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Project

Metropol Parasol Shades Sunny Seville

Credits: ©2012 Jurgen Mayer Architects

The Metropol Parasol is a controversial series of six giant woven, mushroom-shaped timber lattice umbrellas in Seville, Spain, that are designed to create shade -- a valuable commodity in a city as hot as Seville -- and so make the square more habitable. The layout and shape of the parasols create shadows which move continuously throughout the day. The parasols have helped revitalize the Plaza de la Encarnación that for years was used as a parking lot and seen as a dead spot among more popular tourist destinations in the city. The structure is one of the largest ever made of wood, and is assembled with panels of wood coated in polyurethane and connected using strong glue and steel rods. More than 3,400 wooden elements are arranged in an orthogonal grid with more than 3,000 connections spaced 1.5 meters apart. The canopy itself is 150 by 75 meters, reaching a height of 28 meters. The wood is reminiscent of architectural balsa wood models, but the simple elegance is the result of extensive computer modeling and engineering software – and six years’ of development. The Parasol contains an archaeological museum, a farmers market, an elevated plaza, multiple bars and restaurants underneath and inside the parasols, as well as an accessible panorama terrace on the very top of the parasols. In its basement, the ruins of a Roman district exhibit mosaics and enough pieces of wall to provide a sense of what the houses were like. On the roof of one of the parasols is a restaurant and a viewing gallery. A winding, undulating walkway rises slightly above the general roofline of the buildings and functions as a pedestrian promenade, where views of the old city are visible. Designed by German architect Jurgen Mayer, he says the forms of his building were inspired by the vaults of Seville's expansive cathedral – he wanted to create a "cathedral without walls" that would also be "democratic". No two parts of the Parasol are identical. (Scroll to bottom for additional resources)

 

Metropol Parasol Aerial by Alda

The Metropol Parasol in Seville, Spain, is one of the largest wooden structures ever built. It is shown in this aerial view as the very organic structure in Seville's cityscape. ©2011 Fernando Alda

After the Roman ruins had been discovered during excavations to build an underground car park, it was decided to hold a design competition, with an open brief and budget. Metropol Parasol, the Redevelopment of the Plaza de la Encarnacíon in Seville, designed by J. MAYER H. architects, http://www.jmayerh.de/index.php is the new icon for Seville as one of the world’s most fascinating cultural destinations. Metropol Parasol explores the potential of the Plaza de la Encarnacion to become the new contemporary urban centre.

Its role as a unique urban space within the dense fabric of the medieval inner city of Seville allows for a wide variety of activities. A highly developed infrastructure helps to activate the square, making it an attractive destination for tourists and locals alike. As one of the largest and most innovative bonded timber constructions, the parasols grow out of the archaeological excavation site into a contemporary landmark, defining a unique relationship between the historical and the contemporary city.

To avoid disturbing the Roman ruins, columns supporting the roof could only come down in a few places, requiring a mega structure – designed with the help of the engineers Arup – to span the gaps between them. From these conditions came the trunk-like uprights, big enough to contain elevators and stairs, and a structural system using laminated timber and steel, held together with high-performing glue, tested to ensure it would withstand the highest imaginable temperatures in this spot. Among the project's boasts is that it is the world's biggest building to be held together by glue.

Engineering firm Arup carried out experimental investigations to reach the best solution, ultimately developing the structure in a micro-laminated wood (Kerto). The timber is protected from the elements with a concept developed by the architects based on a waterproof polyurethane coating. The project´s success is a result of an integrated design approach, with a team of architects, structural engineers, building services, fire prevention specialists and timber contractors with the courage to embark on an engineering adventure and to face new challenges.

Four-level structure
The structure has four intertwined permeable levels. The basement level has a viewing platform over the archaeological artifacts found at the site. The first level is a 2155m² marketplace. The second level is a square elevated 5m above the market to be used for performances and shows. On the third floor is a restaurant, and on the fourth level is a public panoramic balcony with stunning views of Seville’s old quarter.

Connection nodes
Crucial for the behavior of the Metropol Parasol are the 3000 connection nodes at the intersections of the timber elements. Engineers at Arup and FFM developed an innovative connection detail based on glued-in steel bars, which at the same time are optimized for rapid erection on site. A thermal analysis revealed that the hot climate of southern Spain would be a particular challenge for the connection detail. Engineers had to develop a new bonding process, specifically for use in this climate. Any detail adjustments and pre-assembly of the connection elements were carried out in Germany before the 3000 elements were sent by truck to southern Spain. The elements were polyurethane coated on-site by a local company before final assembly.

The Wood
The wooden structure of Metropol Parasol is approx. 150m long, 75m wide and 28m high. The material is glued Kerto-Q LVL panels, that are arranged to an orthogonal grid of 1.50m x 1.50m. The Kerto material was uniquely able to be applied in such a large and complex structure. More than 3000 different wood elements were manufactured at the Finnforest building component factory in Aichach, Germany, with a total volume of approximately 2500m³ parallel laminated veneer Kerto. The wooden structure is covered by 2-c-polyurethane to protect against weather. The data of the architectural model were directly integrated into the software programs of the structural designers and the building company for wood.

The following is from GoFor Wood 

The wooden mega structure consists of glued Kerto-Q laminated veneer lumber panels arranged in an orthogonal grid with a spacing of 1.5 x 1.5 meters. The size of the individual load-bearing elements is adapted to the actual load and is thus highly variable. The thickness of the wooden panels ranges from 68 millimeters to 311 millimeters. The largest of the approximately 3,400 wooden parts measures 16.5 meters high by 3.5 meters wide and 140 millimeters thick.

The foundations and the cylinder-shaped lift towers below the panorama restaurant are made of concrete. In contrast, the museum is topped off with far-reaching composite frames made of reinforced steel and concrete. The load-bearing platform for the restaurant 21.5 meters above ground level is also being realized using a steel-concrete composite construction.

The Metropol Parasol project would not have been possible without the close planning and cooperation among architects, structural engineers, building technicians, fire protection and timber engineering experts. A prerequisite for effective planning was the seamless electronic data exchange including 3D modeling between all partners, including the main contractor, across all German and Spanish sites. Data from the architectural model were directly integrated into the software of the structural engineers.

The individual parts of the grid structure consist of Finnforest Kerto. The parts were cut out with millimeter precision using a CNC-controlled trimming robot that also adds milling details and cut-outs. But many tasks were also carried out manually, for example drilling 35,000 holes for gluing in the threaded bars that form part of the connecting joints.

Roughly 3,400 individual wooden elements were manufactured by Finnforest’s component factory in Aichach, near Munich, Germany. 2,500 cubic meters of Kerto LVL were transported by road to Seville, where it was coated with polyurethane and finally assembled.

The Metropol Parasol has no roof and must therefore rely on a different form of protection from the damaging effects of weather. To meet this requirement, the architects chose a new wood protection system. The exposed pressure treated wood is covered with a waterproof but diffusion-permeable 2–3 millimeter thick 2-component polyurethane coating.

The load-bearing characteristics of the Metropol Parasol greatly depend on the more than 3,000 joints where the Kerto LVL panels intersect. The engineers from Arup and Finnforest developed an innovative joining mechanism based on glued-in steel rods, which also resulted in a swift assembly on site. In light of the extreme thermal conditions existing in Southern Spain, the epoxy resin was tempered, thus ensuring that the connecting joints remain strong even at high temperatures.

Finnforest Kerto LVL (laminated veneer lumber), manufactured in Finland, is a highly flexible material made of softwood veneer by gluing. Kerto has been used successfully in the timber construction for decades. It is ideal for projects demanding dimension-stable, weather-proof and high-strength materials.

Construction
From Construction Manager
Jan-Carlos Kucharek reports 

Standing in the shade in Seville’s Plaza de la Encarnación, beneath the Metropol Parasol’s vast, amazing timber canopy, it’s hard to believe that 11 years earlier the only proposition for the city’s largest urban square was to excavate beneath it and build a car park to deal with the city’s traffic problems. But after the pile drivers started churning up Roman mosaics, the archaeologists were moved in to reveal significant Roman remains buried 5m below the square.

With excavations ongoing, in 2004 the Seville city government held an international competition to come up with a landmark scheme that would incorporate the Roman find into a larger vision for the plaza. Won by German architect Jurgen Mayer H, Metropol Parasol (dubbed “Las Setas”, or “mushrooms”) comprises six, 21.5m high timber trunks and a great lattice canopy that covers nearly all of the old square. It provides solar shading and is a marker for the museum, sunk beneath it, allowing visitors to view the remains exactly where they were found.

Above this the square’s old market has been reinstated as an indoor one, and on its roof a new 3,000m2 raised plaza sits in the canopy’s shade. In April 2011, the €90m Las Setas opened to the city’s excited, curious or downright outraged residents. But whatever you might think about the design, being arguably the largest timber structure in the world — with a surface area of more than 11,000m2 — there’s no doubting the scale of the ambition.

The highly distinctive mushrooms, made of laminated veneer lumber (LVL), cover an area of 150m x 75m and are a feat of engineering as well as logistics. Prefabricated off-site, the structure was brought in by road and installed piece by piece by Spanish contractor Sacyr above the square.

Less visible, though just as impressive, was the engineering strategy that ensured the loads of this enormous timber structure were brought to ground among the precious ancient ruins with deftness and lightness of touch that belies the ingenuity required to achieve it.

Mayer’s original competition-winning design went through a number of structural iterations through the design development process in conjunction with structural engineer Arup Madrid, but it was decided to go with a hybrid composite approach that dealt with the building’s structural demands on an ad-hoc basis. There was also an obvious desire to minimise points at which loads are transferred to ground, resulting in the fact that only two of the six “mushrooms” transfer their loads directly to the Roman remains via their 6m diameter, 40cm thick concrete cores. Their connecting steel platforms, for the restaurant area and rooftop walkway, are supported by a number of profiled hollow steel struts, which transfer their greater loads back to the concrete core using a saw-tooth connector.

But in the basement, they had to tread carefully. “Four of the six trunks pass through the raised plinth level to impinge with the ground, but only two within the Roman remains,” explains Arup associate Jan-Peter Koppitz. “The plinth itself is made up of huge Vierendeel trusses forming a box that sits atop five enormous steel trident columns rising out of the museum level, which measure 3m at their base and fan out to 13m at their top. To deal with the forces that make the trident columns want to splay apart, these are connected to each other with thick 100mm diameter steel ties,” he adds.

But it is the Kerto-Q laminated veneer lumber (LVL) free-form 1.5m x 1.5m rigid grid superstructure that forms the design’s centrepiece. “The decision to go for LVL was based on economics as well as its inherent strength, stiffness and durability. The form was developed using 3D finite element analysis using an iterative tool that automatically analysed and optimised the thickness of each timber element to create a static calculation model of the whole structure,” says Dr Volker Schmid, Arup consultant on the Parasol project. This would determine not only the size of individual timber members, but also the weight of the steel connection pieces at their intersection.

This was no mean feat. In total the Metropol Parasol is made up of 3,400 LVL timber elements. Depending on their position within the structural matrix, elements range from between 1.5m-16.5m in length and 68-311mm in thickness. At the trunks, where the largest occur, elements can be 3.5m deep. Connecting them all are nearly 11,000 steel moment-connection pieces, weighing from 2.9kg to nearly 70kg.

This structural connection was a key concern for the engineers as it allows the loads to be evenly spread throughout the structure. Engineers at Arup and Finnforest Merk developed the innovative fork-headed connection detail based on glued-in steel bars — an optimised bonding approach to aid with rapid erection on site.

Koppitz explains that Seville’s hot climate was a concern for the glue performance, which can be compromised in temperatures in excess of 60oC, and it was only once the engineers had liaised with an epoxy adhesives expert, and had carried out thorough testing, that the proposed detail could be adopted, with each of the 35,000 holes for gluing in the threaded bars manually drilled through the Kerto-Q.

All of the elements were precision drilled at Finnforest’s component factory in Aichach outside Munich using a computer controlled trimming robot, with the cutting data transferred from the structural engineer’s 3D model. Once cut, they were then transported by truck to Seville and stored in warehouses outside the city to await painting and installation.

The paint coating was not just to achieve an aesthetic intent, but to protect the timber from the drying processes associated with exposure to strong sun. In conjunction with Finnforest a new system for timber preservation was developed consisting of a waterproof but non-permeable 2-3mm thick, two-part polyurethane coating flexible enough to cover possible cracks. Together with the cream-coloured topcoat, which also provides UV protection, the engineers say that it also gives the structure a high level of heat protection, with potential creep deformation of the structure limited to nearly half of that anticipated if there was no protection at all.

Construction of the shading structure was carefully considered by Sacyr. Connections between the trunks of the mushrooms and the canopy were site welded. Arup’s Schmid says building the lattice canopy was a logistical feat in itself, being constructed off 96,000m3 of temporary scaffolding, built at high level over the square. To plan it, Finnforest used a 3D contour of the Parasol, allowing the scaffolding contractor to work out the potential loads that it would have to take to allow the canopy to be constructed on it. Stepped platform scaffolding followed the shape of the canopy, which meant that the whole structure remained accessible throughout the construction process for re-coating and checking.

Koppitz says that ensuring the accuracy of set-out was fundamental. “Datum levels were taken relative to the concrete tower of the restaurant core and checked against our model to ensure that they were correct prior to installation. The pre-fabricated elements had the steel connector pieces attached at ground level before being raised onto the temporary scaffolding deck. Moved into place, they were then fixed and adjusted,” he explains.

As the scaffolding was taken away and the nodes were placed under normal loading stress, all were checked for deformation. Once the foundation works and the new plinth level had been built, construction of the timber structure began in June 2008 and completed in March 2011.

The design was procured using a form of PPP contract between the Seville city government and the contractor Sacyr, which involved them putting up half the construction cost, the architect working under the contractor, and the other consultants being appointed by

the architect. Under the PPP, the contractor maintains ownership and management of the site for 40 years, before the whole building is handed back to the city in perpetuity.

This may be a blessing in disguise, for the reaction to the daring new structure in the ancient city seems to be a mixed one, and though it offers magnificent shade, it may take that long for Seville’s residents to happily siesta beneath it.

Phase 1: Concrete structure The steel structure of the museum and marketplace and the steel/concrete structure for the high-level cafe are completed. Two of the concrete cores that house lifts and four concrete plinths have been constructed.

Phase 2: Timber trunks Construction of the timber trunks starts with the base plates at the top of the concrete plinths. The timber panels, which are up to 16m high, are then set up according to a sequence which ensures temporary stability at all times.

Phase 3: Main structure The individual elements immediately above the trunks are prepared at the plaza level before they are hoisted into place at high level. The fire protection is constructed at the lower half of the trunks.

Phase 4: Scaffolding up Scaffolding is built to temporarily support the main timber structure outside the area of the trunks. Work started at the rear of the site and

two cranes were needed to attend to the simultaneous erection of scaffolding and timber.

Phase 5: Scaffolding down Scaffolding is taken down zone by zone, from the outside of the structure inward, with continuous control of the structure ensuring safety. The overall plaza is repaved and all urban infrastructures finished.

Phase 6: Finishing touches The entire scaffolding has been taken down, and the high-level walkway constructed on top of the timber structure. All services, such as lightning protection, are installed within the timber structure.

Developing a structural strategy
Optimizing Jurgen Mayer H's design was one of the first things that needed to be addressed. The scheme as proposed maintained a classic separation between the outer visible cladding and the hidden structure required to make it stand up, making use of steel structural tubes that would then be covered in metal cladding.

Engineer Arup and the architects revisited this approach in the design development phase. This involved looking at dual-layer steel shells and the use of steel foam.

In the end, the design team chose to concentrate on a supporting structure made out of curved lamina.

There were two options feasible: a radial disc configuration directed outwards from the supporting beams, or an orthogonal arrangement supported from the trunks. Although the former would be statically more efficient and saves material, there would be problems with the constantly changing geometry of the connecting interfaces, so the latter was chosen.

Given the enormous number of connections, it was presumed that the structure should consist of welded steel sheets, but analysis of the structure showed that these thin steel sheets would buckle long before the required loading capacity was reached. In the end team opted for Kerto-Q LVL. Even though these would be thicker than the steel sheets, they would weigh less and would also be more stable and would not suffer from crumpling, due to their thickness.

Because the roof is not closed, to give the form rigidity, additional steel diagonals were needed to give the timber structure the rigidity to carry the load. These are positioned around the concrete cores and lend stiffness to the structure.

However, since the arrangement of the steels influences the appearance of the Parasols, these are positioned as inconspicuously as possible.

The use of cross-laminated timber ensured that the structure could work at optimum loading strengths, as well as making it resistant to the deleterious effects of moisture, making it eminently suitable for use outdoors.


Documents

  Metropol Parasol Construction Article 2011 (580 kb)

  Metropol Parasol Project Booklet (8,314 kb)

  Metropol Parasol Press Release 2011 (53 kb)

  Metropol Parasol Mushrooming Timber Structure Article 2011 (420 kb)


Resources

Jurgen Mayer H. Architects

Metropol Parasol Arup Video Link

Arup


Videos

Watch Metropol Parasol ViewsThumbnail

Metropol Parasol Views Video

Watch Metropol Parasol Interview Thumbnail

Metropol Parasol Interview Video

Watch Metropol Parasol Aerial Video Thumbnail

Metropol Parasol Aerial Video