Architecture Portfolio Robert Bichlmaier by Robert Bichlmaier

Architecture Portfolio Robert Bichlmaier B.A Architecture

Design approach: Every good project is a suitable answer to an existing or theoretical problem. In my belief that solution can be discovered by carefully examining and listening to the context. I am always keeping both eyes open and stay curious; this is the foundation for being able to find the matching solution. By reinterpreting the ideas found, it is possible to create something new, which hopefully becomes a foundation itself in the future. I want to start a dialogue with the existing and the things that I want to bring into existence. In the end, architecture is designed from experience to create the experience for all the people getting in contact with it, whichever scale it may be.

Photocredit: Fritz Bielmeier

1_neighbour_substitution Location: Regensburg, Bavaria, Germany Coordinates: 49°01‘42.3“N 12°07‘20.1“E Academic / Professional

Individual / Group

Role in process: developing the whole project Contribution: analysis, design, concept, model making Level of the project: Bachelor Thesis Date: 23.01.2017 Supervisor: Prof. Dr. Rudolf Hierl e-mail: rudolf.hierl@oth-regensburg.de Idea: When a new house is developed the most expensive and challenging part is to find and buy the land to build on. In the beginning I tried to find and make use of new land resources in the urban environment. At that time I came across the idea to build houses on top of parking lots, without the parking lots losing their function. By developing the concept further, I found that the parking lots most suitable were parking lots connected to resale facilities like supermarkets for various reasons: 1. Those areas are only busy during daytime and are abandoned at night time thus leaving behind an unattractive and unlovely area during the most time of the day due to „monoculture.“ 2. In Europe, those areas are often close to housing areas anyway. By diversifying the area of supermarkets the surrounding area can also be improved by creating a diversified, „always in use“ area. 3. Developing a housing area directly on a supermarket parking lot can result in a mutual benefit for the inhabitants and the supermarket owner. Bringing the resale facility in close range for the inhabitants and creating a customer base for the supermarket 4. Supermarkets are usually housed within cheaply built structures, only serving for several years before being outdated. An intended structural improvement results in a theoretical opportunity for future development and interaction with the before constructed apartment housing 5. By developing a project directly connected to the already existing reseller, it is possible to make the store stand out from the always same and boring looking resellers in the area, resulting in a fresh, new and appealing image Design principles for the project: The initial building using the parking lot has to be of mutual benefit for the people living in the apartments and the reseller, whom the parking lot belongs to. It has to be functional immediately when built but also reserve the possibility for future development of the area.

In my thesis I worked on a site in Regensburg, serving as an example for the potential of the initial ideas. The principles developed in my bachelor thesis could be used on many sites with similar context all around the world After the thesis in January 2017, my concept was used to enter a competition hosted by the culture circle of German economics. For this, I teamed up with some of my study friends and further developing some details. The Facades and Apartment floor plans shown in my portfolio were discussed and reviewed with the help of my team.

Several supermarkets / discounters

Parkinglot, approx. 10.000mÂ˛

Houses facing unattractive parkinglots

Phase_0 - Existing situation Supermarket parking lots are like dead tissue in the urban environment. They are used only for one distinctive function and that only during a fixed daytime during all other times they are not used and claim much space. This space could either stay dead or be used as a resource to tackle different problems.

Last supermarket will move into a new building

Temporary space for new parkinglots Closing the block on one side provides protected courtyard Greenspace in center as attractive park for everyone

Phase_2 - Substitution principle After the already existing buildings on the site become outdated, the investors/owners can claim their space within the newly built structure and move underneath the new housing, by tearing down their old buildings. Now the ground floor can be filled with green space and active pedestrian zones.

Old structure will be torn down, discounter will move Fastfood restaurant within old unattractive building + parkinglot

Precast concrete arches as foundation => fast building time Attractive new greenspace, new view for neighbours Sport club and workshop within old unattractive building

Phase_1 - Ignition spark Using the parking lot as a resource for development can help to improve the whole area. A prefabricated structure is built on top of the parking lot, which can be achieved in a short amount of construction time after planning is finished. This structure can later also function as the new shell for the discounter. Supermarkets with similar context, also suitable to be developed with the same concept of substitution Development of the second half, also with a public park area Permeable groundfloor as connection beween both parts

Phase_3 - Transference After the buildings from phase 2 are finished, the rest of the initial retail areas can move into the new houses, to make room on the rest of the site. This area can now be developed with underground parking to meet the demand. A permeable ground floor on the initial structure is now connecting both sides.

A A

Ground floor plan: With parking lots, staircases and correlation of the supermarket with the concrete-arch structure B

original 1:200

Isometric drawing: With parking lots, staircases and correlation of the supermarket with the concrete-arch structure

A A

Typical floor plan: With different apartments, self-build balcony structure and the public roof top garden B

original 1:200

Detailed floor plans: With different apartments, self-build balcony structure; ground floor and typical floor original 1:100

Facade and structure concept: The concept for the building to be modular and fast to build is also shown in the facade. Structured with 80cm wide elements each inhabitant can choose where to close the wall and where have an opening. There are three basic window types to choose from. The largest one opens the whole room from bottom to top and two smaller ones that allow more privacy or the use of furniture under the window. In addition to that, there is a 1.5m wide zone in front of the facade consisting of a metal structure which can be personalized by the inhabitants. This Zone has the practical use of being a buffer zone between the still in use parking lot and the houses. Since housing is something very individual every inhabitant may have different feelings towards the still busy parking lot in front of their window, so it is essential to give them the opportunity to put something in between their apartment and the (maybe seen as) unattractive space. One could build a balcony with lots of plants in front of their residence or use a glass housing to have a complete winter garden, expanding their living room. As an additional bonus, the cost for this usable space is quite low since the function can be added later by the inhabitant using space that was not included in the initial housing price.

East facade original 1:200

Section with west facade original 1:200

Section with north facade original 1:200

roof: >100mm gravel 4mm bitumen membranes 60-200mm sloped, hard insulation 200mm hard insulation 2mm vapor barrier 260mm reinforced concrete

wall: 20mm impregnated wood 40mm back ventilation 200mm soft insulation 2mm vapor barrier 12mm structural board

floor: 40mm flooring 60mm screed with included underfloor heating 2mm polythene membrane 30mm impact sound insulation 260mm reinforced concrete

base: 310mm soil 50mm drainage layer 200mm hard insulation 2mm vapor barrier 260mm reinforced concrete

Isometric drawing: Showing the fixed standing structure, facade modules and the buffer zone

Facade section: Showing the construction and different structures / zones

original 1:50

Facade detail: Showing the possibilities for personalization within the given structure original 1:50

2_barn_school Location: Fronberg, Bavaria, Germany Coordinates: 49°20‘35.8“N 12°07‘23.8“E Academic / Professional

Individual / Group

Role in process: Developing the whole Project Contribution: Design, Concept, All Drawings Level of the project: fifth semester Date: 16.01.2016 Supervisor: Prof. Johann Peter Scheck e-mail: johann-peter.scheck@oth-regensburg.de Idea: Located on one half of an old farm in a small village in Bavaria called Fronberg a small private school should bring new life to the historical site dating back to 1305. During medieval times the farm was used to produce food for the castle connected to it. Later built structures on the site, now serving no more function have no historical background and can be torn down. The challenge for the project was to deal with the strong topography on the site and find a suitable dialogue between new functions and the old historic buildings. To preserve the sites‘ historic structure, the entrance to the site is the same since the farm was built, which leaves one problem. The other half of the farm is still in use and shares the access to the site with the school, meaning that the spacial transition through the gate doesn´t mark the entrance to the school. To create an entrance situation for the pupils and a more protected yard area, I positioned a new building diagonally facing the old barn and forming a passage like space. By tilting the structure diagonally towards the barn, it touches the mountain orthogonally and fuses with it, making the ground floor disappear entirely in the topography of the site. The first floor with the classrooms can, therefore, function as both, ground floor and upper floor on different sides. The other entrance to the site is on the top of the mountain, connecting a new settlement area with the school. It is possible to enter the new Class building from both sides by the respective „ground floor.“ While the new building houses the small school library and the different classrooms, the old barn houses the teachers‘ offices, the school teaching kitchen, and the dining area/auditorium. To get light into the old structure and divide the functions a small part of the building is cut out. This area is part of the schoolyard and serves as a playground. This area of the yard, located between the teachers‘ office and the kitchen also serves as a small vegetable garden providing fresh food for processing. A post bolt facade is closing the facades on the cut sides of the barn with big windows, giving the building enough light for proper use. The standing structure of the old barn is left visible inside the buildings to serve as a tangible reminder of the building‘s history.

Castle - The dominant building - Located on the top of the mountain - Supported by the strong topography (mountain + river) - Was well protected

Topography - Steep hill towards the river - Mountain is part of the site and affects the buildings

Entrance

Grange - Farm for food production - Supplied for the castle - Served as entrance to the castle area and as first line of defence - The buildings are â&#x20AC;&#x17E;wrappedâ&#x20AC;&#x153; around the topography

Houses without historic value - Later additions to the farm - Used for storage and meat production - Now unused

Entrance Greenhouses - Neighbour site used to be farmland, still used for farming - Greenhouses for plant raising

Entrance

Typology - Village consists of small, mostly detatched houses - The houses are connected by streets of different hierarchy - The houses are mostly surrounded by gardens - Areas with different levels of privacy (private house, garden, public space etc.)

Step 1 - Clearing the site of houses without background to the history - Opening up the space for later additions - Preserving the historic ensemble with the yard

Step 2 - Building a volume orthogonally towards the mountain - The ground floor has a facade towards the entrance and gradually disappears inside the topography - Seen from the top the building forms a plateau - Cutting one part of the old volume to get a bigger yard, while leaving the wall towards the street intact - The narrow gap created by the new building and the old farm marks the entrance to the school's future yard and separates it from the rest of the farm still used farm

Step 3 - Building classrooms on top of the new volume - Using the typology of the villages results in individual tiny houses, functioning as classrooms - The space between the classrooms is like the garden zone, usable for co-learning - The hallway in the middle connects the entrance on the ground floor smoothly with the topography on the first floor

Step 4 - A climatic shell encloses and protects the upper floors classrooms - The shell resembles a greenhouse, supporting the classrooms typology to resemble individual houses - Glass facades on the cutout sides of the old farm contrast the old structure and help to get the space filled with light - The part of the barn nearby the entrance houses the teacher's offices; the other part houses the school kitchen and canteen with a connection to the yard

Detail one: The relationships between the different classrooms are visible. Each classroom can work in different modes. When closed completely the class can focus on one task without having to interact with others. When the flexible wall on the front or back is opened, the space between classrooms can be used for group works with other classes. When more classes have one project together, they can also use the broad road in the middle to communicate diagonally. Detail two: Located in one part of the old barn is the school kitchen, openly connected to the dining area/auditorium. The kitchen has a big glass facade, letting in lots of light and connecting views to the schoolyard with the school garden to process own vegetables and herbs. The old barn‘s roof structure is defining the space. Detail three: Within the other part of the old barn are the teachers‘ offices. The building has a glass facade on both sides, resulting in connections towards the entrance and the school‘s yard. The old barn‘s roof structure is defining the space.

Organisation The neighbouring half of the farm, still inhabitated and the school use the same main entrance through the old preserved gate. After entering the site the new building forms a narrow space with the old barn house, separating the area of the school from the rest of the site. This enclosed area functions as the school playground and yard. The facade of the new building, wich houses the six classrooms is tilted towards the entrance. This tilt also rotates the house nearly orthogonal towards the strong topography, fusing the ground floor with the mountain. this gives the house different appearances when you look at it from different sides. Due to the level differences on the site the ground floor vanishes inside the mountain, wich determines the organisation of the building. Situated in the front half of the house are the library and common learning areas. The back of the house contains the sanitary and storage rooms. The first floor houses the classrooms, organized on two lines along the big hallway â&#x20AC;&#x17E;roadâ&#x20AC;&#x153;. Each classroom is built as an individual hose, within the climatic shell. The other functions are situated in the structure of the old barn. Situated on the one side - close to the entrance - are the teachers offices. The other part houses the cafeteria and kitchen, also used for cooking classes. In between those two buildings is the school garden, making the yard larger and providing the opportunity to grow fresh vegetables for the kitchen.

loor

first f

d Flo

groun

Roof / Wall: 20mm impregnated wood board 40mm back ventilation 2mm bitumen membrane 20mm structural board 300mm mineral wool insulation 20mm structural board 2mm vapor barrier 20mm space for technical installation 20mm spruce wood board

Sandwichwall system: 120mm concrete slab 220mm polystyrol insulation 250mm reinforced concrete

Ventilatiion: Openings in the roof let out the warm air Openings on the side let in fresh air

Glasswall / roof: Post bolt facade system Structural elements made in aluminium

Floor: 60mm polished screed with underfloor heating 2mm polythene membrane 40mm mineral wool noise insulation 250mm reinforced concete 200mm polystyrol insulation

Floor: 60mm polished screed with underfloor heating 2mm polythene membrane 40mm mineral wool noise insulation 250mm reinforced concete

3_urban_spring Location: Dhobi Ghat, Mumbai, India Coordinates: Academic / Professional

Individual / Group

Role in process: Finding and developing the concept Contribution: „spiral“ design concept, perspective collages, diagrams (if not stated otherwise) Level of the project: Conceptual teamwork one month after graduation Date: 27.02.2017 Idea: This project is the result of a team work together with my girlfriend, Diwen Yang. After my graduation in January 2017, we stayed together for several weeks, that‘s when we developed a theoretical and conceptual urban design for the Dhobi Ghat area in Mumbai, India. Dhobi Ghat is the biggest open-air laundry in the world, built during the colonial times by the British empire. It is still in use offers work for approximately 7.000 people are working there every day. At the current state, the structure is in poor condition, and cheap informal settlements characterize the site. Having the historical background dating back to 1890, the Dhobi Ghat is also a popular spot for tourists to visit and encounter the local people. The tours usually start from the Patel-Bridge with a view about the whole site. Since India is one of the largest textile producers in the world, where people often work under bad circumstances, we wanted the design to raise awareness for the production and life cycle of textile products. Being already well incorporated in the infrastructure (a train station is next to it) the site offers a unique possibility to not only serve as a factory but also as an open museum for people from all over the world to visit and get an insight about where their clothes are coming from. Having the program, we started to examine traditional structures and the way of life in India: - communities are structured around ponds, called Ghat which plays a vital role in Hinduism - the neighborhood is very important, public space often serves as a shared living room „extension“ - houses use different zones, with varying levels of privacy Water not only plays an essential role in the local culture but due to the warm climate it also harbors danger. Mosquitos and other parasites can develop if the water is not continually flowing, exposing the workers of the Dhobi Ghat to constant health risks. That‘s why we based our design mainly on finding a solution to this problem. Our idea was developed by reinterpreting the cultural defined space around a traditional ghat, which requires a downward movement towards the water, usually formed by stairs. By sloping the whole site downwards and wrapping the program around the slopes, we can ensure constant water flow, making the water on the site unusable as a breeding pool for parasites. The Ghat in the center of our site is connected to the local sewage system, ensuring a constant exchange of old water and keeping the area clean.

Most diagrams and collages shown about the project are made by myself, exept for the isometric drawing and the model photos, which were made by Diwen Yang.

Dhobi Ghat = Site - Open air laundry - Uses structure built during the colonial time by the Britains (1890) - Historical connection with the city - Good infrastructural connection (train station) - Can serve as open factory / museum to inform visitors / tourists

Train Station - Infrastructural connection - Can provide material and serve as transportation for visitors

Skyscrapers - Breaking with the scale of the city in this area (more outside the city centre) - Shapes big anonymous communities (you live with other people but you donÂ´t know them) - Competes with the traditional communitie

Pathways - Connecting the plaza with the rest of the city - Forming defined entrances to a community - Leading down towards the water

Homes in old structure - Defining the space around the ghat - Facing the water / plaza => opening towards the community - Using the level difference traditional Ghat - Ghat = embankment / stairs towards water - Traditional structure - Often combined with cultural / spiritual buildings Water - Heart of the Ghat - Important role in cultural and spiritual life (community centre, religious washings, meeting point...) Rooftop - Half public space, connected with neighbour rooftop but distance to the ground floor - Used to dry clothes, store things etc.

Concrete washing basins / slabs - Used to wash clothes - Still standing water => possible breeding pool for mosquitos and diseases

Step 1: Carding the cotton (cleaning + distangling the fibres)

Step 4: Weaving the yarn

Step 2: Spinning the cotton (Production of the yarn)

Step 3: Dyeing the yarn

Step 5: Cutting the cloth in shape

Step 6: Assembling the final product

Textile factory, combined with dhobi ghat - Functioning as an open factory to demonstrate the production of clothing - Can raise awareness with visitors - Pathway follows the production chain

Still water: Breeding pool for mosquitos

Flowing water: No breeding pool for mosquitos

Rooftop: Used to dry the clothes, half private detatched from ground floor but connected throughout the whole site Second floor: Private area, used for living

Ground floor: Public, at the street level houses the production processes, connected open for interested visitors

Organisation structure: Based on the old housing structure found in the dhobi ghat

Program: - Factory with production line - Processes in dependance of each other

Step 1: - Wrapping the Program in the Site - Choosing the place for the community centre

Noise pollution - Reduced in the centre due to the level difference (downwards spiral)

Step 2: - Pushing down the Volume - Creating a slope for steady water

Shortcuts to the centre - Shorten the walking distance - Mark the transition from one fabrication step to another (spacial disruption in the continuity)

r flow

Step 3: - Cutting connections towards the centre - Possible shortcuts

Ghat as Community Centre - Can be seen from any building - Basin for the water throughout the site - Symbol for the local identity

Ground floor = top floor - Different views about the space possible - Raises anticipation for the visitor when first entering the site

Connection to the local sewage system to ensure constant refreshing/waterflow

Step 1: Yarning the cotton

Step 2: Dyeing the cotton

Step 3: Weaving the yarn

The buildings on the site follow the traditional structure, having an open ground floor connected to the street (this is where the textile factory is located), private upper floors (serving as private living space) and a connected rooftop, being used by the community. Cuts in the spiral-shaped organization of the buildings serve as connections from every side towards the center and separating the different areas of the factory.

Step 4: Making the clothes

Professional Work during my time at Kรถstlbacher Miczka - Architektur Urbanistik (a selection of competitions and projects in which i participated)

4.1_urban_design_Dietenbach (next to Freiburg)

Typology detail original 1:500

Atmospheric sketch (by landstrich.eu visualisation)

Site plan original 1:2000 (by WRW FreiRaumArchitekten) Urban design of Dietenbach, a new part of Freiburg A large field of approximately 107.5ha, next to Freiburg should be developed as a new urban landscape. For this, the participants should find a conceptual urban design solution. Our proposal works with Urban blocks that form narrow streets and plazas. Having a central train station and detached parking buildings outside the center helps to keep the city nearly free of cars. The blocks are usually four floors high, except for some edges to catch attention. The name giving Dietenbach (a river) forms a wild park landscape in the middle of a dense urban area. (together with WRW FreiRaumArchitekten - landscape; and Landstrich - visualisation)

Figure ground plan original 1:5000

Award: Participation Web: http://www.freiraumarchitekten.com/wettbewerbe/ staedtebaulicher-wettbewerb-fuer-den-neuen-stadtteil-dietenbach-freiburg/ ; www.km-au.de Date: 08.02.2018 Coordinates: 48°00‘30.8“N 7°47‘37.5“E Contribution: Typology detail - floor plan design in 1:500 scale (also used on the cover of my portfolio)

4.2_urban-_and_museum_design_Nittenau

site plan original 1:500 Site

Perspective

Museum floor plan original 1:200

Urban design and museum design, Nittenau An old factory site on an island in Nittenau provides the chance to get a settlement and community close to the historic city center. The river surrounding the island is considered a nature preservation area, with a few rare kinds of fishes only living there. The design should incorporate a museum, which thematizes the Regen river. The structure of our proposal follows the typology of medieval cities, by dividing the volumes into small pieces of different height and depth and thus having a lot of diversity. The museum is in the shape of a barn, rising one floor high from the ground floor level but having a second-floor which is incorporated in the floodwater protection, making the building visible when passing the bridge towards the island. (Together with WRW FreiRaumArchitekten - landscape)

Modelphoto

Award: Honorable mention Web: https://www.competitionline.com/de/beitraege/151954 Date: 08.02.2018 Coordinates: 49°11‘55.2“N 12°16‘17.6“E Contribution: model building, drafting the perspectives in photoshop

4.3_urban_design_Lechstraße_Regensburg B

Anschluss Albert-Schweitzer-Park

Fußwegquerung

+334,50

Spielplatz

Wildba

chweg

weg d Rad

Fuß- un

+334,00

WA 3.1 1.690 m²

III WA 3.4 930 m²

Räder

+335,10 Trafo

III

WA 3.3 1.470 m²

WA 3.2 2.120 m²

Lechstraße

Sandspiel

Räder

Fußweg

+335,10

+334,00

6% +334,80

Gambachweg

V WA 2.1 1.690 m²

IV WA 2.4 1.170 m²

Räder

Im Gewerbep Sandspiel

A III

WA 2.3 1.470 m²

WA 2.2 2.120 m²

Räder

Donaustaufer Straße

+334,80

+333,80

6% +334,50

Fußweg

V WA 1.1 1.690 m²

Räder

WA 1.4 1.170 m²

Fußwegquerung

WA 1.3 1.950 m²

WA 1.2 2.640 m²

Fahrradverleih

Sandspiel

Lechstraße

+334,50

V MI 4.100 m²

+333,50

TG +334,00

Donaustaufer Straße

Bushalt

Site plan original 1:500

Bushalt

16 Stp.

Räder

Bad 6 m²

Flur 4 m²

Kind 12 m²

kind 12 m²

Flur 7 m²

Küche 8 m² Kind 12 m²

WA 3.1 1.690 m²

Essen / Wohnen

Eltern 13 m²

WA 3.1 1.690 m²

25 m²

Eltern 14 m²

WC 3 m²

Kochen / Essen / Wohnen 38m²

Balkon 7 m² zu 1/4

Diele 4 m²

Bad 6 m²

3 Zi 77 m²

3 Zi 75 m²

Schlafen 13 m ² Diele 4 m²

2 Zi 54 m²

Kochen / Essen / Wohnen 29m²

3 Zi 76 m²

Diele 3 m²

Diele 2 m²

3 Zi 77 m²

Balkon 7 m² zu 1/4

Essen / Wohnen

26 m²

Essen / Wohnen 25 m²

Terrasse 5 m² zu

1/4

Groundfloor plan original 1:100

Balkon 7 m² zu 1/4

Usual floor plan original 1:100 Urban design Lechstraße, Regensburg An old unused factory site of approximately 17.000m2 in the north of Regensburg will be developed to satisfy the ever-growing demand for affordable living space of approximately 180 apartments. The big streets next to the site make the noise pollution a critical issue for the design. To face this problem, we proposed tall buildings following the road, blocking out the noise. The buildings on the west side are getting gradually smaller, adapting their scale to the neighboring settlement. To give the design an intimate scale and form communities we decided to structure everything in three courtyards. (Together with WRW FreiRaumArchitekten - landscape) Award: 1st price, currently under further development Web: https://www.competitionline.com/de/beitraege/147617 Date: 26.10.2017 Coordinates: 49°01‘47.3“N 12°07‘23.6“E Contribution: Initial typology research, helping with concept development, model building, floor plan design (parts in 1:100 scale)

Modelphoto

4.4_school_design_Cham (Realschule)

Site plan original 1:500

423,0

enha

hen,

inbuc

n, Ha

Eiche

Kirsch

422,0

420,0

äume

ikr techn Haus m² 48.6

419,0

0 418,0 0

416,5

icht

Oberl

416,5

eraum Gerät m² 100.5

416,5

III halle Sport m² 405.0

417,5

II halle Sport m² 405.0

icht

e OG

416,5

Oberl

ttrepp

Fluch

I halle Sport m² 405.0

4 Be

Regie 1.5 m²

Stuhllam² 41.3

um penra Grup m² 30.3

413,0

rau itions Kond m² 42.9

ger

wart Hallenm² 10.1

416,5 and

rw Klette

Regie 1.5 m²

um penra Grup m² 30.3

und Umkl.m² 18.6

Du.

Beh.

Vorfa

um penra Grup m² 30.3

WC 2.7 m²

ereich

nb Auße

um penra Grup m² 30.3

le sschu

tag

Ganz

robe Gardem² 11.6

Regie 0.8 m²

ler

Schü

llraum Abstem² 11.6

um penra Grup m² 30.3

L. WC m² 11.2 r Lehrem² 16.7 L. WC 9.8 m²

nal Persom² 22.5

gang

chuh Turnsm² 82.5

hule

409,0

tagssc

ide Umklem² 23.7

nz ng Ga Leitu m² 22.5

WC 2.7 m²

hrk. Du Le 3.7 m²

WC 2.7 m²

ide Umklem² 23.7

WC 2.7 m²

r Lehrem² 16.7

ide Umklem² 23.7

WC 2.7 m²

r Lehrem² 16.7

ide Umklem² 23.7

416,5

raum Waschm² 22.2

ide Umklem² 23.7

WC 2.7 m²

hrk. Du Le 3.7 m²

ide Umklem² 23.7

hrk. Du Le 3.7 m²

sse

hulbu

hrt Sc

era Gerät m² 63.2

Gerät r Lage 5.1 m²

raum Waschm² 22.2

r Lage 5.1 m² uf

rka enve Paus m² 20.5 lgang Stiefe m² 104.1 lle E0 enha Paus m² 242.0

ckrau

we Mehrzm² 80.1

410,0

saal Musikm² 97.6

407,5

B 0

407,5

sraum

arbeit Haus m² 34.9

C tt Werksta hen Lagerfläc Müll

l esaa Speis m² 148.6

mente Instru m² 17.6

eraum Speis m² 28.4

ül Vestib m² 105.3

nal

rso gspe

un Reinigm² 15.3

m tsrau Vorra m² 17.8

e Küch m² 47.2

üche Lehrk m² 49.2

robe Gardem² 15.5

erung Anlief m² 15.0 tatt Werks ächen Lagerfl Müll

Pfortem² 73.2

erung

Werkh

416,5

statt

Anlief

rwerk

meiste Haus m² 27.7

408,5

mer

nstzim

150

r Die

meiste Haus m² 27.7

9,00

EG40

FSP

lgarte

Schu

D 0

408,5

cken g serbe un nwas d Reinig Rege un tion Reten

yball

ank

h-Volle

Sitzb

Beac

407,0

Groundfloor plan original 1:200 E0 408,80 Pausenhof, Herz der Schule, Musik, Essen und Sport

school design in Cham The old school building on a site with a considerable level difference needs an addition to match the growing demand for classrooms. Our proposal uses the topography to push the sports hall inside the mountain and build the new classes on top with direct connection towards the green space. The addition and the consisted house shape the auditorium - the heart of the school used to connect all parts of the buildings. +433.045

(Together with WRW FreiRaumArchitekten - landscape) Award: Honorable mention Web: https://www.competitionline.com/de/beitraege/137104 Date: 13.03.2017 Coordinates: 49°13‘30.0“N 12°39‘42.1“E Contribution: Drawing floor plans, explanatory diagrams, helping to draw the plans for the model +424.44

+423.87

+420.20

+416.55

+412.90

+408.80

+420.20

+416.55

+416.80

+412.90

+408.80

Schnitt D-D 1/200

Modelphoto

lfoto

4.5_other_professional_work Ansicht Süd

(a brief showcase of other works and competition during my one and a half years working experience) Apartment house design in Lipperheidstraße, Munich After our office won the Urban design competition for the area in 2013, we were invited to join the competition for the house design. Planned are approximately 270 Apartments, each having a wide balcony zone towards the pathway between the houses to create a community within the neighborhood. The gardens are raised by 1.5m to get a distance from the street, having a more private zone.

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Award: Participation Date: 26.05.2017 Coordinates: 48°09‘39.9“N 11°27‘09.8“E Contribution: Floor plan design, sections +3.56

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Barrier free development Fechthof, Regensburg A small competition, held for an addition to the old Reichssaal (city hall) in Regensburg. The design focuses on a minimal intervention within the historic ensemble and uses reinforced concrete together with rusted corten steel. This choice of materials matches with the atmosphere in the historic city center. I worked on this competition in a team of two, together with a colleague who graduated with me Award: 1st price, currently under detail planning Date: 22.11.2017 Coordinates: 49°01‘13.1“N 12°05‘37.8“E Contribution: Design, drawing plans, model making, photoshopping the model photo

Apartment house design in Wittelsbacherstraße, Regensburg New high-end apartments should be built close to the historic city center of Regensburg. Our design consists of four buildings, matching the surrounding mansions in size and form language. The apartments have the secondary rooms like kitchen and bathrooms facing the street on the east and the living rooms and bedrooms facing the park on the west. The facade is a reinterpretation of the surrounding mansions big windows. The space for each opening is structured in three parts, either used as window or closed by brickwork in a secondary color. (Together with WRW FreiRaumArchitekten - landscape) Award: Participation Date: 16.09.2017 Coordinates: 49°01‘00.3“N 12°05‘12.8“E Contribution: Initial typology research, model building, facade concept, facade design

Senior apartment design, Dingolfing Nearby the city center of Dingolfing a senior apartment house is build up. The design includes around 70 barrier-free apartments ranging from two rooms to four rooms. Each floor includes zones for collective use where the inhabitants can meet and spend time together. Those zones connect different stories and end at the rooftop terrace which serves as a garden and green space for the inhabitants. The ground floor houses a cafe, retail stores, and several medical institutions. Award: Participation Date: 17.01.2018 Coordinates: 48°37‘47.3“N 12°30‘01.4“E Contribution: Building design, drawing plans, model making, photoshopping the model photo