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X International urban conference “City 2016. City management” in Katowice

Category: ⚐ EN+city+ecosistema urbano+events

Salesiam Museum in Katowice - photo by

Salesiam Museum in Katowice – photo by Ziemowit Cabanek on Flickr

Next Monday, November 14th Belinda Tato will be giving the ‘keynote speech’ on urban social design at the X International Urban Conference “City 2016. City Management” in Katowice, Poland.

This event is organised by Jan Olbrycht, member of the European Parliament, and Think Silesia, a regional think tank based in Katowice. Participants will reflect on environmentally friendly cities, discuss the conclusions on Habitat III and the opportunities behind big data and open data.

You can see the event announcement and the program at the URBAN Intergroup website.

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Public Space for the Extreme: Convection

Category: ⚐ EN+architecture+city+networkedurbanism+research+sustainability+Uncategorized

Digestible Gulf Stream, Philippe Rahm, Venice Biennale 2008. Image courtesy of Philippe Rahm.

Digestible Gulf Stream, Philippe Rahm, Venice Biennale 2008. Image courtesy of Philippe Rahm.

Con·vec·tion. Convection results from the tendency of most fluids to expand when heated.

The use of convective air flows with the purpose of cooling traditional houses was not alien to traditional Persian and middle eastern architecture. Joining the “simple” badgir ventilation system with more refined and complex cooling technologies was one of the most advanced points reached by Persian/Iranian building knowledge. Passive cooling systems in the Yazd desert were so advanced that iced formed (and accumulated) during the cold winters could be conserved frozen until the height of the long, hot, desertic summer.
In addition to sensible cooling, the cooling caused by a change of air temperature but not its humidity, badgir combined with a savvy use of water can provide also evaporative cooling which is generally more effective than sensible cooling alone.

Water deposit cooled with badgirs in the Yazd desert, in Iran

Water deposit cooled with badgirs in the Yazd desert, in Iran. Image courtesy of Flickr user dynamosquito, CC BY-SA

In order to do so, windcatchers have to work together with a water source that supplies water which is then evaporated cooling down the flowing air, this can be achieved in many ways. The first one is taking advantage of the of the basement damp walls of the windcacher itself, if there is enough humidity in the underground the basement walls will be constantly wet and when the wind tower is working as an air intake the evaporation of the thin superficial layer of water will cool down the downward incoming stream of air. The second solution is to put a water source, if available, right under the shaft of the tower, a fountain or a small pool is used in this case, sensibly and evaporatively cooling down the entering wind. A great example, found in Yazd, combines and refines even more these two methods placing the tower further than usual from the house (50 m) and then using an underground tunnel to connect the tower with the house. The tunnel, being underground benefits both from the earth thermal inertia and from the humidity of the soil and at the end of the tunnel a fountain is placed to cool down even more the air. The third, and more advanced, passive cooling system based on windcatchers benefits from an underground water stream to cool down the water.

Climatic Tree in the Vallecas Ecoboulevard, Madrid 2004. Image courtesy of Ecosistema Urbano.

Climatic Tree in the Vallecas Ecoboulevard, Madrid 2004. Image courtesy of Ecosistema Urbano.

The use of convection with the purpose of cooling public space is mostly centered on evaporative towers, in a normal evaporative (cooling) tower hot water is distributed in the upper part of the tower, the sprayed hot water release heat in the atmosphere condensing and flowing down to the bottom of the tower where it is collected and recirculated if it’s the case. In evaporative towers designed to cool the surrounding space the process is inverted, cool water is sprayed with nozzles at the top of the tower and rapidly evaporating absorbs energy from the air coming in from the top of the tower, the cooler and more humid air being denser descends to the bottom and causing the area above it to cool down. The design of an evaporative tower able to work properly is challenging, a single design flaw or dysfunction can cause the sprayed water to condensate an drip.

During the 1992 Seville Expo the white towers of the Avenida de Europa were originally designed just to be architectural objects landscaping one of the main avenues of the exhibition but considering a wider plan to improve public space comfort in the whole exhibition area, technically developed with the help of the “termotecnica” group of the university of Seville, were converted into evaporative towers to improve the environmental conditions in the area.

The design, obviously not conceived thinking about the cooling effectiveness, had to be converted a posteriori into a cooling machine. Two main modifications were made: a wind collecting cap was added to the top of the tower and nozzles were installed inside it. For six months the exhibition remained open and the engineers responsible for the bioclimatic design of the event collected data about the functioning and the performances of the design (the report can be found in this book). The added wind-collecting cap proved to be too small for the purpose it was installed and was not sufficient to “catch” enough wind during an average summer day. The second flaw was caused by the structural design of the tower itself, the internal part of the chimney wasn’t smooth and wasn’t totally free either, the secondary steel structure that stiffened the tower was in fact a lattice continuously crossing the chimney section, water nozzles were installed in circles on the inner perimeter of the membrane and functioned properly but the vaporized water copiously condensed on the lattice structure causing continuous dripping under the tower itself. This was obviously a major flaw and the towers functioned only partially, also due to the difficult maintenance of the water nozzles.

In 2004 Ecosistema Urbano realized one of its most iconic designs, the eco bulevard in Vallecas, Madrid. Each one of the three trees has different characteristics and each one is focused on a different aspect of public space, but in this case the most interesting is the northernmost one that was designed as a rack of twelve evaporative cooling towers grouped to form a semi-enclosed public space shaded and cooled by the bioclimatic tree. Each one of the cylinders is made of two textile tubes, the exterior and reflexive one creates a protective layer for the inner cooling mechanism, the interior tube is the evaporative tower itself. A cap, provided with three openings to collect winds from all directions, is placed on the top of the inner cylinder, right under the cap there is a fan that starts spinning when temperatures rise above 28ºC to increment the existing breeze or to move the air if there is no breeze at all. About at the height of the fan water is sprayed creating a fine mist and its evaporation greatly increases the cooling effect on the air descending in the inner tube and then exiting in the semi-enclosed public space, delimited by the crown of the cooling towers.

Ecobulevar- Arbol de Aire, Ecosistema Urbano, 2004, Ensanche de Vallecas, Madrid.

Ecobulevar- Arbol de Aire, Ecosistema Urbano, 2004, Ensanche de Vallecas, Madrid.

The ecobulevar, being a fully designed public space, can count on many other design characteristics that improve the overall functioning of the cooling towers, their efficiency and the energetic behavior. The design of the public space under the “tree” is very important, the enclosing section, creates a favorable space for artificial climate conditioning, though it is an open space the “habitable” part (the first 2m from the ground) are somehow closed by the design of the pavement itself, this design contributes to the refrigeration of the central area reducing the hot breeze influence at the ground level and avoiding the direct escape of cooled air. Solar panels contribute to the over sustainability of the artifact generating enough energy to power the fans and the pump for the water. Extensive studies on the ecobulevar, demonstrated that air temperature at the ground level can be up to 9ºC cooler than the air at the top of the tree and that the average temperature difference is around 6,5ºC.

The last two examples are practically based on the same design principle but there are huge differences concerning both the size and the technological character of the project.

The first one is the wind tower that the British architects Foster+Partners designed for the Masdar Institute in the planned city of Masdar, Abhu Dhabi (which they also planned). The Masdar institute is, as of 2016, one of the few built parts of the city, which, in turn, is facing serious development and financial problems with only the 5% of the planned area being completed. The core plaza of the institute hosts a 45m tall windtower that contributes to the climatic comfort of the plaza channeling down the breezes that often spire in the desert, it is important to notice that the tower is not the only element designed to improve the ambient conditions of the plaza but all the strategies are focused on the sustainability and the comfort of both the buildings and the public spaces, in this case the dense urban form is supposed to reproduce the one of the traditional local architecture and buildings façades are self shadowing reducing the reflected sun radiation in the square, streets are narrow, etc.

Masdar Institute Courtyard showing the wind tower. Image Copyright: Nigel Young/ Foster+Partners

Masdar Institute Courtyard showing the wind tower. Image Copyright: Nigel Young/ Foster+Partners

This tower is a hi-tech interpretation of traditional ones, its size is greatly increased (the highest windtower in Iran is 33m high) and many design details are engineered improvements of the original windwoter concepts. The 45m teflon sleek tube is naturally designed to offer the smallest possible resistance to the passage of the wind and to reduce the possibility of condensation to the nebulized water used for passive cooling. Computer controlled louvers opens and close according the direction and the speed of the incoming wind and reduces the suction caused by negative pressure on the downwind side of the tower, with this refined mechanism, and the triangular design, the tower is always exploiting the precious wind. To increase even more the cooling potential a ring of water nozzles, also computer controlled, is placed right at the top of the shaft transforming this tower in a evaporative cooling device.

A low-tech version, though very similar in the functioning is the windtower built at the Nitzana Educational Village, in the Negev desert at the border between Israel and Egypt. This design is constituted only by a vertical metal chimney topped by a fixed wind catcher oriented towards the prevailing wind. The playful design is enhanced by a clever usage of the bottom part of the tower, a perforated ceramic brickwork is used to enclose a relatively generous meeting place that can host dozens of people from the local community, to reduce solar gain on the habitable part of the tower a sun protection is installed around it permanently shadowing the ventilating part.

Nitzana Educational Eco-Village, Nitzana. Picture courtesy of the The Jewish Agency for Israel CC BY-SA 2.0 from flickr.

Nitzana Educational Eco-Village, Nitzana. Picture courtesy of the The Jewish Agency for Israel CC BY-SA 2.0 from flickr.

 

The cooling process is based on a combination of wind-catching, mechanical ventilation, and evaporative cooling. In the upper part of the shaft a large fan is installed to generate an artificial windflow (power is apparently generated by solar panels placed on the south side of the tower) and under the fan two rings of nozzles are placed to implement passive evaporative cooling. Though being quite a raw design, this cooling tower uses all the technical mechanisms to achieve a cost effective cooling for the small public it has to refrigerate. Compared to the Masdar windtower this one might have a major flaw, in both the Ecobulevar and Masdar the proper cooling shaft is always protected from the direct sunlight, in this case instead the shaft is thermally conductive and prone to overheating,

But the most advanced look at what convection means for the perception and comfort of the human body in the space has to be find in Rahm’s “Digestible Gulf Stream”. In this project, two white sleek metal boards are placed at different heights in a room, one of the boards, placed on the floor, is constantly heated to 28º C, the second one, hanging at a higher point is cooled down to 12ºC. The temperature difference between the two panels creates a convective flow, the air heated on the lower plan becomes less dense and lighter and tends to float towards the second object that gradually cools it down causing it to descend until reaching again the warm plate. This constant air flow is invisible but certainly perceivable by the human body, for the purpose of the exhibition in fact, actors with different clothing (from naked to well dressed) were standing on the plates showing various levels of comfort and doing various activities that had a different impact on the heat production.

Digestible Gulf Stream, Venice Biennale 2008 - Philippe Rahm. Image courtesy of Philippe Rahm.

Digestible Gulf Stream, Venice Biennale 2008 – Philippe Rahm. Image courtesy of Philippe Rahm.

Rahm’s pioneering work in “climatic architecture” is extremely interesting, in this case the space is defined only by its temperature which is something we are not really used to, our normal physical division of space (walls, windows, curtains…) is totally visual but then our comfort is determined by variables like air temperature, this is particularly true in public space, where usually there are no “rooms” and the use (or the avoidance) of space is more often determined by factors like shadow, noise, comfort, etc.

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The Political Lab: How Can Urban Design Facilitate Socio-Political Engagement?

Category: ⚐ EN+design+open culture+urbanism+video

Last year Mirian Calvo, postgraduate student of the Glasgow School of Art, contacted us to ask our vision on topics that have been very present in our own work lately: the relation between citizens and institutions, the role of “urban labs” or “urban kitchens” in urban development, and the use of urban mockups or prototypes to create spaces for interaction, engagement and transformation.

Some months later she sent us the the result of her research, turned into a proposal for the George Square in Glasgow. Here you can watch a short video and read a summary about the project. Thanks, Mirian!

The aim of this final Masters’ project is keep reading!

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Public Space for the Extreme: Ventilation

Category: ⚐ EN+architecture+city+networkedurbanism+research+sustainability

Trraditional Badgir in Bahrain, photo courtesy of Emilio P. Doitzua

Traditional Badgir in Bahrain, photo courtesy of Emilio P. Doitzua

Ven·ti·late. The natural or mechanically induced movement of fresh air into or through an enclosed space.

Natural ventilation was widely used in traditional architecture to improve the bioclimatic comfort of tents first, and then rooms and whole houses, before the advent of air conditioning, natural ventilation was one of the few techniques available to lower the temperature of a closed space exploiting the cooler winds blowing outside or just the movement of cooler air.
The first and most important examples of architectures using the wind as a cooling medium to improve indoor environmental conditions are found in Persian traditional architecture, the badgir (or mulqaf in arab) is an extraordinary piece of spontaneous design, using only the natural flow of the wind – often combined with many other bioclimatic arrangements like thick insulating walls, very packed constructions, small apertures, etc. – it is capable of cooling and improving the climatic comfort of a house in the torrid deserts of Iran and the Arabic Peninsula.

Badgirs in Iran's Yazd Desert

Badgirs in Iran’s Yazd Region – Courtesy of Alessandro Longhi CC


The badgir, in arid and dry climates is often combined with the use of water to implement evaporative cooling improving even more its cooling capacity and generating cool breezes even without the presence of winds outside, in this case the thermodynamic effect is not based only on ventilation but also on convection. The windtower, or literally windcatchers, can be found as a traditional element in most of the modern Islamic world area with few regional variations, its usage has been consistent through the ages but in the western gulf region it almost disappeared due to the rapid urban growth and modernization of the cities, in Bahrain, for example, only one ancient badgir remains.

The traditional usage of windcatchers has been nowadays reinterpreted in many ways using both natural and mechanical aided ventilation, the great Egyptian architect Hassan Fathy used it widely in his buildings, but for sure, one of the best practice (at least if we consider this research public-space oriented) is the Qatar University Campus designed by the Egyptian architect Kamal el Kafrawi (with the collaboration of Ove Arup) and opened in 1985.

Qatar University Campus, Photo courtesy of the architect, Source: Aga Khan Trust for Culture

Qatar University Campus, Photo courtesy of the architect, Source: Aga Khan Trust for Culture

In this groundbreaking project the use of windcatchers is systematic and characterizes the whole campus. Based on an octagonal and square plan geometry, the low rise concrete modules the projects makes large use of natural light and natural ventilation through the hundreds of windtowers that top every module and mashrabiyas to protect the classrooms from sunlight and permit the air circulation. The aggregation of the modules juxtapose classroom modules, halls and rest spaces enriched with vegetation and constantly ventilated through the roof.

Qatar University Campus external view, photo courtesy of the Aga Khan Award for Architecture

Qatar University Campus external view, photo courtesy of the Aga Khan Award for Architecture

In contemporary architecture, and specifically in the climatic improvement of public space, the use of ventilation devices, especially in high-humidity environments is quite a new thing and mechanical ventilation is generally used as a cost-efficient way to overcome tropical humidity especially in southeast Asia. Two projects are to be considered references in this case, one is Will Alsop’s Clarke Quay in Singapore and the other is Ecosistema Urbano’s Air Tree for the Shanghai Expo 2010.

In this 2006, project, Alsop is called to regenerate the Clarke Quay riverfront and the market with the objective of drawing tourists and locals back to the old Singapore’s waterfront. The most interesting thing of this bold design is certainly  the bioclimatic intervention in the market, refusing to create a closed shopping mall the architect designed a mitigated semi-external space, protected from frequent rains and with improved environmental conditions.

Clarke Quay Redevelopment, Singapore. Image courtesy of Will Alsop.

Clarke Quay Redevelopment, Singapore. Image courtesy of Will Alsop.

The market intervention is composed by two main parts, the roof and the ventilation devices.
The roof is constituted by giant umbrella-like structures covering the internal streets of the market, the ETFE canopies covering the streets offer protection from both the rain and solar radiation that in this climate are equally detrimental for the use of public spaces. This roof maintains the temperature in the central square and the four streets of the market at around 28º Celsius when outside temperatures can rise up to a mean of 31ºC. But the most important and innovative feature are the “whale-tail” shaped ventilators placed in the vertical supports of the roof structure. These big fans have a fundamental role in maintaining good environmental conditions in the market streets, considered the high relative humidity level(year average 84%) ventilation is the only way to make the air tolerable. Using slow rotation fans these sculptural objects blow a constant breeze in the lower part of the market favoring the natural evaporation cooling of the skin.

Clarke Quay Redevelopment, Singapore. Image courtesy of Will Alsop.

Clarke Quay Redevelopment, Singapore. Image courtesy of Will Alsop.

The Air Tree that Ecosistema Urbano realized in Shanghai for the 2010 Expo is a prototype of an intervention in contemporary urban space. It is conceived as a new kind of public space, a technological urban furniture, which also serves as a virtual node of connectivity where users can actively interact. Its different technical layers enables multiple final configurations and a myriad of intermediate positions (opaque, translucent, transparent, bright, interactive, open, etc.). Different textiles for video projections allow an unlimited combination of scenarios adaptable to citizen needs. Its appearance can be transformed over the daily cycle, as well as through the different seasons. By sensors it is connected in real-time with the climatic conditions of Shanghai, constantly adopting the optimal physical and energy consumption configuration to generate climatic comfort for the citizens.

Air Tree Shanghai, 2010. Image Courtesy of Ecosistema Urbano

Air Tree Shanghai, 2010. Image Courtesy of Ecosistema Urbano

To improve climatic and environmental conditions, that in Shanghai basically have to deal with high temperature during summer and high relative humidity during all year, a 7.3 m diameter fan suspended by a tensegrity structure in the center of the space, at a height of 11.5 m provides air flows inside the space. Through a telescopic system the fan can be lowered several meters to come closer to the ground. The exact position and speed at each moment is determined according to the instant climatic conditions of the environment, real time monitored in the surroundings of the structure. Together with the variable configuration of the tree’s skin the flow of air generated with the fan can effectively improve the environmental conditions inside the tree.

Air Tree Shanghai, 2010. Image Courtesy of Ecosistema Urbano

Air Tree Shanghai, 2010. Image Courtesy of Ecosistema Urbano

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Kits for Kids: involving the youngest citizens in participatory planning

Category: ⚐ EN+Centro Histórico Abierto+creativity+Cuenca Red+ecosistema urbano+educación+participación+Plan CHA+Plan Encarnación Más

prova-con-sfumature

As you may know, in our ‘toolkit’ for the participatory processes we usually carry out in parallel to our urban projects, there are often some materials we specifically conceive to allow the participation of children and teenagers.  As part of our commitment towards inclusive processes we aim to target different social groups in our activities; especially that part of civic society that usually doesn’t have a voice in the collective debate about urban issues. Children have a particularly honest and imaginative look, and trying to understand a society or culture through their eyes is a privilege we keep enjoying project after project.

In particular, during our four latest projects in South America we detected this specific need to involve young population in participatory processes and we begun to design specific ‘kits’ for kids. As a result, we now have four different versions, developed in close relationship with the local context but also with many common features in mind. These ‘children participation kits’ are designed as a series of A4 or A3 paper sheets and they are explicitly designed to be easily reproducible. All the kits you can see in this post were used during the activities with children carried out by ecosistema urbano and our local collaborators in the schools and children’s centers of the city where the projects took place.

The different versions of these kits share the same aims:

  • Incline children and teenagers towards the urban development of their city through reflection and creativity, making them more aware of what is happening around them and improving their own ability to understand and act upon it.
  • Involve both children and their families. The activities in which kids participate —and the results they generate— attract the interest of parents and other family members who otherwise may not have the opportunity to approach the ongoing planning or design process.
  • Communicate the results; imaginative children’s eyes have the regenerative and exciting potential to bring freshness and friendliness to a process people often see as “serious” and complicated. These ‘kits’ allow us to channel that communicative potential.

continue reading

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Public Space for the Extreme: Shading

Category: ⚐ EN+architecture+city+networkedurbanism+research+sustainability+urbanism

Manama Souq - Photo courtesy of Emilio P. Doitzua

Manama Souq – Photo courtesy of Emilio P. Doitzua

Sha·ding, to cover or shield from direct sun exposure […]

Direct solar radiation has the largest impact on the comfort in open spaces, the enormous energy of the sunlight can be useful in certain seasons and cold climates but is generally excessive and certainly unwanted in hot and arid climates. Sun shading, and sun protection, has been, and still is, the fundamental way to improve a public space bio-climatic behavior. Reducing the solar radiation that reaches the people or gets reflected by the ground, both by the means of vegetation or shading artifacts, is the most efficient way to reduce temperature and it is widely used at all latitudes from temperate areas to arid ones.
In this short post we are going to present some projects that we consider interesting because of their use of shadow or shadowing devices, we tried to stick to projects that make use only (or mainly) of the shadow leaving other mixed projects for later.

A milestone project in the use of shading devices to create a bioclimatic space in the gulf region is the Hajj Terminal part of the King Abdulaziz International Airport, designed by the NYC based firm S.O.M. architects. The use of tensile structures, wasn’t surely something new at the time (i.e. Frei Otto tensile structures for the Olympic games in Munich date back to 1972) but the scale and the effectiveness of this project made it one of the best and most replicated examples of open shaded spaces. Although not being a true public space the Hajj terminal is quite peculiar, designed to host the massive flow of pilgrims that pass by during the ritual pilgrimage to the Holy Mecca it is composed of two parts, the first is a fully air-conditioned terminal where the offices, customs, and luggage claiming areas are hosted and the second, and far more interesting part, is the famous open space tent-like structure that hosts the pilgrims until their departure to the Mecca (the waiting time can be up to 36 hours).

Hajj Terminal, S.O.M. Architects, Jeddah, Saudi Arabia, 1982. Image courtesy SOM. Image © Jay Langlois | Owens-Corning

Hajj Terminal, S.O.M. Architects, Jeddah, Saudi Arabia, 1982. Image courtesy SOM. Image © Jay Langlois | Owens-Corning

The whole structure covers more than 42 hectares (60 football fields), and it’s composed by 210 tent-shaped cones made of Teflon coated fiberglass fabric arranged in modules of 45,72m (150ft) with an oculus on the top to allow the heated air to escape. Published data demonstrate how effective the design is, reflecting roughly the 76% of the solar radiation, the structure can maintain a notable 27 ºC temperature under the tent even with temperatures reaching up to 54ºC outside providing also a soft diffused light to the whole terminal.

In the late 80s, for the International Expo that took place in Sevilla, the Spanish architect José Miguel de Prada Poole designed the main pavilion for the events in the exhibition area. The “palenque” although resembling the Hajj terminal for the shape of its tensile roof is a much more advanced piece of bioclimatic architecture, Sevilla’s climate can be really harsh during summer and the designing teams put a big effort on the climatic comfort of both the pavilions and the open spaces. The palenque sits in between a pavilion and an open space, it was the main arena for shows and other events and it was, substantially, a covered open space filled with finely designed mechanisms to guarantee a high degree of climatic comfort even during hot summer days. The design used both natural (the pavilion had no walls at all, only vegetation enclosed it a bit) and forced ventilation and air conditioning to ensure the best possible conditions to its visitors but in this case the most interesting part it’s its cover.

The "palenque" during the Sevilla EXPO in 1992

The “palenque” during the Sevilla EXPO in 1992

In this project the bioclimatic design of the Hajj terminal was substantially improved, at a smaller scale indeed, the oculus was substituted with an improved ventilation topping cone and to decrease the temperature of the fiberglass fabric under the Andalusian sun hundreds of watering nozzles were installed around the cones. The water vaporizers were computer controlled activating only when the temperature and humidity rose over a certain value, their function was to continuously wet the roof with a fine mist, the quick evaporation of the water subtracted heat from the fabric and contributed to lower the transmitted heat to the underlying arena.

But shading can also be declined at a temporary and smaller scale. An extreme example, in this sense, is Asif Khan’s Public Space Shadow Canopy Kit, a portable kit that can be easily distributed and installed in any place without any tool or machinery, it can be moved, can be dismounted and installed in another place or can create a successful temporary public space.

Public Space Shading Canopy Kit courtesy of Asif Khan Architects

Public Space Shading Canopy Kit courtesy of Asif Khan Architects

Public Space Shading Canopy Kit courtesy of Asif Khan Architects

Public Space Shading Canopy Kit courtesy of Asif Khan Architects

This extremely low-tech and inexpensive piece of design is particularly meaningful for informal areas, unused or temporary spaces that can easily be converted in playful shaded spaces.

The Bab al Bahrain pavilion is a temporary public space designed by Noura Al Sayeh & Leopold Banchini in one of the most symbolic and historic sites in Manama, Bahrain. The pavilion had an extraordinary success during its permanence and it was constantly used and visited, it held events and even workshops. It’s success can be attributed to a good mix of factors, the first one surely being the special value of the place and the second one the it’s good bioclimatic design based mainly on shadowing.
Bab al Bahrain square was one of the main public spaces in the city, very close to the main historical souk and still connected to a natural pedestrian network, it is a privileged place but it slowly lost its status and it has been converted in a roundabout often crowded with cars and very unfriendly for the pedestrians. The first good virtue of this project is the creation of the public space itself, closing the crossing to the traffic and giving back this historical place to the citizens, although it was only for a limited time this demonstrated the power of this kind of intervention and the need for quality public space that this city has.

Bab al Bahrain Pavilion, image courtesy of Eman ali

Bab al Bahrain Pavilion, image courtesy of Eman ali

The second important virtue was the design of a comfortable public space using only the perks of the site, a minimal light structure and a low tech element to protect from the sun. Based on a regular grid of thin steel columns the project is basically made by its “canopy”, a light sun-reflecting fabric (generally used in greenhouses) that reflects most of the energy of the sun giving to the place a nice diffused illumination. To make this design really effective the architects took advantage of a large fountain already existing in the site, the fountain with its fresh water contributes to lower the temperature of the air crossing the pavilion and also generates a cooler spot in the middle of it favoring the creating of a light breeze.

 

Previous posts of the series:

Public Space for the Extreme: Defining the Extreme
Public Space for the Extreme @ GSD-Harvard
Do you want to contribute to our research about public space for extreme climate? Have a look here.

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Public Space for the Extreme: Call for Papers

Category: ⚐ EN+architecture+city+networkedurbanism+research+sustainability+Uncategorized+urbanism+work in progress

Woody Allen starring in The Front, Martin Ritt, 1976. Copyright of Columbia Pictures.

Woody Allen starring in The Front, Martin Ritt, 1976. Copyright of Columbia Pictures.

The Book

As you may have noticed from our last posts, it has been a while since we have started researching on the possibilities of designing better public spaces for those cities and regions that have to deal with extreme climate conditions. Extreme heat, very often combined with extreme humidity are conditions that, more or less seasonally, affect wide areas of the world. These regions, classified under the Köppen-Geiger climate map mainly as Equatorial and Arid (although with many sub-classifications) comprise various densely populated areas that all face a common problem: the harsh climate, combined with a generic design of the city, results in a scarce and difficult relationship of the citizens with the public space. Our goal is to publish a book that will serve as a design manual and reference for architects, urban planners, public administrators, decision makers, and citizens. This book, containing good practices examples, technical solutions and theoretical essays, will help designers imaging and designing better public spaces considering the local climate, the bioclimatic-comfort needs of the citizens and the responsiveness to the changing environmental conditions.

The Call

We would like to announce a call for papers inviting authors (architects, urban planners, designers, sociologists, engineers, scholars, etc.) to submit an abstract, no longer than 250 words, for a paper that will be published in the book. The content of the paper must necessarily be related with the topic of the book that can be summarized in the“design of bioclimatic responsive public spaces under extreme climate conditions” and can be either about a general original investigation on the topic or related to a more specific field within the main subject, like for example specific bioclimatic control techniques, technologies or principles, specific open air comfort conditions, the relationship between climate and public space usage, etc. Any other idea, even loosely connected with the main topic, that offers an original and innovative point of view is welcome and will be considered by the editors.
The abstracts will be blind reviewed by the editors: prof. Jose Luis Vallejo, prof. Belinda Tato and Marco Rizzetto; they must be written in English and be the result of an original and high quality research. Selected abstracts will be then discussed with the authors to develop the final paper according to the indications of the editorial board, the publication of the paper(s) will, in any case, depend on the quality of the final work.

The Deadlines

Deadline for the submission of the abstract: November 12th 2016
Notification of acceptance: November 19th 2016
Deadline for final paper submission: January 20th 2017

Submit!

If you are interested please send your abstract to sorry you have to write it down with the Subject: “Extreme Public Space CFP”

A street in Bahrain, photo by Emilio P. Doitzua

A street in Bahrain, photo by Emilio P. Doitzua

All submissions will be treated as confidential prior to publication in the proceedings; rejected submissions will be permanently treated as confidential.
The final book will be both digitally published under a CC-NC-SA licence and made available for download and physically printed, a limited number of copies will be distributed to key institutions related with design and planning all around the world, especially in regions directly interested by extreme climate conditions. The author, or authors, of the selected essays will be credited and acknowledged. For any other information or doubt please do not hesitate to contact us at the address provided below.

If you want to know something more about our current ongoing research you can take a look at the previous posts belonging to this same series:
01 – Defining the Extreme
02 – Public Space for the Extreme @ GSD Harvard
and stay tuned for upcoming updates.

 

Bonus link

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Public Space for the Extreme @ GSD-Harvard

Category: ⚐ EN+architecture+city+networkedurbanism+research+sustainability+urbanism+work in progress

Breathing Streets, courtesy of Nan Liu and Adelene Yu Ling Tan

Breathing Streets, courtesy of Nan Liu and Adelene Yu Ling Tan

During 2015 spring semester Ecosistema Urbano principals Jose Luis Vallejo and Belinda Tato taught a studio at the GSD in Harvard, focused on the design of socio-environmentally responsive public spaces for the city center of Muharraq, in Bahrain. During the semester the students worked to develop ideas and designs to improve the few remaining public spaces in the city, almost completely wiped out by the continuous transformation of the antique city fabric into a contemporary -and rather generic- one, that basically followed the “wide car street + housing block” development pattern, during the last 50 years the city has completely lost its contact with the water, substituted by a wide belt of highways and also its interstitial, small public spaces, almost completely transformed into parking lots. Always considering the climatic conditions that can be easily defined harsh and extreme, the aim of those projects was to foster the use of public space, in a city where public space is not only often abandoned and absent but also where the right to meet and gather is strongly discouraged.


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The heart of Asunción starts beating

Category: #followcreative+⚐ EN+architecture+art+city+creativity+news+publications+urbanism+work in progress

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Mural de Guache en el Hotel Armele, sobre Palma llegando a Colón / Foto: @marcosalonsophotography

A few months ago we ended one of the longest, intense and complex projects our office Ecosistema Urbano has done so far, the Masterplan of the Historic Downtown of Asunción, awarded in an international competition and developed with a multidisciplinary team between Madrid and the Mother of Cities, Asunción.

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Public Space for the Extreme: Defining the Extreme

Category: ⚐ EN+architecture+city+networkedurbanism+research+sustainability+urbanism+work in progress

Manama, Bahrein. Photo: Emilio P. Doiztua

Four years ago Ecosistema Urbano held a workshop in Manama, Bahrain, to revitalize and improve the public space around the Bab al Bahrain souk, an area that is historically important for the city but that it is nowadays a mere street crossing rounded by parking lots, without any tree or shadow. The workshop was held in a remarkable temporary pavilion that for a few weeks converted a roundabout into a vivid and often crowded space, a light textile roof offered shadow and protection to the participants contributing to the success of the workshop. The workshop has been also the occasion for us to start a long term project on Bahrain, under the auspices of the UNESCO Arab Regional Center for World Heritage we started a research project mainly focused on the city of Muharraq, its antique public spaces and how could we revive and improve them. This research has been carried on during 2014 and 2015 spring semesters with the GSD-Harvard students and it emerged immediately that one of the main conditions to make use of the public space in Muharraq was the improvement of the extreme environmental conditions that, combined with a low quality design of the space, prevented and discouraged the people to go out and live the remaining public spaces.

Bab Al Bahrain Workshop 2012

Bab Al Bahrain Workshop 2012

Following this same path of research we are now working on a publication to finally release all the knowledge we have accumulated during these years of work, teaching, and research in the form of a book. Our objective is to address the problems that the designers have to face every time they are called to design a public space in an area with a particularly extreme climate (make it extremely hot, arid, tropical, etc.), we would like to provide decision makers, designers and citizens with a solid base of knowledge to help them consider new technologies and concepts to design public spaces optimized for a certain climate, responding to bio-climatic needs and site specific conditions making it more livable, comfortable and accessible.
Beginning today, we start a series of posts dedicated to the design of bio-climatic public spaces, we will periodically publish part of the content we have produced for the book exposing the problems and the good practices that we have found, our concerns, the work of our students, etc. We would like to foster a debate around these themes that might help us developing our book but also raise the awareness around the climatic comfort in public spaces which is a true challenge for architects and designers in many areas of the world.
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