Saturday, 28 July 2012

The Tallest Bridge in the World [20 pics]


The Tallest Bridge in the World [20 pics]

Photograph by Mickbab

Located in Southern France, the Millau Viaduct is the tallest bridge in the world. Constructed in three short years, the bridge is an engineering and architectural marvel. At its highest point, the bridge soars 343 meters (1,125 ft) above ground, that’s 19 meters (62 ft) taller than the Eiffer Tower! Check out the incredible photographs below along with a timeline of the project’s major milestones and notable records and figures.


Photograph by ANDY WASLEY


Photograph by FOTO.STYLE


Photograph by NAPARISH

THE MILLAU VIADUCT – PRE-CONSTRUCTION TIMELINE


1987: the first sketches of the tracing of the A75 motorway to link the Causse rouge, to the north, to Larzac, in the south, are begun. Several proposals are put forward for crossing the Tarn valley, to the east and west of Millau.
1994: the decision is taken. A bridge will be built a few kilometres downstream of the town.
1996: following a call for tender, the solution designed by Michel Virlogeux, head engineer at the Ponts et Chaussées, drawn by Sir Norman Foster, architect, was selected. A multi-stay cabled construction will be seen on the Aveyron skyline. Its aesthetic aspect and integration into the countryside attracted the government departments. It took preference over four other potential projects: a bridge of constant thickness, a variable thickness bridge, a viaduct with stays stretched under the deck and a construction with one single arch.
1998: the government grants the concession of the construction and management of the viaduct. This is fixed for a period of 75 years.
2001: in October, following a call for tender, the alliance of concrete (pier) and steel (deck) recommended by the groupe Eiffage received state approval. Concrete has all the endurance qualities required. Steel allows for the construction of a thin, lightweight deck. On 14 December, the adventure begins with the laying of the first stone.



Photograph by RICHARD LOWKES


Photograph by MONTVALENTSTOCK


Photograph by PETER MATTOCK

THE TALLEST BRIDGE IN THE WORLD – 3 YEARS TO COMPLETION


Concrete…
By spring 2002, the first piers of the Millau viaduct were rising skywards. At the same time, the anchorage points of the deck (the abutments) were appearing in the causses. A few weeks were all it took to carry out the earthworks. Twelve months after the work began, the pier “P2″ went above 100 m. A year later, on 9 December 2003, the concrete work was completed on time! And what’s more, the record for the tallest pier in the world was set at 245 m.
Steel…
Assembling the steel deck began in the summer of 2002. Two open-air sites were set up just behind the abutments. On 25 March 2003, a first section of deck (171 m) was driven out into open space: this rolling out operation was a success. 17 others followed suit, at an average rate of one rolling out every four weeks. On 28 May 2004, at 14:12 exactly, the junction – or “clavage” – of the north and south sections of the deck took place 270 m above the Tarn. Mission accomplished !
And then the rest…
On 29 May 2004, 24 hours after the junction, the installation of the pylons began, followed by the placing of 154 stays to support the deck. In three months, it was all completed. At the end of September 2004, the surface was laid on the deck. The road surface (paint, safety devices, etc.), installation of the safety systems, lighting, finishing touches to the tollgate: everything was ready on 16 December 2004 for the commercial running of the viaduct


Photograph by G4MBIT


Photograph by ANDY TETSILL


Photograph by JOE & CLARE


Photograph by DAVE TAPPY

THE MILLAU VIADUCT – RECORD FIGURES


Length: 2,460 m (8,071 ft)
Width: 32 m (105 ft)
Maximum height: 343 m (1,125 ft), or 19 m higher than the Eiffel Tower
Slope: 3.025 %, going up from north to south in the direction Clermont-Ferrand – Béziers
Curve: 20 km (12.4 miles)
Height of the tallest pier (P2): 245 m (804 ft)
Height of the pylons: 87 m (285 ft)
Number of piers: 7
Length of the spans: Two end spans of 204 m (669 ft) each and six central spans of 342 m (1,122 ft) each.
Number of stays: 154 (11 pairs per pylon laid out in one mono-axial layer)
Tension of the stays: from 900 t to 1,200 t for the longest
Weight of the steel deck: 36,000 t, or 5 times that of the Eiffel Tower
Volume of concrete: 85,000 m3, or 206,000 t
Cost of the construction: 400 Million Euros (585 m USD)
Contract duration: 78 years – 3 years for construction and 75 years of operations
Structural guarantee: 120 years


Photograph by MIKE BAYLEY

Photograph by CPT NUMPTY

Photograph by CHRISTINE UND HAGEN GRAF

Photograph by ANDY TETSILL

MILLAU VIADUCT ARCHITECTS: FOSTER + PARTNERS


Bridges are often considered to belong to the realm of the engineer rather than that of the architect. But the architecture of infrastructure has a powerful impact on the environment and the Millau Viaduct, designed in close collaboration with structural engineers, illustrates how the architect can play an integral role in the design of bridges. It follows the Millennium Bridge over the River Thames, in expressing a fascination with the relationships between function, technology and aesthetics in a graceful structural form.
Located in southern France, it connects the motorway networks of France and Spain, opening up a direct route from Paris to Barcelona. The bridge crosses the River Tarn, which runs through a spectacular gorge between two high plateaux. Interestingly, alternative readings of the topography suggested two possible structural approaches: to celebrate the act of crossing the river or to articulate the challenge of spanning the 2.46 kilometres from one plateau to the other in the most economical manner. Although historically the river was the geological generator of the landscape, it is very narrow at this point, and so it was the second reading that suggested the most appropriate structural solution.
A cable-stayed, masted structure, the bridge is delicate, transparent, has the optimum span between columns. Each of its sections spans 342 metres and its columns range in height from 75 metres to 245 metres (equivalent to the height of the Eiffel Tower), with the masts rising a further 90 metres above the road deck. To accommodate the expansion and contraction of the concrete deck, each column splits into two thinner, more flexible columns below the roadway, forming an A-frame above deck level. The tapered form of the columns both expresses their structural loads and minimises their profile in elevation. The bridge not only has a dramatic silhouette, but crucially, it also makes the minimum intervention in the landscape. Lit at night, it traces a slender ribbon of light across the valley.
Client: French Ministry of Equipment, Transport, Housing, Tourism and Sea
Consultants: EEG (Europe Etudes Gecti), Sogelerg, SERF, Agence TER, Michel Virlogeux


Photograph by RUDIB


Photograph by LAPINBLANCFR


Photograph by NEURONRG


Photograph by THETEDSTER

The Tallest Dog in the World


Giant George – The Tallest Dog in the World

Weighing in at over 245 pounds (111 kg) and standing 43 inches tall (1.09 meters), Giant George is the Guinness World Record Holder for Tallest Living Dog & Tallest Dog Ever. When standing on his hind legs, George measures a staggering 7 feet three inches.
George is 6 years old and was born November 17, 2005. He’s a Great Dane and AKC (American Kennel Club) Registered. George sleeps on alone on a Queen Size Bed and consumes over 110 pounds (49 kg) of food every month. As you can imagine, George is one of the most in-demand dogs in the world. He’s been on Oprah, Good Morning America, the Today Show and has been featured in publications around the world. He even has his own book!



1.


giant george the tallest dog in the world sitting beside owner on couch



2.


giant george receiving guiness world record for tallest dog



3.


the tallest dog in the world in a kitchen



4.


tallest dog in the world sitting next to owner



5.


giant george sitting in back of truck



6.


tallest dog in the world beside other dogs at the park



7.





8.


tallest dog in the world on hind legs reaching for treat on top of refrigerator



9.





10.


little kid riding giant george



11.





12.







The Solar Powered Boat that Circumnavigated the World



The Solar Powered Boat that Circumnavigated the World

Photograph via PlanetSolar.org


On Septebmer 27, 2010, the MS Turanor PlanetSolar set sail from the port of Monaco. The goal? To become the first solar-powered ship to circumnavigate the globe.
On May 6, 2012, 587 days, 28 countries, 3 oceans, 11 seas and 60,006 km later, the PlanetSolar team achieved just that. Below you will find out more about the world tour, the crew and further details about the largest solar powered boat in the world.



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org





It All Started…


In Spring 2004, the seed of an idea a little crazy germinates in the mind of Raphael Domjan. He is 39 years old and Swiss. He was trained as an electronics engineer but he is also ambulance man, jet and glider pilot, and mountain guide. In love with Nature, he is a Jack of all trades and a fervent defender of clean energy. Like others, he feels that we rapidly need to find alternatives to our wild oil consumption but that, at the same time, the huge potential of renewable energy still need to be proven and promoted.
Raphael then imagines an extraordinary adventure inspired by his reading of Jules Verne’s novels; travelling around the world aboard a ship which is propelled by only solar energy. It’s an ecological and technological journey that seems feasible to him but it’s something that no one has ever tried.
The dream starts taking shape in February 2008 thanks to a meeting with M. Immo Ströher who has a long-standing interest in solar technology and possesses a solid experience in that matter. The German businessman and the Swiss Phileas Fogg become partners. By combining their capital, their ideas and their inexhaustible energy, Raphaël Domjan and Immo Ströher seek to demonstrate that a motor vessel can function from today without using any fossil fuel and that this clean and eco-aware navigation has a commercial future.
After two years of designing and assembling in Kiel’s shipyards, the idea has become a project and the result is a boat that remains unique so far: the Tûranor PlanetSolar. Beyond the dream and the emotion that this adventure creates, the PlanetSolar project brings together an international team made up of physicians, engineers, shipbuilders and sailors that contribute day after day, miles after miles, to the success of first trip around the world using solar energy.
[Source: PlanetSolar.org]



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org


The MS Turanor PlanetSolar


The designer of PlanetSolar, Craig Loomes from New Zealand, has already imagined numerous innovative ships around the world. Several months of research enabled him to finish the ideal dimensions and design of the double hull vessel with respect to the chosen journey. Engineers not only had to optimise the energy collection and stocking but also the aerodynamics, the ship’s propulsion and the choice of materials.
The incredibly light carbon structure of this futuristic vessel with electric motorisation is extremely durable. PlanetSolar is the biggest solar ship in the world. The 537 m2 of photovoltaic panel power 6 blocks of lithium-ion battery, a technology that offers maximal power and energy density. Each new sunrise provides the catamaran with the light needed to continue its journey.
Baptised Tûranor PlanetSolar, which means power of the sun in J.R.R Tolkien mythology, this clean and quiet vessel launched in March 2010 in Kiel, Germany, in the shipyards of Knierim Yachtbau after 14 months of construction.
[Source: PlanetSolar.org]

Length: 31m
Width: 15m
Length with flaps: 35m
Width with flaps: 23m
Height: 6.10m
Draft: 1.55m
Weight: 95t
Surface area of solar modules: 537 m2
PV panel efficiency: 18.8 %
Installed PV power: 93.5 kW (127.0 HP)
Maximum engine power: 120 kW
Average engine consumption: 20 kW (26.8 HP)
Autonomy: never-ending solar navigation
Crew: 4
Number of people that can go on board: 40



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org



Photograph via PlanetSolar.org

Builds Giant Mirror to Combat 83 Days of Darkness


Fun of Web
Fun of web, fun for the whole family


Amazing World                                                                                        
Village in Italy Builds Giant Mirror to Combat 83 Days of Darkness

Photograph via Christophe Cauvy


About 120 km (74.5 miles) northeast of Turin, Italy, lies a hamlet called Viganella. It’s a remote commune of a couple hundred German Buddhists situated at the bottom of a steep-sided Alpine valley, right up against the Swiss border.
Every year from November 11th to February 2nd, the sun disappears for Viganella. The village square, which is described as the ‘living room’ for the entire hamlet empties out. The people don’t gather to socialize and play and that bothers the Village Mayor, Pierfranco Midali.


The hamlet of Viganella | Photograph via Christophe Cauvy


From Nov 11 – Feb 2, Viganella gets no direct sunlight | Diagram via BBC News, fixed by soulstealer1984 on Reddit


To combat this, the mayor came up with a novel solution. Build a gigantic mirror on a nearby peak to reflect sunlight on Viganella’s main square below. As the sun moves, so to will the computer-operated mirror.
The mirror measures 8 meters by 5 meters (26 x 16 ft) and cost approximately 100,000 euros to buid and install. The project was financed by the regional authorities and a bank.


Photograph via Christophe Cauvy












In a documentary entitled, The Mirror (Lo Specchio), director David Christensen captures the process of installing the giant mirror and the project’s affect on the lives of the people in the village and the surrounding valley. A trailer for the film can be seen below: