PORTFOLIO DOMINIKA KŁOPOTEK architecture intern
DOMINIKA KŁOPOTEK engineer architect
EXPERIENCE
STUDIO 412
Sep 2020 - currently, interior design, Gdańsk, PL
MAKA.STUDIO
Hello! I am a master’s student, eager to gain valuable experience in architecture.
summer 2020, architecture intern, Gdańsk, PL
CUMY MARKETSPACE GDANSK
ASSOCIATION OF POLISH ARCHITECTS
2020 - currently, member and President of the student Association of Polish Architects Young ( SARP Młodzi)
OPEN HOUSE GDYNIA & GDAŃSK
I am interested in a paid internship, which may be simultaneously conducted within erasmus+ traineeship funds.
born 12/04/1998 based in gdańsk, poland
2020 - currently, Rhinoceros - tutor beginner level 3D printings designer, Gdańsk, PL
Volonteer (2017, 2018), Co - organiser (2019 - currently), part of international architecture festival Open House Worldwide
GDYNIA DESIGN DAYS
JANE’S WALK INSPIRATION BANK
CONTACT ME
+ 48 509 090 070 d.klopotek@icloud.com
2018, Design talks Business conference co-organiser, Gdynia, PL
2018, inteRDISCIPLINARY WORKSHOP, GDAŃSK, PL
CURRICULUM VITAE | 2
EDUCATION GDAŃSK UNIVERSITY OF TECHNOLOGY | POLAND
SKILLS Rhino 6
architecture & urban planning | bachelor’s degree 2017 - 2021 architecture & technology | master’s degree 2021 - currently
HASSELT UNIVERSITY | BELGIUM bachelor’s degree exchange program 2019 - 2020
Revit Grasshopper 3d SketchUp Lumion 10 Vray Photoshop InDesign Illustrator
CERTIFICATION REVIT AUTODESK PROCAD SCHOOL
2018, Autodesk Revit Certified Professional Certification Credential ID EM052409573230 mother language Polish C2 proficiency in English driving license
CURRICULUM VITAE | 3
SELECTED PROJECTS
ACADEMIC
COMPETITIONS
5
SENIOR HOUSING GDAŃSK
19
REUSE ITALY
2020 | gdańsk | bachelor’s diploma
10
THE BRIDGE
23
UDESIGN
2020 | ostend | uhasselt
14
GREEN STEPS
26
KICKON
16
PRELUDIUM HOUSE
27
PARAMETRIC DESIGN
2019 | 3d printings
2019 | gdańsk | urbanism
2018 | the idea of house
2020 | neapol
2020 | belgium | winners
2019 | kick scooter streetwear
SENIOR HOUSING GDAŃSK
Revit 2020 | Rhino 6 | Lumion 10
INDIVIDAL PROJECT under the supervision of Ph.D arch.. Jacek Poplatek BACHELOR’S DEGREE | GDAŃSK UNIVERSITY OF TECHNOLOGY | POLAND
SENIOR HOUSING GDAŃSK | 2020 | bachelor’s diploma project | 5
idea
In Poland, the problem of housing for older people is still treated marginally. The purpose of a project is not only to meet the basic needs of safety and comfort but also to contribute positively to the mental health of its the permanent residents.. The key to the project was the creation of a space to stimulate the creation of new neighbourhood ties, for example by coincidental meetings in shared spaces, while respecting the individual’s identity and privacy.. It was important to use a soft edge as a „smooth transition”. such as vertical garden, common kitchen, dining room and balconies.. In addition, there are spaces open to public like sensory garden on the top level, a restaurant and a mini-gallery in the ground floor.
Two different typologies - medival (vertical) form and modernist (horizontal) blocks The potential of location - water & green
SENIOR HOUSING GDAŃSK | 2020 | bachelor’s diploma project | 6
PRZEKRÓJ 1:100 2
3
4
5
6
7
8
2
3
4
5
6
7
8
2
4
3
2
3
115 115 115 115 70 70
226
160
225
130
35 124
6
5
130
7
6
3435 3435
840 840 840 840 839 130 130
420 420
844
232
5
4
840 840
420 420
840 840 840 840
130 31 53
147
1710
147
147
147
160
35
124
130
130
130
130
31 53
147
147
147
147
11
3.54 m
93
513 466 420
Sw1
3 840
106
Sw2
146 811 840 840
/ 27,5
4 12
x 16,5
/ 27,5
146
126
3.80 m
70
400 400 400 400 400
95 92 95 713 840 840
159
135 135
700
126
70
132
140
92 95 95 713 840 840
159
135 135
700
11
3
4
Sw3
x 17
Sw4
1.98 m
5
3435
Sw2
400 400 400 100
100
180 120 1998 400
400 400
120 400
400
1381
1346
400143 400
474
400 400
331 400
400
2000 2400
190
400
400
400 100 400 120 400
400 1998 2472 120 100 180 400 2400
400
180 400 400 2472
400
8
7
J
P4
opaska żwirowa
400 400
128 828 800 800
6
8
7
Sw5
17
S4
/ 30
2%
2%
LEVEL 3
ława fundamentowa 140 x 40 cm
2%
2
3
4
6
5
650
840 840
840 840
3470
7
420
420
8
150 150
840
400 400
8x
P2
-3.31 m
840 840 147
podciąg żelb. 24x40cm
840 840
840 840
420
25.4 m² gres
140 0.33
0.34
400
12
x 17
164 420 420 650
800
93
8x
513 466 420
106 840 840
840
17
146
146 811 840 840
400 400
146
126
3470
70
132
140
ława fundamentowa 140 x 40 cm
92 713
95 0.9 95
0.17
5
4
115 115
420
PoziomD1
1
2
3
159
1
2
3
K
PoziomE0 0
ława fundamentowa 140 x 40 cm
2%
135 135
-3.96 m perforowana rura PCV 128 Ø 10 cm
700 828 800 800
420
420 840
3
4 0.15
150 150
2
6
1
7
L
Poziom -1 F -350 G H
I
8
0.16
0.37
SECTION
J
J
400 400
400
0.19
10 x 15 27.5
K
400
400
0.20
1
2
3
5
4
7
6
8
SENIOR HOUSING GDAŃSK | 2020 | bachelor’s diploma project | 7
150
3435
L
115 115
840
420
420
420
420 840
840 840
840 840
840 840
L
800
650
150
650
150 800
660
2
3
4
A
5
6
7
0.2
8
950
141 S1
840 840
3435
1
D B
840
0.14
ława fundamentowa 140 x 40 cm
840 840
840 840
3435
5
6
3
0.36
400 400 400 660 660 334
100 1998 550 400 550 300
3.11 Pokój 31 25.5 m² gres
0.13
2%
I Poziom 3
300
0.8 P6
0.12
0.11
P5
ława fundamentowa 140 x 40 cm
120 400
290400 290300 2472 180 opaska żwirowa
0.10
400 143
0.6
0.4
1,5% / 30
/ 30
1280 B H
Poziom 2 J 680
400 380
0.5
8 x 15 30
-1.84 m
ława fundamentowa 140 x 40 cm
G Poziom 4
380 0.7
1.98 m
P7
11 Sw4
P5
F
400 400
257
3.80 m HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
/ 27
/ 27
474
P4
3.12 Pokój 32 25.5 m² gres
,5
x 16
1614
3.1 Komunikacja 103.3 m² terrazzo
331
,5
± 0.00 = 2.3 m.n.p.m
-3.31 m
0.35
2
1
5.30 m
400
400 100
109 49 109 115 115
7
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
,5
-0.26 m
150
/ 27
Poziom 5
C 980 0.3 3.13 Pokój 33 25.5 m² gres
6.80 m
400 350
16
3.6 Magazyn
9.4 m² żyw. epoks. HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
8.30 m
0.1
,5 / 27 ,5 16 9 x 3.8 Sala kinowa
0.31
-3.200.32 m
8
/ 27
11 75.2 m² wykładzina x
6.80 m
,5
-0.11 m
,5
18.7 m²9 wyk ładzina
0.30 Sw4
6.6 m² żyw. epoks. 9.80 m
16
,5 / 27 ,5 3.2 Salon
100
D3
P4
żyw. epoks.
34.0 m² gres
ława fundamentowa 140 x 40 cm perforowana rura PCV
3.5 Kuchnia pom.
120 400
Sw1
23.8 m²
25.5 m² gres
/ 27
Sw1
P2 3.9 Komunikacja
3.69 m
3.14 Pokój 34
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
/ 27
,5
0.29 P1
16
,5
0.26
0.27
,5
x 16
213 90
3.49 m podciąg żelbetowy 24 x 40 cm 3.17 Pokój 37 0.28
P6
16
9x
D3
O1 O1
6.49 m
P3
,5
9x
9x
P4
P2
6.69 m
0.25
16
,5
213 90
0.24
33.9 m² terrazzo
12.80 m
,5
P4
52.0 m² gres
O1
550
1,5%
14.27 m49.8 m² terrazzo
7.3 m² żyw. epoks.
3.18 Pokój 38 P2
9.69 m 9.49 m
0.23
1,5%
400
D3
O1
950 290
213 90
0.22
25.50.2 m² gres
3.3 Jadalnia
3.4 Ogród
/ 27
2400
Sw1
,5
180
660
3.15 Pokój 35 16
/ 27
,5 11.30 m 3.7 Pom. pomocnicze
0.21
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
1,5%
,5
16 9x
9x
P3
400 326
S1
S1 S3
12.69 m
P3
1940 A E
L 9x
,5
P4
D
Poziom 6 3.16 Pokój 36
,5
P2
12.49 m
1 150150 150
3.16 Pokój 36
420
6.80 m
16.14 m
213 90
1,5%
400
2
800 650
840
3.10 Komunikacja 24.1 m² żyw. epoks.
kl. odymiająca
N +3.30
15.59 m
1,5%
400
3
4
3435 3470
8
141
840 840
840 840
150
7
400 400
420
K
1069 6
15.79 m
P3
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
3900
147
147
147
400 400
5
6
202 100
800 650 1710
31 53
130
130
2290
840 840 839 130
840 420
800
P6
120
F
130
5
650
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
E
130
400 400
D
35 124
9 x 16,5 27.5
550
J
160
4
7
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
Poziom 2 680
225 3
32 23 190
400 400 468 I C
420 844 226
400 400
840 420 232 2
0.38
HP25 162
65
L
828 800 800
6
P3
5
/ 30
L
128
perforowana rura PCV Ø 10 cm
S1
Sw6
184
400 400
257
140
3435
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
146
132
± 0.00 =
-0.11 m
-0.26 m
A
184
300 352 198 95
x 16,5
146
5.30 m
400 400
/ 27,5
16,5
9x
146 811 840 840
K
K
1,5%
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
/ 27,5
J
J
331
25.5 m² gres 16,5
146
I
400 400
2400
10 x 15 27.5
I
/ 27,5
16,5
9x
106
840
3.69 m
164 420 420
2Sw4
115 115
1,5%
474
1,5%
3.11 Pokój 31 25.5 m² gres
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
D4
170
400 120
B H
K
1069
S7
400
95
25.5 m² gres
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
/ 27,5
4.8 Siłownia / 27,5
16,5
H
400 400
16,5
H
11.30 m
9x
Sw1
980
1710 130
257 400
1,5%
257 143
4.12 Pokój 42
G I
400 400
4.1 Komunikacja 103.3 m² terrazzo
F
660 660
225
400 120 100
G
180
14.27 m
143 331
Pokój 43 32 3.12 Pokój 4.13 gres 25.5 m² m² gres 25.5
103.3 m² terrazzo
/ 27,5
1,5%
F
474
16,5
H
2400
4.14 Pokój 44
25.5 m² gres
/ 27,5
16,5
9x
513 466 D1 420
420 420
-3.20 m
180
226
400 1998
1 1,5%
9.4 m² żyw. epoks. 4.5 Kuchnia pom. 6.6 m² żyw. epoks.
G
400 400
2
400 400
6.6 m² żyw. epoks.
P8
400
839
844 232
400
400 400
380
93
P1
115 115
400
70
E F
3.14 Pokój 34 4.15 Pokój 45 25.5 m² gres 25.5 m² gres
3
4
4.3 Jadalnia
75.2 m² mata gumowa
9x
164
K
70
400 400
1,5%
4.11 Pokój 41
podciąg żelbetowy 109 49 140 24 x 40 cm 109 1 115 2 115
D2
G
800 650
188
141
400 400 400 141
11
400 400
9x
żyw. epoks. D1
64 64
300
D3
3318 840
D
E
E
33.9 m² terrazzo 3.5 Kuchnia pom.
6.69 m
140
0.18
840
D
400 400
1
4.16 Pokój 46 25.4 m² gres
0.39
840
400
D1
491
188 115
2
33.9 m² terazzo
4.4 Ogród
75.2 m² terrazzo
10 x 15 27.5
400 400
300
115
3.16 Pokój 36 25.4 m² gres
9x
6.54 m
109 49 109 115 115
1,5%
I
840
D
8
25.5 m² gres
9.4 m² żyw. epoks.
D1
P1
1,5%
A E
H
420
840
150
D3
400 400
300
420
1069
3
9.80 m
18.7 m² wyk ładzina
9.80 m
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
G
840
400
158
260
103
1215268
90 213
147
3.3 Jadalnia
49.8 m² terrazzo
4.9 Komunikacja 23.8 m²
9.54 m
8
Poziom -1
420
17 42
95
S2
90 213
Sw1 D2
400 400 180 400 400 1573 1339
334
400 400 1573 1339
2400 400 400
400
400
125
147
4 3.80 m 9 x 16,5 27.5 4.10 Komunikacja
9.69 m
4.17 Pokój 47
D
Poziom 3
40 53
8
420
3435
8
7
147
184 400 400 400 400 400 400 468 429 429 32 184 23 190 32 23 266 190 400 400 120 400 100 468 202 202 170 266 170
2400 400 180 120 100
326
2400
400
180 400
400 250
12.54 m
3.17 Pokój 37
115 115 70 70
-350
6
420
1710
147
8.30 m
S2
7
115 115
800 650
18.7 m² 27,5wyk ładzina / warsztatowa 3.8 Sala 16,5
3.80 m
34.0 m² gres
ława fundamentowa 140 x 40 cm perforowana rura PCV
L
LEVEL 1
6
E
150
D
836 882
3.13 Pokój 33
żyw. epoks.
P1
1
800
130 31 53
4.6 Magazyn
D1
12.69 m
O2
79
7
800 650
46
-3.20 m
83
674
8
25.5 m² gres
D3
L
400
LEVEL 6 1069
129
840 840
3.2 Salon
Sw1
K
G
3.6 Magazyn
P1
1,5%
Sw1
J
18
7
6
129
840 3320
5
10 x 15 27.5
I
400
153
6
147
147
129 774
130
N +3.30
9x
400
H
147
129
5
3.9 Komunikacja
1
400
G
H
100
8
4.18 Pokój 48
23.8 m²
400
120
F
130
P6
150
250 2x14 O3 0
2400 180
400
400
400 400
32 304 70 22 70
D1
140
D1
90 213
15 148 32 D1
578
157 90 213
D1
15
90 213
90 213
8
7
3.1 Komunikacja
125
K
474
E
D
400
304
296
90 213
D1
150 22 225 22 130
D1
90 213
90 213
16
Sw1
9
D1
128
7
213 ywica epoksydoważ 5.9 m² 90 Toaleta damska 2 1.27
D1
S3
-350
845
5
35 124
258
16.14 m
400
108 138
160
S5
800
1,5%
2400
2472 400 400 17
400 400
64
5 150 5
Sw1
243 32 96 90 73 90
483
9 276
D2
828 800 800
6
3.18 Pokój 38
184
186 155
840
225
800
C
I
400 400
400
L L
S1
840 840 147
3435
83 83
52.0 m² gres
150
5
4
Sw4
127
S2
400 800
3
K J
. epoks.ż 2.8 m² WC 1.28
9
1,5%
L
3
700
127
Sw8
180
2
K
150
. epoks.ż 3.2 m² WC 1.21
. epoks.ż 2.0 m² WC 1.29
1710 31 53
130
130
149
840 840 839 130 130
S1
Poziom 0
2
800
. epoks.ż 1.9 m² WC 1.22
9
213
280
3435 5
840 840 839 130
149
595
6
P1
0
1
terazzo 11.0 m² Toaleta damska 1 1.26
90 213
5
49.8 m² terrazzo
S7
840
4
328
7 x 17 25
120
149
243
844 226
130
6
1
Poziom 1
3
123
D1
100
650
130
149
257
124
840
420
232
1,5%
380
2
215
6
D1
1
K
F Sw2
376
400
400
158
158 122
242 400
400
120
398
D2
400
400 100 120
400 250
125
2472
150
150
157
156 Sw1
400
400
Sw1
400 800 3900
ława fundamentowa 140 x 40 cm
ława fundamentowa 140 x 40 cm
3435
1
Sw1
D1
180
121 242 Sw1 D2 Sw1
400
125 250 150
125 400
ława fundamentowa 140 x 40 cm
124
637
34.0 m² gres
400 400 429
840
135 135
Sw1 terazzo 4.9 m² Toaleta 1.25 90 213
3
2.04
11 x 17 / 28
S2
35 124
3.7 Pom. pomocnicze
323
707
ława fundamentowa 140 x 40 cm
124
420
266
840
159
92 95 95 713 840 840
2
-1.84 m
150
ława fundamentowa 140 x 40 cm
156
B
A
250
-1.05 m
350
249
0 / 27
150
POZ. 1.1 Płyta żelbet gr. 20 cm
x 17
.5
3469 115
650
. epoks.ż 1.8 m² WC 1.23
. epoks.ż 1.9 m² WC 1.30
205
150
4
160
225
7
8
180
190
137
22
szacht 3.11 Pokój 31
25.5 m² gres
3.15 Pokój 35
2400
190
94
140
132
5
9 x 16,5 27.5
400 400
94
140
Sw4
30x40cm podciąg żelb.
1
J
N +3.30
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
120
12 50 24
S7
140
Sw1
24.1 m² żyw. epoks.
1573 1339
132
915
136
ywica epoksydoważ 23.1 m² Room 1.7
420 226
124
115 115 70 70
400 400
70 328
361
844
1,5%
400 400
126
wod. kan. szacht
334
22
12 x 17 / 28
S1
420
232
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
64
150
90 213
. epoks.ż 11.8 m² ska 02ę Toaleta m 1.20
3.10 Komunikacja
3.80 m
Poziom 0 10
27
20
246
3 840
S2
D3
2.20 m
/ 27
Poziom 4
440
D1
terazzo 9.1 m² ska 01ę Toaleta m 1.24
5
4.2 Salon
L
150
.5
2
D3
Poziom -1
840
spust rynnowy Ø10
150
90 213
terazzo 43.8 m² Atrium 1.5
1,5%
6.80 m
J
Poziom 1 380
/ 27
115 115 70 70
HALFEN HIT-SP łącznik balkonowy z izolacją termiczną gr. 120 mm
1280
100 20
70
3435
4.7 Pom. pomocnicze
L
F
109
126
690
30x40cm podciąg żelb.
4144
7
8
9.80 m
K
5.15 m
35 x 15
J
Poziom 5
1063
146
7.3 m² żyw. epoks.
16.14 m
1614
954
95
wod. kan. szacht
3
2
S1
345
152
1359
10
x 15
I
125
680
/ 27
.5
podciąg żelb. 24x40cm
Poziom 2
150
x 15
/ 27
x 15
125
8.15 m
/ 27
podciąg żelb. 24x40cm
tarcza
10
550
J
1940
76
146 811 840Sw1 840
ywica epoksydoważ 23.3 m² Komunikacja 1.13
D2
terazzo 30.4 m² Restauracja komunikacja 1.6
P5
Poziom 6
76
92 203
Sw2
4
19.40 m
K
Poziom 3 980
/ 27
265 2290
x 15
35
248
x 15
.5
250 O1 2x125
350
418
S7
146
4
90 213
22
7.3 m² żyw. epoks.
265
podciąg żelb. 24x40cm
podciąg żelb. 24x40cm
S7
S6
840 840
Sw3
250
30x40cm podciąg żelb.
3
52.0 m² gres
265 35
/ 27
.5
10
.5
290
H
G I
H
12.80 m
perforowana rura PCV
podciąg żelb. 24x40cm
H F
I
Poziom 4
11.15 m
.5
x 15
10
250 O1 2x125
ława fundamentowa 140 x 40 cm
G
- 0.02 S1
S6
106
Sw3
267
3.4 Ogród
270 35 .5
podciąg żelb. 24x40cm
podciąg żelb. 24x40cm
ława fundamentowa 140 x 40 cm
1614
1280
/ 27
podgrz. rynna wew.
POZ. 1.1 Płyta żelbet gr. 20 cm
E
125
326 64
249 151
x 15
1,5%
296 150
21
125
249 151
POZ. 1.1 Płyta żelbet gr. 20 cm POZ. 1.1 Płyta żelbet gr. 20 cm
35
POZ. 1.1 Płyta żelbet gr. 20 cm
213 90
-350
24
Poziom 5
64 270 35 265
10
podciąg żelb. 24x40cm
707
Poziom 0
396
D1
. epoks.ż 4.3 m² azienkaŁ 1.18
wod. kan.
180
513 466 D1 420
241
90 213
840 3 D1
. epoks.ż 6.4 m² Toaleta 1.8
D
G
17.34 m
podciąg żelb. 24x40cm
1.14 Administracja
119
193
. epoks.ż 3.8 m² azienkaŁ 1.19
67 9
93
706
150
E
F
16.78 m
35 345
D1
24
0
epoks.-1 44.5 m² żyw.Poziom
119
150
15
D1
Sw1
90
164 420 420
2
1
1
E
Poziom 6
.5
660 660
20
ywica epoksydoważ 17.4 m² Szatnia 1.16
152
140
15
I I
J 30x40cm
3.12 Pokójpodciąg 32żelb.
D1
24.1 m² żyw. epoks.
400
10
731
150
150
Sw1
400
podciąg żelb. 24x40cm
1.9 Restauracja
podciąg żelb. 24x40cm
1.10 Kuchnia
D1
D5 20
S7
1
D
D
800 400
10
14.5 m² żyw. epoks.
. epoks.ż 17.9 m² Pom. socjalne 1.17
90 213
3435
126
30x40cm podciąg żelb.
S1
250 180
250 O1 2x125
242
101
150
190 90 213
121 242
400 100
158
109 49 109 115 1 115 2
124
150
120
150
100
1,5%
POZ. 1.1 Płyta żelbet gr. 20 cm
172
20
adzinałwyk 35.5 m² Galeria 1.4
840 840
ywica epoksydoważ 11.9 m² Zmywalnia 1.11
22 51 22
114
E
F
800 400
1,5%
ława fundamentowa 140 x 40 cm
± 0.00 = 2.30 m.n.p.m
395
11 x 15 / 28
ywica epoksydoważ 24.1 m² Komunikacja 1.15
D1
22
terazzo 32.7 m² Hall 1.2
286
420 840wod. kan.
H
L
25.5 m² gres
180
420
706
0.00
400
POZ. 1.1 Płyta żelbet gr. 20 cm
284 61
400
35
213 90 486
POZ. 1.1 Płyta żelbet gr. 20 cm
1.3 Recepcja
11 x 15 / 28
90 213
terazzo 12.9 m² Recepcja 1.3
szacht
S1
S2
S2
L
K
10
380
13.0 m² terrazzo
6.14
940
G H
-
125
249
Sw1
J
169.3 m² terrazzo
2290 265
POZ. 1.1 Płyta żelbet gr. 20 cm
podciąg żelb. 24x40cm
1.12 Rozdzielnia
694
150
150
Sw2
100 POZ. 1.1 Płyta żelbet gr. 20 cm
489
151
I
265
160
150
POZ. 1.1 Płyta żelbet gr. 20 cm
64
150
82
H
3900 800 550
707
wod. kan. szacht
D
---
1940
20.8 m² żyw. epoks.
Poziom 3
Poziom 1
24
Sw6
D5
155
5
24
podciąg żelb. 24x40cm
296 150 20
1.1 Wejście
251
243
24
10 x 15 27.5
REI-120
150
19.1 m² terrazzo 397
G
19.70 m
980
Poziom 2
286 90
213 90
Sw6
122
312 113 spust rynnowy Ø10 spust rynnowy Ø10
F
E
840 290
podciąg żelb. 24x40cm
12 136 12 47 24 podgrz. rynna wew.
244
213 90
660 660
90
326
POZ. 1.1 Płyta żelbet gr. 20 cm
267
213 90
D1
D1
Poziom 5
1280 1.11 Zmywalnia
1.2 Hall
73
204
213 120
0.00m
24 1.17 Pom. socjalne
D
90
213 90
Poziom 6 1940
D1
32.9 m² terrazzo 938
HP25
18.3 m² żyw. epoks.
podciąg żelb. 24x40cm
24
REI-120 1.15 Komunikacja D6 23.8 m² żyw. epoks.
D1
213 90
POZ. 1.1 Płyta żelbet gr. 20 cm
213 120
EI-60
319
D6
S2
250 O1 2x125
C
680
120
POZ. 1.1 Płyta żelbet gr. 20 cm
1.16 Szatnia
D1 190
12
70
24
194
D5
7
D6
REI-120
213 90
213 120 D6 378
POZ. 1.1 Płyta żelbet gr. 20 cm
203 92
1.19 Łazienka
REI-120
58 24 56
237 D1
B
24
248
4.0 m² terrazzo
POZ. 1.1 Płyta żelbet gr. 20 cm
213 90 24
338
12
400
D2
23.4 m² żyw. epoks.
podgrz. rynna wew.
1.18 Łazienka 4.6 m² żyw. epoks.
17.8 m² żyw. epoks.
400
1.13 Komunikacja
148
1.4 Galeria 35.4 m² wykładzina
EI-60
D2
12 136
203 92
203 92
154
D2
D2
203 92
400 1339
1381
12.2 m² żyw. epoks.
S2
707
1.6 Restauracja kom.
11.9 m² żyw. epoks.
213 90
Sw2
Sw5
1,5%
POZ. 1.1 Płyta żelbet gr. 20 cm
12
POZ. 1.1 Płyta żelbet gr. 20 cm
D1
87
A
542
180
podciąg żelb. 24x40cm
12
POZ. 1.1 Płyta żelbet gr. 20 cm
1,5%
S1
30.5 m² terrazzo
Poziom 4
1.9 m² żyw. epoks. 1.23 WC
wod. kan. szacht
251
1.24 Toaleta m. 01
1.20 Toaleta m. 02
145
216 150
24
9.3 m² terrazzo
1.9 m² żyw. epoks.
wod. kan. szacht
362
POZ. 1.1 Płyta żelbet gr. 20 cm
967 180
690
9
3.3 m² żyw. epoks.
wod. kan. szacht
D4
139
250 O1 2x125
podgrz. rynna wew.
podciąg żelb. 24x40cm
1614
153
1.21 WC
podciąg żelb. 24x40cm
9
202
296 150
213 120 POZ. 1.1 Płyta żelbet gr. 20 cm
S7 kurtyna powietrzna 90 152
213 90
2.0 m² żyw. epoks. 218 122
9
15
Sw2
707
24
1.5 Atrium
POZ. 1.1 Płyta żelbet gr. 20 cm
577
12 162
5.0 m² terrazzo
1.26 Toaleta d. 01 11.1 m² terrazzo
1.30 WC
24
2400
127
213 90
D1
181
43.9 m² terazzo
1.25 Toaleta
D1
D2
D2
203 92
203 92
D2 203 92
1.29 WC 2.1 m² żyw. epoks. 9
213 90
D1
POZ. 1.1 Płyta żelbet gr. 20 cm
78 75
± 0.00 = 2.30 m.n.p.m
333
Sw3
Sw4
6.3 m² terrazzo
REI-60
90
S7
158
400
201 100 352 156 300
15
400
POZ. 1.1 Płyta żelbet gr. 20 cm
213 90
D1
1.27 Toaleta d. 02
1.22 WC
400
280
212
Sw4
D1
184
184 400
95 100 8 43 12 95
258
39 23
190
400
400
400
150 216
D5
kurtyna powietrzna
1.8 Toaleta
24
0.00
REI-120
131 3.0 m² żyw. epoks.
2000
155
12 x 16,5 30
- 0.02
1.28 WC
400
299
1.98
odwodnienie liniowe
6.1 m² żyw. epoks.
400
1.7 Komunikacja
24.0 m² żyw. epoks.
155 spust rynnowy Ø10
400
D2
Sw4
S9
22
Sw5
Sw1
25.5 m² gres
22
840
115
G F
3.13 Pokój 33 157
90 213
D1
Rozdzielnia Rozdzielnia1.12 1.12
115 115
F
REI-60
kurtyna powietrzna
123
Sw5
wod. kan. szacht
121
Sw4
73
0.00
699
ywica epoksydowa ywica epoksydowa ż 20.5 ż 20.5 m²m²
30x40cm podciąg żelb.
Sw4
150
90 213
D2
22
34.0 m² gres
terazzo 168.6 m² Restauracja 1.9
121
400
120
D2 Sw5
wycieraczka systemowa
20
103.3 m² terrazzo
30x40cm podciąg żelb.
G Sw2
Sw2
- 0.02
wycieraczka systemowa
80
3.1 Komunikacja
150
Sw1
S2
H
S1
- 0.02 S7
terazzo 18.9 m² cie śWej 1.1
Sw2
D1
121
242
L
I
160
173
90 213
Rys. 3. Konstrukcja klapy dymowej DYMKLAP PLD - Producent REWA Sp. z o.o. - przekrój B-B.
2400
Rys. 3. Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - przekrój B-B.
121
400
L D2
Rys. 3. Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - przekrój B-B.
3.17 Pokój 37
J
S2
strukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - przekrój B-B.
706
S1
S2
S1
S2
184
124
871
4 x 15 / 28
75
124
400
K
184
124
F
73
89
75
124
1066
107
S2 101
20
541
124
20
150
D1
639
249
150
0.00
120
144
151
1355
232 151
1
115
32
151
100
3.8 Sala warsztatowa
S2
151
20
S1
84
ywica epoksydoważ 14.3 m² 1.14
Administracja 18.7 m² wyk ładzina
150
Sw1
259
20
S1
120
90 213
130
6.05 3.5 Kuchnia pom.
150
6.6 m² żyw. epoks.
75.2 m² terrazzo
10 x 15 27.5
130
20
Sw1
130
150
6.04
399
ywica epoksydoważ 44.3 m² Kuchnia 1.10
żyw. epoks.
90
130
Sw1
29
Rys.1
90
B-B
wymiar nominalny
64
wymiar nominalny
Rys.1
123
D2
7
400 400
3 5 4 6 2 1
1. podstawa 2. ocieplenie 3. rynna 4. uszczelka 5. rama otwierana 6. zawias 7. przekrycie Rys. 2. Konstrukcja klapy dymowej DYMKLAP PLD - Producent REWA Sp. z o.o. - przekrój A-A.
B-B
wymiar nominalny
440
70
734
Sw1
844
Rys.1
7
wymiar nominalny
Rys.1
328 134
30x40cm podciąg żelb.
30x40cm podciąg żelb.
23.8 m²
121
3 5 4 6 2 1
1. podstawa 2. ocieplenie 3. rynna 4. uszczelka 5. rama otwierana 6. zawias 7. przekrycie Rys. 2. Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - przekrój A-A.
B-B
wymiar nominalny
140
22 Salon 3.2
3.80 m
D2
A-A
74 Rys.1
8
6. zawias 7. przekrycie 8. osłona przeciwwiatrowa
Rys. 2. Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - przekrój A-A.
Rys.1
400
7
wymiar nominalny
1. podstawa 2. ocieplenie 3. rynna 4. uszczelka 5. rama otwierana
B-B
140
94
S2
414
wod. kan. szacht
242
Rys.1
3 5 4 6 2 1
wymiar nominalny
400
A-A
A-A
8
wymiar nominalny
22 50 21
Sw1
158
603
Rys.1
7
10
400
84
A-A 3 5 4 6 2 1 9
rowa
azów
Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - przekrój A-A.
2
3.14 Pokój 34 25.5 m² gres
840
3.6 Magazyn
3.9 Komunikacja
159
773
K
150
400 400
878
650
400
74
840
158
Rys. 1. Konstrukcja klapy dymowej DYMKLAP PLD - Producent REWA Sp. z o.o. - widok z góry.
Rys. 1. Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - widok z góry.
840
94
3.7 Pom. pomocnicze
190
7.3 m² żyw. epoks.
S2
30x40cm podciąg żelb.
400 400
3320 420
Rys.3
190
184
S2
121
A Rys.2
wymiar nominalny
B
113
706
64
A
3
4
9.4 m² żyw. epoks.
158
Rys. 2
420
158
Rys.3
2479
Rys. 1. Konstrukcja klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - widok z góry.
klapy dymowej DYMKLAP KLD - Producent REWA Sp. z o.o. - widok z góry.
A Rys.2
115
wymiar nominalny
B
wymiar nominalny
115
A
wymiar nominalny
wymiar nominalny
wymiar nominalny
Rys. 2
Rys.3
400141 400
400 400
184 400 400 429
32 23 190 400 400
400 400 468 J K A Rys.2
wymiar nominalny
B
100
202 100
400 120
170 79
400 400 481
400
400
323
Klapa dymowa DYMKLAP PLD - Producent REWA Sp. z o.o.
B Rys.3
A
3.3 Jadalnia
840
3.18 Pokój 38
B Rys.3
Rys. 2
3.15 Pokój 35 25.5 m² gres
33.9 m² terazzo
52.0 m² gres S1
1573 159 1339
Klapa dymowa DYMKLAP KLD - Producent REWA Sp. z o.o.
B Rys.3
A Rys.2
wymiar nominalny Rys.3
669
158
Klapa dymowa DYMKLAP KLD z zamontowaną osłoną przeciwwiatrową - Producent REWA Sp. z o.o.
B Rys.3
B
155
141
79
44
120
J
KLD z zamontowaną osłoną przeciwwiatrową ą gazów - Producent REWA Sp. z o.o.
847 55
2400
I L
400 400
8
E
6.02
3435 840
122
7
6.12
6.06
3474
400 400
6
180
I
5
3.4 Ogród 5 49.8 m² terrazzo
6
180
H
4
7
8
800
2400
400 120
G H
3
6.13
6.11
6.07 N +3.30
G F
2
D
E
6.08
6.09
F
1
3.16 Pokój 36 25.4 m² gres
6.01 3.80 m
9 x 16,5 27.5
6.10
266
E
D
L 6.03
3.10 Komunikacja 24.1 m² żyw. epoks. 9x16,5 27.5
8
150 150
1069
2x16,5 27.5
9x16,5 27.5
D
8
7
800 800
650 650
D
E
podciąg żelb. 24x40cm
K
400 400
1
1
40 40
3434
1
1
B
115 115
420
840
detail
SENIOR HOUSING GDAŃSK | 2020 | bachelor’s diploma project | 8
graphics
SENIOR HOUSING GDAŃSK | 2020 | bachelor’s diploma project | 9
THE BRIDGE
Rhino 6 | Grasshopper 3D
INDIVIDAL PROJECT under the supervision of prof.. ir. arch.. Stefan Devoldere, dean Faculty of Architecture and Arts.. MASTER’S STUDIO (during bachelor’s degree) | UNIVERSITY OF HASSELT | BELGIUM
THE BRIDGE | 2020 | ostend | master’s studio | 10.
1. The aim of The Circle is to break the boundaries of the waterbody and provide a better connection between to sides. The project expands equally towards four directions which is more than linking point A to point B.
2. The circle provides a direct connection between places that may benefit from closer collaboration. such as Yacht Park and Water Sport Center.
1
4
2.
5
3
6
3. The circle acts as a quiet alternative to a carorientated bridge. The experience of crossing the water it’s more pleasant.
4. This shape creates a longer exposition to the openness of the Spikom waterbody. When walking on a footbridge, one can experience a slightly different atmosphere than when walking onshore.
5-6. It was critical to include the island into the design. To enhance what has been given and highlight it the rigt way.. The ring frames the park and the water - with great respect to both. The space inside the circle is dedicated to the brandnew activity in the Ostend - wakeboarding. It takes the greatest advantages from the unique closed waterbody, that now can serve as a wakeboarders paradise..
THE BRIDGE | 2020 | ostend | master’s studio.| 11
The circle consists of four main elements on the footbridge.. All parametrically designed to create wave-shaped shading.. The forms are designed in the way to point users’ attention inside or outside the circle. The circle as a project of the pathway can attract visitor only by its iconic shape.. When seen from the bridge nearby, it can invite one to simply experience the walk around. .The footbridge can serve as a destination for Sundays’ walks..
The steel structure has been included to follow the path of the circle, not only for aesthetics but as support for the ziplines, to introduce a new activity in Ostend - wakeboarding.
THE BRIDGE | 2020 | ostend | master’s studio.| 12
graphics & detail
THE BRIDGE | 2020 | ostend | master’s studio.| 13
GREEN STEPS
Rhino 6 | Lumion 10 | Slic3r | Photoshop
URBAN DESIGN
GROUP PROJECT in collaboration with study buddy - Marcin Kulesza under the supervision of Ph.D arch.. Jakub Bladowski IV SEMESTER | GDAŃSK UNIVERSITY OF TECHNOLOGY | POLAND
GREEN STEPS | 2019 | gdańsk | IV semester | 14
The project is located in a sort of “wild landscape”. The main idea is to include as much greenery in the project as possible.
The steps are designed to mimic the existing terrain and provide green terraces throughout.
The project tries not to disturb the natural environment with its existence but to reflect the characteristics of the surrounding site.
The timber cladding matches the surrounding trees so that the project does not look alien or out of place in the site.
Furthermore, the project seems to form fingers towards the waterbody in the urban context. This shape was generated by analysing the sun paths and best views from the resident’s windows.
GREEN STEPS | 2019 | gdańsk | IV semester | 15
PRELUDIUM HOUSE
Revit 2019 | Vray
INDIVIDAL PROJECT under the supervision of Ph.D arch.. Piotr Czyż III semester | GDAŃSK UNIVERSITY OF TECHNOLOGY | POLAND
PRELUDIUM HOUSE | 2018 | iii semester | 16
This is a residential project designed for 2+2 family and grandparents with additional home practice, private office and library.
The paths for the residents begins at the garage. You are then confronted with the central atrium, which is supposed to be a relaxing element.
till, the main point of this axis is to S lead residents to the staircase, right by the window opening, which has a direct relationship to nature.
The main aim of the design is to create a connection and interaction both with nature and space.
The moment the residents step into the house, they are able to lose themselves in the tranquillity of the view, but cannot immediately e nter it due to the glass boundary that surrounds the atrium space.
The second axis is meant for guests. This path is a lot more dramatic than the previous, reason being, that the inhabitants of the building have all the time to continue exploring and experiencing the spaces while guests are honourable visitors who may not always have the chance to have such an intimate relationship with the building.
The building begins with two main axes (paths), one for the residents and the other for guests.
This axis begins at a high, narrow and brightly lit entrance, then the guests suddenly move to a dark and widspace, then a dark, closed (framed) space, before finally e ntering the wide, bright room which is the living room. The entrance focuses more on the experience while moving through space. I t is an inspiration from Baroque architecture where the sequence of the rooms is more about the experience enfilade.
sequence of spaces
THE ANALYSIS OF THE MOVEMENT and USE OF THE SPACE, VIEW FRAMES & CENTRAL POINTS.
PRELUDIUM HOUSE | 2018 | gdańsk | III semester | 17
Normally architects are most likely to understand spaces, but through this use of dramatic elements to shape experiences within the space (especially the guest entrance), the public is directly confronted with the experience of space, if not directly, then at least subconsciously.
PRELUDIUM HOUSE | 2018 | gdańsk | III semester | 18
REUSE ITALY
Rhino 6 | Photoshop
GROUP PROJECT together with study buddy - Łukasz Zabolski INTERNATIONAL COMPETITION | GDAŃSK UNIVERSITY OF TECHNOLOGY | POLAND
REUSE ITALY | 2020 | architecture competition | 19
Plan - Level -1
The beauty of reused architecture lays in purifing the built structure, maintaining its history, and preserving its culture.
With that in mind, we emphasize on the importance of time and heritage with creating a meaningful connection between the old and new. Plan - Level 0
With focusing on contrasting spaces, we generate areas that may complement each other, integrating the untouched remains with enhanced sections, both inside and outside the reservoir.
ofĂžces meeting spot/conference space public park
On top of the cistern, the wire mesh provides a translucent shift from the heritage to urban grid and a new structure.
library/cafe/gift shop ticket ofĂžce terrace
waterfall
sculpture alley
To fit the specific location, we decided to implement the arcs in colorful frames that recall the household rooftops made out of corrugated metal, present in the close neighborhood.
REUSE ITALY | 2020 | architecture competition | 20
While art is essential, we believe that the site is as important as the art that will be showcased. With the proposed design, the visitors journey begins and ends where the water used to come in and leave out, so they follow the direction in which the water used to run; this concept cements the whole experience of heritage, history, the beauty of nature and gravity.
A tangled footbridge serves as a prelude to the most considerable part of the project, which is the precious cistern itself. Equivalently to the rhythm of music, it features a small number of melodic motifs that recur through the piece; a pathway is a preface preparing for the essential matter. It has been designed in a way to let its visitors gradually be revealed to the atmosphere of the cistern.
REUSE ITALY | 2020 | architecture competition | 21
One of the ways to beautify the art is the use of its specular reflection on the still water, creating opportunities for creativity and design.
Another place where water plays a crucial role are the skylights in the cistern’s rooftop.
By introducing an idea of a waterbody with a glass bottom we expect a very rare impression of being underwater and spectacular reflections together with „god rays” inside the cistern
The selection of artists highlights the concept of the design as they both often work with objects that recall the passing time. Jamie North’s extraordinary sculptures simultaneously invoke ideas of progress and collapse, industry and ruin, melancholy and triumph.
REUSE ITALY | 2020 | architecture competition | 22
EONE HOUSE
Revit 2020 | Rhino 6 | Lumion 10
GROUP PROJECT In collaboration with study buddy - Ĺ ukasz Maciorowski 1ST PRIZE | international student competition on Universal Design | 2020 | Belgium
EONE HOUSE | 2020 | belgium | architecture competition | 23
THE HOUSE FOR EVERONE When you enter the building, LED lights brighten your path through the darkness without the need of switching them on. The entrance door opens automatically with a chip once you come closer. This way, everyone can enter equally and independently, even while caring heavy shopping bags or a pram. Almost all the doors in the house are sliding doors (laundry room has double side open doors)of heritage, history, the beauty of nature and gravity.
Once inside, you can intuitively find your way around: on the left, there is the living area and on the right, you’ll find more quiet sleeping area. A seamless transition is achieved by floor to ceiling window walls that create strategic openings for landscape and natural daylight.. Space is reduced to its essence, simplicity creates perspectives for Nature to catch your eye when it seeks calmness. Modules are highlighted by divisions made in the rooftop. The building seems to be cut by sunlight..
EONE HOUSE | 2020 | belgium | architecture competition | 24
BEDROOM When you go to sleep, your bed can be moved automatically to suitable position.. The specially designed handles can help you to get extra support when needed.
The bedroom is a quiet and cosy place where you can step away from daily activities, into your own dreams and thoughts..
Additionally, the lamps next to the bed can serve as support as well.. They are mounted on a movable rail, so they don’t have to hang overhead all the time.. The table has a glowing surface that can be turned on easily and intuitively. Behind the bed, an acoustic wall absorbs all surrounding noises so that you can enter the dream-land with a smile.
The design of a wall, composed out of rectangular, Corke extrusions, is not only beautiful, but it efficiently reduces the back-ground noises as well (0.15 NRC that absorbs approx. 40% of sounds in the human voice frequency range).
KITCHEN
KITCHEN ISLAND
The kitchen includes designed cabinets with drop-down shelves which allows you to access even the ones higher located.
The kitchen island is where wheelchair users can cook in an effortless and pleasant way. The island is equipped with a removable countertop, which gives more space for cooking and does’t bother to move within the kitchen..
When you need something from the storage room, you can use an elevator, concealed in the pantry floor, so that you are able to reach all shelves also from a lower position. This way, valuable storage space is optimized for and can be used by everyone...
It can be pulled out and adjusted to create a corner-shaped cooking space that enables one to stay in one place and use enlarged countertop. Moreover, we have designed a modular cabinet on wheels that can be moved freely so that it does’t
EONE HOUSE | 2020 | belgium | architecture competition | 25
EXTRA PROJECTS
KICK ON STREETWEAR
Photoshop
ART & VALUES In collaboration with study buddy - Marcin Kulesza
KickOn is an initiative created by two young, energetic and science-driven students that believe in a better tomorrow and a healthier lifestyle. After several types of research and studies, we discovered that the public and private transportation in our city has been emitting an unacceptable amount of CO2 that has been harming our land for so long. This said we decided to take action and promote the two-wheeled footboard vehicle, better known as a scooter. Not only does a scooter promote a sustainable lifestyle but also helps people become more energetic and productive during their daily commute.
TOP, RIGHT: KickOn logo design & „Stanza della Segnatura”- Rafael Santi, redesigned by KickOn „Der Wanderer über dem Nebelmeer” Caspar David Friedrich, redesigned by KickOn
„Babie lato” Józef Chełmoński, redesigned by KickOn
KICKON | 2019 | art | 26
PARAMETRIC DESIGN
Rhino 6 | Grasshopper 3D
PHOTON - SYNTHESIS
3D PRINTED HOME DECOR
Organically shaped lighting system, designed for „Zielono mi” competition.
Together with 3D printing technician, we designed a set of home decor accessories like flower pots, bowls and vases. The items were printed in creative marketspace CUMY, Gdańsk.
The project was created in advanced software - Grasshopper and Rhino 6, which allows mirroring the idea of the uniqueness of nature - particularly the moss.. The prototype is made of plywood, moss and LED strip with a transformer.
GOLDEN RATIO STAIRCASE I wanted to shed light into how even the most solid of materials, such as concrete, can be used to create a fluid structure that it’s form and function are not inter-related, yet combined to create a piece of art. Following the Golden Ratio, I was able to create an over-all staircase that is made of concrete yet gives the feeling of an easily unforced structure being placed at one place because of it’s fluid shape.
PARAMETRIC DESIGN | 2018 - 2020 | 27
RECOMMENDATION
Diepenbeek, 20 January 2021
Dominika’s overall results in the architecture exchange program at fac ARK and her merits as a student show her genuine interest in architecture in general, and her potential to excel in the related program that she is pursuing, i.e. parametric architectural design. During her study stay at UHasselt, she studied computerization in architecture, and she wrote a research essay, entitled: “Parametric Architecture and Social Media”.
Letter of recommendation to the Fulbright Scholarship Program for Dominika Klopotek Dear Madam, Dear Sir, I'm pleased to offer my personal recommendation of Dominika Klopotek for the Fulbright Scholarship Program to study parametric architecture in the USA. I am International Coordinator for the faculty of Architecture and Arts (ARK) at Hasselt University. I am responsible for the management of the exchange study programs, and teacher in several courses. I taught Dominika in 2 courses during her exchange study stay of 1 year in 2019-2020: ‘Study Visits’, and ‘Project Participation B’. I coordinated her exchange study stay in general, and I’ve worked with her in several international activities of the faculty. As a student in my course ‘Study Visits’, Dominika performed very well and her project was rewarded with a score ‘magna cum laude’ (16/20). Even more impressive was her perfect performance in the course ‘Project Participation B’. Under my supervision, Dominika developed a highly original ‘Erasmus autoethnography’ during the first COVID-19 lockdown in Belgium. It was a joy from the beginning until the end to work with Dominika on this project. She had a strong initial idea and a clear working plan. She stuck to the plan, and she sent me weekly updates of the report, with a new chapter to discuss every week. As the working process, the content of the final report was perfect as well. She delivered a truly personal reflection on the impact of a study exchange experience on the personal growth of an architecture student. Dominika has shown great self-reflection, methodical and analytical skills. She doesn’t just observe and report the day-to-day adventures of an exchange student in this report, but she addresses the meaning and the impact of events on her personal life. It is an inspiring report for anyone who is interested in the growth of intercultural competences through study exchanges. Besides this, Dominika has included multiple references and she has related her experiences to literature. It was the first time ever that a student in this course scored 20/20. As an international student at ARK faculty, Dominika showed enthusiasm and willingness to contribute as a volunteer in international events. For instance, she helped preparing the international evening, she represented her home university in our Erasmus fair, etc. She is a loyal team player and she is well respected by her professors and her peers. Her engagement as a student reached beyond the faculty. Dominika was part of the international student board of Hasselt University, where she had valuable input.
I hope that the above testimony shows Dominika’s strong level of knowledge and potential for future growth in the field of architecture. In her autoethnography and in her research essay, she has proven to be able to carry out research and to think and write analytically. Both papers were written in English, which shows her linguistic proficiency. Besides her academic suitability, she has shown great resilience as an exchange student in Belgium, where she adapted very well to a completely different university culture, and to ever changing circumstances in her school life and social life due to COVID19. Her personality is just perfect to study in the USA. She is emotionally stable, mature, motivated and has a strong sense of purpose. Her ambitions are realistic and feasible. Hence, I strongly recommend Dominika Klopotek for a Fulbright Scholarship. This will enable Dominika to continue her studies abroad in the field of parametric architecture. She displays great potential in this area, and I am confident that she will excel in her chosen program. Moreover, she will be an excellent ambassador for the Fulbright Scholarship Program. If you need more information or specific examples, please do not hesitate to contact me. Sincerely,
Dr. Els Hannes Coördinator Internationalisering | International Coordinator Faculteit Architectuur en Kunst | Faculty of Architecture and Arts T +32(0)11 29 21 20 | GSM +32(0) 486 06 70 18 www.uhasselt.be Universiteit Hasselt | Campus Diepenbeek Agoralaan Gebouw E | B-3590 Diepenbeek
+ 48 509 090 070 d.klopotek@icloud.com
issuu.com/d.klopotek behance.com/dklopotek linkedin.com/in/dklopotek/