S ED strung
M
S
M
RO O
LIV ING
BE
O O MS DR
RO O
01
West staircase distriO DR OMS butes movement to BE three apartemnts per L IV ING floor, the eastern one RO OM to S five.
BE
O O MS DR
RO
RO O
L IV ING
S
O DR OMS BE
D BE
Basement plan
Groundfloor plan
37
/sections, elevations and model
Section B-B
Eastern elevation
Section A-A
Western elevation
38
WC bathroom
4.5 balconies Program (sq meters) 44.1m2
/apartment layouts and facade details
Program (sq meters) 78m2
8
10.8
10.7
12.8 31.5
9.1
29.7 living zone
29.5
25.3
living zone
living zone 5 2 WC bathroom
4.5 3.5 8 bathroom corridor
2 5.2 WC bathroom
10 17 corridor
7.2
5.9 balconies
4.5 balconies
9.1 10.7
2 5.2 WC bathroom
10 17 corridor
7.2
5.9 balconies
aluminium „z” section/ cavity
areated vapourconcrete barrier areated concrete
17.6 24.8 corridor 11.9 balconies
pine impregnated batten 15x150mm pine impregnated batten 15x150mm pine impregnated batten 30x200mm
Program (sq meters) 93.8m
pine impregnated batten 30x200mm pine impregnated batten 15x150mm
Program (sq meters) 78m
2
9.3
wooden battens grid dyed fiber-cement wooden battensboard grid aluminium „z” section/board cavity dyed fiber-cement water impermeable foil
2
9.1
aluminium flashing mounted with brackets aluminium flashing mounted with brackets
rockwool water impermeable foil vapour barrier rockwool
29.7 living zone
sleeping zone 29.5
11.9 balconies
9.3 11.6 39.3 sleeping zone
9.3
12.8 31.5
living zone
17.6 24.8 corridor
Program (sq meters) 93.8m2
Program (sq meters) 78m2
Program (sq meters) 44.1m2
5 2 WC bathroom
9.3 11.6 39.3 sleeping zone
9.3
sleeping zone
sleeping zone
8
corridor
5.9 balconies
pine impregnated batten 15x150mm
9.3 11.6 39.3 sleeping zone 29.7 living zone
2 5.2 WC bathroom
17.6 24.8 corridor
2-room dwelling 7.2 11.9 balconies Layouts of the apartments
4-room dwelling
Program (sq meters) 93.8m2
5-room dwelling 20 10 10 120 150 15
20 10 10 120 150 15
ceramic tiles with flexible joint flexible adhesive flexible waterproof coating lightweight concrete reinforced concrete balcony slab tight external plaster
20 50 50 170 5
ceramic tiles with flexible joint flexible adhesive flexible waterproof coating lightweight concrete reinforced concrete balcony slab tight external plaster
20 parquetry 50 concrete pine impregnated batten 30x200mm separating layer rockwool pine impregnated batten50 30x200mm 170 reinforced concrete slab 5 mineral plaster
parquetry concrete separating layer rockwool reinforced concrete slab mineral plaster
I chose fiber cement as a wall covering - a darker shade on the base. The density of the battens grid is changing. It blends the railings of loggias with walls. Balcony detail. Axonometric view
Facade detail. Perspective view
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Falconry
Modlin Airport near Warsaw
Completed 11/06/2014 l 2nd semester l Academic Project l Individual Project l prof. Ewa Kuryłowicz l arch. Michał Adamczyk - michał.adamczyk@mimika.com.pl l arch. Mikołaj Kwieciński l My role and contribution: entire content and development made by myself
Assignment This assignment was performed for the architectural design course. We were told to prepare a draft of a settlement of a falconer and his pupil birds. Site and functional programme A newly open airport a bit outside Warsaw was chosen to become the localisation of falconry. The foundation consists of a dwelling of the falconer - suitable both for a permanent and a temporary stay, constant stay aviaries and reproduction aviaries, sheds, and a subsidiary building. Idea The falconry proposal, which I present here, is supposed to comply with the spirit of the airport and the spirit of nature. During the work on the draft of the design I was guided by the fascination with flying. All of the decisions, I took, were determined by the will to create objects, which would give the impression that they are about to take off.
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/idea and it’s implementation Airstrip
Falconry
Aero Service Nowy Dwór Mazowiecki
al
Termin
I came with a proposal of a group of objects resting on many thin and undersized abutments, which enlace the solids. The posts bring to mind ropes holding a ballon and preventing it from flying away into sky. Due to their proportions and deflection, the abutments seem to be under the action of tensile force while they are under compressive force. Thereby the buildings appear to be light masses unconnected to the ground.
ZM
Localisation plan
478
L
444
Dynamic form
Lantern
Membrane
D2
Fabric
Multiple, thin abuntments.
±0
Air
Flying
90 220
Opposing gravity
One, thick abuntment in the middle of the base.
Suspended shape. Mirage Uncertain where the object actually is.
S H
A
Shape, rounded corners.
A
Falconer’s house plan
A Grass blade
Thin rods
395,00
100
Falcon’s habitat
WD
Many volumes
90 240
„Waving” aggregation
-140
Wind blast
House trailer
821
Self-sufficiency
748
Loneliness
D1
Emptiness
Diagram showing inspirations
Single volume.
Raised volume
Compression. The result of the attraction of the Earth.
Tilting the volume.
Inclination of the volume. It seams to attempt to take off.
315
260
25
285,00
Appearances of tension. WS
Idea.
90
-150,00
100
40
WP
30
30
0,00
-250,00
Falconer’s house Eastern elevation
Smaller aviary Southern elevation
Shed’s elevation
Falconer’s house section
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/structure and site plan The buildings have a “box” - an internal construction built of a steel skeleton filled with insulation. The internal construction is suspended to steel frames, which are visible from the outside. A thin fiberglass membrane is stretched on the frames. The water and thermal insulation is composed of the membrane and the cavity underneath it, filled with air. It calls to mind a chinese lantern and escalates the impression of lightness. The supports were attached to the “box” with short rods passing through the punctures in the membrane. The succeeding step was creating an inclination of the external layer of the buildings. They are inclined by 2 to 4 degrees to the ground surface. As a result they loose touch with ground. The supports form a dynamic outlook due to their denser spacement in the place, which is located lower above earth. Diffrent functions were distributed in separate buildings. Therefore there are three aviaries, a subsidiary room hosting a kichten, a workshop and a storage room as well as the biggest lodging - the falconer’s house serving his needs.
„Ropes” - thin and undersized abutments. Membrane. Suspension structure. „Box” - internal steel construction filled with insulation. Foundation. GSEducationalVersion
Layers of the construction
Principle behind the buildings’ alignment Falconer’s house Reproduction aviary Constant stay aviary Subsidiary room Food storage room Shed
Exemplary route of load
Cloth texture study 1 2 3 4 5 6
Structural scheme
Site plan
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/my interests
Selection of works 2013-2016
Pieskowa Skała, Poland 2015 19th district, Warsaw, Poland 2016 Bielsk Podlaski, Poland 2015 Gothic portal, England 2014
Arkadia, NieborĂłw, Poland 2016 Gothic church interior, England 2014
Gothic portal, Poland 2015 Krasiczyn, Poland 2016
Kazimierz Dolny, Poland 2016
Agnieszka Panasiuk tel: 0048 666 325 033 email: agnieszka.bp@gmail.com
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