Skip to content
Architecture, urban planning and research in, on and next to water
+31 70 39 44 234     info@waterstudio.nl

Holländskt flyt mot stigande havsnivåer

By Sebastian van Baalen
Syre
August.2015

 

Sebastian van Baalen – 2 år sedan
Han kallas den flytande holländaren och har utsetts till en av världens viktigaste tänkare av the Times. Koen Olthuis är en nederländsk arkitekt som propagerar för att holländarna måste lära sig att leva med stigande havsnivåer. Men hans
idéer har implikationer långt bortom Nederländerna.

Med hjälp av cityappar vill arkitekterna på Waterstudio tillgodose grundläggande behov i världens vattennära slumområden. Foto: Sebastian van Baalen

Nederländerna är ett av världens lägst liggande länder med omkring 20 procent av landets yta under havsnivå och ytterligare 30 procent i riskzonen för omfattande översvämningar. Men trots århundraden av erfarenhet av att bygga vallar, kanaler och pumpstationer menar arkitekten Koen Olthuis att framtiden ligger på vattnet. Han har patent på flytande husgrunder och de senaste tolv åren har han ritat över 100 flytande hus i Nederländerna.

– Lösningen fanns i familjen hela tiden, förklarar han medievant. Min mammas familj jobbade inom skeppsindustrin och min pappas familj var arkitekter. Jag har helt enkelt tagit det bästa av två världar.

Enligt Koen Olthuis är flytande byggnader lösningen på flera olika problem; stigande havsnivåer, platsbrist i storstadsområden och behovet av dynamiska städer. – Städer är inte perfekta, de är korkade. Världen förändras ständigt men städerna är statiska och kan inte anpassas snabbt nog. Genom att bygga på vattnet kan man göra staden dynamisk, funktioner kan distribueras dit de behövs, när de behövs.

Lyxbostäder och konstgjorda öar signerade Koen Olthuis finns bland annat i Dubai och på Maldiverna. I Nederländerna, ett land där platsbristen är akut, har Koen Olthuis idéer resulterat i flytande bostadsområden. I sin bok Float! propagerar han för att användningen av flytande husgrunder kan möjliggöra så kallad depolderisering i Nederländerna, det vill säga att grundvattennivån tillåts stiga i torrlagda områden. Men det var när han uppmärksammade problemet med slumområden som han insåg konceptets fulla potential.

Flytande cityappar

Enligt FN förväntas omkring två miljarder människor leva i slumområden år 2030. Dessa bosättningar är ofta semitemporära då invånarna ständigt hotas med avhysning eftersom de formellt varken äger marken eller sina bostäder, något som försvårar utvecklingen av samhällsfunktioner i dessa områden. Men detta vill Koen Olthuis ändra på med hjälp av flytande cityappar.

– Många av världens slumområden ligger vid eller på vatten. Men när vi gjorde en studie i Bangladesh nämnde sluminvånarna förvånansvärt nog inte översvämningar som det främsta problemet – det var bristen på samhällsfunktioner. Och då är vattnet lösningen!

Precis som man laddar ner appar till sin smarta telefon för att ge den funktioner som saknas menar Koen Olthuis att man kan lägga till samhällsfunktioner i vattennära slumområden. Tillsammans med ett team av unga ingenjörer och arkitekter på sitt företag Waterstudio i Haag har han utvecklat flytande containers som huserar skolor, internetkaféer, sjukhus och sanitetsanläggningar, alla drivna av solpaneler. Dessa kan fraktas till slumområdena till havs. Jiya Benni jobbar med projektet.

– I de flesta slumområden saknas de juridiska förutsättningarna för att utveckla infrastrukturen. Fördelen med dynamiska cityappar är att de inte kräver bygglov. Skulle förutsättningarna förändras kan apparna helt enkelt bogseras bort.

Den första containern är nu på väg att placeras i Dhaka i Bangladesh. Men flytande cityappar ska främst ses som ett socialt företag enligt Jiya Benni.
– Varje cityapp har en affärsidé. Tanken är att lokala entreprenörer i slumstäderna kan hyra en city app på lång sikt och betala av kostnaden över tid. När appen har spelat ut sin roll i ett visst område kan den helt enkelt flyttas vidare. Lite som ett mikrolån.

Samtidigt erkänner Koen Olthuis att kostnaden för cityapparna än så länge är för hög.

– En flytande skola kostar för närvarande 45 000 dollar. Vi måste minska priset till 18 000 dollar för att det ska bli ekonomiskt hållbart.

Marinbiologer har bland annat påpekat att flytande byggnader kan störa de marina ekosystemen. Men Jiya Benni ser inte det som ett problem. – Jämfört med att torrlägga land är flytande byggnader definitivt mer miljövänliga. Visst kan konstruktionerna påverka mängden ljus som når botten, men det går att lösa med kreativ design. Vi samarbetar med oceanografen Jean-Michel Cousteau för att utveckla våra cityappar till naturliga ekosystem för fiskar.

Vatten som möjlighet Koen Olthuis framstår lika mycket som visionär som arkitekt. I hans visioner ingår flytande grönområden, flytande flygplatser och mobila och flytande flyktingläger.

Men vad är science fiction och vad är verkligen möjligt?
Faktum är att flytande städer har existerat sedan länge och stora slumområden ligger i dag på vattnet. Ett exempel är slummen Makoko i Nigera som är hem åt tiotusentals människor. Liknande samhällen återfinns i Hong Kong och Vietnam. Investeringar i sådana områden är ofta riskfyllda då infrastruktur riskerar att förstöras vid översvämningar. Även rikare länder har insett såväl nyttan som det estetiska med flytande byggnader; Seoul har en flytande ö på Hanfloden, Rotterdam ett mobilt konferens- och utställningskomplex på Nieuwe Maasfloden och Bristol en flytande plantträdgård. Men för Koen Olthuis handlar det om att förändra hur vi förstår staden.

– Mitt budskap är att vatten inte enbart är ett hot, utan också en möjlighet. Jag hoppas att det vi gör, mina idéer, kan spridas och locka människor att tro på idén. Min vision är att förbättra städer i hela världen.

Click here for the website

Click here for the pdf

City App floats at Xpeditie Blauwestad

The Communication App functioned as internet school and café in the temporary city “Xpeditie Blauwestad” in Groningen, the Netherlands

City App on its location at Xpeditie Blauwestad

Children using the City App

Thailand tests floating homes in region grappling with floods

By Alisa Tang
Thomson Reuters Foundation
March.2015

 

 

In this picture provided by Site-Specific Co Ltd, the 2.8 million baht ($86,000) amphibious house, designed and built by the architecture firm Site-Specific Co Ltd for Thailand’s National Housing Authority (NHA) rises up 85cm after architects and NHA staff fill a manmade test hole underneath the house with water during a trial run in Ban Sang village of Ayutthaya province September 7, 2013. REUTERS/Site-Specific Co Ltd/Handout via Reuters

AYUTTHAYA, Thailand (Thomson Reuters Foundation) – Nestled among hundreds of identical white and brown two-storey homes crammed in this neighborhood for factory workers is a house with a trick – one not immediately apparent from its green-painted drywall and grey shade panels.

Hidden under the house and its wraparound porch are steel pontoons filled with Styrofoam. These can lift the structure three meters off the ground if this area, two hours north of Bangkok, floods as it did in 2011 when two-thirds of the country was inundated, affecting a fifth of its 67 million people.

The 2.8 million baht ($86,000) amphibious house in Ban Sang village is one way architects, developers and governments around the world are brainstorming solutions as climate change brews storms, floods and rising sea levels that threaten communities in low-lying coastal cities.

“We can try to build walls to keep the water out, but that might not be a sustainable permanent solution,” said architect Chuta Sinthuphan of Site-Specific Co. Ltd, the firm that designed and built the house for Thailand’s National Housing Authority.

“It’s better not to fight nature, but to work with nature, and amphibious architecture is one answer,” said Chuta, who is organizing the first international conference on amphibious architecture in Bangkok in late August.

Asia is the region most affected by disasters, with 714,000 deaths from natural disasters between 2004 and 2013 – more than triple the previous decade – and economic losses topping $560 billion, according to the United Nations.

Some 2.1 billion people live in the region’s fast-growing cities and towns, and many of these urban areas are located in vulnerable low-lying coastal areas and river deltas, with the poorest and most marginalized communities often waterlogged year-round.

For Thailand, which endures annual floods during its monsoon season, the worsening flood risks became clear in 2011 as panicked Bangkok residents rushed to sandbag and build retaining walls to keep their homes from flooding.

Vast parts of the capital – which is normally protected from the seasonal floods – were hit, as were factories at enormous industrial estates in nearby provinces such as Ayutthaya. Damage and losses reached $50 billion, according to the World Bank.

And the situation is worsening. A 2013 World Bank-OECD study forecast average global flood losses multiplying from $6 billion per year in 2005 to $52 billion a year by 2050.

FLOATING HOUSE

In Thailand, as across the region, more and more construction projects are returning to using traditional structures to deal with floods, such as stilts and buildings on barges or rafts.

Bangkok is now taking bids for the construction of a 300-bed hospital for the elderly that will be built four meters above the ground, supported by a structure set on flood-prone land near shrimp and sea-salt farms in the city’s southernmost district on the Gulf of Thailand, said Supachai Tantikom, an advisor to the governor.

For Thailand’s National Housing Authority (NHA) – a state enterprise that focuses on low-income housing – the 2011 floods reshaped the agency’s goals, and led to experiments in coping with more extreme weather.

The amphibious house, built over a manmade hole that can be flooded, was completed and tested in September 2013. The home rose 85 cm (2.8 feet) as the large dugout space under the house was filled with water.

In August, construction is set to begin on another flood-resistant project – a 3 million baht ($93,000) floating one-storey house on a lake near Bangkok’s main international airport.

“Right now we’re testing this in order to understand the parameters. Who knows? Maybe in the future there might be even more flooding… and we would need to have permanent housing like this,” said Thepa Chansiri, director of the NHA’s department of research and development.

The 100 square meter (1,000 square foot) floating house will be anchored to the lakeshore, complete with electricity and flexible-pipe plumbing.

Like the amphibious house, the floating house is an experiment for the NHA to understand what construction materials work best and how fast such housing could be built in the event of floods and displacement.

FLOATING CITIES?

The projects in Thailand are a throwback to an era when Bangkok was known as the Venice of the East, with canals that crisscrossed the city serving as key transportation routes. At that time, most residents lived on water or land that was regularly inundated.

“One of the best projects I’ve seen to cope with climate-related disasters is Bangkok in 1850. The city was 90 percent on water – living on barges on water,” said Koen Olthuis, founder of Waterstudio, a Dutch architecture and urban planning firm.

“There was no flood risk, there was no damage. The water came, the houses moved up and down,” he said by telephone from the Netherlands.

Olthuis started Waterstudio in 2003 because he was frustrated that the Dutch were building on land in a flood-prone country surrounded by water, while people who lived in houseboats on the water in Amsterdam “never had to worry about flooding”.

His firm now trains people from around the world in techniques they can adapt for their countries. It balances high-end projects in Dubai and the Maldives with work in slums in countries such as Bangladesh, Uganda and Indonesia.

One common solution for vulnerable communities has been to relocate them to higher ground outside urban areas – but many people work in the city and do not want to move.

Olthuis says the solution is to expand cities onto the water.

Waterstudio has designed a shipping container that floats on a simple frame containing 15,000 plastic bottles. The structure can be used as a school, bakery or Internet cafe.

Waterstudio’s aim is to test these containers in Bangladesh slums, giving communities flood-safe floating public structures that would not take up land, interfere with municipal rules or threaten landowners who don’t want permanent new slums.

“Many cities worldwide have sold their land to developers… and now when we go to them, we say, ‘You don’t have land anymore, but you have water,’” Olthuis said. “If your community is affected by water, the safest place to be is on the water.”

Reporting by Alisa Tang, editing by Laurie Goering

Our Standards:The Thomson Reuters Trust Principles.

Click here for the pdf

Click here for the website

Portrait: Waterstudio.nl, The Netherlands

 

Archi-News, February 2015

Facing the city planning and climate changing challenges, the Dutch office Waterstudio.nl chooses to work principally towards flexible strategies and large scale floating architecture projects proposing sustainable solutions.

In the Netherlands, one quarter of the country being under sea level, the architects are considering the ways to rethink the built environment. Koen Olthuis (*1971) is one of them. Founder of Waterstudio, he studied architecture and industrial design at the Delft Technology University. As per his words, we treat our cities as if they were static and we don’t stop erecting fixed urban elements, which after 50 years become obsolete and useless. But the to-morrow’s city is dynamic, hybrid, flexible and environment friendly, a moving town, which reinvents itself constantly. The architect’s work is more precise in order to especially respond to the pressing needs of climatic changes. Koen Olthuis proposes to live on the water, with the water. The first town created in this spirit is under construction between The Hague and Rotterdam. Called « The New Water », this 1200 house urban development takes place in the polder zone, intentionally filled with water after a few centuries of artificial draining.
Strict rules limit the volume authorized above sea level. This constraint gives life to a rather sophisticated design and to interesting spatial solutions, particularly a naturally lighted basement, large glass surfaces, parts with wood and a white Corian® curved frame running along the façade. First one of the 6 buildings foreseen in this project, Citadel is also, with its 60 luxury apartments, the first floating building in Europe. Easy to reach from the side by a floating road, the building is composed of 180 modular elements, placed on concrete foundations. The norms are identical to those of a house on dry land. Another element of the New Water project’s first part: the Waterfront villa has a concrete base with a boathouse and a swimming pool. Three U-shaped volumes enable to optimize the viewpoints at each level. Corian® is used as the main covering material.
Waterstudio develops a revolutionary concept for the cruise ships terminal. A sculptural triangular floating construction (700 x 700 m) situated outside the bank, disposes of more than 160 000sqm of conference halls, cinemas, shopping areas, spas, restaurants, hotels, etc. The triangular ring raises at one place to create a smaller interior harbour. Covered with aluminium panels and partly with photovoltaic cells, the structure anchors itself to the seabed by cables with shock absorbers, enabling a vertical flexibility, whilst ensuring horizontal stability. Modern, light and transparent, the De Hoef villa shows in a concrete way that floating architecture has now reached the same level as its land counterpart. Realized with a steel frame, the construction is an amphibian structure, floating on water but surrounded by land on three sides. The choice of this type of structure results from the fact that « normal » houses are not allowed in this peat landscape.
With the project See Tree, Waterstudio proposes a new concept for the high-density urban green points. With many layers of trees, this floating structure, unattainable for man, uses the petrol offshore platforms’ technology. It would be the first 100% floating object designed and built for flora and fauna.

At the other end of the world, Koen Olthuis undertakes a huge project: design a floating town in the Maldives. The masterplan proposes a solution to the dramatic situation created by the rising sea level. These floating developments, especially, have a real positive impact on the poor communities living near the coast. The architect reminds that the most exposed cities are Mumbai, Dhaka and Calcutta because of their huge populations threatened by the water level increase. In these cities, millions of people live in dense slums along the water and are vulnerable to floods especially during the rainy season. “With the City Apps, based on standard maritime containers, we want to use the technical knowledge coming from our floating projects for the wealthy people.” They can be compared to Smartphone with applications adapted to different needs, such as a special programme for slums. In view of their flexibility and small size, the City Apps use the space available on water and are very convenient to be used as residences or schools, for instance.

The objective is to reach 10 000 containers in 5 years, rented in the whole world. “The importance given to slums has opened new opportunities and has put me in touch with many interesting and influential people who understand the necessity for the architects to use their influence and creativity to change the lives of millions of human beings, underlines also Koen Olthuis”.
His approach to improve the coastal towns throughout the world with these floating urban components is a real challenge. « It is just as if we had discovered a small part of the water potential to make the cities more resilient, sure and flexible. I believe that our projects and those of many architects, who use the floating technology as a tool, will open new norms for the cities ».

Click here to read the article

Click here for the website

Ankie Stam: Met drijvende city apps kunnen we functies aan de grote steden toevoegen

By Nicole Verstrepen
Kmo Insider
Innovatie
February.2.2015

 

 

 

In de media wordt de Nederlandse architect en industrieel ontwerper Koen Olthuis wel eens de ‘Drijvende’ in plaats van de ‘Vliegende Hollander’ genoemd. Hij specialiseerde zich in wat hij ‘City Apps’ noemt, drijvende componenten die je als het ware in en uit de stad kan pluggen al naargelang de behoefte. Olthuis gebruikt het water of de rivier in de stad als bouwgrond voor nieuwe functies. “Zo bied ik wereldwijd mogelijkheden om flexibel om te springen met klimaatveranderingen en urbanisatie”, stelt hij. Op kmo-connected diende hij zich te laten vervangen door zijn medewerkster Ankie Stam omdat hij zelf in Dubai was voor de bespreking van een nieuw project. Ja, zijn projecten zijn erg leuk voor mensen die centen hebben, maar ze bieden ook uitkomst voor ‘s werelds arme sloppenwijken.

Met de presentatie toonde Ankie Stam hoe we onze steden kunnen verbeteren.
Ankie Stam: “Woningen bouwen die vijftig tot zeventig jaar moeten meegaan is een statische gedachte. Vandaag verandert onze wereld veel sneller. Er zijn sociale veranderingen, met gezinnen die snel van samenstelling veranderen en veel eenoudergezinnen, maar ook politieke veranderingen met het vallen van de Berlijnse muur bijvoorbeeld, wat een impact heeft gehad op de stad. Maar de veranderingen die op dit moment de grootste druk leggen op onze steden zijn de klimaatveranderingen en de urbanisatie. Het is nodig dat steden zich aanpassen en flexibeler worden.”

Volgens Koen Olthuis is het fout om te denken dat de stad volgebouwd is.
Ankie Stam: “Honderd jaar geleden dachten we ook dat de stad vol was tot Otis de lift uitvond. In een keer konden we in de lucht bouwen. In de lucht kunnen wij vandaag geen ruimte meer vinden, maar wel in het water. De grote wereldsteden bestaan voor een groot gedeelte uit water. Met funderingen van piepschuim en beton kunnen we grote platformen maken, hele stadsdelen of, city apps, zoals bijvoorbeeld een drijvende parkeertoren. Deze drijvende functies kan je in en uit de stad pluggen al naargelang de behoefte.”

De deelnemers aan kmo-connected kregen vervolgens verschillende ontwerpen van Koen Olthuis en zijn architectenbedrijf waterstudio.nl te zien.

Een cruiseterminal voor Dubai
Voor Dubai heeft Koen Olthuis een cruiseterminal ontworpen.
Ankie Stam: “We hadden de cruiseterminal eerst getekend op 300x300x300 meter, maar toen we bij onze klant kwamen, stonden we na vijf minuten terug buiten. Of we hem op 700x700x700 meter konden ontwerpen. Dit vormde voor de ingenieurs geen probleem, integendeel, want hoe groter je iets maakt op water, hoe stabieler het wordt. Dubai heeft veel kust, meer geen plek waar cruiseschepen kunnen aanmeren. We hebben via de punt een binnenhaven gecreëerd, waarin kleine schepen liggen die de mensen van de cruiseschepen aan land brengen.”

Een internetschooltje voor de sloppenwijk
Koen Olthuis heeft ook city apps bedacht voor sloppenwijken.
Ankie Stam: “Deze city apps, die gebaseerd zijn op standaard zeecontainers, kunnen een belangrijke meerwaarde voor sloppenwijken betekenen als dokterspost, gemeenschapskeuken, internetschooltje,… Vaak zijn sloppenwijken zeer dicht bevolkt en is er geen ruimte over, maar wanneer een sloppenwijk langs een stroom of rivier ligt, bieden de city apps mogelijkheden. Zo hebben we een internetschooltje ontwerpen waar via tablets en schermen leerkrachten vanop afstand les kunnen geven. Deze city apps hebben een fundering bestaande uit gebruikte PET-flessen, ondersteund door een stalen framework. Ze worden in Nederland gebouwd en vervolgens naar de sloppenwijk getransporteerd.”

Drijvend hotel en conferentiecentrum Greenstar,
In januari 2014 tekende Koen Olthuis Greenstar, een drijvend hotel met 800 kamers en conferentiecentrum voor tot 2000 deelnemers op de Malediven.
Ankie Stam: “Hotels hebben over het algemeen om de vijf jaar een opknapbeurt nodig. Dit hotel bestaat uit vijf ‘benen’, maar we creëerden een zesde, zodat er steeds een reserve-exemplaar in het draaidok ligt. Wanneer een poot moet opgeknapt worden, wordt die weggehaald en naar het draaidok gebracht en kan de reservepoot ingeplugd worden zodat het hotel steeds op volle kracht kan werken. Zo één poot kan je vergelijken met een cruiseschip. Een mooi voorbeeld van plug and play.”

Het Greenstar Hotel en Conferentiecentrum ontwierp Koen Olthuis in opdracht van Dutch Docklands, wereldleider in drijvende floating concepten en infrastructuur (FLOAT = Flexible Land On Aquatic Territory). Dutch Docklands is met de regering van de Malediven een joint-venture aangegaan voor een ambitieus masterplan met meer dan 800 hectares aan drijvende projecten, waaronder het Greenstar hotel, 43 drijvende privé-eilandjes in archipelvorm, een drijvend golfterrein waarbij je in tunnels onder water van de ene hole naar de andere wandelt,…

Wat vond u van deze spreker?

Nick Veldeman, Waagnatie Expo & Events
“Ik vond het een fantastische uiteenzetting. Ik heb mij voorgenomen om Koen Olthuis te contacteren, want ik heb al heel lang een idee om iets drijvends op de Schelde te doen en Waterstudio is de firma die dat gaat kunnen realiseren.”

Virginie Frémat, CMS DeBacker
“Het was ongelooflijk om te zien wat er allemaal mogelijk is op architecturaal vlak. Ik had mij nooit kunnen inbeelden dat zulke City Apps bestonden, en blijkbaar worden ze effectief al uitgewerkt. Zeker in die sloppenwijken is dat maatschappelijk gezien schitterend.”

Andrea Sitteur, PostsNL België
“De uiteenzetting was fantastisch en heel inspirerend. Of ik zelf zou investeren in een woning op het water? Voor die sloppenwijken zou ik wel willen doneren, maar puur voor mezelf en de fun? Neen, ik ben niet zo’n fan van water.”

Toby Wauters, Ritmo Interim
“Er is in Antwerpen weinig plaats voor gezinnen. We zouden misschien op de Schelde ook zoiets kunnen doen. De luxueuze toepassingen lijken mij nice to have, maar voor de sloppenwijken, zijn het oplossingen waarbij je met relatief weinig budget veel mensen kan helpen.”

Karel Geerts, Herber Watson N.V.
“Land winnen op het water is voor een stuk de corebusiness van Nederland. De projecten in Dubai draaien om geld en prestige, maar voor de oplossingen voor de sloppenwijken moet ook geld zijn. Waar gaat dat vandaan komen? Het is in elk geval mooi.”

Click here to read the article

How Koen Olthuis is making floating cities a reality

By Sam Becker
Cheatsheet business
August.2014

 

According to the U.N., approximately 40% of the world’s population lives relatively close to a coastline. Even more than that live in close proximity to rivers and lakes. Together, rivers, lakes, and the sea all offer a wide variety of conveniences, resources, and a method of transportation, making human civilization inherently tied to the water itself. As water has universally been used as a means of exploration and transport for millennia, naturally it makes a fitting tool to use for tackling some of the world’s modern problems, including poverty and medical and education issues.

The question was how to best utilize it. Well, we may have our answer.

One man is revolutionizing the way the world sees cities by bringing a bold new idea to the table. Instead of viewing the idea of cities as static, brick-and-mortar establishments, Koen Olthuis instead likes to imagine them as flexible and malleable — able to adapt to the shifting needs of its citizens. Olthuis has an architectural firm based in the Netherlands called Waterstudio, which has been hard at work creating, among other things, floating houseboats, floating hotels, and even underwater structures. But Olthuis’ true target is the persistent and widespread poverty that sits adjacent to many of the world’s waterways, and use them as a means to deliver help in the form of hospitals and schools.

His idea is called Floating City Apps, which are constructed from recycled shipping containers and built on floating, barge-like structures, ensuring that they are easily moved from place to place, depending on where they are needed. The name comes from the idea of adjusting the apps on a mobile phone according to a user’s needs; City Apps would be able to reconfigure the layouts of slums in the same way.

So, how exactly would Olthuis’ idea work in the real world? As the Floating City Apps blog explains, “first a slum is mapped and local problems are related to water potential in the slum. The Floating City App with the most impact or effect is selected. With the help of our network, licenses and local manager or entrepreneur is selected. The Floating City App will be transported from The Netherlands to the slum.”

After the physical structure itself is shipped to its end destination, local licensees would then take over . “Locally the floating foundation will be built from collected used PET bottles supported by a steel frame. The City App is placed on the function a business model for payed use of the Floating City App is executed in order to get a ROI for the investors. In case of any change in situation the City App can be reused relocated or sent back to The Netherlands.”

In a nutshell, the Floating City App functions as a small business, which is built in the Netherlands and shipped to wherever it is needed. It is then licensed to a local entrepreneur until it is no longer deemed necessary or wanted.

The idea itself is a bit unorthodox, but it does set the wheels in motion for some interesting business models, and could be a very effective way to strategically build in areas of need. In fact, in a way, Floating City Apps open up a route for entrepreneurs to engage the free market in an entirely new way — by offering public services like sanitation or education to places that may be severely lacking.

Imagine a City App anchored dockside near an under-served community that offers Internet access to those who have never had it before? Or even a floating medical center after a natural disaster? The potential applications are numerous, and the idea lends a whole new way to how architects, planners, and engineers can use the topographies of certain cities.

With other factors like climate change leading to impending sea level rises, Floating City Apps may become less of an out-of-the-box idea and more of a necessity in the near future. The idea appears to have merit, and there’s really nothing standing in the way of its feasibility. There are many cities and areas across the world that could benefit from the use of floating service centers. Olthuis himself notes during his TED Talk, seen above, that cities are still built the way they were hundreds of years ago, and engineers need to find a way to take advantage of the water and the space that it provides.

“They’re flexible, they’re reusable, and can work as instant solutions,” Olthuis said of his Floating City Apps. “And they can be much more than only housing. All kinds of functions we can use (them for). Islands, floating beaches, cruise terminal, floating rotating tower, floating roads, agriculture, even a complete floating forest.”

“Almost anything you can think of can also be done on the water,” he adds.

If even a fraction of those ideas are able to be successfully pulled off in the real world, Olthuis’s idea could, in fact, be world-changing. For cities that are located next to large bodies of water and that are densely populated — think locations in Asia or Europe — entirely new neighborhoods could spring up to alleviate congestion and density.

Of all the potential applications, perhaps the most exciting concept is that of floating agriculture. If food production can be brought to dense inner cities bordering bodies of water, fresh and more affordable food would become available to those who desperately need it. Even in America, imagine the advantages a floating corn farm in an inner-city bay would bring to local residents. Granted, there are a lot — a whole lot — of factors to consider. But think of the transportation costs that could be cut out by having a food resource ten minutes away from grocery stores, rather than thousands of miles, in America’s heartland.

Olthuis’s idea certainly is bold, if not ingenious. The next step, of course, will be to see if investors jump on board and if the concept can be put to practical use. Even if Floating City Apps take a long time to gain momentum and take to the waterways of the world’s cities, it’s the kind of thinking being displayed by Olthuis that will truly help change the world for the better.

With the challenges the world’s population is set to face in the coming decades and centuries, we’ll need all the radical ideas we can muster.

 

Click here for the pdf

Click here for the source website

Click here for the video

Could floating shipping containers help sort out the world’s slums?

By Barbara Speed
Written by Citymetric
August.14.2014 

 

“What if a city was as flexible as a shuffle puzzle?” Koen Olthuis asked in his 2012 TEDx talk. He was referring to those games in which you move squares around until you make a picture. At the time, his audience probably didn’t realise he was serious.

But using moveable little boxes to meet a city’s needs were exactly what Olthuis was proposing. His talk was on the subject of the “Floating City Apps” developed by his architectural firm, the Netherlands-based Waterstudio. (You may remember them from their plans for a floating golf course in the Maldives. Or maybe you saw their designs for a snowflake-shaped hotel off the coast of Norway.)

These mobile buildings would float on bodies of water at the edges of cities. They could also be moved around according to a city’s needs, and could fulfil a range of different functions. Some would be educational, with internet access and computers; others could act as bakeries, housing, healthcare centres, or floating mats of solar panels.

In June, the first piece of Olthuis’ shuffle puzzle was completed: an educational suite which will double up as an internet cafe in the evenings, all powered by solar panels on its roof. It’s been built inside a shipping container, to makes it easy to transport; a base constructed from thousands of plastic bottles collected by slum residents will be added once it reaches its destination.

It’s due to be shipped out to a slum in Manila in the autumn. Here’s the architect’s mock-up of the city app in situ.

Olthuis’ interest in water-based construction was inspired partly by his home country: around half the Netherlands lies below sea level, and massive amounts of water are pumped away daily to keep the country high and dry. But it’s not the low countries that could benefit most from this kind of architecture: it’s the rapidly growing and slum-packed cities of the developing world, and wet slums – those edging onto bodies of water, and so at risk of rising sea levels – were forefront in Olthuis’ mind when he came up with the idea:

“They’re some of the hardest areas to help, because they’re so close to the water,” he says. “People are unwilling to invest in development that could flood, or just wash away.” His hope is that these City Apps could help change that: the units they would rise with sea levels if an area floods, and could be moved elsewhere if necessary. This first app was funded by the prize money from the 2012 Architecture and Sea Level Rise Award, the studio and other sponsors; in future, the studio is hoping to build them then lease them out to NGOs and development agencies for a low monthly cost.

There’s a case for helping the world’s 1.1bn slum dwellers to more permanent settlements, rather than just improving the slums, of course. But in Olthuis’ view, “slums aren’t going to go away, so the only thing we can do is upgrade their prosperity”. There are a few creases to iron out first, though – at the moment, the studio may have to pay tax on transporting the Manila app, and are meeting with embassies to try and avoid this “real waste of money”.

While the city app will be run by a local organisation once in Manila, Olthuis is keen to stay involved. “The most important thing is that we can measure the app’s effects, and check how it’s working.” He wants to build hundreds, even thousands, more apps for different purposes around the world: 90 per cent of the world’s largest cities border a body of water, whether it be river, lake, or sea, so the project’s applications could stretch far beyond wet slums. Because of their floating foundations, the apps are relatively stable, though they may not work so well in waters prone to violent waves.

For Olthuis, floating architecture offers a way to use the dead space off the coasts of cities. It also offers flexibility, as units can be moved to a different location, or even another city, as the needs of the surrounding area change – just as you can change the apps on your phone.

Click here for the website

Click here for the pdf

 

Water Architect Koen Olthuis on How to Embrace Rising Sea Levels

Inhabitat, Bridgette Meinhold, July 2014

Sea levels are rising, floods are prevalent, and cities are at greater risk than ever due to climate change. Now that we’ve accepted these facts, it’s time to design and build more resilient structures. Koen Olthuis, one of the most forward-thinking and innovative architects out there, has a solution for rising sea levels. His solution: Embrace the water by incorporating it into our cities; creating resilient buildings and infrastructure that can handle extreme flooding, heavy rains, and higher water. Olthuis and his team at Waterstudio.nl have been showing coastal communities the benefits of building on the water. With countries like the Maldives and Kiribati having to build oceanside or move in order to escape rising sea levels, New York learning to battle storm surges, and Jakarta dealing with massive flooding, embracing water may be our only option for survival. We chatted with Olthuis about how coastal cities can become more resilient in the face of change—read on for our interview!

Despite his busy travel schedule, Olthuis had a chance to answer our questions with a great amount of detail and thought. Not only is Olthuis a leader in designing floating architecture, he’s the most-interviewed architect on Inhabitat. We think very highly of his work and ideas, and we think you’ll agree after reading through his thoughtful answers about the pressing issue of climate change. Don’t worry, it’s not all gloom and doom though—Olthuis proposes a future full of hope and promise!

Inhabitat: What does climate change mean for cities on the coast, and how serious is a sea level rise of 1 meter?

Koen: I think that climate change is a serious problem for these cities because most of them have been built upon the wrong parameters. For centuries, sea levels and climate have been relatively stable, which has brought us urban plans and built environments that are too static—like a one-trick pony for one certain set of conditions. With the arrival of uncertainty in , we have to rethink our coastal cities.

The threat that climate change brings is not just the physical threat of floods and drowning, but also the financial impact of destroyed property and businesses. Through the last century, waterfront development has increased in value as well as assets. Flood threats will put pressure on available dry space and reset the parameters for which parts of a city are desirable, and which are dangerous.

The effect of a one-meter sea level rise (without any adjustment to coastal cities as they stand today) would completely reset maps and financial stability in many of the world’s biggest waterfronts. New York, Miami, and Guangzhou would lose an important part of their real estate to the water. Countries like Bangladesh and the Philippines would have to give up lots of land. In the Netherlands, many of the water defense systems that protect the country under sea level will no longer be safe.

The question of how serious a one-meter sea level rise would be cannot be answered without placing this question in a certain timeframe. Although cities may appear static, they’re in constant change. The lifespan of urban components like infrastructure, normal buildings, and water defense measurements isn’t more than 50-100 years. This means that if the change occurs within the next 50-100 years, cities have time to grow into components designed upon the new parameters. If the rise occurs faster, cities won’t have time to adapt naturally and problems will occur. The problem is that because sea level rise is quite slow, governments find it hard to deal with a long timeframe when short-term strategies will lead to immediate benefits.

Inhabitat: What do coastal cities need to be thinking about and planning for in order to prepare for the inundation of water?

Koen: First, they have to design plans with flexibility—not solely for today’s conditions. Second, they might be better off embracing the water instead of fighting it, seeing urban water as a chance to upgrade our cities rather than a side effect.

I think that a resilient city isn’t one that prepares for the water to come, but one that allows it to expand. By letting in water and making it part of the city, rising levels or storm conditions will only mean working with a bit more water instead of the big shock that comes when conditions go from dry to flooded.

Regarding planning, coastal cities should focus on which areas should be kept absolutely dry, which can be changed from dry to wet, and which existing waters can be used for expansion. The future of resilient coastal cities is on the water, and metropolises like London, Miami, Tokyo, and Jakarta will expand their territory by 5 to 10 percent on urban waters in the next 25 years.

Inhabitat: Can you give us examples of any cities making promising strides to become more resilient?

Koen: Many are slowly taking defensive measures to become more resilient, but there is one that seems to use a highly innovative path: Jakarta. This capital of 10 million is suffering not only from climate change, but also from urbanization. The soil is sinking at a speed of 15 centimeters per year, which raises flood risks and effects, and it’s getting polluted with saltwater, which has a huge effect on fresh water reserves. Instead of building only higher water defense systems like dikes, which wouldn’t solve the saltwater problem, they’ve chosen to embrace more innovative solutions provided by Dutch engineers and urban planners. The solution focuses on closing Jakarta bay with a dike, turning it into one big 100 km2 wet polder; a size needed to provide enough storage area for extreme weather conditions.

On this dam, a city of a million people will be built facing the old waterfront of Jakarta on one side and the ocean on the other. For architects focusing on floating architecture, this kind of artificial large-scale wet polder provides a big opportunity: in order to keep the storage as big as 100 km2 you cannot build in the water, but floating structures have no effect on storage capacity. Jakarta can become one of the most resilient coastal cities of Asia and still make money from these measures—fighting water with water by adding the storage polder.

Inhabitat: If you were put in charge of making, say New York City, resilient to flooding and climate change, what strategies would you implement?

Koen: New York is one of the most iconic cities in the world, and Manhattan is the benchmark for high-density urban developments, but this city has also evolved to accommodate the surge for space. The enormous land expansion over the river beginning in the 17th century provided the city with new space. The elevator facilitated building into the air, and the metro system took advantage of space beneath the city. Without any of these innovations, Manhattan would look completely different. The lesson here is that standing still doesn’t always benefit cities, and innovations (daunting though they may appear) can bring new prosperity.

The biggest problem that New York will have to face isn’t a steady one-meter sea level rise—because that can be overcome with a meter-high levee—but the effects of extreme weather. Storm conditions like Hurricane Sandy will raise water a few meters and yield heavy rainfall that cannot be transported to the river, since the river itself will rise to record levels. To keep the subway system dry in normal conditions, huge amounts of water have to be pumped out; any additional water could make the system flood.

New Yorkers haven’t embraced the waterfront as much other coastal cities. The view inside is more important than outside and the most valuable real estate can be found around Central Park. [There are] no nice boulevards like in the south of France; nice beaches or green habitats can be found at their manmade border between land and water.

Having said this, I would bring the strategy of fighting water with water to New York and start wetting up the city. If we raise the level of the water ourselves by a few meters, it won’t be any problem when nature does it. To raise the level of the river and still use it as such is impossible, but there’s another Dutch solution that could work. In Holland, existing polders are surrounded by artificial canals. The water in these canals is a few meters higher than the polder waters. They aren’t dug into the landscape, but put on top of the landscape with a dike on both sides to keep the water in. Water from the polder is pumped into the canal and then transported to the rivers or the sea. The canals can be artificially controlled, providing a kind of buffer, and can also be used for transport, and waterside houses. I’d like to create a necklace of small, connected artificial lakes around Manhattan; a system much like an extra canal with a higher water level than the surrounding rivers. This canal would be divided into sections that could be closed separately.

This new zone will take the place of the existing harbor quay—the river width wouldn’t be affected, but the result would be like a set of airbags around the city. In case of high tide, these cells would serve as storage polders that could release water when the storm had passed. These cells would change the edge of Manhattan: the water cells would look like small lakes, and new settlements could be built on the levees dividing them from the river. These lakes would all be connected, and they’d only be closed off from each other during storm conditions, like compartments in large cruise ships.

The artificial lakes would fill the space now used by the river docks, and have a flexible water level that would provide an enormous storage zone, providing safety encroaching seawater. As I imagine, there would be as many as 40-50 of these lakes, each as long as 4-6 blocks. Lakes for leisure, for green floating communities, lakes with harbors—the greener the better.

Inhabitat: With countries like the Maldives and Kiribati losing their land to rising sea levels, how do they respond and provide for their citizens? Buy property elsewhere or construct floating cities? Are there estimates on how much it would cost to construct floating countries?

Koen: The Maldives and Kiribati are both series of small islands in the middle of the ocean, which will be highly affected by any sea level rise. Without enough dry land available, these countries have to make the choice to become climate refugees or adopt floating technologies and become climate innovators.

In the Maldives, Waterstudio has designed floating island resorts and a golf course for developer Dutch Docklands. They are building a joint venture with the government of the Maldives, both as a tool to increase new possibilities for tourism, and to reinforce society with long-term floating developments. Floating islands with high-density affordable housing could be added to the existing islands to provide space and safety. Floating developments are scar-less and mustn’t have any impact on marine environment during or after their lifespan.

This could lead to floating countries, keeping in mind that the Maldives has 300,000 inhabitants. The cost of these floating islands is comparable with dredging islands, only that dredging destroys sea life and coral reefs. If I must make a reasonable guess I would say around $25,000 per person,  so for a city of 20,000 people it would cost 500 million dollars. This might sound like a lot, but it’s quite reasonable compared to evacuating a nation.

Inhabitat: How has your work changed over the years in response to the pressing needs of climate change?

Koen: The possibility of improving coastal cities worldwide with the implementation of floating urban components is just so challenging. It feels like we have only just discovered a small part of the potential that water could bring in making cities more resilient, safe, and flexible. I believe that projects like these will set new benchmarks for cities that would otherwise be in trouble because of climate change.

Our research seeks to change perception and dogmatic rules that traditional planners from the static era have put on us. I think that just in the last two years, iconic designs like the floating cruise terminal have developed an extra dimension—they’re part of a bigger vision that looks beyond iconic architecture to the economical impact it could bring.

My work has gone from designing for rich individuals to designing for the poor. We now design strategies for cities that have to adjust their planning approach because of shifting conditions due to climate change. The focus on slums has opened a whole new window of opportunity and has brought me in contact with many people who believe architects must use their influence and creativity to make a change for millions instead of only the happy few.

Inhabitat: Tell us briefly about your latest project, City Apps, and how it can help cities deal with climate change.

Koen: Miami and New York are the cities most threatened by sea level rise in terms of exposed real estate, but the populations most threatened by sea level rise  would be in Mumbai, Dhaka, and Calcutta. In these cities, millions live in dense slums close to water. In fact, one billion people worldwide are living in slums, and half of them can be classified as wet slums because of their relation to the water. People living in these areas are terribly vulnerable to flood danger. Efforts to help these cities should not focus on protecting the built environment, but on protecting essential functions during and immediately after floods. Slums can be helped by upgrading programs to improve life conditions for 100 million people before 2020, as stated in the 2003 UN habitat millennium goal.

Programs in wet slums are not generally upgraded, because investing in them is a risky business, as floods could potentially destroy any functions built in areas close to the water. We want to use our technical knowledge to provide floating functions on water for these wet slums.

Just as you can download apps on your smartphone according to your changing needs, you can adjust functionality in a slum by adding functions with City Apps. These are floating developments based on standard sea-freight containers, and because of their flexibility and small size, they are suitable for installing and upgrading sanitation, housing, and communication.

Inhabitat: What advances in technology, design, or materials have helped push your architecture forward?

Koen: In Holland, we have always been close to maritime technology. It is very exciting to take these technologies that are meant for things like offshore oil industries and use them to create a floating habitat for animals, birds and underwater creatures like the Sea Tree does.

I think the Internet and 3D visualization tools have really pushed my architecture forward because in an industry as young as floating architecture, it is only the power of visualization that can show the impact of floating developments for the city of tomorrow. The fact that we can spread our ideas around the world and get feedback, response, and help because of the digital revolution is unbelievable. If I would have started twenty years ago I probably wouldn’t have reached more than half of Holland, and Holland isn’t that big.

My designs are what we call “readable architecture”—product-like solutions that ask for simple and clear details. Not every material is suitable for that, and over the last three years we discovered sustainable composites that suit the architectural expression I want, and are ideal for projects in salty environments that require low maintenance.

But the most important advantage in technology is logistics. The fact that we now can produce our floating houses and developments in different countries and assemble them on the water without affecting the environment makes it possible for us to rethink economical models for large-scale production.

Inhabitat: What are you most excited about right now in this field?

Koen: I am most excited about how global mobile assets will enable cities in developing countries to leapfrog to higher prosperity. These assets are large-scale floating developments that are being invested in by very rich countries like Qatar, Saudi Arabia, or Norway. These countries have so much money to invest that they cannot spend it all in their own country. Instead of investing only in wealthy world capitals, they’ll invest in flexible real estate, which can be leased to coastal cities.

It’ll start with functions like floating hotels and stadiums for cities that want to organize the Olympic Games but who cannot afford the investment. But it will rapidly evolve into an industry where cities that have been hit by climate change-related disasters can lease an entire set of functions like energy plants, hospitals, schools, and sanitation. Just like we do with our Floating City Apps for wet slums, there will be large-scale solutions to instantly upgrade cities and help communities recover. I see floating harbors and even small floating airports that’ll provide instant infrastructure to cities recovering from natural disasters.

The enormous financial capacity of these countries enables them to build global mobile assets up front on stock. So, imagine a safe floating location somewhere in Asia composed of completely functional urban components ready to be towed to any disaster area that appears. All the technology and money is already available—it’s only a matter of changing perception before floating developments are an essential part of the climate change reality that’s waiting for us. I say that not as a negative sentiment, because I believe that change will lead to innovation that will bring prosperity. The future is wet, the future is good!

Click here for the website

Inhabitat interviews Olthuis, Global Mobile Assets

Inhabitat, Bridgette Meinhold, July 2014

INHABITAT INTERVIEW: Water Architect Koen Olthuis on How to Embrace Rising Sea Levels

Sea levels are rising, floods are prevalent, and cities are at greater risk than ever due to climate change. Now that we’ve accepted these facts, it’s time to design and build more resilient structures. Koen Olthuis, one of the most forward-thinking and innovative architects out there, has a solution for rising sea levels. His solution: Embrace the water by incorporating it into our cities; creating resilient buildings and infrastructure that can handle extreme flooding, heavy rains, and higher water. Olthuis and his team at Waterstudio.nl have been showing coastal communities the benefits of building on the water. With countries like the Maldives and Kiribati having to build oceanside or move in order to escape rising sea levels, New York learning to battle storm surges, and Jakarta dealing with massive flooding, embracing water may be our only option for survival. We chatted with Olthuis about how coastal cities can become more resilient in the face of change—read on for our interview!

Click here for the full article

Waterstudio wins

Re-Thinking The Future, July 2014

City Apps by Waterstudio.nl wins “Re-Thinking The Future” awards 2014, under the category of Urban Design Built.

Upgrading Slums: One billion people live in slums, worldwide there are 200.000 slums and half of them, are wet-slums located next to the water and are vulnerable to floods. Currently, slum upgrading projects face a dearth in available land and bank funding. It is time we shift to floating products of plug and play that guarantee resilience, value, solve space issues, and create an instant and duplicable solution for upgrading life of the poorest.

Second Award | RTFA 2014 Awards

Category: Urban Design Built  

Participant  Name: Koen Olthuis

Country: The Netherlands 

City Apps (1)

Floating City Apps through Plug&Play:  The concept of Floating City Apps is to provide basic functions on floating structures that will be leased to wet-slums. Like customising smartphones with apps, slums can be upgraded with City Apps that are needed at that moment at that location. The basic functions include sanitation, housing, health care, garbage collection, community kitchen and communication. The floating quality of these apps ensures a method that is ‘scarless’, functions can be removed without leaving any scars to the environment.

Through the concept of plug&play, the apps can be plugged in and out at specific locations as needed. This makes it a bottom-up design approach that can become small scale catalysts for change.

City Apps (2)
City Apps (2)

Tackling the 4 Challenges: Together with upgrading slums, these apps also tackle the challenges of ecology, information technology, socialization and globalization. Lack of appropriate waste disposal facilities make slums major agents of pollution. The garbage collection and sanitation apps provide facilities for this and helps in reducing pollution. Other apps like the agriculture app which increases the green cover of the city and the solar energy app which harnesses energy contribute to its overall ecological significance.

City Apps (3)
City Apps (3)

The project also has a huge social significance. In this age of ‘information technology’, cities are increasingly being adjusted for people in IT while the poorer sections remain ignored resulting in social polarization. Internet cafes and education centres, realised through the Communication App, help in empowering these sections and reduces the polarization. It also helps in bringing the community together contributing to socialization.

The global significance of the project lies in the fact that at a time of globalization, when developing countries are at a disadvantage compared to developed countries, the project tries to share the expertise and resources of developed countries with the developing world.

City Apps (4)
City Apps (4)

The Communication App & Construction: The first City App is the Communication App. Built with 20 tablets and 2 TV screens, it will serve as a social and educational platform which connects slum inhabitants to the internet.

The construction is simple and affordable. A standard 20ft. container is equipped with a wall unit that is designed to hold the technological equipment and maximize its small space. Solar panels on the roof provide energy to run the App. The container is assembled in the Netherlands and shipped to the wet-slum where it’s placed on a floating foundation made of metal scaffolding with PETbottles inside by the slum dwellers themselves. Making use of these materials will help clean the environment and encourage public participation.

Click here for the website 

Back To Top
Search