e.dimitrova77@gmail.com +359884722487
Architecture Portfolio Elitsa Dimitrova
22.08.2013 Kauffmann Theilig & Partner Architects sekretariat@ktp-architekten.de www.ktp-architekten.de
Internship Certificate
Ms. Elitsa Dimitrova, born on 05.04.1989, completed an internship at our office from 02.04.2013 - 28.08.2013 as a part of her architectural studies. During this period, Ms. Dimitrova became thoroughly acquainted with the practice of our architectural studio. More specifically, she took part in the following topics: • Single Family House Kemnat Haldenweg design development physical model, 3D model • Fildorado - Bath Sports and Leisure Centre final construction plans details and sections in scale 1:5, 1:20, 1:50 (phase 5) drawing of technical plans (phase 4) drawing of design plans (phase 3) Ms. Dimitrova has a very good understanding of architecture and can quickly grasp complex contentual and geometrical interrelationships. She is skilled in drawing representation in CAD (the Allplan program). To be emphasized is also her capability for 3D modelling in CAD as well as in physical form. We would like to thank Ms Dimitrova for the successful cooperation and we wish her success with the further course of her studies. D.B.Kauffmann
Architecture University on an Island .............................. Master Thesis @ UACEG Entry in UIA-HYP CUP 2015 International Student Competition in Architectural Design [03.2015 - 06.2015] Tutor: Topic:
prof. arch. Plamen Nanov Generative Urbanism
About: The site of the project is located on an island in Maritsa River, close to the city center of Plovdiv, Bulgaria, which is one of Europe’s oldest continuously inhabited cities dating back to 4000 B.C. Plovdiv has many layers of history and the project’s concept is inspired by the medieval urban fabric of the Old Town and by the natural context conditioned by the woody island amidst the river.
Prior to the first urban plan from 1891, Plovdiv had developed as a self-emergent, generative, organic urban structure, where every successive house had to be added to the existing town and natural landscape, reacting to architectural and natural factors, not being subjected to any urban plan or composition. The organic emergence has created different types of public spaces with human scale. The Old Town is situated on top of three hills and makes wise and dramatic use of the topography, resulting in irregular streets, building plots, houses and in-between spaces. The Old Town of Plovdiv is a “Group-form”, as it was defined by Fumihiko Maki. The houses form an ensemble of elements with spontaneous, but minor variations in their physical expression.
The Architectural University’s concept is also of a “Group-Form”, composed of elements with an organic morphology to merge with the natural context of the woody island. The campus is a group of generative elements that collectively shape the architectural form.
Elements are grouped that have a reason to be together - the Architectural and Engineering departments are in one building, consisting of eleven elements; the Library is a separate building of four elements and the Auditorium is a third building, also of four elements.
The composition emerges organically as a result of the natural conditions, the urban context and the internal organization and functions of the campus.
Only one simple element is used, that is parametrically varied by scaling in the X, Y, and Z directions according to the necessary functions. Each element hosts a separate function that often requires a closed space, such as a lecture hall, a workshop or a computer lab. The in-between spaces are more public and open – i.e. spaces for meetings and communication between students and professors, for spending time in-between classes and for events and exhibitions.
Communication is one of the most important functions of universities and that is why the buildings are rich with common and open spaces. Circulation is accomplished not through corridors, that kill communication, but through common atrium spaces on the ground floor and bridges, stairs and galleries on the upper floors.
Laboratory 330 sq m +4.00
Lecture Hall 250 sq m
ENGINEERING DEPARTMENT
Laboratory 330 sq m
+4.00
+4.00 +4.00
+6.00
Lecture Hall 250 sq m
ENGINEERING DEPARTMENT
Computer hall 380 sq. m. +4.00
Studio 520 sq m
+4.00
последен вариант
+6.00
Computer hall 380 sq. m.
Seminars
Lecture Hall 250 sq m
+4.00
+4.00
Studio 520 sq m
зала 280 кв. м.
+4.00 +4.00
+6.00
+4.00
+4.00 Компютърна зала 500 кв.м.
Х
Инж. факултет
30
+4.00
+4.00
Studio 520 sq. m.
см
Ателие за работа 600 кв. м.
Studio 520 sq. m.
+6.00 60
+6.00
+6.00
Computer hall 380 sq. m.
+4.00
Компютърна зала 500 кв.м.
+4.00
24c
+4.00
т.
16. 66
+4.00 Х
30
Studio 520 sq. m.
см
Арх. факултет ARCH DEPARTMENT
Digital Lab +4.00 240 sq. m.
36 cт.
N
Studio 520 sq. m.
16.66
Х 30
см
Ателие за работа 600 кв. м. +6.00
Ателие за работа 600 кв. м.
Дигитална лаборатория 390 кв. м.
ARCHITECTURE AND ENGINEERING DEPARTMENTS PLANS LEVEL +4.00 AND +6.00 SCALE 1: 500
1142
зала 280 кв. м.
ст .
30
.66 16
ст .
Х
cт.
500 кв.м.
66 16.
+4.00
упражнения
+4.00
т.
см
36
ARCH DEPARTMENT
24c
ст.
+4.00
+4.00 +4.00
Seminars
+4.00 +6.00
Computer hall 380 sq. m.
Компютърна зала
Прожекционна зала
Lecture Hall 250 sq m
ст.
+4.00
5591
+6.00
Л. Зала
лаб
Лекционна 180 кв. м
Зала
Л. Зала
лаб Л. Зала
Лаборатория
cт. 24
.66 16
Х
30
307
ст.
Л. Зала
см
507
CONSTRUCTION
ст.
Кабинети преподаватели
36
Библиотека
16.
66
Х
30
см
ст
.
cт.
Инж. факултет
Администрация
Изл ожб а
Кабинети преподаватели
6Х т. 16.6 24c
30
Лекционна Зала 180 кв. м
кухня
Л. Зала 80 кв. м.
Lab 90 sq m
600 кв.м.
16.66
Ex Х 30
см
Lecture Hall 90 sq m
250
Арх. факултет
Mакетно ателие/ Работилница за дърво и метал
С. Зала Л. Зала 46 кв. м. 90 кв. м.
Лаборатория за изпитване на конструктивни елементи
см
36 cт.
Lecture Hall 90 sq m
900
600 кв.м.
С. Зала 750 м. 46 кв.
hib itio
Lab 90 sq m
Lecture Hall 90 sq m
Lecture Hall 90 sq m
Exh ibiti ons
hib itio
LIBRARY 2ND FLOOR PLAN LEVEL +4.00
ns
Laboratory 330 sq m
0.00
Administration
0.00
Lecture Hall 90 sq m
Lecture Hall 90 sq m
Laboratory 520 sq m
33
80
23
Lecture Hall 180 sq m
275 18.33Х28
Exh ibiti ons
+-
6 ст.
+-
15.22Х
Library 0.00
+
Info
+4.00
Lecture Hall 250 sq m
3.50
WC, гардероби
0.00 +
ст.
0.00
3 114
ns itio hib Ex
Laboratory 520 sq m
Info
Library
Faculty Offices
Faculty Offices
Амфитеатър
ns itio nEsxhib
Faculty Offices Ex
Library Портиер, Информация, Книжарница
Library
hib itio
ENGINEERING DEPARTMENT
0.00
Lecture Hall 90 sq m
Faculty Offices Ex
0.00
библиотека
Lecture Hall 180 sq m
Lab s sq m n90 itio hib Ex
hib ENGINEERING itio nDEPARTMENT s
Lecture Hall 180 sq m
Administration
Lecture Hall 140 sq m
0.00
Ex
0.00
Lab 90 sq m
Lecture Hall 140 sq m
ns
Lecture Hall 180 sq m
0.00 бюфет 350 кв.м.
600
Lecture Hall 90 sq m
165
1.10
Бар - 2 етажа
0.00
600 места
0.00
+4.00
3ти етаж
ENGINEERING DEPARTMENT +4.00
80
ARCH DEPARTMENT 0.00
+6.00
Computer hall 380 sq. m.
6 ст. 18.33Х28
2ро ниво - галерия за изложби
0.00
Seminar 58 sq m
Lecture Hall ns sq m 110 itio hib Ex
Seminar 58 sq m
Wood and metal workshop 520 sq m
0.00
Buffet 520 кв. м.
0.00
Lecture Hall 110 sq m
Studio 520 sq m
ARCH DEPARTMENT 0.00
Seminars
Lecture Hall 250 sq m Seminar 58 sq m
2494
3753
+4.00
Digital Lab 240 sq. m.
Wood and metal workshop 520 sq m
Seminar 58 sq m
+4.00
+4.00
Buffet 520 кв. м.
0.00
+4.00
+4.00 +4.00
+6.00
+6.00
Computer hall 380 sq. m.
+4.00
+4.00
ARCH DEPARTMENT
LIBRARY
Studio 520 sq. m. Studio 520 sq. m.
LIBRARY 3RD FLOOR PLAN LEVEL +8.00
Digital Lab 240 sq. m.
Shop
Amphiteater
Exhibition
Lab 90 sq m
WC
Ex
Lecture Hall 90 sq m
Lecture Hall 90 sq m
Lecture Hall 180 sq m
0.00
Auditorium 600 seats
hib itio
ns
ns itio hib Ex
0.00
WC
ENGINEERING DEPARTMENT
0.00
Administration Library
Lecture Hall 90 sq m
Library
Lecture Hall 180 sq m
Exh ibiti ons
Laboratory 520 sq m
Info
Auditorium 600 seats
Faculty Offices Ex
Lecture Hall 90 sq m
Lab 90 sq m
Lecture Hall 140 sq m
hib itio
Bar
ns
UNIVERSITY CAMPUS PLAN ON LEVEL +/-0.00 SCALE 1: 500
Exhibition
AUDITORIUM PLAN ON LEVEL +3.75 SCALE 1: 500
0.00
Faculty Offices
395
307
GENERATIVE URBANISM
0.00 0.00
Дигитална лаборатория
ARCHITECTURE UNIVERSITY ON ADATA ISLAND IN PLOVDIV
Roof Structure
The Future of Brno .............................. Competition Entry @ Plasma Studio, Beijing [11.2015 - 02.2016] Team: Eva Castro, Holger Kehne, Chuan Wang, Pietro Scarpa, Andrea Cadioli, Yunya Tang, Jingshuang Zhao, Vittoria Bellassai, Valentina Mancini, Giulia Mariotti, Edoardo Nieri, Elitsa Dimitrova About: During my internship at Plasma Studio I participated in the studio’s competition entry for the development of a new urban area in Brno. The functions of the new area are mainly residential, but also include a new trainstation, university and a cultural hub, commercial and office buildings. A special feature of the project is the landscape that deals with the problem of the overflowing river and creates an attractive public green space.
9.685
9
8
4.58 3
37
5.35
7.66
72
12 5
17 5
25 10 25
Sani.
E
6.8 m²
R E. 28 OK FFB
A
5.41
UK FD
-2,97
-3,05
OK RFB
81.00
UK RD
D: Sichtbet.
3.46 3
Work project as architectural intern @ Kauffmann Theilig und Partner Architects, Stuttgart [04.2013 - 09.2013]
6.41 5
Technik Zentrale UK FD
+1,15 +1,15
D: Sichtbet.
UK RD
F
3.02 5
1.50
22.5
-2,97
-3,05
OK RFB
1.50
55
17 5
R E. 27 46.9 m² OK FFB
FB:Platten
6.02
F
25
UK FD
+1,15 +1,15
D: Sichtbet.
H
3.57 3
4.3 m²
-3,05
FB:Platten
OK RFB
B
3.82
R E. 25
6.025
ELA
6.025
17 5
UK FD
+1,15 D: Sichtbet.
-2,97
UK RD
25
Filderstadt, Stuttgart
9.4 m²
-3,05
OK RFB
2.40
16.25 3
16.75 3
16.95 5
16.75 3
5
43
17.5
-2,97
17.3
17.3
43
EDV
R E. 26 OK FFB
FB:Platten
OK FFB
WC Damen
UK RD
59 3
+1,15
D: Abg. Met.
C
OK FFB
-1,65
UK RD
7.31 5
2.31 5 25
10
25
75
UK RD
-1,65
-1,80
OK RFB
5.6 m² UK FD
5.56
+1,15 +1,15
UK RD
D: Putz
15
R E. 05 OK FFB
OK FFB
+1,15
D: Abg. Met.
+1,15 +1,15
OK FFB
UK RD
FB:Platten
D: Sichtbet.
UK FD
-1,65
+1,15
-1,80
+1,15
FB:Platten
D: Sichtbet.
OK RFB
UK RD
UK RD
WC Damen
+1,15
R E. 10
UK RD
OK FFB
WC Herren
3.39
UK FD
-1,65
+0,85
-1,80
+1,15
FB:Platten
D: Abg. Met.
OK RFB
25
1.56
25
OK FFB
+1,15
-1,65
D: Abg. Met.
OK RFB
OK RFB
UK RD
20
5.25
4.30
25
20
2.05
R E. 03
UK FD
OK FFB
+0,85
-1,80
+1,15
FB:Platten
D: Abg. Met.
UK RD
Vorber
10.0 m²
R E. 04
+0,85
-1,80
FB:Platten
-1,65
UK RD
5.9 m² UK FD
+1,15
-1,80
+1,15
FB:Platten
D: Abg. GK.
OK RFB
C
UK RD
35
4.56
E 2.00
1.00
2.00
1.00
2.69
3.15
-1,65
UK FD
+1,15
D: Sichtbet.
Sammel.- umkl.
UK RD
GE14
+1,15
D: Sichtbet.
GE01
UK FD
+1,15
UK RD
I Stiefelgang
-1,65
I
F
13.0 m²
UK FD
+1,15
-1,80
+1,15
FB:Platten
D: Sichtbet.
UK RD
3.813
OK FFB
381
OK RFB
18
GE13
R E. 06 42.6 m²
1.25
2.15
38 1.3 2
+1,15
10.7744°
=GG02
UK RD
29.2 m²
D: Sichtbet.
Es
GE02
15 25
25 -1,65
-1,80
OK RFB
H
-1,80
EE
1.93
R E. 11 OK FFB
UK FD
+1,15
FB:Platten
OK RFB
FB:Platten
35
.29
4.33
-1,65
Flur
4.23
GE03
R E. 08 13.1 m² OK FFB
Team: Elitsa Dimitrova, Coskun Kocak
1.09
+1,15
-1,80
FB:Platten
OK RFB
2.84
51
OK FFB
25
21
Umkleide/ Spinde R E. 07 46.4 m²
1.325
1.00
3.675
2.00
8.438
50
8.438
10
26
1.40
2.20
72
25
25 2.20
1.53
7.72
25 1.40
1.813
=GG03
1.12
25
1.56
Beh. WC/Du.
9.9 m² UK FD
-1,65
R E. 14 11.9 m² OK FFB
2.40
+1,15
D: Sichtbet.
OK RFB
-1,80
R E. 01 74.9 m²
UK FD
-1,65
-1,80
OK RFB
UK FD
+0,85
25
UK FD
-1,65
-1,80
FB:Platten
5.2 m²
FB:Platten
OK RFB
GE15
Flur
R E. 16 55.6 m²
C
-1,65
1.50
GE12
OK FFB
Vorraum Beh. WC/Du.
D
Empfang
R E. 02 39.4 m²
UK RD
12 5
R E. 20 OK FFB
FB:Platten
3.20
+1,15 +1,15
3.86
UK FD
-1,65
-1,80
OK RFB
FB: Anstrich D: Beton
Espresso Bar
3.20
1.5 m²
OK FFB
6.15
GE10
5
FB:Platten
D: Abg. Met.
UK RD
UK FD
+0,85
-1,80
+1,15
FB:Platten
D: Abg. Met.
OK RFB
UK RD
R E. 11 OK FFB
6.5 m² UK FD
-1,65
+0,85
-1,80
+1,15
FB:Platten
D: Abg. Met.
OK RFB
UK RD
3.1 m² UK FD
-1,65
+0,85
-1,80
+1,15
FB:Platten
D: Abg. Met.
OK RFB
4.33 3
6s
26.65 Vorraum Damen
R E. 09 OK FFB
4
UK RD
5
=GG01 25
D
+1,15
6.5 m²
-1,65
95
-1,80
3 Du. Damen
Du. Herren
R E. 15 OK FFB
6 25
UK FD
+0,85
OK RFB
B
3.0 m²
-1,65
14.0
Vorraum Herren
R E. 13 OK FFB
9.59 8
2
1 380.12
38 1.3
8
3.89
G
D: Abg. GK
PuMi
Technik fl.
R E. 19
3.455
4.00
A
FB:Platten
20
2.62 9.97
4.07
UK FD
+5,08
UK RD
3.86
9.03
8.4 m²
-2,01
OK RFB
12 510
20
4
UK RD
Nebenraum
+5,08
20 10
4.4
UK FD
+5,08 +5,08
5 20 10
5.8 m²
D: Abg. GK
UK FD
+1,15 +1,15 D: Putz
5
-1,86
-2,01
3.12
R E. 17 OK FFB
FB:Platten
OK RFB
-1,86
6.35 8
4.8 m²
-1,65
-1,80
OK RFB
FB:Platten
Sitznische
OK FFB
UK RD
Nebenr.
R E. 21 OK FFB
GE11
R E. 18
+1,15
D: Sichtbet.
17 5
5.47
GE09
UK FD
+1,15
-1,80
FB:Platten
OK RFB
2.70
+1,15
25
11
GE08
J
R E. 22 13.1 m²
UK FD
+0,85
D: Abg Met.
2.53
2.05
GE07
Flur
9.9 m²
-1,65
-1,80
OK RFB
2.70
WC Herren
R E.OK FFB
FB:Platten
2.53
17 5
24
B
UK FD
+0,85
-1,80
25.475
2.10
-1,65
25
R E. 24 10.2 m² OK FFB
FB:Platten
OK RFB
About: During my internship at KTP, I took part in the design of two projects: a private single-family house and an extension to Fildorado Bath Sports and Leisure Centre in Filderstadt in Stuttgart, which was previously build by KTP. For the Fildorado project, I worked on 3D models, plans, sections and building construction details in several project phases – from design to working plan drawings in scales from 1:50 to 1:10. The photos on the left are of the realized building.
4 35 11
UK RD
D: Sichtbet.
5
10 12
10
25
59 8
34 5
OK RFB
FB:Platten
Location:
1.50 2.53
8.9 m² UK FD
FB:Platten
10 25
GE06
1.013
10 3
48 5
45 3
29 5
25 Eing. Sauna Pdst
R E. 30 OK FFB
GE04
125 25
4.24
25
UK RD
2.01
25
D: Sichtbet.
OK RFB
48 5 10 3
GE05
FB:Platten
125
2.423
31
UK FD
+1,08
2.598 1
3.04
13.1 m²
-2,00
-2,215
25
R E. 29 OK FFB
15.345
D
4.55 5
3.97 3
4.41 8
7.54 2.22
=GE02 Eingang Sauna
943
2.22
G
14 5
2.35 2.47 2.32
05
Extension of Fildorado Bath .............................
15
A
10
K E
7
G
Abkürzungen
Installationen
G
F
ES
E
H
D
C
B
SA06
SA05
Planzeichen
K
A
G
T
+5.28 +4.96
34 30
SA04
+4.66
3.60 2.97
SA01
+1.76
SA02
SA03
SA07
+1.64
+1.66 27
35
+1.40
SA08 +1.38
+1.08
+1.13
SA09
38
25
+1.38
+1.15
3.40 3.66
2.80
3.01
15
-1.65 -1.80
25
20
1.60
-2.00 -2.16
-2.00 -2.22
-2.49
-2.47
-2.00
49
-2.05
2.50
2.90
1.07 24
-4.55 -4.785
ALL NE DE AB VE
25 10
-5.035
Abkürzungen
1
2
10
3
10 S
4
5
6S
7
SC02
5.35+ 5.08+
FFB5.05+
5.04+ 5
4.95+
Installationen
4.71+
Planzeichen
4.41+
G
HÖHEN IM S T ±0.00 = 383,
G
EE
SC04
E
H
FFB1.75+ 1.40+
I
FFB1.64+
1.80-
FFB1.65-
2.0535 26
25
3.55
3.40
5.03-
5
4.78- 5
SB06
SB07
5.03-
5
Bauherr:
Stadt Brühl
15 25
15 25
Bauherrvertretung: Stadt Klaus Uhlbe 2.52 2.20
2.50
2.90
1.07
Projekt:
SB05 8
SB04
FFB4.55-
2.79
2.80
FFB4.554.78- 5
1.60
SB03
Änder
FFB1.65-
1.80-
35
SB02
SC05
1.15+
2.05-
20
WE
SC03 FFB1.66+
1.40+
1.15+
SB01
SC01
Spo Sep ALL Mah
10
9
OK Attika5.35+
OK Attika5.35+
FFB5.34+
OK Attika5.35+
5
RFB4.98+
30
37
7
5
3.03
3.70
UK RD4.68+
FFB1.65+
OK1.75+
5
OK1.17+
5
RFB1.38+
FFB1.20+ RFB0.85+
38
30
28
FFB1.66+
25
UK RD1.08+ UK RD0.81+
UK RD0.73+
10
5
3.57
UK RD1.95-
25
21
FFB2.00RFB2.21-
5
10
32
7
FFB2.97- RFB3.0425
UK RD2.46-
20
10
FFB2.00-
FFB1.48RFB1.70-
25
22
4.20
3.07
2.32
3.65
UK RD0.60+
UK RD3.29-
New Youth Center FestSpielHaus .............................. University project @ University of Applied Sciences Stuttgart [10.2012 - 01.2013] Course: Thematically Designing, 4th year MA Tutor: prof. Roland Dieterle About: The task was to design a theater building over a bus station for the Munich based youth center FestSpielHaus. FestSpielHaus is not a professional, but rather an amateur theater for young people – high school and university students. The institute gains revenues from plays, which are staged several times per week and, therefore, the challenge was to make a building that is both comfortable to use for the actors and intriguing and attractive for the potential spectators –passersby on the bus station and other Munich residents.
Concept: The ground level is left free in order not to take away any urban space from the citizens. In the same time, passersby are visually invited to walk up the ramp over the underground exit and see what is happening on the open air stage and then either enter the theater or continue strolling up to the roof terrace or along the north façade to the highway overpass or down the stairs to go back to the ground floor.
The form is entirely derived from the urban situation. The building pulls back from existing buildings to allow for more privacy and sunlight. The second skin made of wooden lattice further provides for more privacy and dematerializes the building to make it look lighter.
The whole building acts as a pedestrian bridge connecting the underground exit and the highway overpass, not taking any space away from the city, but rather giving back new spaces, circulation routes and venues.
The steel frame structure allows for flexibility of the interior spaces. The auditorium is multifunctional and flexible. There is a functional connection between the open air stage, the entrance foyer, bistro and auditorium; part of the bistro is in the auditorium, which was the investors’ request.
residential buildings U-Bahn exit site - bus station
highway overpass
Site
open air stage
The theater pulls back from existing buildings.
Site
to highway overpass ramp to roof terrace
open air stage u-bahn exit
bus station
roof terrace to highway overpass
outside circulation
Level 0.00
Level +13.50
Level +9.30
Level +5.80
Cross section
Longitudinal section
This project was tutored by an architect and a structural engineer and was developed in both aspects. We had to design an organic waste storage facility for the city of Karlsruhe, where the processed waste is stored and prepared for further utilization. The facility requires column free space, 6m high surrounding wall and a structure resistant to gases released during the process of waste fermentation.
BiomĂźll Halle in Karlsruhe ............................. University project @ University of Applied Sciences Stuttgart [10.2012 - 01.2013] Course: Structural Designing, 4th year MA Tutors: prof. Gassmann, prof. Zimmermann Collaborators: 2
und Aufbereitungshalle für eine Biomüllverwertungsanlage Konstruktives Entwerfen MA 2 Alena Bender Julia Kees Elitsa Dimitrova WS 2012 / 2013 Hochschule für Technik Stuttgart Prof. Gassmann Prof. Zimmermann
Concept: Our goal was to blur the traditional boundary between roof and wall. This idea is implemented in the structure, which encloses the building like a net and endues it with a uniform appearance. To reinforce this image, only two materials are used – concrete and ETFE foil. Entwurfes ist es eine Einheit zwischen Wand und Dach zu schaffen. Dieser Gedanke wird im Tragwerk umgesetzt, dass sich wie ein Netz über das Gebäude legt und dem Gebäude ein einheitliches bild verleiht. Zusätzlich bilden Wand und Dach eine Einheit. Dieses Bild wird durch die Verwendung von lediglich zwei Materialien Beton und ETFE Folie noch verstärkt. Concrete and ETFE foil are suitable materials, also because they are resistant to konstruktion stellt eine Gitterschale dar, bei der sich die Kräfte über einen Druckbogen punktartig über einen Druckbogen in die Fassadenkonstruktion übergeleitet werden. estehen aus U-förmigen Betonfertigteilen, die auf der Baustelle durch ein ausgeklügeltes Stecksystem zu einem Gitter zusammengesetzt werden. Anschließend werden Bewehrungselemente eingelegt und the released aggressive gases. The pneumatic ETFE foil pillows have very good mit Ortbeton vergossen. nstruktion besteht aus Betonfertigteilen. Jeweils zwei Elemente bilden ein „X“. Durch einen auf halber Wandhöhe befindlichen Knick wird die Wand gegliedert und gewinnt an Plastizität. Um einem Gelenk an thermal insulation qualities vorzubeugen wird die Wandkonstruktion durch Lisenen ausgesteift. and are transparent, letting in sufficient natural light n auftretenden Gasen in der Halle standhalten kann, ist es möglich die Fassadenkonstruktion nach außen zu legen. Um angenehme Arbeitsbedingungen zu schaffen, war es unser Ziel die Halle mit möglichst inAusthe building. elements aremehrere integrated in the ETFE pillows. ht zu versorgen. diesem Grund haben Photovoltaic wir eine Luftkissenkonstruktion gewählt, die gute Eigenschaften in unserer Konstruktion vereinen. Zum einen kann durch die Transparenz der ETFE
sruhe plant den Bau einer Trockenvergärungshalle zur Verwertung des im Stadtgebiet anfallenden Biomülls. Aufgabe gestellt eine Halle zu entwerfen, in der die bearbeiteten Biomüllreste zwischengelagert und zur weiteren Verwertung aufbereitet werden. Vorgabe war eine Grundfläche von ca. 2 500m², sowie öhe von mindestens 10 Meter. Auf Grund der Nutzung mit schweren Fahrzeugen ist es wichtig eine stützenfreie Halle zu haben, die allseitig mit einer 6m hohe Wand umschlossen ist. Ebenso ist zu beachten, tion zu wählen, die den bei der Vergärung anfallenden Gase standhalten kann.
ageslicht in die Halle einfallen. Des weiteren wird die geforderte Dämmwirkung der Fassade ermöglicht. Des weiteren werden die aus ETFE bestehenden Folien nicht von den auftretenden Gasen Die Fassadenkonstruktion wird auf der Baustelle auf die Betonfertigteile montiert und integriert die zur Wasserableitung notwendige Rinne. Um anfallende Stromkosten decken zu können, werden in den ich Photovoltaikelemente eingebaut.
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8
G
H
7,07
F
7,07
1
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6 7,07
E
5 7,07
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4 7,07
C
7,07
B
38
2 7,07
A
1
Grundriss 1:200
Dachaufsicht 1:200
Biddle Modell IndAC - Industrie Luftschleier Teckentrup - Rolltor Stahlbetonwand 30 cm WU- Betonboden 30 cm abgeschliffen Einzelfundament 2,50/3,00
Construction. The roof structure is a concrete gridshell deriving its strength from its double curvature. It is consisted of precast U-formed girders sized 40 by 60 cm, assembled on site. After the precast grid is assembled, reinforcement steel elements are inserted and the U-shell is filled with in-situ concrete. The wall is also made of precast elements – two of them forming “X”.
Packaging Factory .............................. Concept for a private client [2017] I developed a concept for a facade and site organization based on a technology plan
Spiraling Poetry Club ............................. University project @UACEG [03.2014 - 06.2014] About: The Poetry Club is situated in a very central and important for Sofia place - the park of the emblematic Russian church “St. Nikolai“, near the place where an old Writers’ cafe existed until 1975. The elite of the Bulgarian poets, writers and intelectuals used to meet there and exchange ideas, so the task to design a new building in this place with rich history and surrounded with architectural monuments was a challenging one. The Poetry club is developed mainly underground to respect the park and the existing buildings.The whole building is made of one single gesture - a Spiral, represented by a monument-like entrance overground and a spiraling ramp underground, that circulates down and accesses the different levels. The ramp leads down to the main amphiteater hall - a place for reading and discussing poetry. Daylight comes from above only, poetically filtered through the glass ramp.
4
Site
Russian church with garden
Site
place of the Poetry Club
Site 1.Russian church 2. Natural history museum 3. Park 4. Poetry Club
3
2 1 3
Entrance
Poetry Club Interior
Level 0.00 Entrance and foyer
Level -6.46 Cafe
Level -6.90 &-7.65 Library
Level -9.00 Main hall with amphiteater Cafe, Administration, Service
spiraling ramp
Residential Building ............................. University project @UACEG [03.2014 - 06.2014] Course: Residential Buildings, 4th year MA Location: Sofia, Bulgaria About: My main idea was to recreate the feeling of a single-family housing in touch with nature within a residential block in the urban environment of Sofia. The maisonette appartments on the 2nd and 3rd floor are equipped with terrace and roof gardens.
Maisonette appartments on 2nd and 3rd floor with roof gardens and terrace greenery
2nd floor
3rd floor
Magnetic Flow ............................ Generative Morphologies v2 Workshop on Parametric and Generative design more info @ designmorphine.com [07.2015] Collaborators: 2 Tutors: Michael Pryor, Mateusz Zwierzycki Tools: Grasshopper, Rhino 3D Topic: Architecture as “Machine Organism for Living�. Artificial Life. Analyzing systems and mechanisms observed in nature and recreating them through computer algorithms. Concept:A number of fish in the ocean possess an active electric sense they can generate electromagnetic fields used for navigation, object detection, predation and communication with other fish. We used Grasshopper to visualize the movement and interaction of those electromagnetic fields.
Variables: > number of point charges > location of point charges > values of point charges >morphology of flow lines
EASA Hidden Corners ............................. European Architectural Student Assembly 10-day international student workshops, Veliko Tarnovo [08.2014] Collaborators: 8 About: Urban interventions in places that needed activation - a bench in front of Kolju Fitscheto’s church (emblematic building for the city) and a multifunctional pavillion on an empty corner in front of a school. The bench was designed with Grasshopper and Rhino. The pavillion - with Rhino.
Thank you!