_Alicja Szczęśniak architectural portfolio
This portfolio presents architectural academic works, completed between year 2012 and 2016. I am the author of all included drawings and illustrations unles stated otherwise.
RÈSUMÈ
Personal Informations Address:
Chojnicka 48 80-299 Gdansk, Poland
Phone Number:
+48 606 690 103
Email:
szczesniak.alicja@gmail.com
Date of Birth:
16.10.1993
Place of Birth:
Gdansk, Poland
Nationality:
Polish
Educational Background 09/2012 - 01/2016
Gdansk University of Technology, Poland Architecture and Urban Planning
09/2014 - 02/2015
Bauhaus Universitat Weimar, Germany Architecture and Urban Planning| Erasmus Exchange
09/2009 - 05/2012
V High School in Gdansk, Poland Profil: Mathematics - Physics - Informatics
Experience Background
BoARCH Architectural Designing Studio Architectural Internship
07/2015 - 08/2015 06/2015 09/2013 - 06/2014 09/2013 - 03/2014
War Veterans Conference Conference Service DAMB Psychoeducation Creative Center Creative Workshops DAMB Psychoeducation Creative Center Odyssey of the Mind Competition Group Trainer
Computer Skills AutoCAD Revit ArchiCAD Adobe: Illustrator Photoshop InDesign Flash CorelDraw Sketchup 3DS Max Rhinoceros V-Ray [+ Sketchup] Microsoft Office
Other Skills / Interests |||||| |||||| |||||| |||||| |||||| |||||| |||||| |||||| |||||| |||||| | | || | | |||||| ||||||
Languages:
polish | mother tongue english | TOEFL IBT score 91 german | B2 level swedish | A1 level
Interests:
architecture design aerial dance cyckling
MatchBox House typology _guest house plot location _Gdansk, Poland size _60m² type of project _academic, 2nd term project at Gdansk University of Technology time of completion _april - june 2012 collaborants _individual work
The aim of the project in 2nd term was to develop a concept of a small guest house situated in Poland as a complex design of both functional, construction, as well as installation and additional structure. Guest house was constructed using two matchboxes placed on top of each other. The top one was turned 90° horizontally so that their longer sides were perpendicular to each other. For more dynamics both of the matchboxes were cut open and as a result on the first floor a small balcony was created as well as a terrace on the ground level with a direct path to the garden. The elevation on each floor is finished with wood as a representation of matchbox’s irregular surface on its sides. Additional structure was designed as a contrast to the main idea - matchbox - fire. In order to achieve that the MatchBox House was filled with water from southern and eastern side separating it from the garden and creating a neutral area all around.
_matchbox
_structure opeaning _wood texture
_additional level
section
plan level 0
plan level +1
Elements
_construction structure
_instalation structure
_integration among building structures
_addictional structure
WineHouse typology _single family house plot location _Murzasichle, Poland size _220m² type of project _academic, 3rd term project at Gdansk University of Technology time of completion _october 2012 - february 2013 collaborants _individual work
The aim of the project in 3rd term was to design a detached house with all necessary features. This design is situated in Murzasichle, Southern Poland, located near high mountains called Tatry. The lot is situated on the hillside and apart from designed house itself, there is also a small wine storage with an outside terrace and grapes plantation. The house is designed for a ‘2+1’ type family. Bedrooms, storage and a garage are all situated on the eastern side. Western side, containing kitchen and living room, is higher than the rest of the building and is opened from two sides with curtain walls. Four-meters-high stony wall divides two functional areas in the house. Apartments from outside are covered with wooden panels and the rest is covered with grey stone.
ground oor plan
section II-II
section I-I
western elevation
southern elevation
eastern elevation
northern elevation
Student House in Gdansk | bechelor project typology _student house plot location _Tuwima street, Gdansk, Poland size _2435m² type of project _academic, final bechelor project at Gdansk University of Technology time of completion _march-december 2015 collaborants _individual work
_Development of shape
The aim of the bachelor project was to design a student house on Tuwima Street in Gdansk, Poland. During the 6th term, a task was given to create a conceptual design based on the urban analysis and city plans for this area. During the 7th undergraduate term, students were requested to prepare a technical draft of the previous design, which was supposed to prove our engineering skills. The project area was created by joining together 3 lots, which designates untypical build-up line. The whole design is a metaphor of Finnish moose shown by the use of materials, shapes and additional structure. The first step was to create the core part, an L-shaped building, which was containing students’ rooms. It also adjusted and neutralized the shape of a commercial building on the other side of the road. The next step was about creating moose’s "horns". They were constructed as a shape of two cubic structures in the front part of the lot and were containing common functions for students. The final project precisely adjusts to build-up line and preserves detached houses arrangement among Tuwima Street.
x
x
Allotment purposed for my design was highly limited according to the city's plans as it wished to keep whole neighborhood as a compact part. It resulted in a coactive disconnection in core building and created an adapter between them and the extra entrance to the separated building. Additionally, in the process of willingness standardization of the whole design, the middle cubic form was scaled down. It resulted in creating a bigger main courtyard. Designing additional structures allowed me to create a compatible building with my main metaphorical idea but what is more important, it established unique shared functional spaces for students who live there. _wooden horns - two irregular meshed structures located on both of the cube shaped buildings' roofs. It creates a terrace available all year round. _joint balconies - shared spaces for students available from each dormitory. Wooden movable blinds protect from southern sun and are a perfect place for growing greenery.
entrance area_
communications area_
0
5.0
main area - students’ rooms_ 37 dormitories (4 for disabled students)_ SILENT building _rest room _work room _bicycle storage
LOUD building _games room _kitchen _bicycle storage
operateing area - common buildings_
site plan
additional structure as a result of main idea_
A
C
D
F
A
G
I
J
K
L
M
N
F
O
A
G
I
J
K
L
M
N
O
-1.50=17.1m.n.p.m
±0.00=18.6m.n.p.m
5 x 16.5 35 6 x 17.5 29
6 x 17.5 29
1D.01
01.19
±0.00
B
1
10 x 17.5 29
01.01
10 x 17.5 29
B
2
B 01.20
7 x 17.5 29
3
10 x 17.5 29
-1.75
-1.75
10 x 17.5 29
1A.01
2 1C.01
3
2
P-11
7 x 17.5 29 ±0.00
±0.00
7 x 17.5 29
-3.50
1
1 7 x 17.5 29
B
P-10
1
P-09
±0.00
P-08
2% -0.10
3 01.18
8%
P-12
P-07
01.02
1A.02
01.17
1D.02
-3.66
P-06
1C.02
-3.50
01.03 2%
2%
01.16
4
4
4
4
01.15
01.14
1A.03
2%
H
P-14
P-04
1%
01.10
01.12
1%
1%
E
2%
E'
01.05
P-03
1A.05
1A.06
6
7
7
8 1B.03
01.04
P-15
B
2% 1%
1A.04 01.13
6
P-13
G 2%
F
P-05
01.07
C
8 01.09
1A.07 01.11
9
9
9 1B.11
1B.10
1B.06
1B.05
1A.14
1A.13
1A.10
9
1A.09
01.06 P-02
1B.14
±0.00
1%
10 x 17.5 29
1B.13
1B.12
1B.07
1B.09
1B.04
1A.15
1A.12
1A.11
1A.08
1%
1%
P-01
1%
10 x 17.5 29
01.08
1B.02
2%
2%
1B.01
10
10
10
10
A
A
A
B
D
E'
E
H
I
J
K
L
M
N
E
O
F
G
I
J
K
L
M
plan level 0
A
7 x 17.5 29
K
L
M
N
+2.25
6 x 17.5 29 7 x 17.5 29
2C.01
3D.01
7 x 17.5 29
C
1
1
D
+4.71
10 x 17.5 29
3D.05
3C.05
B
3C.06
B
2
7 x 17.5 29
J
K
L
N
O
1
+4.71 10 x 17.5 29
2D.05
+7.00
+7.00
2D.04
10 x 17.5 29
2A.01 2D.06
+5.76
7 x 17.5 29
3C.01
2D.01
7 x 17.5 29
B
2
+5.76
3C.03
3
3
M
2
+2.25 3D.03
I
G
7 x 17.5 29 +7.00
3C.04
10 x 17.5 29
3A.01
2C.03
F
+3.50
3D.04 3D.06
2
3
A
O
+1.21
+3.50
6 x 17.5 29
2C.06
J
+5.25
7 x 17.5 29 +3.50
2C.04
B
I
G
6 x 17.5 29
+1.21 2C.05
F
+1.75
1
D
6 x 17.5 29
C
O
plan level -1
A
A
N
2D.03
3
3C.02
3A.02
2C.02
3D.02
2A.03
3A.03
4
4
4
C
2A.02
2D.02
F
G
4
C
3A.04
F
G
2A.04 2A.05
3A.05
B
E'
E
E'
B
H
H
E
2A.06
3A.06
6
3A.07
6
6
7
3B.09
3B.08
3B.05
3B.04
3A.15
3A.14
3A.11
9
3A.10
2B.12
+7.00
3B.10
3B.07
3B.06
3B.03
3A.16
3A.13
3A.12
3A.09
+5.25
2B.08
2B.05
2B.04
2A.15
2A.14
2A.11
2A.10
E'
E
H
I
J
K
L
M
N
2B.14
2B.11
2B.10
2B.07
2B.06
2B.03
2A.16
2A.13
2A.12
10
O
A
B
D
E'
E
H
I
J
K
L
plan level 1
3
M
N
O
A
A
1
2A.09
2B.01
10
10
D
10 x 17.5 29
3B.11
10 x 17.5 29
10 x 17.5 29
10 x 17.5 29
3B.14
3B.01
10
B
2B.09
2B.13
3B.13
A
2A.08
9
9 3B.12
8 2B.02
3A.08
9 ±0.00
2A.07
6
7
8 3B.02
4
7
9
plan level +2
O
10
N
M
L
K
J
I
G
F
D
C
+ 15.00
A
+ 14.60
+ 14.60
+ 13.40
+ 13.15
2%
+ 10.69
2%
+ 13.40
+ 11.75
+ 10.90
2%
+ 10.50
+ 10.38 + 10.50
+ 10.50
+ 9.26
+ 8.21
+ 8.21
+ 7.00
+ 7.00
2%
+ 7.00
2%
+ 3.50
+ 8.21
+ 7.00
+ 7.00
+ 3.50
+ 3.50
± 0.00
± 0.00
+ 5.76 + 5.25 + 4.71
+ 4.71
+ 3.50
+ 3.50
+ 4.71
+ 2.26 + 1.75 + 1.21
+ 1.21
± 0.00
± 0.00
1%
- 0.03
1%
± 0.00
± 0.00
± 0.00
2%
+ 1.21
2%
- 1.75
- 3.50
- 3.66
section A-A
section B-B
western elevation
northern elevation
eastern elevation
southern elevation
A A
C
D
F
I
G
J
K
L
M
N
O
±0.00=18.6m.n.p.m
-1.50=17.1m.n.p.m
5 x 16.5 35
2% -0.10
±0.00
1221
881
562
730
459
640
1220
230
36
545
49 S7
338
184
184
82
340 przerwa 93 dylatacja 2cm184
93
63
93
93
123
14
145
18
145
14
49
70
490
49
65 20 65
116
100
73
63
66
S3
290 730
995
1903
80 220 KD∅56
740 886 80 220
65 28
14
14
166
145
18
390
184
93
95 220 80 D08 220
128
14 53
14
174
KS∅110
14
127
170
S4
146
S4 80 220
66 14
100
65
S2
65 18 65
340
184
90
KD∅56 D08
100
139
145
154
65
689
1416
127
347
184
KS∅160
130
18
100
123
21
19.98m² parkiet 426
17
95 220
95 220 18
127
S5 65
347
184
80 D08 220
KS∅110
14
S2
1A.15 pokój
1B.04 pokój
62
80 220
23
1A.08 pokój
120
707
151 14
100
płyta żelbetowa h=20cm
65
18.05m² parkiet
1B.05 łazienka
2.45m² p.ceram.
18
płyta żelbetowa h=20cm
1B.06 łazienka
2.45m² p.ceram.
1B.07 pokój
płyta żelbetowa h=20cm
17.60m² parkiet
14 151
340 62
95 220
100
145 12
22
123 62
S2
426
1B.08 pokój
płyta żelbetowa h=20cm
113
17.58m² parkiet
151 14
95 220 D08
100
2.35m² p.ceram.
20
12
9
377
184
67
67
184
126
184 250
184 250
Db
Db
184 250
184 250 Db
Db
184 250 Db
184 250
184 250
184 250 Db
22
Db
184 250 Db
Db
S2
184 250
36
73
1B.09 łazienka
18
2.32m² p.ceram.
1B.10 łazienka
2.32m² p.ceram.
1B.11pokój
173
100
80 D08 220
1A.10 łazienka
133
179
D07
1A.09 łazienka
18
2.35m² p.ceram.
113
18
133
płyta żelbetowa h=20cm
62 18 62
KS∅110
12
D07
36
83
14
130
14 145
184
348
91 S7
111
95 220
S7
100
1A.11pokój
80 220
13
62
D07
20.79m² parkiet
62
1A.12 pokój
D08
100
1550
17.71m² parkiet
13
S5
62 18 62
płyta żelbetowa h=20cm
113
17.44m² parkiet
2.45m² p.ceram.
165
104
104 95 220
95 220
95 220
80 D08 220 12
1A.13 łazienka
119
D07
2.35m² p.ceram.
20 32
D07
płyta żelbetowa h=20cm
2
37.29m² parkiet
D04
1A.14 łazienka
KS∅110
32
D08
176
8 95 220
płyta żelbetowa h=20cm
119
95 220
95 220
KD∅56
KS∅110
95 220
18.16m² parkiet
12
24 14
168 181 So
39
18.22 m² parkiet 426
So
1436
73 18 72
1A.05 łazienka 2.40m² p.ceram.
płyta żelbetowa h=20cm
1A.06 pokój
S2
178
80 220
100 11
62
340 214
184
62
933
18
578 179
KD∅56
DO8
13 100
płyta żelbetowa h=20cm
1B.14 portiernia 31.91m² beton poler.
12
133
D07
S4
401
1B.01kl. schod.
18
D07
707
) )
18
płyta żelbetowa h=20cm
drzwi rewizyjne 120 200
10 x 17.5 29
109
640
10 x 17.5 29
261
160x160mm (415m ³ 125x125mm (415m ³ rozdzielnia .elekt. c.t, c.o., klim.
177
16.74m² beton poler.
230
18
381 szacht główny bud. B
1B.13 łazienka
24
D04
D07
173
155
S3
1032
155
D07
80 D08 220
KS∅110
24
S4
37.95m² parkiet D07
0
1A.07 korytarz 100
95 220
D07
1B.03 korytarz
2.35m² p.ceram.
1805
podciąg żelbetowy h=40cm ±0.00
184 250
Db1
D07
S4
2.40m² p.ceram.
2% 207
875
dźwig osobowy GREEN LIFT - FLUITRONIC hydrant wewnętrzny MRL-MC o udźwigu 630kg HP-25
D05
S1
1830
1B.12 pokój
125 220
6
D01
1B.02 przedsionek 23.77m² beton pol.
17.61m² parkiet
295 170 693
płyta żelbetowa h=20cm
150
kurtyna powietrzna S2
7
H
So
6
E
264
179 173 203
S2
E'
973
4
D07
95 220
D08
2642
68
69 18
18 349
płyta żelbetowa h=20cm
S7
budynek B
B
dźwig osobowy GREEN LIFT - FLUITRONIC MRL-MC o udźwigu 630kg
177
) ) 160x160mm (415m ³ 125x125mm (415m ³
szacht główny bud. B
531
podciąg żelbetowy h=40cm
1A.03 pokój
1A.04 łazienka S2
529
HP-25 hydrant wewnętrzny
-1.75 24 227
1A.02 portiernia
18.27 m² parkiet
184
184 250
Db1
590
Db
balustrada metalowa h=110cm 184
528 36
300
184
318
184
175
206
740
600
184
145
184
184
206
720
10
balustrada metalowa h=110cm
119
184
139
370
562
184
155
252
184
338
480
250
175
640
490
2803
170
36
1613
4906
B
D
E'
E
H
I
J
K
L
M
N
O
A
A
ground floor plan
1
3
4
7
9
10
+ 14.60
+ 13.15
wpust dachowy Geberit Pluvia typ 7 d56 pojedynczy
SDA
SA + 10.38
2%
+ 9.26
.5 17 29
+ 10.69
SDB
+ 9.78
+ 9.90
SDC
2% SWB
obróbka blacharska
2%
+ 10.18 detal A żaluzja drewniana łamano-przesuwna na konstrukcji aluminiowej z profili zamkniętych
252
290
220
278
+ 8.21
+ 11.82
+ 10.38
6x
317 272
+ 9.08 + 8.19
SKM
SA
+ 10.18
24 + 9.24
+ 11.07
elem. spiętrzający dla przelewu awaryjnego Geberit Pluvia d56
70 2820
ażurowa konstrukcja drewniana na profilach aluminiowych + 11.07
38
okno oddymiające MERCOR OSO 100x100cm
12
SMB
+ 6.88
SKM
+ 5.76
.5 17 29
24
+ 6.28
balustrada h=110
SWA
+ 7.00
+ 6.88
1%
przekładka termiczna + 6.40
+ 6.68 detal B żaluzja drewniana łamano-przesuwna na konstrukcji aluminiowej z profili zamkniętych
252
290
220
+ 4.71
278
317
6x
272
+ 5.58 + 4.69
19
+ 5.74
+ 6.68
SMC
38
SMA
21
+ 7.00
70 2820
12
+ 8.03
+ 2.78
SMC
SWA
+ 3.50
balustrada h=110
1%
+ 2.90
+ 3.18
żaluzja drewniana łamano-przesuwna na konstrukcji aluminiowej z profili zamkniętych
odwodnienie liniowe ± 0.00 - 0.03 1%
SP
2%
2%
40 podciąg żelbetowy h=80cm
podciąg żelbetowy h=80cm
SG
stopa fundamentowa 40cmx100cm
± 0.00
SWA
balustrada h=110
1%
przekładka termiczna
podciąg żelbetowy h=80cm
- 0.92
275
podciąg żelbetowy h=80cm
290
odwodnienie liniowe ST
detal C opaska żwirowa wokół budynku
335
SR 1%
60 20
15
± 0.00
20
SK
220
278
+ 1.21
+ 3.38
przekładka termiczna
6x
+ 1.03 ± 0.00
12
+ 3.18
38
+ 2.26
SMB
+ 3.38
308 272
+ 2.08 + 1.19
SKM .5 17 29
SMA
17 21 25
+ 2.24
+ 3.50
70 2820
12
+ 4.53
252
517
173 308
425
G
181
F
2
54.90 m² beton poler.
2%
686
odwodnienie liniowe
9
płyta żelbetowa h=20cm
kurtyna powietrzna
173
92
2%
93
S2
100
2%
C
D01
157
słup żelbetowy 25x25cm
176
rozdzielnia .elekt.
S4
słup żelbetowy 25x25cm
160
D03
216
1A.01kl. schod.
264 563
592
12 50 12 100
385
95 220 264
100
S2
24
228
106
słup żelbetowy 25x25cm
95 220
słup żelbetowy 25x25cm
106
160
160
106
106
160
D03
słup żelbetowy 25x25cm
4
100
261
c.t, c.o., klim.
S2 270 O1 100
92
1%
63.31m² beton poler.
167
173 203
płyta żelbetowa h=20cm
904 146
100
608
263 odwodnienie liniowe
1D.02 rowerownia
100
270 100
270 O1 100
149
718 1%
-0.03
10 x 17.5 29
1
125 220
D05
±0.00
3
385
100
519
10 x 17.5 29
drzwi rewizyjne 120 200
S2
słup żelbetowy 25x25cm
podciąg żelbetowy h=60cm
535
149
157 92
63.31m² beton poler.
O1
178
2
KD∅56 KS∅110
16.30 m² beton poler.
202 ±0.00
125
płyta żelbetowa h=20cm
270 O1 85
92
1%
100
49
874 628
słup żelbetowy 25x25cm
74
6 x 17.5 29
469
115
270 100
100
92
O1
płyta żelbetowa h=20cm
1C.02 rowerownia
103
61 8024
143
S1
282
S3
7 x 17.5 29 174
125
282
282 92 157
-0.03
202
125 24
179
179 130
130
125 24 125
24 559
149
1%
D02
S1
270 O1 85
100
157
płyta żelbetowa h=20cm
270 85
115 61
100
podciąg żelbetowy h=60cm
718
149
±0.00
519
125 220
S1
143
7 x 17.5 29
167
80
1093
92
49
±0.00
słup żelbetowy 25x25cm
budynek A
560
7 x 17.5 29 174
odwodnienie liniowe
O1
17.97m² beton poler.
125 220
D02
100
125
355
92
469
6 x 17.5 29
74
12 50 12
592
263
S3
słup żelbetowy 25x25cm
270 85
17.97m² beton poler.
budynek D
KD∅56 KS∅110
O1
1D.01kl. schod.
167
252
S2
±0.00
1C.01kl. schod.
budynek C
460
7 x 17.5 29
202
202
słup żelbetowy 25x25cm
103
10
170
109
36
410
495
1953
49
640
520
827
689
S2
1003
900 49
S2
520 495
36
1
3
827
So2
380 428
So2
36
dźwig osobowy GREEN LIFT - FLUITRONIC 81.21 MRL-MC o udźwigu 630kg o zaniżonym podszybiu i nadszybiu
dźwig osobowy GREEN LIFT - FLUITRONIC MRL-MC o udźwigu 630kg
973
- 3.66
stopa fundamentowa 40cmx100cm
section
Apolda Movements typology _urban & landscape design plot location _Apolda, Germany design area _6 ha type of project _academic, 5th term project at Bauhaus Universitat Weimar time of completion _october 2014 - february 2015 collaborants _Juan Pablo Aldana Cartensen role in progress _urban analysis and research, concept design, final drafts and layouts drawings: all drawing included were drawn entirely or partly by me diagrams: all drawing included were drawn entirely or partly by me 3D visuals: 3D modeling and photoshop post production
85 45
40 70
By definition, noise refers to any kind of unwanted sound that disturbs people from hearing the sounds, which they are interested in. In this project, noise is a powerful language which interferes in people’s everyday activities by creating a natural/artificial sound pattern. In cities both high and low fidelity sounds occur. LoFi sounds are the ones that create a soundscape and are mostly related to mechanization and industrialization. HiFi, on the other hand, is the sound mark of the city.
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The aim of the project was to refresh/renovate the old train station in Apolda and the nearby surrounding according to planned in 2017 IBA garden exhibition. Furthermore, whole area was supposed to be connected to the city center. The intention of this design was to make a path from the train station to the city center that had a simple reading and unity. Along with the audible elements, it was to have activities, artistic elements, relaxing spaces and was to be integrated with vegetation.
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loud noise law noise acceptable noise
Designed area was made as a distinction between the places and their priorities in the space. That is why major interventions were made only in some of the places in the whole area. As a result, two high peaks were created on both sides of the street and were be connected by different elements. The first and the most important one is a Horizontal Soundwave. It is a curvy path that covers the entire area and is composed of different materials, such as wood, stones, greenery and metal. Noise in a spatial translated form in this design can be seen as an irregular or curvy form, noisy colors as the vivid ones, those that catch us right in the eye. Rugged textures that are not only noisy in form but noisy when colliding with other rugged surfaces. A perfect example are stones colliding with each other.
noisy places now noisy places IBA designed noisy places
dB 90 Scale. 1:5.000
85 80 Apolda MOVEMENTS | Bauhaus University - Weimar | Faculty of Landscape Architecture | Jun-Prof. Dr.-Ing. Sigrun Langner | Dr.phil. Dipl. -Ing. Adél Gyimóthy | Juan Pablo Aldana Carstensen | Alicja Szczęśniak |
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reduced sound in green open area
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increased number of trains during garden exhibition
kids noises in playground
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flow of people, bicycles, cars
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green space - incomers from train station
interior of cafeteria / outerior of green space atelier cafeteria / atelier
flow of people following noisy path
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new function of train station the end of noisy path - lonely bench
sound analise of design area
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decibels predictions on design area
2017 IBA garden exhibition _info point _seed shop _cafeteria
_train station _shared space
from 2017 _workshops for citizens _artistic atelier _cafeteria
_social & resting area
railways
playground
_green open area _monumental art
functions on design area
[Db]
fuctional diagram of designed area Noisy platforms
Change in the sound and its volume dependent on the level that a person is situated on. Three different levels available.
_level 1: RELAXING ZONE - 55Db
The platform is situated 40cm above the ground level. It has a full permeability due to the construction of the stairway from three (different) sides. Noise will be indicated not only through people’s activities but also by irregular shapes on ground or „noisy” materials like cobblestones. The stone structures are made for people so they can lie down, lean, sit, chat etc. Noise from other platforms is decreased by the white noise barriers such as water wall or the greenery nearby.
_level 2: MIXED ACTIVITIES - 60Db
The second level of platform is the most flexible one because most of people’s everyday activities occur at the volume of 60Db. This place provides movable metal structures that can easily be changed and organized to fulfill people’s needs. The installation of swings introduces a new type of space usage and therefore is a great attraction for potential visitors.
_level 3: ATELIER + CAFETERIA
Located 1.20m above the ground level and introduces the activities with the greatest amount of decibels. Revitalization of abandoned building adds new function to it - during garden exhibition it is able to turn into an information point as well as into an exotic seed shop from the event. A small cafeteria is also a part of the project as well as the outside terrace with tables. A big open space which is a part of the abandoned building is a great place for different kinds of artistic activities and workshops which can take place after any type of exhibition. It is worth mentioning that it the first such place in Apolda.
site plan
Forest Camp typology _climbing & recreation center plot location _Gdansk, Poland design area _6 ha climbing center area _3 500m² restaurant area _900m² type of project _academic, 5th term project at Gdansk University of Technology time of completion _february - june 2015 collaborants _Klaudia Iwanowska role in progress _urban analysis and research, concept design, ďŹ nal drafts and layouts drawings: all drawing included were drawn entirely or partly by me diagrams: all drawing included were drawn entirely or partly by me 3D visuals: 3D modeling and photoshop post production
_development of shape
Debki is a popular see resort situated in Northern part of Poland including over 100m of Baltic see coast line. During summer season (1st of July 31st of August) this little town change from just a few hundred citizens place to over 250 thousand. The visitors are mostly young couples with kids. The main aim of the project was to rearrange the old camp site into new sport-recreational center in order to extend touristic season or to even change it into an all-year-round resort. Our idea was to transform the entire area into a multi activity place putting the biggest emphasis on the climbing section. Both designed outdoors and indoors objects/buildings are suitable for all year usage.
_elements of landscape infrastructure
_wooden wave - interaction and relax area
_climbing structure
_fireplace
_public toilet
_roller/ice-skateing area
_restaurant
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+1,75
CLEAN CORRIDOR
POKÓJ POBYTOWY
PORCJOWANIE DAIRY PRODUCTS
PRZYGOTOWYWANIE
JARZYNY
PRZYGOTOWYWANIE
MIĘSO
SZATNIA MĘSKA
PRZYGOTOWYWANIE
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SZATNIA DAMSKA
SUPPLIES
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DRY STORAGE
DAILY STORAGE
+0,00
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+3,50
10 x 17,5 29
FREEZERS
10 x 17,5 29
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DRINKS STORAGE
10 x 17,5 29
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10 x 17,5 29
A
DISHES STORAGE
Two stories building is situated on eastern part of designing area. Four elevations are covered with concret walls with mesh metal both silver and copper moveing blinds. Functionally, kitchen and magasines are situated on upper level. Dining rooms are located on ground level and supplies are delievered from western side. From grennery, diagonal corridor two entrances are leading both to dining and special occasions rooms.
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POT SCULLERY
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ZMYWALNIA NACZYŃ
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10 x 17,5 29
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SMAŻALNIA
WASTES
10 x 17,5 29
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section
northern elevation
plan level 0
eastern elevation
southern elevation
plan level +1
western elevation
site plan _comercial building - climbing & kids center
_entrance area _3m heigh playing net _climbing wall & boulders rocks _cloak rooms _caee place with outer patio
north-west elevation
_oďŹƒces _meeting & business places plan level 0
_playrooms & workshops for kids
north-east elevation
_intern corridor _small cinema room _workshop room for older kids & adults
south-west elevation
plan level +1
section
south-east elevation
City Of Connections typology _Innovation District plot location _Portland, Oregon, USA design area _18 ha type of project _academic, 6th term project at Gdansk University of Technology time of completion _february - june 2015 collaborants _Hanna Olszowa, Klaudia Iwanowska role in progress _urban analysis and research, concept design, final drafts and layouts drawings: all drawing included were drawn entirely or partly by me diagrams: all drawing included were drawn entirely or partly by me 3D visuals: 3D modeling and photoshop post production During the 6th term we made a project in cooperation with Oregon Leadership in Sustainability (OLIS). The main topic of the project was to come up with a new proposal for the postindustrial, devastated area located opposite to the City Center next to the riverside. Our first assignment was composed of the city analysis including scenario planning, sustainable Development and Regenerative Design, International Case Studies. Secondly, architecture, landscape architecture and urban design concepts were made. We found it very important to save the industrial character of this part of Portlad, thet is why we decided to save most of the warehouses. In some, the function can remain the same, in others it can totally change but they will still be arranged in postindustrial ways. Unfortunately the regular net of the district is unorganized and architecturally chaotic. That’s why we have been looking for a functional core that would not only connect the area of „Innovation District” but also refresh previously mentioned structure.
Influenced by varied communication system we came up with an idea of creating functional paths. Although most of the area includes apartment blocks and warehouses we wanted to create places that would attract people. The district analysis (founding existing services and commercial buildings) led us to rising five functional paths among buildings We divided them into following functions : _education path _business&services path _culture path _recreation path _night path
education
business & services
culture
recreation
night path
universities dormitories schools workshops libraries
comferece restaurant coffee shop bank hotel
cinema theater opera museum exhibitions
park bike paths otside gym playground vegetable garden
pub brewery wine bar dance club life music
education & business & services
culture & night path
education & recreation
recreation & business & services
culture & business & services
library bookstore dormitory canteen
culture events night cinema
dance classes team sports sport courses
outside conferences food tracks
exotic cuisine hand-made stores music stores
night path & recreation
education & culture
grill in park night cinema
scientific & technology park
night path & business & services night cinema club concert
education & night path students night life karaoke student club
culture & recreation night cinema sport competition
The second part of the project was to come up with an idea on how to use the area of 16 hectares - to make plans for the "Innovation district". The Portland Innovation District is a collaborative planning and design project with the Oregon Leadership in Sustainability (OLIS), Oregon Museum of Science and Industry (OMSI), Gdansk University of Technology (GUT) and City of Portland officials.
night path & recreation
education & recreation
The Portland Innovation District site is bounded by the SE Clay Street on the North, SE Caruthers Street on the South, railroad on the East, and Willamette River on the West. The site encompasses approximately 18 hectares [46 acres] within the Central Eastside Industrial District “Hosford Abernethy Neighborhood.” The Central Eastside Industrial District (CEID) is part of the “Portland Innovation Quadrant” which includes the University District, Marquam Hill, and South Waterfront.
day path & business & services
education & night path
The "Innovation district" is mostly damaged, partly with some industrial and storeroom function. That's why the main aim of city of Portland is to revitalize the whole area and to bring it closer to the standard of the city center. The "Innovation district" is supposed to be both similar to Oregon City Center and with its own, unique character. The heart of the area is the existing Oregon Museum of Science and Industry. Among other inspiring buildings are: Oregon Rail Heritage Foundation and Portland Opera.
education & culture culture & business & services culture & recreation
That project is of course a continuation of the Conceptual Design. The paths that arose on the net of Portland find themselves in the selected area. Although the main aim is the same (dividing paths just like functions), the leading of the paths change itself. The paths combine/gather buildings of the same functions not only on the ground but also on many other surfaces. Sometimes they lead towards the green-roofs of the buildings, sometimes through the buildings, one of them leads even to an enormous spiral. The reason for that kind of project is that the area is full of bridges, railways, free-ways and overpasses. The new communication system provides pedestrians with an amazing view over the Willamette River and the rest of the town.
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night path & business & services culture & night path education & business & services
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Conceptual idea night path & recreation
education & recreation
day path & bussiness & services
education &night path
education & culture
culture & night path
_contact details Alicja Szczęśniak +48 606690103 szczesniak.alicja@gmail.com