banushSHYQERIU Barch. March.
2009
P O R T F O L I O
Curriculum Vitae
1. Master Thesis: SYNERGIC SPACES - MOSQUE
2. The Berlin Mosque - Design Studio
3. Competition - Gerhalde - Streiff Architects - Switzerland
4. Davos: The sun city in the high mountains - Design Studio
5. Stassfurt: Exhibition Centre - Design Studio
6. De Luxe Villa - Bachelor Diploma
7. Competition - Arbon - Streiff Architects - Switzerland
8. Competition - Krauchthal - Streiff Architects - Switzerland
1. Master Thesis: SYNERGIC SPACES - MOSQUE
Excerpt from Chapter IV
Banush Shyqeriu SYNERGIC SPACES - MOSQUE
MASTER THESIS
Mosque as Place of Education
Mosque as Community Centre
Mosque as Place of Worship
Thesis Master: Prof. Dr. Ing. Andrea Haase Second supervisor: Mag. Arch. Matias del Campo
Dessau 2009
Banush Shyqeriu SYNERGIC SPACES - MOSQUE
MASTER THESISThesis type: Written Thesis
Title: SYNERGIC SPACES - MOSQUE
Subtitle: Generative principles for Mosque Design through cross-disciplinary Approach
Context: Berlin
Candidate: Banush Shyqeriu
Submitted to Anhalt University of Applied SciencesDIA Dessau International Graduate School of Architecture, Germany26 July 2009
Thesis Master:
Prof. Dr. Ing. Andrea Haase fist supervisorMag. Arch. Matias del Campo second supervisor
Chapter IV
MOSQUE 'CRISIS' DISCREDITING THE MOSQUE AS REPRESENTATIVE BUILT FORM4.1 Approach adopted 4.1.1 Relevance of Architectural History the Mosque Typology 4.1.1.1 Typology and Generic Forms4.2 Searching for Universal Inspiration' Sources Searching for a Meaning 4.2.1 Arabesque - Islamic Patterns as a Real Potential for Mosque' Visual Language 4.2.2 The Meaning of Ornaments in the Architecture of the Mosque 4.2.2.1 The First View - the Perenialists' Approach 4.2.2.2 The Second View - the Ornamentation as Pleasure Oriented 4.2.3 Method Adopted - Islamic Ornaments as 3D Components in the scope of Advances in Design and Emerging Technologies
4.2.4 Criteria for Selecting Islamic Patterns as a set for Developing 3D Components
4.2.4.1 Islamic Patterns' Catalogue- Geometrical Islamic Patterns- Vegetal and Floral, and- Islamic Calligraphy
4.2.5 Methods, Tools and Techniques used to Create 3D Components from Islamic Patterns Arabesque
4.2.5.1 From Typology to Novel Topological Blending 4.2.5.2 Reinterpreting the Dome Organic Architecture
4.2.5.3 Material Performances and Architectural Effects
temporally. universally spread and come to be accepted as a unique creation of the Muslim World spatially and nature. A wide alphabet inspired and derived from nature, created a whole grammar and language which art and architecture relied on pure inspiration, meaning, geometries, patterns and forms derived from By freeing itself of any representation of living things, Islam gave a real constrain to the development of an sense of visual beauty worthy of Islamic culture . 60Moreover, understanding the generic nature of transcendent forms, surfaces, and patterns, create a new World for its role, purpose and as a panel to express the highest creativity and beauty in Islam. and embedded towards the community development, the Mosque set its position in the peak of Muslim By channelling the Mosque in its eternal idea, where the meaning, purpose, role and beauty are integrated identified as a crisis of Mosque as Institution and representative built form. the spirit of Islam itself the purity, simplicity and humbleness. The breakage of this Spirit lead to what we vast diversity, we can clearly identify the spirit of the uniqueness of these Mosques, which is derived form Exploring the Architecture of the Mosque spatially and temporally through out the Muslim world, despite a
61 Ardalan, N., 1980, The Visual Language of Symbolic Form: A Preliminary Study of Mosque Architecture, J.G. Katz (Ed.), Architecture as Symbol and Self-identity, Philadelphia: Aga Khan Award for Architecture
Patterns and ornaments inspired form nature and developed in a unique way through the use of geometry created across centuries what is now being known as Arabesque, Islamic Patterns and Islamic Ornaments, which created a definite visual language possessing both vocabulary and grammar.
61The Vocabulary of the mosque according to Ardalan reveals the aesthetic concepts and models of the parts of the mosque, constituting the forms, surface, patterns, colour selection and materials. While Grammar relates to various systems of organising these parts into a coherent whole within the framework of Islamic concepts of place making. Parts of the vocabulary and grammar have achieved, through accretion and evolution, highly charged symbolic meanings, while other parts of the language are very regionally bound.
IMAGE: Carmen Redondo/CORBIS
A thirty seven ceramic tile alphabet capable of generating infinite packing configurations throughout the history of Moorish Architecture.
Photography by Jean-Marc Castera
Source: Douglis, Evan Autogenic Structures Taylor&Francis, Oxon, 2009
4.2.1 Arabesque - Islamic Patterns as a Real Potential for Mosque Visual Language Islamic Ornamentation with its meaning and formal expression reveals one of the universal elements consisting both grammar and language for the Mosque both in the internal space and its representative visual expression. The application of ornamentation consists of elaboration in materials through geometrical techniques of tiling, multiplication, modularity and dispersion of the Ornament, which can be found across the Architecture of the Muslim world through a distinctive grammar and language.
The alphabet and grammar of the Islamic Ornamentation can be explored for their immense tectonic capabilities and used to generate an infinite new visual language for the Mosque architecture. Architecture of the Mosque inspired from the universal legacies of the past, the premise of the present and the future advances in design and emerging technologies. Through its relevance as one of universal elements of Mosque Architecture, Ornamentation has a deep meaning that kept it alive and spread it world-wide, what is that meaning or there is more than one meaning? This we are going to explore briefly in the scope of the Architectural History temporally and spatially and in the scope of Eternal Idea of the Mosque as Synergic Spaces.
A B C D
E
Direct strapwork and girih-tile construction of 10/3 decagonal patterns.Source: www.sciencemag.org SCIENCE VOL 315 25 February 2007
IMAGE: Adam Woolfitt/CORBIS
4.2.2 The Meaning of Ornaments in the Architecture of the Mosque
Islamic prayer requires no tangible object, such as an icon or a statue, to induce a sense of divine presence and serve as a support for worship. Visual engagement is therefore unnecessary. The Mosque reveals little correspondence between Muslim prayer ritual and the Mosque form (Kuban), hence Islam itself is prescriptive in behaviour, not in form (Grabar).
In this work we will set a critical approach to the views on ornamentation used in the Muslim world and specifically in the Architecture of the Mosque. 4.2.2.1 The First View - the Perenialists Approach Symbolism, the perennialists argue, is the most appropriate approach for comprehending the inner meanings of traditional art and architecture and for penetrating deep into their worlds of spirituality and metaphysics. In summary, the perennialists, approach the question of artistic production from the viewpoint of creative imagination and religious inspiration. They focus primarily on the ideas, rituals, and cosmology within the matrices of which an artefact is produced, rather than the historico-cultural conditions that facilitate such production.62
62 Samer Akkach, Cosmology and architecture in premodern Islam : an architectural reading of mystical ideas New York, 2005
Metaphysical Order, Pattern of proliferation according to Ibn Arabi.
The third stage of manifestation according to Ibn Arabi (MS. 1328).
4.2.2.2 The Second View - the Ornamentation as Pleasure Oriented
Here we bring two statements and conclusions of two prominent architects and historians of Islamic Architecture: Ornament is the ultimate mediator, paradoxically questioning the value of meanings by channelling them into pleasure. Oleg Grabar, The Mediation of Ornament Norms of beauty in the Arab-Islamic culture were autonomous, pleasure-oriented, and independent of moral and religious criteria. Doris Behrens-Abouseif, Beauty in the Arabic Culture
Our work maintains the position that Ornamentation in Islamic arts and architecture has certain level of ambiguity due to several implications and tendencies to give meaning to it. Moreover we inherit a sharp distinction through the potency of our recent Modernist past; of what is ornament and pure structure.
As the Eternal Idea of the Mosque as Synergic Spaces derived from Islamic sources, the ornamentation with religious meaning finds no place, as Islam is not about merely forms but is prescriptive in behaviour. We should look to the Ornamentation as a universal legible feature of Muslim architecture by mining its potentials to develop a new and still legible visual language for the Mosque as representative built form that would bring a tangible solution to the representative crisis of the Mosque. If ornamentation is to fully return from its banishment, it will only do so as an internally generated feature essential to the expression of the whole. More bluntly, it needs to be autogenic. Further, recent discourse requires a complete separation of the word decoration from the word ornament: one is understood as externally applied and extrinsic, while the other is understood as constitutive and intrinsic. Nominations of decoration are often associated with a cynical interest in kitsch, whereas ornamentation is usually a preliminary term in the pursuit of unadulterated architectural expression.63 What method can be used to develop the ornamentation further in the expressive language of the Mosque, is it the traditional crafts?
The traditional crafts that form the beauty and the spirit of Architecture in the Islamic world can survive in the contemporary world only if reframed in the scope of advances in design and technology. Only treating the Islamic Ornament in the scope of its potentials to become autogenic will bridge its ambiguity and in the same time provide a new universally legible language for the Mosque as representative built form.
63 Douglis, Evan 'Autogenic Structures' Taylor& Francis, Oxon, 2009
Carved Pillar at the Palacio de Generalife, GranadaIMAGE: Radius Images/Corbis
Dome of Mihrab in Mosque of CordobaIMAGE: Werner Forman/CORBIS
Hassan II Mosque, Casablanca, IMAGE: Walter Bibikow/JAI/Corbis
4.2.3 Method Adopted - Islamic Ornaments as 3D Components in the scope of Advances in Design and Emerging Technologies Global technology is shaping the architectural discipline into a distributed, multidisciplinary, and collaborative profession responding to a rapidly changing telecommunications industry. These alterations within the profession have been occurring with such rapidity that their theoretical implications have yet to be fully realized.64 The most recent techniques not only assist in the virtual forming of architecture, but also bring out the heterogeneous behaviour of the digital material, according to Manuel DeLanda: Form is no longer something static imposed on the outside on structure with homogeneous properties or a behaviour that can be assimilated by the characteristics of solid modelling, but is rather influenced by the properties of the tools used, under the form of the singularity of the digital material. Therefore, it brings out the generative processes and their possibilities connected to the concepts of interactivity, modifiability and evolution among the principals.65 Theoretically, parametric design processes, as an interrelation or organization of parts within a flexible complex entity, employ an evolutionary approach combined with computational strategies. 66 Modular development approach collapses what seems now to be an artificial separation of structure from ornament.67
64 Tierney, Therese, Abstract Space: Beneath the media surface, New York, 2007 65 Ibid., pp. 17 66 Ibid., pp. 19 67 Douglis, Evan 'Autogenic Structures' Taylor& Francis, Oxon, 2009
Shah Alam, Selangor, MalaysiaImage: Yang Liu/CORBIS
Contemporary Architecture Practice - The Wall of the FutureSource: www.psfk.com
Though ornament and structure have been recognized as important architectural features since the early days of architectural history, the difference between the two was never fully realized as a meaningful difference until the late nineteenth century. As Anne-Marie Sankovitch insightfully points out in her discussion concerning the Gothic cathedral St. Eustache: Structure is the recessive, unrecuperable, unstable presence that finally we cannot work back to; ornament becomes all that we can clearly see, but we can never remove it, see past it, without destroying the structure, which is essential. They are both (here but do not coexist in the simple oppositional way that so many modern texts would have us believe.' The Modular development in architecture through the repetition, multiplication and dissolution of form, structure, ornament and skin, as systems that act upon each other is being widely supported by the emerging technologies in digital fabrications. The aim of this work is to set up a conceptual framework for Mosque representative language in this scope of advances in design and emerging technologies. By adopting a method of creating 3D components resembling the 2D Islamic patterns, applying and testing them in creating skin, structure and space for the design of Mosque as Synergic Spaces.
Moreover the use of these approach in the scope of the overall cross-disciplinary approach will bring tangible solution to the discourse on identity and symbolism, cultural attitudes toward a specific style or historicist approach - hence together with the conceptual design framework for spatial organisation of the Mosque as institution it will bring a very solid and grounded solution for the overall Mosque crisis as institution and representative built form. The work will proceed through the criteria we set for selecting Islamic patterns, to be carried on through a method of transforming them into 3D components.
4.2.5 Criteria for Selecting Islamic Patterns as a set for Developing 3D
Components
These criteria are set from the various implications in the Islamic patterns, relevant spatially and temporally and specifically for our method of treating them. These criteria include:
- The patterns should be universally legible as Islamic Patterns spatially and temporally,
- Potentials to reveal the third dimension, as superimposed set of layers,
- They should reveal high Structural and Tectonic potentials,
- Potentials of Variations within the same family,
- Potentials of Tiling and Diffusing in modular multiplicity,
- Potentials of Redundancy and Performance in different geo-climatical contexts.
4.2.4.1 Islamic Patterns Catalogue These criteria were applied for three categories of Islamic patterns:
1. Geometrical Islamic Patterns
2. Vegetal and Floral, and
3. Islamic Calligraphy
After selecting the set of Islamic patterns through the derived criteria, we would adopt methods to transform these 2D patterns into 3D components.
Geometrical Vegetal/Floral Calligraphy
Catalogue of selected Islamic Patterns
Mining Tectonic Potentials
4.2.5 Methods, Tools and Techniques used to Create 3D Components from Islamic Patterns Arabesque Finger exercises hand models were first made to test the material performance (in this case rubber sheets, textile and rubber foam) in terms of deformations, flexibility, plasticity and even colour saturation in the form.
Considering the Arabesque as a set of superimposed layers, was developed a method to find the generic geometry that consist the intricacy, strictness, beauty and tectonic potentials of the 2D Islamic Patterns.
By disintegrating the pattern into layers, unfolding the generic layers, we derive the geometrical entities to be used for composing and transferring them into three-dimensional components. The criteria set for this technique was that, first of all the 3D component should resemble the generic pattern, hence be legible as a Islamic Pattern, the second main issue was the associative and connective potentials of the 3D component for an associative/blended population of a component on a surface. The first experiment was with a very familiar geometrical pattern, based on highly complex geometrical and numerical logics, the reinterpretation of the pattern is achieved through disintegrating it into generic outlines, which outlines were treated as filled surfaces, and multiple outlines were offset inside the boundary of outline, to create a multilayer redundant system. This system was mirrored, and by folding technique the adjacent layers were connected in space to create an intrigue component that resembles the generic pattern.
By using digital tools which automate repetitive tasks population, multiplication, deformation, association, blending and scaling an intricating system appears, by dissolving the ornament into structure, interacting material, skin, form and space, into a monolithic whole.
The same geometric pattern was then transformed and smoothed into a more organic shape, and the same technique was applied to generate the component and populate it into a surface.
Folded component - Neoprene Hand model
Smoothed-generic parts of the Islamic pattern Reinterpretation of the Islamic pattern
Sequence of folding the layers of the generic Islamic pattern
Desolution of colour and form
Formation of tectonic geometrical entity
Mining assembly potentials - population the component
Modernist systems of thinking and their concomitant regularizing planning devices-grids, lattices, stems, and fixed branching systems-produced excessive standardization.68
68 Douglis, Evan 'Autogenic Structures' Taylor& Francis, Oxon, 2009
By adopting the hypostyle hall for crating Mosque space, the components can be used as fabricated units: roof-column clusters. This would create a non-hierarchical spatial organisation, reminiscent to the Prophet's Mosque.
Structural webbing of the components in a slight variation with deformative techniques would be used to create deep three-dimensional topological surface. Hence, the same family of component can be transformed differently through various techniques, from flat to topological surface.
Modular unit cluster: four unit assembly Fabricated units: roof-column clusters
4.2.5.1 From Typology to Novel Topological Blending In our previous chapters we discussed the Mosque Typology in the Scope of Architectural History and its present relevance. Our conclusion was that a formal approach to categorize Mosques in a certain group or derive generic forms through their reoccurrence spatially and temporally, discredits the Mosque into symbolism and into stylistic approach, and moreover is against the Eternal Idea of the Mosque.
Here we explore the approach on Mosque representative crisis not through typology but rather through Topology. Transforming the two-dimensional profile of the Islamic pattern into a deep three-dimensional topological surface creates deep and intricate embedded expression and detailed intricacy in the formation of inner spaces. The geometrical entities deform and dissolve into a deep ornamentation, in something beyond the superficial applications of incidental dcor. Where structure ends and ornamentation begins is no longer clear.69
69 Douglis, Evan 'Autogenic Structures' Taylor& Francis, Oxon, 2009
Islamic Calligraphy transformed into 3D structural Component, blended into skin, form and space
4.2.5.3 Material Performances and Architectural Effects The following component resembles a floral ornament, derived through rotation, mirroring and folding of the generic elements. After superimposing the elements, a multilayered per formative components is derived, which can perform for adjusting the cavities for light intensity and filtering as well as ventilation control.
Diffused Light Ventilation
The next component represents a floral Ornament, derived through the folding technique from a single layer. After the folding and superimposition it becomes multi layered, where certain layer can perform for adjusting the cavities for lighting and ventilation.
2. The Berlin Mosque - Design Studio
Rearrangement, Space and Volume
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Closure
Kllyie - Enclosure Vs. ClosureNo Hazard Place
Opening The Berlin Block
Rele sa ng N egati
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ia
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Break, Rea rang
,R e hase
Urban CONCEPT
Functions - conceptual
Situation
Floor Plans
Basement / Parking Ground Floor
First Floor Second Floor
Section through Mosque
Visualisations
Structure
Skin and sructure
Mosque Interior/Prayer space
3. Architectural Competition
Architectural Office: Streiff Architekten, Zrich
Projetkwetbewerb Schulanlage Gerhalde St. Gallen
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KLASSENZIMMER 76.1 m2KLASSENZIMMER 76.1 m2
GRUPPENZIMMER23.8 m2
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BIBLIOTHEK/MEHRZWECKRAUM
120.3 m2
WC K5.2 m2
WC M5.4 m2
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PFL STERUNG
PFL STERUNG
FESTKIESSICKERF HIG
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GEDECKTEPAUSENINSELN
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12.5 m2GERTERAUM
18 m2
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KLASSENZIMMER 77.8 m2KLASSENZIMMER 76.8 m2
GRUPPENZIMMER25.1 mq
HFL
WC
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5.7 m2 WC
M6 m2IV-L WC5.2 m2
KCHE MITVORRATSRAUM
21.8 m2
FSA76.6 m2
L-P2.5
m2
CC
0.00
-0.10
+0.83
WERKEN UND GESTALTEN73,5 m2
MATERIALRAUMWERKEN UND GESTALTEN
14 m2
WERKRAUM
TEXTIL74.5
m2
WC
K7
m2WC
M5,5
m2
MATERIALRAUMWERKRAUM
TEXTIL14.1 m2 -0.35
CC
LAGERReserve8.6
m2 SCHULLEITUNG11.4 m2
HFL
KLASSENZIMMER 77.1 m2KLASSENZIMMER 76.8 m2
GRUPPENZIMMER25 mq
BESPRECHUNG30.7 m2
WC K5.7 m2
WC M6 m2
LEHRERZIMMER33 m2
VORBEREITUNGS-RAUM
28.1 m2
CC
HAUSWART23 m2
MASCH.13.1 m2
LAGER HW18 m2
WC HW7 m2
LAGERReserve
8 m2
VERBINDUNGSPORTANLAGE
OBLICHTER
CC
- 4.60
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Basement 1Basement 2
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Elevations
Structural Concept
3. Obergeschoss
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- 2.27
- 4.55
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TURNHALLE 448 m2
GERTERAUM TURNHALLE
81.5 m2
PUTZRAUM8.7 m2
HAUSTECHNIKRAUM 215 m2
GARDEROBEHERREN 26.9 m2
SC
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KEF
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DUSCHRAUMHERREN16.6 m2
GARDEROBEDAMEN 26.9 m2
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DUSCHRAUMDAMEN16.6 m2
WC D5.6 m2
WC H5 m2
WC IV3 m2
HAUSTECHNIK-RAUM 19.3 m2
STAURAUM 20 m2GARDEROBE
LEHRER15.5 m2
GARDEROBELEHRER
+ ERSTE HILFERAUM16 m2
- 4.60
- 4.60
- 4.60
B B
Sport Hall - Underground
Visualisations
Ur an tua on e iv tio of vo u eb Si ti - d r a n l m s
Studio Davos
Project Key Name; The Bigness of DavosCIA Spring 2008, Banush ShyqeriuGross Floor Area..... 5440 m2Retail Area................1900 m2Office Area ...............3540 m2Parking Spaces:14 - open parking55 - underground parking11 busesHorse carriages
0. Ground Floor
1. First Floor
2. Second Floor
3. Third Floor
7.Seventh Floor
8. Eighth Floor
-1. Underground floor/Parking
Detail
Facade - Negative Space
5. Stassfurt: Exhibition Centre - Design Studio
Prof. Ralf Niebergall
aHochschule Anhalt (FH)
Competence Centre on Mining and Mining Subsequent ConsequencesIn Corporation with IBA STADT UMBAU 2010
banush SHYQERIUStafurt Presentation
11.02.2008By:
Visualisations
INSPIRATION, IDEA AND DESIGN CONCEPT
Crystals
Tunels
Porosity
Keyword
Drama
Mining
Hidden
Tragedy
History
Shown
Narrate
Tunnels
Lonelyness Intimacy
Narrate
Secure
Hope
Unstable
Narrative
Emotions
Small Iconic
Symbolism
Explicit
Implicit
Future
Past
Potash
Salt
Unconsciousness
Wealth
Impact
Experience
Remembrace
Porosity Soil
Water Nature
....................???
Stable
Mining Tunnels
Underground Water
WaterTunnel Water
Tunnel collapse
Land Subsidence
Impact
Unstable
Unstable
Impact
Water flood
Potash, salt crystalsSoil Porosity
Tunnels/Labyrinths Water Flood
Depicting the shapes
6. De Luxe Villa - Bachelor Diploma
NSITUATION
BIOMIMETICS
PRE
GROW
NPA
NEL
SUSTAINABILITY AND CONSTRUCTION
0. Ground Floor
1. First Floor
-1. Basement
Sections
Sections
Elevations
Insolation AnalysisLiving Room
Insolation Analysis
Library and Reading Room
Visualisations
7. Competition - Arbon - Streiff Architects - Switzerland
Projektwettbewerb Neubau Sporthalle Arbon
Projektwettbewerb Neubau Sporthalle Arbon
Erdgeschoss
Putzraum12m2 Innengerteraum240m2
Aussengarderoben 140m2
Sani
ttszi
mmer
15m2
Garderobe Turnlehrer72m2
Technikraum64 m2
MaterialSportvereine
Schmutzschleuse
Garderoben 142m2 Duschen 112m2
Duschraum
Trockenzone
Hauswart21.5m2
26m2Theorieraum2
Mehrzweckraum80m2
Materiallager10.5 m2
Regieraum 25m2
TechnikraumLftung undZentraleSolaranlage80m2
Materiallager10.5 m2
26m2
Materialraum16m2
Haustechnik
Theorieraum1
Projektwettbewerb Neubau Sporthalle Arbon
A A
B
B
A A
B
B
Obergeschoss
Untergeschoss
Projektwettbewerb Neubau Sporthalle Arbon
Ansicht Nord
Ansicht West
Schnitt B-B
Ansicht Sd
Schnitt A-A
Ansicht Ost
Projektwettbewerb Neubau Sporthalle Arbon
Ansicht/Konstruktionsschnitt
PROJ EKTWETTBEWERB REDISMATT KRAUCHTHAL
8. Competition - Krauchthal - Streiff Architects - Switzerland
Tann
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SITUATION
ANLIEFERUNG
ARENAGEMEIDEPLATZ
MUSEUM
WERKHOF
SPORTHALLE
WEHRDIENS TANLAGE
SCHULANLAGE
KINDERGARTEN
REDISMATT E
REDISMATT D
PROJ EKTWETTBEWERB REDISMATT KRAUCHTHAL
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VELOPLTZE
PARKPLTZE
WASCHPLATZ30 m2
ABFALLSAMMELSTELLE54 m2
MULDE45 m2
SALZSILO45 m2
SCHULBUSPLATZ
VELOPLTZE
ARENA
ANLIEFERUNG
FOYER107 m2
EINSTELLHALLE/GARAGE304 m2
WERKSTTTE30 m2
Reserve
SignalisationAbsperrmaterial
Benzinund l
LAGER100 m2
Kleinmaschinen
Werkstatt
BaumaterialStrassen-beleuchtung
Holz
Klein- undVerbrauchs-
material
B
A A
A'
A'
B
RESERVE173.2 m2
PROJ EKTWETTBEWERB REDISMATT KRAUCHTHALERDGESCHOSS
SCHNITT B
TURNHALLE 448 m2
GERTERAUM TURNHALLE
80 m2
STAURAUM BHNE 20 m2 HAUSTECHNIK27.5 m2
GARDEROBE23.3 m2
DUSCHRAUM19.4 m2
HAUSWART/HAUSTECHNIK 24.4 m2
GARDEROBELEHRER15.1 m2
WC IV3 m2
WC D8.9 m2
WC H8.9 m2
HAUSTECHNIK/LAGER78.6 m2
LAGER 38.9 m2
GARDEROBE23.3 m2
DUSCHRAUM19.4 m2
PUTZRAUM3 m2
WC
IV3
m2
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WC H8.9 m2
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SPORTHALLE/RESERVE UGSportha lle S IA 416 UG = 880 m2 EG = 190 m2
PROJ EKTWETTBEWERB REDISMATT KRAUCHTHAL
WERKHOF 1. OGWERKHOF GF SIA 416 EG = 440 m2 OG =140 m2
RESERVE 1. OGRes erve GF SIA 416 UG = 200 m2 EG = 210 m2 OG = 210 m2
SCHNITT/ANSICHT A
SCHNITT A'
PUTZS.
AUFENTHALTSRAUM27.4 m2
SANITTS-RAUM5.4 m2
GARDEROBE F8.9 m2
GARDEROBE H8.9 m2
BRO23 m2
A'
A'
A' A'
RESERVE176.7 m2
PROJ EKTWETTBEWERB REDISMATT KRAUCHTHAL
PROJ EKTWETTBEWERB REDISMATT KRAUCHTHAL
ANSICHT OST
ANSICHT SD
ANSICHT WEST
ANSICHT NORD
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