+44 (0) 7577015930 I norbertjundt@gmail.com
ARCHITECTURE PORTFOLIO M.Sc. Arch NORBERT JUNDT
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Curriculum vitae Philharmonic Orchestra Architecture & Urban planning Woodrise Tower Architecture & Urban Sustainable Highrise Architecture & Urban planning Researchpavilion Materialresearch & Fabrication Hygromorph Materialresearch & Fabrication ACME work experience Knippers Helbig work experience Foster+Partners work experience
About work at. I learn fast and I really enjoy to interact with people and to support my team with my skills and experience.
My name is Norbert Jundt and I did my master degree in architecture and urban planning with distinction at the University of Stuttgart in 2015. Since February 2016 I work for the London based Architectural Company ACME. Also during my studies I always stayed practically oriented. Therefore I did a nine-month internship at Foster+Partners in London and I worked one year at Knippers Helbig as a working student. Further short-term internships followed, for example at Philippe Rahm in Paris.
Working with friendly and motivated people is very important to me, as well as being in a creative, innovative and well organised workspace. I am always motivated to set myself new goals and during the next years I am aiming at going through all the stages - from the first draft up to the completion of the building.
I would describe myself as an open minded, motivated and target orientated person. I love to work in a team as well as to take responsibility for the projects and the office I
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M.Sc. Arch NORBERT JUNDT 17. Dezember 1988 Heidelberg, Germany
100 Aberdeen Park N5 2BE London, UK
+44 (0) 7577015930
norbertjundt@gmail.com
EDUCATION
WORK EXPERIENCE current 02 I 2016
ACME Architect I London I United Kingdom www.acme.ac considerable contribution in concept / design developments (Stage 1-4). Member of the new work group
10 I 2015 10 I 2014
10 I 2014 10 I 2013
NOTABLE PROJECTS: Folkeston Waterfront I United KingdomI Masterplan Kings Cross Residential I United Kingdom I Competition Chester Northgate I United Kingdom I Masterplan 10 I 2015 03 I 2015
08 I 2014 08 I 2013
10 I 2013 10 I 2009
IEK INSTITUT FOR DESIGN AND CONSTRUCTION Tutor I University Stuttgart I Germany www.uni-stuttgart.de/iek Tutoring the class „Introduction in design and construction“
07 I 2009
12 I 2012 03 I 2012
KNIPPERS HELBIG ADVANCED ENGINEERING Architectural Assistant I Stuttgart I Germany www.knippershelbig.com considerable contribution in concept / detail developments for complex Facades and Structures.
03 I 2014
10 I 2012
10 I 2011
PHILLIPE RAHM ARCHITECTS Architectural Assistant I Paris I France www.philipperahm.com Project Architect for an Museum Archive Competition.
09 I 2016
FOSTER + PARTNERS www.fosterandpartners.com Architectural Assistant I London I United Kingdom Significant role in complete design process for the Apple Stores and further detail development
12 I 2014
09 I 2009
08 I 2009 07 I 2009
Heidelberg College General qualification for university entrance
Ecotype Bratislava I Slovakia Parametric optimisation of ecologial influence AA visitng School Form is Unknown (X) Rom I Italy Advanced parametric design process with Grasshopper, Robofold Shape to Fabrication London I United Kingdom Production of foldet aluminium facade elements
Graduation Award of University Stuttgart VDI Competition „Energy efficient Highrise“ Honorable award
VOLUNTARY WORK 09 I 2014
09 I 2011
B.Sc Architecture and Urban planning University Stuttgart I Germany (Grade 1,7)
Awards
NOTABLE PROJECTS: Apple Stores I London, Nanjing, Istanbul I Flagship Store Engel&Völkers Headquater I Germany I Competition 03 I 2012
ITECH Integrative Technologies & Architectural Design Research Study I University Stuttgart I Germany
Workshops
NOTABLE PROJECTS: Timber-Concret-Hybrid Bridge I Researchproject Academy of motion picture arts and sciences I Museum Fair Stand Mercedes Benz 05 I 2014
M.Sc. Architecture and Urban Planning Specialisation in Design and Construction University Stuttgart I Grade: excellent with distinction
IJGD extension of a school building Dharamsala, India Collaboration for an extension of a school building
Knowledge Language & Software
ITKE Institut für Tragwerkskonstruktion und Entwerfen Scientific Assistant I University Stuttgart I Germany www.itke.uni-stuttgart.de Assistance at the research about cold bended glas shell structures, visualisation work for publications.
German mother language English fluent French basics Vectorworks Autocad Microstation Rhino 3D Grasshopper 3ds Max Photoshop Illustrator In Design After Effects
AUER+WEBER+ASSOZIERTE Internship I Stuttgart I Germany www.auer-weber.de A.ALTENBACH GMBH Construction work I Heidelberg I Germany www.altenbach.de Construction work on building site. Making concrete walls. Prefabricatet concret work 5
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Philharmonic Orchestra Location: Munich Typology: Cultural Building Institut: Prof. Moro IEK I Prof. Allmann IRGE Date: SS 2015 Awards: Graduation Award of University Stuttgart Publicationen: BaunetzCampus http://www.baunetz.de/campus-masters/FILMharmonie_4666288.html
As a final highlight the concert hall can be open with two big doors and the orchestra can play to the public space in front of the building.
A new philharmonic orchestra in Munich is plannend by the city and the Federal State Bavaria. The city has two of all orchestras in the whole world. Both orchestras have to share one concert hall with a meanly accustic and a non-representive building. To find a solution for both orhestras it is necessary to renovate the old concert hall and to build a new represantive philharmonic orchestra in the city of Munich. The concept is to create a new musical district with the old philharmonic orchestra and the new building. The location for the new building is on the old coalisland next to the already existing building. The Island is surrounded by the canalised river and a renaturalised river. This specific place allows a symbiose between the nature and the urban space. To force this symbiose, the building is designed as a human-made informal structure which creates a magical mood between city and nature. Balkonies around the building allows you a view to the nature, the river and the city. In summer term the balkonies can be used as an extension of the foyer area and the complete building can be opend. To improve the concept for a modern philharmonic orchestra it is important to emphasise the user belongs. The organiser of classical orchestra criticise that young people lose the interest in classical music. Most of the young people prefer to visit the cinema instead of a classical orchestra. But in the backround of the Movies they also listen to modern classical music made by Hans Zimmer, Nino Rota and all the other componists of soundtracks. To draw the interest of young people to classical music, the programme needs to be extended. The music of the soundtracks has to get integrated and staged into the philharmonic orchestra. Therefore visual media gives a scenografic solution for the music backround. 7
view at the philharmonic orchestra on the coalisland
structure - nature
gradient
foyer
axometrie 1. floor
axometrie 3. floor
axometrie - ohilharmonic orchestra & forecourt 8
open concert hall
view from audience to stage
1. s-angle on support surface 2. s-angle on the wall 3. support surface - bond 4. diffusore 5. l-angle (support) 6. reinforced concret wall
axometrie concert hall
axometrie d iffusore
Section AA 9
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Woodrise Tower Location: Düsseldorf Typology: Mix-used Tender: VDI-Competition „Energy efficient highrise“ Date: WS 2014 Award: Honorable award Publicationen: www.vdi.de www.vdi.de/fileadmin/vdi_de/redakteur_dateien/gbg_dateien/Hochhaus
building out of wood. In detail, the Woodrise Tower is created by a modular hybrid system. The columns and the beams are out of wood. Only the core and a small flooring slap is out of concrete. The wood-concret-hybrid structure combines the best properties of both materials.
The Woodrise Tower is a prototyp for the development of an innovative building system for tall buildings made out of wood. With 100 meter the Tower wood would be Germanys tallest wooden building a representative building for Düsseldorf. The Building is of different use for commercial purpose, offices and residences. Therefore the building consists of a horizontal and a vertical volume.
To reduce the energie income 50% of the facede facade is opaque. To protect the wood against the weather the elemental facade is made of recycled aluminum panels. The wood structure is manly visible from the inside and in the skygardens.
The main entrance, the foyer and the commercial spaces are located in the horizontal part. The offices and residentials apartments are in the vertical part. The vertical part is shaped by the intersection of rectangles with a centre core. Both rectangles are subdivided in the highed height and create an Skylounge and an observation platform on the top of the building. Also two Skygardens are located in the vertical shape. They are used as public spaces and are important for the ventilation system in the Tower. In order to make a completely sustainable building, it is necessary to overview the complete lifecircle of the Tower. To reduce the energie emission the Tower needs an intelligent building technology as well as a reduction of the building material´s gray energie. Wood as a building material is one of the most energy-efficient materials which are available. As a renewable resource wood saves carbon dioxide and is completly recyclable. Because of fire protection and the heavy loads in a highrise building, wood is an unusual material for this building height. Modern industrial wood can support the loads and - with an intelligent fire protection system - it is possible to build a 30 storage high 11
Siteplan
Step 1 Infrastructur
Step 2 vertical and horizontal building volume
Step 3 Intersection of two rectangle for a better lightning and the entrance situation
Step 4 Skygardens as a vertical break. They are used as public space and as a prewarming zone for the climatisation.
5. floor M 1:500 Offices
16. floor M 1:500 Skyfarm + CoLiving
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Timber-concrete.-composite-structure 1. 2. 3. 4. 5. 6. 7.
80 mm StB-FT C45/55 420 mm BSH Gl 36 c with thrust cam 450 mm BSH Gl 70, beech-FSH Steel joint Connector for heavy oads Connection reinforced concret, shed Corewall, d = 40cm, C 45/55
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2 4 5 5
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1 5
5 2
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7 2
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Elevation Nord
Section Nord
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Sustainable Highrise Location: Hamburg Hafencity Typology: Mix-use Institut: Prof. Dr. Sobek ILEK I Prof. Hegger EE TU Darmstadt Date: WS 2011 Publicationen: Sichten - Yearbook TU Darmstadt Hafencity TV Exhibition: Hamburg Hafencity
The new „Elbbrücken“ area accomplished the „Hafencity“ project in Hamburg. The area is located on the east side oft the island and will be used as an importan junction between the Hafencity and the rest of Hamburg city. For visiters and inhabitants the new „Elbbrücken“ area will serve as a represantive entrance portal to the Hafencity.
The dynamic shape of the Towers give an iconografic character to the area. The aerodynamic shape also supports the ventilation system and is a part of the sustainable idea of the Towers. The aerodynamic shape reduces the wind power on the building. The gaps in the shapes catch the wind and reinforce the natural ventilation.
The area will be created by a mixed use out of culture, commercial, workingspaces, residences and hotels. These utilisation are specifically adapted regarding the given circumstances .
The futuristic shapes and the sustainable concept combine the representative demand of a modern urban area.
The prominent Elbpromenade is the perfect place for cultural and commercial space. For this reason, you will find this utilisations in the ground level of the „Public Tower“. An amphitheatre is located next to the tower and is used for public events. On the other side of the district, the main focus is based on the traffic situation. Because of the fantastic light rail traffic it is possible to invent a park and ride system around the „Public Tower“. The Tower is created by a mixture of residences, offices, the commercial sector and a parkinggarage. The „Marina Tower“ is the heart of the new area. With a small port and an underground it is completely integrated in the traffic network of the city. In the Tower you can find residentials, offices, commercial spaces and a hotel. As an extra space, there is an observation area at the top levels of the building. From there you can enjoy a 360 degree view over the HafenCity and the Hamburg city.
Between the three Towers there is a Marktplace as a central meeting point oft he area. From this point you can reach all the Towers, the port and the amphietheater.
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Siteplan Öffentlich
Halb-Öffentlich
Gebäude I (Marina Tower)
Gebäude III (Public Tower)
Gebäude I (Marina Tower)
Gebäude II (Private Tower)
Skybar
Residential
Hotel
Office
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Privat
Gebäude III (Public Tower)
Gebäude I (Marina Tower)
Gebäude II (Private Tower)
Gebäude III (Public Tower)
Gebäude II (Private Tower)
View to the Elbbridges Groundfloor Lobby
23. floor Hotel
37. floor Maisonette AB
Geometry
Aeorodynamic princip
The geometrie is orientated on the location wind direction. The building shape works like a wing which reduce the wind turbolences. The gaps works as windcatcher like in an sportcar. On the one site the air get compressed on the other site the air get pulled out. This natural ventilation concept saves energie.
Elipse+Gaps
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Researchpavilion Location: Stuttgart Typology: Prototyp Institut: Prof. Menges ICD I Prof. Dr. Knippers ITKE Date: SS 2014 Publicationen: dezeen, designboom, dbz, stylepark, AD Exhibition: University Stuttgart Campus
The parameter for the optimisation of the global design are: 1. variable component size 2. double layer structure 3. variable component height 4. double bended shape
The ICD ITKE Research pavilion is developed by the cooperation between the students of the University of Stuttgart, the institut for competitional design, the institut for building structures and structural design and the biologist from the University of TĂźbingen. The main focus of the research pavilion is to explore a biological principle and creating a bottom-up design process to develope a new innovative material system.
The constraints of the production process are: 1. maximal and minimal size of the components 2. maximal and minimal numbers of components 3. maximal and minimal angles of the components
In this case study the biological principle is found in the shells of beetles. The shell of the beetles protect the wings and have to be strong and light. By analysing the shells we found out that they are created by a variable modular system with a double layer structure. Both layers are connected by hyperbolic columns. In nature, all the moduls are made of cetin fibres. For the abstraction of the biological principle we used a composite material out of glass and carbon fibres. To produce all the moduls for the global strcuture we used two industrial robots to wind every individual component. The global design is generated with a digital algorithm. The algorithm combines the biological principle with all the production constraints.
Trigonopteus nasutus I Ground Beetle
Cetonia aurata I Flying Beetle
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View to the Researchpavilion during the night
robotic fabrication Workflow Computational Tool
diameter to structural depth ratio minimum edge length The global structure is made of a two dimensional patern which create a three dimensional shape by a dynamic relaxation. The dynamic relaxation create an optimal shape with a minimum of bending moments..
minimum angle non-planarity maximum component size A digital spring modell combine the form-finding with the dynamic relaxation process and integrate the parameter of the production constrains.
Reference: chainline Frei Otto 20
stress response moment response With an feedback loop the process get optimised till all the constrains are execute.
Close up of the composite
robotic fabrication
assembling of the cmposits
FEA Analyse
Composite fabrication strategy
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HYGROMORPH Location: Stuttgart Typology: Prototyp Institut: Prof. Menges ICD Date: 2011 Publicationen: Architectural Design Vol. 82 No. 2 Exhibition: Institut for Computational Design I Stuttgart
In nature, plant material exploits anisotropic and hygroscopic material characteristics to initiate physical reactions, expanding and shrinking in changing weather conditions. Plant material physiology allows an anisotropic structure to be adapted by outside forces, running kinematic movements when triggered by environmental conditions. Contrary to artificially engineered solutions, here simple, natural materials act holistically as time sensor, actuator and regulator, offering novel, conceptual and practical applications for truly environmentally friendly structures with appealing architectural textures. Advancements in digital design, CNC manufacturing and digital sensor technologies have enabled a novel, material-oriented approach to design in the manufacturing of climate reactive surface structures to be considered. Complex geometries can be digitally produced, creating a kinetic structure without additional mechanical or electronic control mechanisms.
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ACME Location: London I United Kingdom Position: Architect (Part II) Date: 02 I 2016 - current Notable Projects: Folkeston Waterfront I United Kingdom I Masterplan Kings Cross Residential I United KingdomI Competition Chester Northgate I United Kingdom I Masterplan „ACME was established in 2007 in London. The practice operates in the fields of contemporary architecture, urban planning, interior design and product design - working with private, corporate and public clients.“ As an architect at ACME I have a significant role at the complete design process. Furthermore I am a member of the „new work group“, where I have to find potential new jobs or competitions for the office. My main tasks are to develop the design, prepare presentations, create drawings, visualisations and animations as well as the communication with the client and the consultants. The shown project is a re-vitalisation for the City Centre of Chester. The Masterplan includes new retail and residential spaces, a new market hall, a four star Hotel, a library and a new cinema. I was involved in the design development of the scheme, the market hall and the submission of Stage C and the planning application. The planning application got confirmed on the 15. Sept. 2016.
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Visualisiation - Timber-concrete-hybrid bridge
Timber-concrete-hybrid bridge TYPE A
Timber-concrete-hybrid bridge TYPE B
Timber-concrete-hybrid bridge TYPE A - Explosiongraphic
Timber-concrete-hybrid bridge TYPE B - Explosiongraphic 26
KNIPPERS HELBIG Location: Stuttgart I Germany Position: Architectural Assistent Date: 08 I 2013 - 08 I 2014 Notable Projects: Timber-Concret-Hybrid Bridge I Researchproject Academy of motion picture arts and sciences I Museum Fair Stand Mercedes Benz „Knippers Helbig Advanced Engineering is a nationally and internationally consulting engineering practice with a multidisciplinary team of civil and structural engineers, architects and facade engineers. The company offers a comprehensive range of services for structural engineering, facade design and geometric consulting for architecturally challenging building and bridge projects.“ During my work as an architectural assistant at Knippers Helbig Advanced Engineering, I was involved in the development of details and the construction of complex facades and structures like membrane-facades, cable and grid shell structures. Furthermore I assisted in a research group for a Timber-Concrete-Hybrid Bridges. My main tasks were to create 2D and 3D drawings, presentation, visualisations, parametric optimisations and animations. The shown project is the development of exemplary wooden bridges, collaborating with the Materials Testing Institute Stuttgart, the architect’s office Cheret Bozic and the company Schaffitzel Miebach. Comprehensive analyses of existing wooden bridges are performed, design guidelines established and numerous planning recommendations developed. The research project aims at developing long-term, sustainable, economically sensitive and aesthetically pleasing designs which can be used in the most diverse situations and thus further promote the use wooden bridges in the market.
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Photographe - Apple Store Istanbul
Aerialview - Apple Store Istanbul
Section - Apple Store Istanbul
Interior- Apple Store Istanbul 28
FOSTER+PARTNERS Location: London I United Kingdom Position: Architectural Assistant Date: 03 I 2012 - 12 I 2012 Notable Projects: Apple Stores I London, Nanjing, Istanbul I Flagship Store Engel&VĂślkers Headquater I Germany I Competition
„Foster + Partners is one of the most innovative architecture and integrated design practices in the world. Over the past four decades the practice has pioneered a sustainable approach to architecture through a strikingly wide range of work, from urban masterplans, public infrastructure, airports, civic and cultural buildings, offices and workplaces to private houses and product design. Based in London, with offices worldwide, the practice has an international reputation, with buildings in six continents. Foster + Partners understands that the best design comes from a completely integrated approach from conception to completion. We have a strong creative team, in which structural and environmental engineers work alongside the architects from the beginning of the design process. By doing so, we believe that they can learn from one another and combine their knowledge to devise wholly integrated design solutions. The design teams are supported by numerous in-house disciplines, ensuring that we have the knowledge base to create buildings that are environmentally sustainable and uplifting to use.“ As an architectural assistant at Foster+Partners, I had a significant role in the full design process for the Apple Stores and further detail development. My main tasks were to develop the design, create drawings, presentation, visualisations and working models. . The shown project is the Apple Store in Istanbul. It was completed in 2015.
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M.Sc. Arch Norbert Jundt +44 (0) 7577015930 norbertjundt@gmail.com