Jan Dankmeyer Architecture Portfolio
A selection of academic and professional works completed from 2017 - 2020
Jan Dankmeyer Architect
jan.dankmeyer@gmx.de Created by Zaff Studio from the Noun Project
jandankmeyer jandankmeyer Education M.Sc. Architecture and Planning Beyond Sustainability Chalmers University of Technology, Gothenburg, Sweden 09/2018 - 06/2020
Ever since I received my first LEGO bricks on a small Danish fairy to the island Samsø, it determined my path of the future. My curious and ambitious character are key drivers to participate in creating the world of tomorrow sustainably.
B.Sc. in Architecture Bochum University of Applied Sciences, Bochum, Germany 09/2012 - 08/2017
I consider myself a pragmatic designer yet contextually aware, always on the lookout for poetry in space that serves human needs.
Work
The fascination of buildings and their relationship to public space has always been interesting to me. I firmly believe that architecture that is deeply interwoven in its physical and cultural context is a powerful engine to influence behaviour and to make a positive impact on society. This is why I strive for human-centred design solutions that enrich the lives of people from the urban
Junior Design Architect RKW Architektur +, Düsseldorf, Germany 09/2017 - 08/2018 Student Assistant ACMS Architekten GmbH, Wuppertal, Germany 04/2017 - 09/2017
scale to the architectural detail. With my Master’s Thesis, I chose to dig deeper into the topics of environmental psychology and environmental education to design a learning landscape for children that teaches about urban resilience and nurtures sustainable behaviour. My dedication to sports in general and Basketball, in particular, has had a long-lasting effect on my personal development. As a team player, I contribute with precision, persistence and humour, always with a helping hand to bear. As I am positive and open-minded by nature, I believe in the collaborative design process to turn the negative impacts of the building industry into a positive one.
Student Assistant a|sh - sander.hofrichter architekten GmbH, Düsseldorf, Germany 09/2015 - 10/2016
Intro
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Selected Work 2017 - 2021 Playable Adaptivity 04 Master’s Thesis in Urban Challenges Chalmers University of Technology 02/2020 - 06/2020
Kraftbadet 14 Architectural Heritage & Transformation Chalmers University of Technology 02/2019 - 06/2019 ^
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Straight to Hill 22 Sustainable Building Competition Chalmers University of Technology 09/2019 - 01/2020
Hamnmagasinet 32
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Variowohnen 40
EUROPAN 15 Competition 06/2019 - 07/2019
Bachelor’s Thesis Bochum University of Applied Sciences 04/2017 - 08/2017
ACMS_Architekten GmbH 04/2017 - 09/2017
Stadthaus Cozwo 42
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RKW Architektur + 01/2018 - 07/2018
A house for my parents 02/2020 -
Content
Haus D.
Online Portfolio: https://jandankmeyer. myportfolio.com/
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Playable Adaptivity How to Educate the Designers of Tomorrow for a Resilient Urban Future Project location Gothenburg, Sweden Project year 02/2020 - 06/2020 Course, direction Master’s Thesis, Urban Challenges Tutors Examiner: Emílio Brandão Supervisor: Joaquim Tarrasó, Marco Adelfio
Children in our cities will account for 60% of urban dwellers by 2030 (United Nations, 2016). There is a necessity to educate an ever more increasing urbanised society about the complexity of Earth’s natural systems in order to achieve environmental and social resilience.
Software Archicad, Rhino, Photoshop, Illustrator
The rapid process of urbanisation combined with climate change threatens children to grow up on an inhabitable planet. For many decades, urban planning and architecture have been giving low priorities to children’s perspective in the built environment.
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“The Water Square”
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Playable Adaptivity
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Since children are the most unbiased part of society, yet the most vulnerable one in terms of climate change impacts, the urge to integrate them has to be seen as an inherent part of urban planning. This Master’s Thesis focuses on the children’s perspectives within the urban fabric by investigating how child-responsive spatial design can be combined with environmental education. Correspondingly, the concept of environmental psychology and built environment education will be introduced to combine pedagogy and architecture. Thereby, the concept of
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Connection to Nature
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Sustainable Urban Water Treatment
Water States of
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Can playgrounds be integrated into everyday urban life as a tool to educate children on climate resilience? play needs to be integrated into everyday urban life in order to promote outdoor activity and to nurture children’s personal development. The context of the design proposal is Gothenburg, Sweden, which will be facing significant climate change challenges, due to flooding caused by both the rise of sea water level and increase of precipitation. Conformable to environmental education, water sensitive design is introduced as a method to couple context-based urban challenges with environmental education as a pedagogical and playful
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Master’s Thesis
Delimitation diagram
element to educate about urban resilience. In compliance with the research-fordesign method, this work aims to create a spatial interface for children where the experience of space and movement in relation to climate adaptivity breaks ground for a new perspective on public spaces. The design outcome of this Master’s Thesis strives to contribute to environmental awareness and urban resilience through child-responsive design.
Find my Master’s thesis online exhibition and complete booklet here: https://projects.arch.chalmers.se/ jan-niklas-dankmeyer/
Aim, limitation and fields of research
02/2020 - 06/2020
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Swale Biotope/Wetland Street crossing ditch
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The Wetland
Open channel Bioretention Multifunctional space
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The Rain Roof
Detention Pond Infiltration Trench The Rain Roof 4
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The Water Square
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Amphitheatre Haga Station Feskekörka
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Pedestrian Bridge Pier (The Red Ribbon)
02/2020 - 06/2020
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Philosopahy of Sustainability
- Fantasy, imagination - Recognising essence Intervention in Urban Fabric
Understanding of How Important the Earth Is
Children’s Perspective
Environmentalfriendly Behaviour
Influence Social Structure
Sustainable Technology
- Factual information - Knowing about
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View Diagram
Playable Adaptivity
“The Wetland” How to influence the social structure through spatial interventions 6
Child-responsive urban planning
Multi-funtional Topography
Sustainable Storm-water Management
Learning Partnerships
Structured & Unstructured Play
Safety
Built Environment Education
Blurred Lines
Accessibility
Consider the Local Climate
Combine Water Management and Play
“Sustainable technologies must be combined with a philosophy of sustainability, a thorough understanding of how important the Earth is to us, resulting finally in a new architecture and a new visual language.” 3
Theory-based design strategies Based on the theoretical research for this thesis, generic and site-specific principles were developed to create a learning landscape for children. The design principles are divided into generic and site-specific strategies. The generic strategies focus on the children’s perspectives and environmental education and offer the potential to be translated and up-scaled into various contexts and locations in the world. The site-specific strategies result from the exploration of generic information. In this case, the site-specific design principles connect to sustainable and resilient urban water treatment which is Gothenburg’s urban challenge. In different contexts, other contextbased challenges could become a tool for educating children about the environment, and thereby support social and environmental resilience.
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Consider the Parent’s
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Showcase the Use of Water
Consider all Kinds of Senses Create Movements Shape Symbolism
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Anne Taylor (2009, p. 364) Diagram Interdependencies of design strategies
02/2020 - 06/2020
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1 Playgrounds Preschools Schools Green structures Blue structures Impervious surfaces Cloudburst routes Project site Area projected to be
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Overview map central Gothenburg Sketch
Playable Adaptivity
Projected flood scenario Graphical manifesto
Scale 1:7500
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Rainwater Harvesting
Bioretention
Multifunctional Space
Roof Retention
Infiltration Trench / Zone
Detention Pond - dry
Open Channel
Swale
Detention Pond - wet
Biotope
Delay of water flow dimensioned volume and less Delay of water flow - can handle cloudbursts Derivation of surface water - dimensioned volume and less Derivation of surface water can handle cloudbursts
Edge Conditions
Street Crossing With Ditch
Permeable Pavement
Water Flow Carrying Road
Small to medium purification effect Major purification effect Ecological benefits
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Toolbox Diagram
“Pedagogical Water Sensitive Design” Application of Water Sensitive Urban Design
02/2020 - 06/2020
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Green structures Blue structures Pedestrian area Soft pavement for children Swale Biotope/Wetland Street crossing ditch Open channel Bioretention
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Playable Adaptivity
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Multifunctional space Detention Pond Infiltration Trench The Rain Roof Amphitheatre Haga Station Feskekรถrka Pedestrian Bridge Pier (The Red Ribbon)
Scales 1:1000
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02/2020 - 06/2020
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Kraftbadet Gröna vägen i Försåker
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Project location Mölndal, Sweden Project year 02/2019 - 06/2019 Collaboration Vera Matsdotter Course Architectural Heritage and Transformation Software Archicad, Photoshop, Illustrator, Cinema 4D
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Kraftbadet
View
Social Sustainability
Circular Economy
Around the Clock
“The Green Way(ve)”
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Roof Garden
Hydroponic Greenhouse
Public Bath
Power Plant Café
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Context The site is characterised by the presence of water and decay. An old rivers stream runs next to the old water power plant, which has been demolished in half and is decaying fast. The Forsåker area is planned to become a new mix-used district with housing and workplaces located only 8 minutes by tram to central Gothenburg. Concept The proposal for the old water power plant is a public bath house combined with hydroponic farming, a food
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Axonometry
Architectural Heritage and Transformation
court, and a plant shelter. The idea is to introduce a programme that creates synergies and supports multifunctionality. Sustainable and salvaged materials are an important cornerstone of the design proposal. Rammed earth, clay plaster and timber have been explored in relation to their functionality in a bath house. We aimed to create a warm atmosphere while embracing the industrial traces. Challenges We intended to challenge the bath house typology in terms of both social
and ecological sustainability. For us it was crucial for the project to entail a multi-functional programme beyond the bathing function. This added more complexity by solving different flows of both people as well as air, energy, and water. Result Gert Wingårdh, one of our critics, complimented on the complex programme and on a high level of detailing and materiality. Regarding our team effort he stated that “in this project it is clear that 1+1=3.”
Programm and additions
02/2019 - 06/2019
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Floor plan Section b-b
Scale 250
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filtration + water reuse
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Photovolactic Solar Glass Facade
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View Diagram
Architectural Heritage and Transformation
Transition to Circular Flows Supporting the zero waste concept and making use of synergies between the different functions.
Steam pool atmosphere Supporting technical systems 02/2019 - 06/2019
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Clay plaster -green pigmented
Clay plaster -natural
Up-cycled timber block flooring
Resource Salvation
Alusid tiles (made from 98% recycled materials)
Stainless industrial metal sheets
- Terrazzo with (45%) re-cycled concrete mixed with old bricks, glass or marble pieces (developed by Lendager group and Skanska). - Alusid Tiles made from 98% recycled materials will be used in pools and in the showers/wet areas.
- Wood for furniture and flooring comes from up-cycled wood, otherwise sorted and considered as ‘waste’ - Prefabricated rammed earth wall elements, panels and clay plaster are used for the interior additions. Clay i retrieved (considered waste) from the Västlänken construction in Gothenburg
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Bathe in the ruin space
Kraftbadet
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Plywood panels
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Rammed Earth
Entrance pizza shelter Entrance bath Staircase to roof terrace Water Slide Net Natural swimming pond River stream Steam pool Sauna Greenhouse
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Section a-a Elevation South
Architectural Heritage and Transformation
Scale 1:250
02/2019 - 06/2019
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1 2 Kraftbadet
View Elevation North
Entrance pizza/power/plant Scale 1:250 18
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Timber-frame glass roof construction, triple glazing, photovolactic solar glass facade (20% opacity)
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Bended metal sheet and roof gutter
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Mineral insulation with partial wooden block for attachment of roof gutter
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Wooden covering, 150mm x 40mm
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Timber-frame construction triple glazing, photovolactic solar glass facade (20% opacity)
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New floor construction: parquet floor on two layers of timber subconstruction (900mm x 45mm), vapour barrier, condensed gravel insulation, vapour barrier, existing reinforced concrete
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Bended metal sheet for off running water
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Existing concrete attic block, if necessary replaced partially by new casted concrete
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Axonometry Detail roof addition
Architectural Heritage and Transformation
Ruin Garden + Bar Scale 1:10 02/2019 - 06/2019
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Project location Gothenburg, Sweden
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Project year 09/2019 - 01/2020 Collaboration Frida Forkman & Shuyun Hue
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Courses 3rd prize: Sustainable Building Competition + Building Design Lab Tutors Lasse Lind, 3XN/GXN John Helmfridsson, Chalmers + Wingårdhs Client Vasakronan Software Archicad, Rhino, Grasshopper, Photoshop, Illustrator
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View Section
“On the Bridge” Northwest
Scale 1:600 20
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Straight to Hill Mixed-used timber high-rise GSEducationalVersion
Project site Located in the old harbour area, Lilla Bommen is being transformed into a central business area. The project site is located adjacent to the new bridge connecting central Gothenburg and Hisingen. Competition brief The task was to design an 18.000m2 mixed-used timber High-rise. In close collaboration with GXN, circular design and behaviour design were further explored, as they were central aspects of the design process. In addition to the three given focus areas “timber construction”, “energy and indoor climate” and “up-cycling”, two more focus areas were to be developed. The course “Building Design Lab” provided the tools to optimise the facade of the design proposal according to energy consumption, daylight factor and thermal comfort.
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GSEducationalVersion
Concept The design strategy emerged from a twofold approach. Due to the lack of green spaces in the area and the new bridge being an enormous spatial element, the idea was to design the building as a public landscape connecting the bridge level with the level of the waterfront. Furthermore, responding to the present development of ever more high-tech solutions in architecture, this projects aims for a lowtech but yet high-intelligence approach. In particular, wind and natural ventilation became the main focus of the design proposal.
Outcome We were named third-placed and the jury panel consisting of Vasakronan, City of Gothenburg, GXN and Chalmers praised our effort in researching wind simulations and developing the design proposal according to the low-tech approach. The landscape was appreciated for its integration in the urban environment, as it provides human scale in the form of a playful, soft and unpredictable park.
Challenges The main focus was on how to define and address the focus areas in terms of sustainability and combine all of them in a thoroughly designed building. Due to time constraints, not all focus area could be developed in enough detail.
Concept narrative
Sustainable Building Competition
09/2019 - 01/2020
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Prevailing Wind Direction d
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Timber construction Created by Denis Devyatov from the Noun Project
Up-cycling
Energy and indoor climate
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Given Focus Areas
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Straight to Hill
Floor plan
Promenade level
Scale 1:600
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Entrance gallery Entrance hall Cafeteria Exhibitions and events Supermarket Commercial/shop Changing and restroom Nature paths
STRATEGY 1 STRATEGY 1 choices of materials, choices of materials, e.g: e.g:
STRATEGY 2 spatial decisions, e.g:
STRATEGY 1 choices of materials, INSULATION
e.g: INSULATION
INSULATION
CLADDING
ATTACHED GREEN
THERMAL MASSING
CLADDING
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STRATEGY 2 spatial decisions, e.g: ORIENTATION
NATURAL VENTILATION
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View
NATURAL VENTILATION
SHADING SHADING
REFLECTION OF LIGHT
REFLECTION
REFLECTION OF LIGHT OF LIGHT
MASSING
Connecting landscape
ORIENTATION
SHADING
ATTACHED GREEN
THERMAL THERMAL MASSING
ORIENTATION
NATURAL VENTILATION
CLADDING
ATTACHED GREEN
STRATEGY 2 spatial decisions, e.g:
Low-tech design
“The Hill”
Sustainable Building Competition
09/2019 - 01/2020
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Wind analysis Due to its location by the water the building and its incorporated landscape are exposed mainly to the wind coming from the west coast. We used a wind tunnel to simulate how the wind would behave on site in order to shape the landscape and to create sheltered areas in the park for people to stay and to enjoy the view on the water. A canopy above the landscape structure diminishes the “downdraught effect�, which prevents inducing the phenomena of a vortex at the bottom of the building, and improves the sojourn quality significantly (see sketch).
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SUMMER DAY
WINTER NIGHT
WINTER DAY
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Winter night: Heat release through thermal mass
Winter day: Heat Recovery System + Floor heating
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Summer night: Night ventilation
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Summer day: Cross and stack ventilation
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Inside the wind tunnel Measuring the velocity Axonometry 24
Wing roof The Wing Roof located above the thermal flue top opening uses the Venturi effect to accelerate and further induce exhaust airflow in the thermal flue
Natural Ventilation The natural ventilation system relies on crossventilation at each floor induced by stack effect in the double skin facade which acts as a thermal flue.
Double-skin Facade
“RIGH” Houses
The Double-skin facade is not only a technical addition but also provides stairs for circulating encouraging movement and relation between floors.
Circulation as shared space
STRATEGY 1 choices of materials, e.g:
INSULATION
CLADDING
Prevailing Wind direction
STRATEGY 2 spatial decisions, e.g:
ORIENTATION
Offices Every third floor the design provides a communicative floor with a larger kitchen, meeting rooms and recreation spaces.
NATURAL VENTILATION
Passive Shading ATTACHED GREEN
SHADING
Orientation Due to its positioning, the
THERMAL building allows harvesting MASSING
wind from the prevailing wind direction, solar energy and at the same time acts as noise barrier from the bridge
The facade is shaped according to the passive shading concept and at the same time allows for views on the water.
REFLECTION OF LIGHT
Co-Office Spaces
Gallery
Commercial
Cafeteria / Bar Gallery / Events
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Elevation Sketch
Southwest Circulation
Scale 1:600
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Elevation Sketch
Northeast Approach from bridge
Sustainable Building Competition
Scale 1:600
09/2019 - 01/2020
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Facade Concept In compliance with the concept of low-tech - high intelligence, we created a facade that enables passive shading while providing sufficient daylight throughout the day. The geometry of the passive shading elements were designed to protect from the sun during the summer and harvest solar energy during the winter by minimising the energy demands. The strict structure of the facade reinforces the contrast as a floating rational volume over the soft and playful landscape.
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Facade Optimisation with Grasshopper In the course “Building Design Lab” the facade of the office part was to be optimised regarding energy usage, and thermal and visual comfort. During the optimisation process we explored the effect of orientation, zone geometries and façade. To do so we had to pick several representative rooms. For the simulations we applied several plugg-ins in the Grasshopper environment. Readyto-go templates were provided by the course.
The “Design Explorer”, an online interface that enables to visualize and filter groups of iterations from parametric authoriting applications, helped to decide the optimised depth of the shading elements. The optimisation process resulted in different depths of the facade, depending on the orientation of the representative room.
Analysis of sun hours Distribution of daylight Visualised design iterations 28
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Created by Alan Davis from the Noun Project
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Created by Aenne Brielmann from the Noun Project
Created by Natasja Buer Toldam from the Noun Project
anhsirk yb detaerC tcejorP nuoN eht morf
Created by Adrien Coquet from the Noun Project
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Created by Stepan Voevodin from the Noun Project
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Sustainable Building Competition
Floor Composition
Wall Element Composition
Rammed earth floor, floor heating Seperation layer Sound insulation layer Bonded chipping CLT slab Substructure Sound absorbation insulation Perforated wood cladding
Pine cladding Battens, counter battens Facade membrane Timber frame structure, thermal insulation Cladding, vapour barrier Plaster boards Installation layer, thermal insulation Clay boards finnish
Scale 1:33
09/2019 - 01/2020
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“The Hang Bar” Transformation and extension of the old machine room of the old crane into a public event and exhibition space.
“Hamnmagasinet 405 REturns” The old warehouse is transformed into a hub for reuse, recycled goods and collaborative trade.
“Live Small - Share Big” A proposal for intergenerational housing units. Modular construction made from existing shipping containers .
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work/meet/share fika/swap/borrow/trade
Project location Helsingborg, Sweden Project year 06/2019 - 07/2019 Project type EUROPAN 15 Competition
Competition Theme Three core concepts: resources, mobility and equity as they are connected to the theme “The Productive City”.
Software Archicad, Photoshop, Illustrator, Cinema 4D
Competition Brief The competition task comprises the transformation of an old warehouse building and its surrounding plot, as well as a crane and its engine room. The assignment is to re-use and re-purpose the warehouse and crane engine room into a productive meeting place in the city, while adding building volumes to accommodate public activities and housing units within the project site.
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Scale 1:750
Collaboration Vera Matsdotter Client Helsingborg Municipality
Axonometry
Hamnmagasinet 405
make/repair/re-invent
Concept This proposal focuses mainly on resources, which are inextricably linked to equity and mobility. In combining consumption, production and exhibition under one roof open to the public, the design creates a space where people can meet, get involved, receive education and become inspired to make sustainable lifestyle choices. Result Studying the winning proposal (with many similarities in terms of program) the learning outcome was that more visualisations are to be preferred.
New Existing 30
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Hamnmagasinet 405 Centre for circular consumption Kontorsmagasinet L2
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Möbelmagasinet L1
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Mötesmagasinet L 0-2
Kontorsmagasinet L2
Fixarmagasinet L1
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Klädmagasinet L0
Materialmagasinet L 0-1
Resternas café L 0-1
Matmagasinet L0
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View View Diagram
“Resilient harbour landscape” “Inside Möbelmagasinet” Raised quay and stormwater strategy 06/2019 - 07/2019
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Materialmagasinet
matmagasinet GSEducationalVersion
Resternas cafĂŠ
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Matmagasinet
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GSEducationalVersion
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+2,3 Entrance plaza
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Section Elevation Floor plan
Hamnmagasinet 405
a-a Southwest Entrance level
Scales 1:400
New Existing 32
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GSEducationalVersion
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Elevation Floor plan View
Southeast Level 1 - Intergenerational living “Live small - share big” 06/2019 - 07/2019
Scales 1:500
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1. Demolition of the existing buildings.
2. Addition of two new volumes.
3. Displacement of the bodies to secure view connections.
4. Adjustment of the proportions related to the urban context.
5. Underground connection between the new volumes and the Kunsthalle.
6. Atriums secure natural light in the basement.
7. Existing landscape design.
8. Extension of the sculpture park and integration of the new buildings.
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Johnson +
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“Johnson + extension�
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Johnson + Extension Kunsthalle Bielefeld Project location Bielefeld, Germany Project year 04/2017 - 08/2017 Course Bachelor’s Thesis Tutor André Habermann Software Archicad, Photoshop, Illustrator, Cinema 4D
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Context + Task “Kunsthalle Bielefeld“ was designed by Philip Johnson in 1968 and immediately turned into the town‘s landmark. It is a cubic building, 30 meters in length. Its characteristic architecture results from flowing spaces marked by distinctive walls which also appear as design elements on the outside/façade of the building. The upper floor is completely closed and causes the building to bear its striking resemblance to a sculpture. The art gallery is considered one of the most prestigious museums for classical art in Germany due to its flowing spaces and the versatile use of natural and artificial light. The space provided within the museum
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is not sufficient anymore. Therefore, the need for more flexibility are urging. The task was to design an extension to the Kunsthalle that provides opportunities for exhibitions to also encompass contemporary art such as video installations and performances. Concept “Kunsthalle Bielefeld“ and the related sculpture park are important components of the public perception of the urban space of Bielefeld. This potential was internalised and then assigned to the design of the extension building of the art gallery as well. By doing so, the art gallery will be seen as part of the sculpture park. The art gallery
and its extension buildings works as a coexisting ensemble integrated within the park landscape. Challanges The decision making regarding the architecture of the extension required a sensible handling as “Kunsthalle Bielefeld“ and its sculpture park impose highly challenging surroundings. Reflection My work was complemented to be the result of an excellent analysis of the context and carefully executed architectural design. I was given a top grade.
Impressions from section model
Bachelor’s Thesis
04/2017 - 08/2017
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Floor plan Elevation
Entrance level Southeast
Scales 1:600
New Existing 36
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Main entrance Café Seminars “Mauerbar” Exhibition Sculpture yard Medieval wall
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Delivery Library Workshop Multi-space Shop Auditorium
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View Floor plan Section
Bachelor’s Thesis
“MauerBar” Basement
Scales 1:600
04/2017 - 08/2017
New Existing 37
Handlauf Ø 40 mm seitlich an Geländer befestigt
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Geländer Flachstahl 50mm, auf U-Profil geschraubt, feuerverzinkt
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ACMS_
Stahlprofil U240 als Treppenwange Gitterrost TS: 50/3, MW: 30x10 mm, feuerverzinkt, rutschhemmend R11, untereinander verschrauben
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184_AKAFOE Laerheide_LP5
Variowohnen Funded affordable and mixed housing Bauvorhaben:
Laerheide Bochum Laerheidestr. 4-8
Bauherr:
44799 Bochum AKAFOE
Universitätsstraße 150
44801 Bochum
Kragträger HEA 140 Anschluss an Außenwand thermisch getrennt Siehe Detail 184_W_64.25-4)
A2
A1
B2
B1
Stütze HEA 180 C1
C2
2
Änderungen 0 Basisplan 1 2 3 Variowohnen
Exterior view: Façades Interior view Site plan
Photo: Sigurd Steinprinz
3
31.08.2017 jad Note: Images shown are owned by ACMS Architekten GmbH 38
165
UK Lüftungsgerät = 1,16 ü. OKFF
10
Architect ACMS_Architekten GmbH
Kunststoff-Fenster Uw ≤ 0,89 W/m2K Uf ≤ 1,0 W7m2K Ug ≤ 0,6 W/m2K SSK 2 oder 3 Einbruchschutz EG: RC2 Farbe nach Wahl des AG, z. B. anthrazit
4
3. Obergesch
20
335
2
5
12
23
21
8
20
Geländerstab als Absturzsicherung Rundrohr Edelstahl OK = 0,90 ü. OKFF
Team Christian Schlüter, Angelika Austin
5
155
45
Schreibtisch 103
Abklebung innen, luftdicht
3
5,0 cm 20,0 cm
Fensterzarge Aluminiumblech, mehrfach gekantet, in den Ecken auf Gehrung, mit Antidröhnstreifen, pulverbeschichtet, Farbe n. Wahl d. AG 15
30
8
4
5
Kleintierschutz
18
20 10
Verschraubung M12 [G16] in Modix-Muffe [G13]
125
2075
Abklebung innen, luftdicht
Mineralwolle Schmelzpunkt ≥ 1000°C Hohlräume vollständig ausstopfen
10
05
+8.95 OKFF 3.OG
Quetschdichtung, winddicht
6
Overview The project was part of the programme “Variowohnen” (Vario-living) which is funded by the Federal Ministry for the Environment, Nature Conservation and Nuclear Safety. Due to the hybrid construction consisting of a partially precast concrete skeleton and prefabricated timber facade elements, the construction time could be diminished by approximately ten months. The building complex revitalises an old mining area and provides a mix of apartment sizes and common rooms, despite a tight budget and minimised area required.
Abklebung innen, lu
Elementschwelle / Brandriegel mit b ≥ 4 cm
+11.85 OKFF 4.OG
05
• 3,5 cm
Bodenaufbau OG 0,5 cm Linoleum 2,5 mm, v vollflächige Spachte 6,0 cm Zementestrich CT-F Verkehrslast bis 3,0 • Trennlage, PE-Folie 3,5 cm Trittschalldämmung s' 10 MN/m3 5,0 cm Ausgleichsschicht E 20,0 cm Spannbetonhohldie
6
6,0 cm
Zusätzliche Abdichtung im Fensterbankbereich, Elastomer-Abdichtungsbahn, seitlich 15 cm hochführen
Füllholz zum Toleranzausgleich Horizontale Brandschürze Stahlblech, 2 mm Schraubenabstand ≤ 300 mm, pulverbeschichtet, Farbe nach Wahl des AG, z. B. dunkelgrau +11.59 UK Element
Spannbetonhohldie
2 2
Be- und Entlüftung Spalt max. 3,0 cm
+11.42 = 2.475 ü. OKFF
Außenwandaufbau Brandschutzanforderung: F30 Wärmeschutzanforderung: ≤ 0,12 W/m2K
Unterlegung, Lagesicherung
VK Stütze ▼
Rohbauhöhe 2,70
Lichte Raumhöhe 2,55
Geschosshöhe 2,90
Abklebung innen, luftdicht
466
8 2 1
20 10
10
3. Obergeschoss
5
5
333 30
5
12 15
8
4
5
Bekleidung außen - Lasur: Vorvergrauung ohne Bläueschutz - Formschlüssige Holzschalung, Baustoffklasse B2, normal entflammbar, Lärche, vertikal verlegt. Profil mit Nut und Feder, konstante Brettdicke: mind. 18 mm, verbleibende Dicke bei Profilierung: mind. 10 mm - 8,0 cm Luftschicht / Unterkonstruktion: Holzlattung/ -konterlattung Holztafelelement Holzanteil 16% - 1,5 cm Zementäre Bauplatte, Baustoffklasse A1, sd < 0,6 m, Stöße winddicht verklebt - Holzständer gemäß Statik: KVH 65/65, OSB-Platte 1,8 cm, KVH 65/65 - 30,0 cm Wärmedämmung MF WLG 035 Baustoffklasse A1, Schmelzpunkt > 1000°C - 1,8 cm OSB-Platte, sd > 3,6 m Bekleidung innen - 1,25 cm Gipsplatte, 1-lagig
Auflagerwinkel Stah
Abklebung innen, lu
2. Obergesch
Knowledge acquired I considerably extended my competences for planning energy and resource-efficient buildings. I gained much knowledge of prefabricated timber constructions and their benefits. Furthermore, collaborating with engineers was an enriching experience.
4 5
Detail Exterior view
ACMS Architekten
Prefabricated timber facade elements Exit steel staircase 04/2017 - 09/2017
Lichte Raumhöhe 2,55
Drucklagerung / Unterlegung, Stahlblech
Stahl-Verbundträge (Werkplanung Fa. B beachten!)
Rohbauhöhe 2,70
▲ Fensterzarge
Auflagerwinkel Stahl gem. Statik
125
Elastomerauflager
Geschosshöhe 2,90
Stahl-Verbundträger (Werkplanung Fa. BuM beachten!)
+8.60 UK RD = 2.55 ü.O
Elementhöhe 2,87
KVH 100/100 OSB4 t = 18 mm
Elastomerauflager
+11.56 OK Element
Fensteröffnung RBM 2,00
3 2
KVH 65/120
+11.50 UK RD = 2.55 ü. OKFF
75
3
20
20
Spannbetonhohldielen
+8.80
20
+11.70 OK RD
15
KVH 8/14
5
35
Kleintierschutz
35
0,5 cm
Bodenaufbau OG Linoleum 2,5 mm, vollflächig verklebt, vollflächige Spachtelung Zementestrich CT-F5-S60 Verkehrslast bis 3,00 kN/m2 Trennlage, PE-Folie Trittschalldämmung EPS DES s' 10 MN/m3 Ausgleichsschicht EPS 035 DEO Spannbetonhohldiele
KVH 80/65
20
Publications “Detail Edition: Modulbau” (2019) “Deutsche Bauzeitschrift” (01/2017)
KVH 65/65
12
OSB4 t = 18 mm
Fensterbank Stahlwinkel Auflager Fensterbank
2
Certification DGNB “Gold”, Passive house standard
PU-Formteil, WLG 025; Fensterabklebung außen, winddicht
61
+12.35 Fensterbank = 0,50 BRH +12.32
5
Fensterabklebung innen, luftdicht
1.52
Schreibtisch
20
Client Akademisches Förderungswerk Bochum
Role I joined the project during the construction planning phase. I was responsible for drawing plans and construction details, particularly the facade details, ranging from scale 1:50 to 1:5. Besides, I was in charge of planning and coordinating the design of the fire steel stairs in collaboration with the structural engineer. The drawings shown are samples of my contribution.
Lüftungsgitter des Leibungskanals Fort- und Außenluft, dezentrale Lüftung der Einzelapartments Aussparungsgröße in Fensterzarge: b / h = 8,0 / 34,0 cm
Lichte Raumhöhe 2.55
8
Rohbauhöhe 2.70
+13.01
Geschosshöhe 2.90
394 195
4. Obergeschoss
Öffnung in Leibung der Fensterzarge b/h 8/36 cm
Elementhöhe 3,825
Außenmaß Fensterzarge 2.15
Detail 184_W-51.30
Achse Durchdringung
Lüftungsgerät
Rohbauhöhe 2.70
Project participation 04/2017 - 09/2017
Fensteröffnung i.L. 1.96
4 Lichte Raumhöhe 2.55
Project location Bochum, Germany
Fensteröffnung RBM 2.00
Anschlussdetail 184_W-50.00
Scale 1:15 (1:5) Photo: Sigurd Steinprinz 39
1
Stadthaus Cozwo Urban co-working and co-living Project location Düsseldorf, Germany Project year 01/2018 - 07/2018 Architect RKW Architektur + Team Barbara Possinke, Ursula Markowitz, Eike Otto Client Stadtwerke Düsseldorf (Local Energy Supplier) Collaboration kaufmann zimmerei und tischlerei gmbh, Austria merz kley partner GmbH, Austria Software Autocad, Photoshop, Illustrator
1
Street view
Stadthaus Cozwo
Overview The project was born out of a business idea to expand the service portfolio of the local energy supplier “Stadtwerke Düsseldorf ”. In close collaboration with RKW, the project was further developed, intending to react to the increasing demand for spaces for coworking and Co-housing. The building consists of a concrete skeleton for the co-working areas including co-housing units constructed of prefabricated timber modules. As an energy supplier, the client developed a specific energy system, comprising district heating, heat pump, solar chimney, heat recovery system and photovoltaic panels. Role I joined this project in the early design phase, and I was responsible for finalising the design according to the demands of the client and the local building authority. In particular, I was in charge to develop the concept of the facade design. The drawings shown
Rendering: Ponnie Images
are samples of my contribution if not marked otherwise. Knowledge acquired I gained new knowledge about sustainable energy systems and the construction of prefabricated timber modules. An exciting experience was to visit the manufacturer of the timber modules in Austria and to learn about technical solutions regarding fire regulations. Designing an innovative building regarding functions and building materials, as well as dealing with the building authority brought up a lot of interesting discussions and resulted in a very enriching process.
Note: Images shown are owned by RKW Architektur + 40
C Wohnen 1.-3.OG 8 Apartments
B
Abstellfl./ UV
Co-Working Space, 1.OG, 2. OG
B
A
A
C
2
3
4
2 3 4
Floor plan Prefabricated housing units Detailed facade
RKW Architektur +
Scale 1:100
01/2018 - 07/2018
Timber Concrete 41
Haus D. A house for my parents Project location Bad Essen, Germany Project period 02/2020 Design Architect Jan Dankmeyer Architect construction surveillance Wellner + Kroll GmbH Construction method Prefabricated timber frame structure
Overview For their retirement, my parents wanted to move back to my fatherâ&#x20AC;&#x2122;s to his home village. The plot of land was formerly owned by my grandmother. Since the property had been abandoned after her death, my parents decided to build their old age home where the old house stood before. Concept The site is characterised by small scale settlement buildings, fields and green areas. The plot itself provides
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extensive grasslands and even a tiny forest. Being in nature was one of the key aspects to be incorporated into the design. The house is designed to celebrate the views into nature. The house is composed of prefabricated timber frame elements insulated with wood fibre, and cladded with untreated larch panels. The combination of a heating pump to heat the floor and photovoltaic panels makes it possible to be self-sufficient for approximately 50% of the time.
Client My parents Software Archicad
2
1 2 Haus D.
View from East Section
Scale 1:200
42
3
4
5
3 4 5
View from Northeast Elevation Southwest Floor plan
A house for my parents
Scales 1:200 02/2020 -
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Thank you for your time. I look forward to hearing from you.
jan.dankmeyer@gmx.de