portfolio
MIKKELSEN ARKITEKTER selected projects COMMERCIAL Mediahouse, Danish Broadcast Coperation Ramboll Head Office Office Building for Great Belt Link New Center for Udbetaling Danmark HOUSING Frederikskaj Housing, Copenhagen Harbour Ever House, Sustainable Building Concept CULTURE The Royal Library, Copenhagen University Cycling and Athletics Arena in Odense RESEARCH Struers, Headquarter with product fabrication and laboratories HEALTHCARE Odense University Hospital Herlev Women/Children Hospital Kolding Hospital New Emergency Center in Viborg INTERIOR | DESIGN The Danish National Bank MASTERPLAN | INFRASTRUCTURE Sustainable masterplan, Gia Lam New Town Project, Vietnam Sustainable masterplan, Ny Nordhavn, Copenhagen Great Belt Link, Administration and toll complex, Halsskov Denmark
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COMMERCIAL MIKKELSEN ARKITEKTER projects
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Media House for Danish Broadcasting Corporation, Ørestad Denmark
Completion: 2008 Floor area: 32,400 m2 Client: Danish Broadcasting Corporation (Danmarks Radio) Architect: MIKKELSEN ARKITEKTER Engineer: NIRAS Façade engineer: ARUP Facade Engineering, London Acoustic Consultant: ARUP Acoustics, London Prize: Municipality of Copenhagen Solar prize
The diversity of functions has been crucial in developing MIKKELSEN ARKITEKTER’s design of the news building. The driving concept is that of a ‘dynamic building’. This is expressed in the final project which is both flexible in its structure and interactive in its use, both internally and with respect to the public at large. This concept of dynamism can be seen in all facets of the building. The large, transparent façade opens the news building towards the urban space, allowing direct views into the enormous atrium embracing the whole building over several floors, creating a connection between the organic, curved balcony, the central news studio and the building’s internal street. The interior design ranges from open office landscapes to various individual rooms for project teams with smaller cellular offices and quiet rooms.
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Media House for Danish Broadcasting Corporation
Sustainable technologies and building solutions are also integrated in the overall design strategy. The building demonstrates how environmental consciousness contributes technically as well as aesthetically to the overall architectural expression. The extensive use of glass on the facades as well as the roof makes it possible to take advantage of daylight and reduce the use of artificial lighting. The increased demands for regulation of the indoor climate prompted much of the current research at MIKKELSEN ARKITEKTER, thanks to support from the EU. This resulted in a completely new indoor climate concept combining groundwater cooling, a double facade system, natural ventilation and incorporation of solar cells in the roof construction. MIKKELSEN ARKITEKTER’s integration of energysaving solutions in the architecture of this building has been awarded the Solar Prize 2006 by the City of Copenhagen.
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Media House for Danish Broadcasting Corporation
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NATURAL VENTILATION AND MULTI-FUNCTIONAL DOUBLE FACADE SYSTEM Much effort has been put into providing daylight and, in particular, views of the surroundings from all permanent workplaces. The extensive use of glass on the facades as well as the roof makes it possible to take advantage of daylight and reduce the use of artificial lighting. Different types of double glass facades and atrium interact with the heating, ventilation and air conditioning systems of the building. The inner facades of low-energy windows are operable for the purpose of natural ventilation. The windows and the solar shading in the buffer zone are automatically controlled, but may be overridden by the users. The outer envelopes are composed of single-layer glass screens.
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Media House for Danish Broadcasting Corporation
DESIGN-INTEGRATED SOLAR PANELS Groundwater cooling, in particular, requires electricity for running pumps, etc., and the PV (Photo-voltaic) plant of solar panels has therefore been dimensioned to satisfy this need. The plant, which is the largest in Denmark, contributes to the reduction of cooling costs, and thereby reduces CO2 emissions to approximately 40 tons per year.
The intention with the PV plant is to display the panels as visibly as possible. The result demonstrates how environmental awareness can contribute both technically and aesthetically to the overall architectural expression. The design-integrated solar panels were awarded the Solar Prize 2006 by Copenhagen Municipality.
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Ramboll Head Office, Headquarter, Copenhagen, Denmark Headquarter Copenhagen, Denmark 2010 Area: 40.000 m2 1800 working places Client: SEB Architect: MIKKELSEN ARKITEKTER Landscape architect: Schønherr Landsskabsarkitekter Engineer: Ramboll Facade engineer: Ramboll Whitbybird
Four years of work have resulted in one of Denmarks largest and most dramatic corporate head quarters, the Ramboll Head Offices, RHO. This 40,000 sq m office is now the daily workplace for 1,800 employees, yet every detail has been designed to reflect and underpin Rambolls encompassing vision of innovation, collaboration and knowledge transfer. Ramboll requested a new head office that could support a ‘one company’ understanding. The building should integrate meeting places for formal and informal meetings, and create room for innovation and networking across different fields. Ramboll wanted with the building to communicate a transparent and responsible organisation with a holistic approach. MIKKELSEN ARKITEKTER has translated this vision in to an architectural concept that draws its inspiration from Barcelona’s famous Rambla - the energetic and vibrant main street. The RHO-Rambla unifies the entire building both horizontally and vertically through a series of mezzanine floors and balconies, in effect a
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RHO -Ørestad
massive movement machine that allows staff and visitors to move effortlessly between the eight floors. A generous open stairway lead via semi public spaces and meeting rooms related the central space to the top floor . The Rambla concept makes it surprisingly easy to navigate. The moment the visitor step inside, the building unfolds and reveals its open floors. There is a clear transition from social, common spaces to quiet office pockets. The building even includes a café open to the public. The building is engineered with an holistic approach leading to long-term and creative results, reducing CO2 emission and integrating responsible climate friendly solutions. With reduction of energy through optimal daylight solutions, district heating and ground water cooling, reducing cooling needs by up to 85%, the building will have a low consumption of energy. Evaluating Energy, Transport, Water, health and wellbeing, the building archive a rating similar to BREEAM Good.
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RHO -Ă˜restad
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2nd floor plan
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RHO -Ă˜restad
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RHO -Ă˜restad
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PRIZE and PUBLICATIONS WAN award 2010 commercial, shortlisted DETAIL “Work Environments” DETAIL, 3/2011, Concept Bauwelt, 11/2011 UIA, Sustainable by design 2050 a5 Copenhagen, ORO editions GD6, GLOBAL DANISH ARCHITECTURE ARCHIPRESS M ECOTECH Sustainable Architecture Today 26 May 2011, Architecture Today Plc THE ARCHITECTURAL REVIEW November 2010
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RHO -Ørestad
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RHO -Ă˜restad
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Office building for a/s Storebælt, Halsskov, Denmark
Office building for Storebælt Halsskov, Denmark 2009 Floor area: 1700 m2, new building, 300m2, renovation Client: A/S Storebælt Architect: MIKKELSEN ARKITEKTER Engineer: A/S Storebælt / M&E Engineering
Forslag C Snit B-B 1:250
Forslag C Snit A-A 1:250
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Storebælt
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StorebĂŚlt
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StorebĂŚlt
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Great Belt Link, Administration and toll complex Halsskov, Denmark Administration and toll complex Halsskov, Denmark 1998
Area: 2.010 m2 Client: AS StorebÌltsforbindelsen Architekt: MIKKELSEN ARKITEKTER Engineer: Ramboll, Hannemann & Højlund Landscape Architect: Jørgen Vesterholt Design-build Contractor: Monberg & Thorsen
When designing the toll centre for the Great Belt Link, great importance was attached to creating a modern and contemporary centre which would be seen as a landmark for the link. The principal structure of the building reflects the two main components of the centre: The toll station and the administrative office section. The roof forms a significant portal for motorists on the highway and accentuates at the same time the foyer and stair of the administration section. The roof provides shelter from the wind and rain for motorists when paying. A steel gangway is suspended from the underside of the roof, on which signs and classification and monitoring equipment are mounted. The three-storey administration section has approximately 65 office workplaces as well as meeting and canteen facilities. The building houses, besides services directly related to the toll station, the operation and maintenance departments of the entire link. On the top floor
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Great Belt Link, Administration and toll complex
of the building, facing the motorway, is a large control room from which the whole toll station can be supervised. Access to the building is at the south end, through a three-storey glass foyer with elevator and open staircase. The 160 m long and 20 m wide roof is carried in the full length of the building by centrally placed steel columns. The steel columns of the toll station are restrained in both roof and foundation. The roof and building are braced by the concrete cores in the administration section. The lightness and precision of the building is reinforced by the use of clear glass and matt silver aluminium surfaces. The curtain wall utilises specially designed aluminium profiles and aluminium cassette panels. The large glass surfaces on the north and south facades are braced with steel. The roof is similarly clad on the underside with natural anodized aluminium cassette panels.
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Great Belt Link, Administration and toll complex
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New Center for Udbetaling Danmark Vordingborg Office building Vordingborg, Denmark Competition: 2011, 1. premie Area: 5.500 m2 Client: Udbetaling Danmark Turnkey contractor: EnemÌrke & Petersen a/s Architekt: MIKKELSEN ARKITEKTER Engineer: Lemming & Eriksson Landscape architect: Schønherr Landskab
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New Center for Udbetaling Danmark
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HOUSING
MIKKELSEN ARKITEKTER projects s us t a i na b l e i m p a c t a nd e xp e r i e nc e
visu a l i n t en sit y
im pact: o u tside|in side, n atu re, fresh air/n ice cl im ate, day l igh t fro m l igh t pan el s, m ixed u se, m u l ti pu rpo se fu rn itu re, attractio n s an d green pro du ctio n
l o u n ge: a pl ace to m eet, n etw o rkin g, w o rkin g o n a l apto p, see o r be seen , rel ax w ith a n ice cu p o f co ffee
m o o d: ever ch an gin g l igh t an d atm o sph ere, so u n ds, su stain abl e experien ce, refl ectio n o f statu s ...
attractio n s: p a t hs : restau ran t ( pu bl ic ), a l l wa y s a g ood c ha nc e of bio j u ice/co ffee/ d r i nk s b a r, m e e t i ng p e op l e , exh ibitio n s, d y na m i c a t m os p he r e green pro du ctio n l o u n ge
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Frederikskaj Housing, Copenhagen, Denmark
Housing Copenhagen, Denmark 2009 Competition: First Prize Area: 14.600 m2 Client: MT Højgaard A/S Architect: MIKKELSEN ARKITEKTER Engineer: MT Højgaard A/S
The Frederikskaj residential complex is located at the old Teglværkshavn (Brickworks Harbour) by the southern harbour entrance to Copenhagen Docklands. The 152 flats are housed in two blocks – each with six access stairways. MIKKELSEN ARKITEKTER won the architectural competition in 2005 to design the flats with its visionary proposal to establish a new canal running closely adjacent to the blocks, drawing the reflection of the water’s surface into the flats. The buildings are oriented to provide maximum benefit from the sun and views over the new canal with its kayak put in places and the magnificent, wide steps leading directly from the water to the little square in the centre of the complex.
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Frederikskaj
With its copper clad facades, its large glass balconies and hardwood doors and windows, the Frederikskaj complex contributes with a warm and welcoming feel to the ambiance around Teglværkshavn. With time the Frederikskaj facades will patinate, creating a reference to the verdigris of the historic copper spires and roofs along Copenhagen’s waterfront. Frederikskaj has won the international Copper Award 2009.
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Frederikskaj
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Ever House, Sustainable Building Concept +
carbon dioxide energy recovery wood residue not suitable for recycling
TECHNOLOGY life cycle
recycling of clean wood residues
growing trees absorb CO2 from the atmosphere, stores it and transform it into oxygen, which is then released back to the atmosphere
CO 2 neutral energy production Door and window cut outs from KLH panels are reused for other products.
sawmill Wood chips generated in the joinery operations are collected and recycled.
ground-heat
sustainable living / comfort sustainable maintenance the durability of wood makes it low in maintenance and resistant to heat, frost, corrosion and pollution.
solid cross-laminated timber panels off-site production ensures high quality, which eliminates energy loss
sustainable construction wood is a flexible and high-performance material, low in weight, with excellent load-bearing properties
primary structure building envelope programe prepared for flexibility aptering prepared for changes
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long lifetime: 100 years lifetime: 50 years lifetime: 20 years
lifetime: 10 years
EverHouse
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shared outdoor space
shared outdoor space
Wall surfaces:
Roof:
Floors:
Facades:
Foundations: Screw-piles generally provide superior holding capacity to any other foundation system based on cost, speed and minimal soil disturbance, especially in unstable soils. The advantages of screw piles are numerous: Rapid installation, little installation noise or vibration, lightweight installation equipment, they can sustain load immediately after installation and are resistant to frost heave. The fact that the screw-piles can be removed easily without any trace and re-used makes them the perfect sustainable solution.
The KLH panels offer superior performance and a pleasant atmosphere. The exposed panels on almost all interior walls are handed over to the users un-treated and have therefore from day one no toxic emissions. The thermal capacity of the panels stabilizes the interior temperature as well the humidity. The wall can be treated with a soap solution for care and protection. The walls can be painted with a thin layer of paint, keeping the structure visible. The walls are very tolerant to daily wear and offer excellent support for wall- mounted furniture.
Felt roofing is chosen due to its generally low embedded energy and to the ease of performing tight connections between the assembled modules. The black roof sits well with the wooden cladding, makes the skylights and PV-panels less dominant and in later developments the felt roofing could be offered with an optional green (sedum) cover.
Bamboo floors are hard-wearing to use, beautiful to look at and have a very positive impact on the environment and on the carbon balance in particular. Very high growth rates and easy harvesting makes it the most sustainable flooring material.
The facade cladding is larch, treated with oil. The facade expression alternates between the main and the side facades. The north and south facades are done with angled, overlapping boards tying in with the louvered shutters. On the side facades the boards are mounted flush, accentuating the corners and cantilevers.
shared outdoor space
shared outdoor space
shared outdoor space
shared outdoor space
Materiels
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An Integral part of a living city The arena form is uniquely derived from its content and context responding in turn to both the scale of its surroundings and their use. Yet as a catalyst for future development the identifiable form of the arena and it’s sensitively timber clad façade addresses both the pre-development setting of ‘an object within the landscape’, and the establishment of the residential community with which it will engage in architectural conversation. The concept is of a timber box, a natural solution detailed as a mixture of perforate façades and adaptive screens to both heighten expectation and facilitate privacy. Tactile and human in scale when up close, and an appropriately unified dark container from distance. The unique design absorbs the energy of the event through the layered ‘urban lounge’, yet when the occasion demands the transparency of the façade is enhanced through the operable skin, reinforcing and extending the public realm into the sheltered space, or projecting the active content beyond the building enclosure. What defines an arena are the myriad of touchpoints that visitors experience not just in the venue but on approach and upon leaving. What distinguishes this arena design from others is its ability to reinvent, to provide unique experiences for all visitors through a constant flux of content not just within the arena bowl but at every interface with the user.
Hannemanns Allé
CULTURE Forest
3.00
Link
Amager Fælled
Space
Space
Greening
Canal
Park
Forest
Space
MIKKELSEN ARKITEKTER projects Green context
Commercial
Recidential
Commercial
Fields
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Recidential
Urban context
Rambøll 2.80
2.75
Crown Plaza
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Metro
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d Boulev ard
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1.70
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Øresta
1.30
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Byfælleden
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C
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Flow
SITE PLAN 1:500 Pedestrian Bike Car_traffic
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Det Humanistiske Fakultetsbibliotek, university library, Copenhagen University library and library archive rooms Copenhagen, Denmark Closed competition: First prize Floor area: 13,300 m2 Client: The Danish Ministry of Culture / The Danish Royal Library Owner’s consultant: Byggedirektoratet / Danish Building Directorate (phase one) and Moe & Brødsgaard (phase two) Architect and design/build consultant: MIKKELSEN ARKITEKTER Landscape Architect: Sven Kierkegaard Engineer: Ramboll Book storage capacity: 73,000 metres of shelf space Number of readers’ desks: 500 Artistic decoration: Vibeke Mencke Nielsen and Martin Erik Andersen Prize: G-Mark Award for Good Design
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With its 500 readers’ desks and some of the Danish Royal Library’s most sophisticated archive rooms, Copenhagen University’s new Humanities Library is a vital hub of the university’s new Amager campus. User based design Throughout the planning and design process, architectural focus has been on creating the optimum faculty library based on users’ needs. MIKKELSEN ARKITEKTER – in cooperation with a user group of Royal Library employees – analysed functionality requirements and work flow. Optimum design solutions catering for the needs of both employees and students were then designed on this basis. The result of this intensive planning and design process is a building characterised by flexibility, airy openness and simple, clear definition. The three open floors have been laid out with incremental noise levels in mind – from easy socialising in the lounge and café areas to group study areas and finally to the library reading rooms designated for “quiet” use where students can concentrate completely on individual study.
Det Humanistiske Fakultetsbibliotek, university library, Copenhagen
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Air extract Air Supply External double glazed skin Ventilated cavity Adjustable / removable blinds Internal single glazed sliding doors
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Det Humanistiske Fakultetsbibliotek, university library, Copenhagen
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73 km of cultural heritage safeguarded in climate controlled archive rooms In addition to its study and reading facilities the new faculty library building houses three large archive rooms for Royal Library books and records. The first of these, erected as part of phase one of the project built in 1998, houses 45 km of book shelves. Phase two includes a further two archive rooms with – between them – 28 additional km of shelving affording storage conditions with optimum temperature and relative humidity control, including one archive at 2° C for particularly sensitive audiovisual material. Award winning architecture The opening of the new humanities library marks the completion of a long term project started by the Danish Ministry of Culture in 1989. The project attracted international attention even at this early stage, and MIKKELSEN ARKITEKTER received the prestigious Japanese G-mark Award for phase one of the project. With the inauguration of phase two the Ministry of Culture completes its plans and fulfils its ambition to create a combined library and archive facility designed and built to the highest architectural standard.
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Det Humanistiske Fakultetsbibliotek, university library, Copenhagen
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Cycling and Athletics Arena in Odense
Cycling and Athletics Arena Odense Denmark Under detailed design Area: 7.200 m2 Client: Odense Kommune Architect: MIKKELSEN ARKITEKTER, Populous Engineer: Buro Happold
MIKKELSEN ARKITEKTER, together with engineers Buro Happold and architects Populous, are the consultants for the project Cycle and Athletics Arena in Odense. The project is located west of Odense city centre. The site is bounded by Højstrupvej to the south and Møllemarksvej to the east. There are residential areas west of the cycle track and a bowling centre and Bolbro Park to the north. Trees as well as existing vegetation surround the existing outdoor cycle track and associated buildings. The project describes a solution with the enclosure of a 250 metre long cycle track, as well as establishing a new timber cycle track in combination with a 200 m running track and field event facilities in the central area. The building is located within the existing track’s geometry – this will help emphasize the area’s landscape character, while at the same time all existing vegetation is arranged in relation to and supports the existing track’s geometry. Thus
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Cycling and Athletic Arena in Odense
the new building will right from the start be surrounded by planting. The building is located as far south as possible in the existing track’s geometry. This location will make the building visible to passersby. Surplus excavated earth will be used as fill in the area to the north of the building. Additionally the open area on the site will benefit greatly as it will appear as a larger combined area. The biggest challenge with regard to the structural design is the need to design a structure that can span over a large column-free area while being both the lightest and most structurally and economically effective solution. During the first stages of the design process it became clear that the best way to achieve these goals was to use a membrane structure in combination with a supporting structure of steel. A membrane functions simultaneously as structure and cladding for the roof. This reduces both weight, costs and the environmental impact of the structure.
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Cycling and Athletic Arena in Odense
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RESEARCH
MIKKELSEN ARKITEKTER projects
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Struers, Headquater with product fabrication and laboratories Ballerup, Denamrk Headquater with product fabrication and laboratories Ballerup, Denmark 2003
Floor area: 9,000 m2 Competition: First prize, invited competition 2001 Client: Struers A/S Architect: MIKKELSEN ARKITEKTER Engineer: Erik K. Jørgensen
Struers exemplifies a new generation of visionary production facilities, which seek to integrate all functions under one roof. This company headquarters combines product fabrication, storage, laboratories, and administrative functions within one, two-story building. Three open mezzanine levels within the building volume provide office space for the company. The mezzanines are formed around two large atrium spaces, one of which as Struers’ reception area, conference centre, employee canteen, and teaching laboratory, while the other provides space for product development, sales, and marketing.
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Struers
The sense of visual overview and interaction between the company’s diverse functions is further enhanced by two-story high glass screens, which provide a transparent separation between the atrium spaces and fabrication and storage spaces beyond.
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VISUALISERING Ny hovedindgang og sengebygning
HEALTHCARE
MIKKELSEN ARKITEKTER projects
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Odense University Hospital
Hospital, laboratory and education premises Total area: 207,000 m² Odense, Denmark Competition: 2010 Client: The Region of Southern Denmark The HEALTHBY consortium: MIKKELSEN ARKITEKTER RATIO (previously Medplan Arkitekter) Buro Happold Engineers Ltd, UK Buro Happold ApS, DK
New OUH + SUND The competition comprised the planning of the new university hospital in Odense (new OUH) and the coupling to the existing University of Southern Denmark via a new Faculty of Health Sciences (SUND). The competition proposal provided by the MIKKELSEN ARKITKTER team (the HEALTHBY consortium) uses a compact urban design brief modelled on a newly developed suburb. The tight structure is built around a paved thoroughfare, fanning out at one end towards the south while gradually getting narrower towards the north, culminating in a striking square at the coupling to SUND. At that point, the composition is anchored by a 17-storey administration tower. This compact urban structure features periodic openings towards the east and west, providing views of the surrounding landscape. The thoroughfare is open to public transport, cars, bicycles and pedestrians in one “shared space”. The evaluation committee found that the proposed solution renders probable “... rhythm and life in an excellently composed thoroughfare.”
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Odense University Hospital
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Odense University Hospital
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1.0 OPGAVEN
Der skal opføres et nyt universitetshospital, Nyt OUH, som skal knyttes sammen med Syddansk Universitet gennem udbygningen af et nyt Sundhedsvidenskabeligt Fakultet, SUND.
PARKERING I DET GRØNNE RUMF
REGNVANDSOPSAMLING
CENTRALT STRØG
KORTTIDS PARKERING OG DROPOFF
SOLFANGERE PANELER
BYGNINGER RELATERER TIL LANDSKABSPLAN KOBLING SUND
OUH PSYKIATRI
OFFENTLIG TRANSPORT - LETBANE
EKSISTERENDE FREDSKOV
NY RYGRAD
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VANDELEMENT FORSTÆRKES
Odense University Hospital NY SKOVBEPLANTNING
FJERNKØLING
UNDERJORDISK PARKERING
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Herlev Women/Children Hospital
Hospital Building for women/children Herlev, Danmark Competition: 2010 Total area: 60.000 m2 Client: The Region of the Capital
The HEALTHBY consortium: MIKKELSEN ARKITEKTER RATIO (previously Medplan Arkitekter) Buro Happold Engineers (UK) Buro Happold Aps (DK)
Shaping the development of Herlev Hospital is a challenging and fascinating task, not least because Herlev Hospital today appears as a characteristic landmark in hospital construction. In addition, the complexity and the complex requirements of the meeting between the new building additions, the existing facilities, the current structure and location are very demanding. New construction of FAM and KBB will provide a central and visible picture of the future Herlev Hospital, it will continue to be ”the face” to the environment and play an important role as a ”gateway” to the total developed area hospital. When placing the new building furthest to the east, a clear definition of urban cityscape along the Ring 03 is created. The new building opens up in the bottom 2 floors and invites us and brings together the area’s life and urban intensity. New construction will occur at once compact and connected and yet fractured and live with varying depth, with transparency, lighting effects, reflections and shadows. Herlev Hospital with new FAM and KBB can in a wider perspective have an impact that will reach beyond itself, as a potential indication of the way the Danish health sector should develop in the coming years.
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Herlev Women/Children Hospital
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Herlev Women/Children Hospital
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KAPEL KAPEL PARKERING
PARKERING KAPEL BLOK 09
NØDSTRØMSANLÆG
SERVICEBYGNING BLOK 07
HOSPITALSPARK PARKERING
PAVILLON 9 PATIENTHOTEL KIRKE
PAVILLON 8
PAVILLON 7
PARKERING
BARAK
STRÅLETERAPIBYGNING
BEHANDLINGSBYGNING BLOK 05
SENGEBYGNING BLOK 01
ANKOMST
AUDITORIUM BLOK 02 PARKERING
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STRUKTUR
INDGANG ANKOMSTPLADSEN INDGANG
FAM & KBB
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GÅRDHAVE
AN E
AMBULANCE
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LETBANEOPGANG
ELEVSKOLE BLOK 12
uddann
VANDOPSAMLING GÅRDHAVE LEGEPLADS
FORSKNINGSSKOLE
SIDDETRIN
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KULTURAKSE
RIN
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Herlev Women/Children Hospital
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HERLEV HOSPITAL FAM + KBB
HELHEDSPLAN FASE 1 1:4000
helhedsplan, nybyggeri, rådgivning
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Kolding Hospital
Hospital building Kolding, Danmark Competition: 2010 Total area: 28.000 m2 Client: The Region of South Denmark
The HEALTHBY consortium: MIKKELSEN ARKITEKTER RATIO (previously Medplan Arkitekter) Buro Happold Engineers (UK) Buro Happold Aps (DK)
The vision is to create a modern and flexible expanded Kolding Hospital, focusing on a healing and stimulating environment where daylight, function, aesthetics and future merge for the benefit of all patients, staff and relatives. The key is to create a framework that provides both outpatient and inpatient experience of a manageable, secure and high-tech processing environment based on good daylight conditions, and stunning views of the beautiful near surroundings and not least of Kolding city and fjord. Visiting Kolding Hospital you arrive in nature surroundings at the food of the main inlet tower. A tower to be a significant landmark of Kolding City, a new benchmark.
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Kolding Hospital
VISUALISERING Ny hovedindgang og sengebyg
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TAGETAGE TERRASSE
C B A C B A C B A
2.SAL SENGEFORBINDELSE TIL ØVRIGE
BALKON FORBINDELSE TIL ØVRIGE
HOVEDINDGANG STUEETAGE
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Kolding Hospital
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New emergency center in Viborg Hospital Viborg, Denmark Competition: 2012 Total area: 22.000 m2 Client: The Region of central Denmark
The HEALTHBY consortium: MIKKELSEN ARKITEKTER RATIO (previously Medplan Arkitekter) Buro Happold Engineers Ltd, UK Buro Happold ApS, DK
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New emergency center in Viborg
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New emergency center in Viborg
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INTERIOR | DESIGN
MIKKELSEN ARKITEKTER projects
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National Bank of Denmark - Renovations and extension, Copenhagen, Denmark
Completion: 2001 Floor Area: 1000 m2 Client: Danmarks Nationalbank Architect: MIKKELSEN ARKITEKTER Structural Engineer: Ramboll, Hannemann & Hoejlund Awards: Japan Industrial Design Promotion Organization (JIDPO) Good Design Award for the Glass Stair
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The relationship between MIKKELSEN ARKITEKTER and Denmark’s National Bank dates back to 1961, when Arne Jacobsen won an invited competition to design the National Bank complex. The first phase of the project was inaugurated shortly before his death in 1971, after which MIKKELSEN ARKITEKTER completed the following two phases.
The challenge here was to create a strong identity for the space, while integrating the design harmoniously within the existing architecture. MIKKELSEN ARKITEKTER developed a scheme characterized by a high degree of refined detailing, emphasizing the project’s restrained architecture and clear functionality.
The studio has designed and overseen the construction of many renovations and additions to the National Bank, including an extensive renovation and expansion of the bank's roof terrace, employee dining lounge, and kitchen.
The glass staircase highlights this design strategy. The stair, which functions as a floating transitional element between new and old, was developed in close collaboration with the engineers and fabricators.
National Bank of Denmark
National Bank of Denmark
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National Bank of Denmark
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National Bank of Denmark
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National Bank of Denmark
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Ponds collect water from runoff due to typography. Reedbeds at outfall to clean water
solar energy on roofs
High-rise area: Orientations and shapes optimizes balance between cooling breezes and undesired gusts
“sky gardens”
Terrain and green belt protects again hard winter wind from NE
Low / dense Non uniform mix of taller and smaller buildings and scatter streets are likely to enhance airflow Green roofs protects agains heat, and can be used for production
Elevated recreational landscape for sport, leisure and production
Excess rain water runs through cleaning ‘ecological corridors’ to lake and river
RANWATER POND
WATER TREATMENT
WATER STORAGE
Rainwater ponds collects and distributes rainwater to reuse in buildings
Cooling summerbreeze from SE
Lake drains excess water in area, and provides water sports facillities, a heat buffer and secures biological diversity.
Low recreational area protects natural habitat and preserves traditional landscape
MASTERPLAN | INFRASTRUCTURE
MIKKELSEN ARKITEKTER projects
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Ny Nordhavn, city planning, Copenhagen, Denmark
Concept MIKKELSEN ARKITEKTER’s design proposal envisions Nordhavn as an extension of Copenhagen’s existing dockland and canal areas. Nordhavn will be developed in accordance with a clear set of rules – making it possible to create the world’s most sustainable town. The overall strategy is to divide the area into seven separate zones, each of which must set the scene for a many faceted urban environment – bearing in mind sustainable development. A canal will extend from Copenhagen’s inner, central harbour – a new ‘Canal Grande’ – to form the central waterway through the new suburb. To the north of Nordhavn with views across the Øresund and the island of Hveen, new natural coastal areas and beaches will be established.
JORDRENSNING GEOOXIDATION
REGNVANDSOPSAMLING
VINDENERGI
SOLENERGI
PRODUKTION GRØNNE TAGE
REGNVANDS NEDSIVNING REGNVANDS BASSIN
BIOMASSE
VINDENERGI
D
LOKALT GENBRUG
AFFALDS SORTERING
SPILDEVAN
AFFALD
KOMPOST
VAND BEHANDLING ANLÆG
BEHANDLE T SPILDEVAN D
ENERGI
BØLGEENERGI
BIOMASSE + GAS ANLÆG (CCHP)
BIOGAS DRIKKEVAND
ENERGI
SLAM OFF SITE FORBRÆNDING + GENBRUG
EL - KØLING - VARME - GAS
ENERGI TIL NORDHAVNEN
ORGANISK AFFALD GÆRINGSANLÆG
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Nordhavnen
ENERGI TIL/FRA SVANEMØLLEVÆRKET
2009
PHASE
0
2020
PHASE
1
2040
PHASE
2
2060
PHASE
3
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Gia Lam city planning, Vietnam
Masterplan Gia Lam, Hanoi province, Vietnam 2009
High-rise area: Orientations and shapes optimizes balance between cooling breezes and undesired gusts
Area: 12.000.000m2 Client: VIDIFI Vietnam Development Bank, Bank for Foreign Trade of Vietnam, Vinaconex R&D Architekt: MIKKELSEN ARKITEKTER Vinaconex R&D Engineer: Buro Happold (UK)
Ponds collect water from runoff due to typography. Reedbeds at outfall to clean water
solar energy on roofs
Terrain and green belt protects again hard winter wind from NE
Low / dense Non uniform mix of taller and smaller buildings and scatter streets are likely to enhance airflow
“sky gardens”
Green roofs protects agains heat, and can be used for production
Elevated recreational landscape for sport, leisure and production
Excess rain water runs through cleaning ‘ecological corridors’ to lake and river
RANWATER POND
WATER TREATMENT
WATER STORAGE
Rainwater ponds collects and distributes rainwater to reuse in buildings
Cooling summerbreeze from SE
EXISTING STRUCTUREE
BLUE STRUCTURE
Lake drains excess water in area, and provides water sports facillities, a heat buffer and secures biological diversity.
Low recreational area protects natural habitat and preserves traditional landscape
Creating a recreative wetland to handle surplus flood water
existing water(field) structure
The masterplan for the Gia Lam area is based on a desire to retain the qualities and character of the area, but at the same time set out the strategies for a natural and sustainable urban growth. The plan recognises the importance of securing a continuity for the local community in the turbulent process of developing and modernizing the area. A robust and distinct urban topology is essential for the successful creation of a community, to which the inhabitants can relate, feel at home and feel pride in belonging to. The guiding boundaries between interrelated structures is what gives the city its identity and uniqueness.
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Gia Lam
WIND EXPOSURE
INFRASTRUCTURE Landscaping provides protection from strong, humid, moderate/cool, North-East, spring winds.
m dr ke
Es th le
Hard wind from the northeast/winter
Creating a tunnel effect, transporting the attractive southern wind thourg the site
Biking/pedestrian network is etsablished so that it connects the different parts of the site as effortles as possible
Cooling wind from SE, summer
Establishing underground parking where the building structure inclines that special foundation has to happen, because of an increased building heights etc.
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production wetland
GIA LÄM NORTH
SCIENCE PARK Gia Lâm Old Town
public parks and recreation GIA LÄM WEST
leasure parks Gia Lâm University
GIA LÄM EAST CULTURE ISLAND
CULTURE PARK
FINANCIAL DISTRICT GIA LÄM SOUTH
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Gia Lam
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CARLSBERG byen, Copenhagen, Denmark MIKKELSEN Architects is a part of the team of architects, lead by contractor NCC, who has been commissioned to finalise and build a new campus, housing, offices and retail space in phase one of the CARLSBERG Byen area in Copenhagen. The client is the property development company Carlsberg Byen P/S and the order value is approximately DKR 1.5 billion. Our work will include final design drawings, construction supervision. The project comprises 101,000 square meters, with the largest portion, nearly 60,000 square meters, being a new campus for the UNIVERSITY COLLEGE COPENHAGEN, UCC, which will
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concentrate all of its operations in Carlsberg Byen. When completed, more than 10,000 students and 800 employees will work in the area. In addition to the educational premises, the project comprises 6,500 square meters of retail space, 3,500 square meters of office space, 15,000 square meters of residential space and nearly 20,000 square meters of basement space. Project planning of Carlsberg Byen has already commenced and construction is scheduled to start in summer 2013. The first phase of the project is scheduled for completion at mid2016 and the entire project will be delivered in early 2017
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Images from the construction model in Revit.
Images from the construction model in Revit.
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Images from the construction model in Revit.
Images from the Project proposal by Vilhelm Lauritzen Arkitekter, Christensen & Co Arkitekter, COBE, NORD Architects and Effekt.
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MIKKELSEN ARKITEKTER
Vesterbrogade 95A - 3sal
DK-1620 København V
+45 72302050
www.mikkelsengroup.dk