mothernaturenetwork: Japanese breakthrough will make wind power cheaper than nuclearA surprising aerodynamic innovation in wind turbine design called the ‘wind lens’ could triple the output of a typical wind turbine, making it less costly than nuclear power.

mothernaturenetwork:

Japanese breakthrough will make wind power cheaper than nuclear
A surprising aerodynamic innovation in wind turbine design called the ‘wind lens’ could triple the output of a typical wind turbine, making it less costly than nuclear power.

posted on 11.09.12

Reblogged from: Mother Nature Network
Tags: energy . environment . science . wind . Renewable Energy . 

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wishididntknowthat: Phase One of World’s First Commercial Spaceport 90% Completed- First Flights in 2013 (WIDK) (Daily Mail By DAMIEN GAYLE) — Phase one of the world’s first commercial spaceport, which will be the hub for Virgin’s consumer spaceflights, is now 90 per cent complete. The 1,800-acre Spaceport America site, in Las Cruces, New Mexico, is the home base for Virgin Galactic, Richard Branson’s most ambitious business venture yet. It already boasts a runway stretching to nearly two miles long, a futuristic styled terminal hanger, and a dome-shaped Space Operations Center. The work is now just months away from completion, according to a spaceport spokesman, and is set to be done by the end of the year, well in time for the first expected Virgin Galactic spaceflights in 2013. Christine Anderson, the newly appointed executive director of the New Mexico Spaceport Authority, told SPACE.com she was ‘jazzed’ about the progress made so far. ‘When you think about what a feat that is, to build all that anywhere, but then to build it in the middle of the high desert in New Mexico — that’s a small city that was built,’ she said. ‘So hats off to all the contractors and architects and everybody else that spent a lot of time and sweat equity in its development.’ But Ms Anderson has already met challenges. No sooner had she started in her new job, the New Mexico legislature slashed the spaceport office budget by more than half. And there is no firm date yet for Spaceport America to begin operations. Virgin Galactic’s WhiteKnightTwo/SpaceShipTwo launch system is still in testing and she says it is up to them when they decide it is safe to fly tourists to the edge of space. At a best guess, she told SPACE.com, flights could begin in the first quarter of 2013. Construction of phase two has already begun and is set for completion in time for Virgin Galactic’s pioneering flights. It will include the completion of the Vertical Launch Complex facility, two visitor centres in nearby towns and a further visitor center on the main spaceport site. Original Article

wishididntknowthat:

Phase One of World’s First Commercial Spaceport 90% Completed- First Flights in 2013 (WIDK)

(Daily Mail By DAMIEN GAYLE) — Phase one of the world’s first commercial spaceport, which will be the hub for Virgin’s consumer spaceflights, is now 90 per cent complete.

The 1,800-acre Spaceport America site, in Las Cruces, New Mexico, is the home base for Virgin Galactic, Richard Branson’s most ambitious business venture yet.

It already boasts a runway stretching to nearly two miles long, a futuristic styled terminal hanger, and a dome-shaped Space Operations Center.

The work is now just months away from completion, according to a spaceport spokesman, and is set to be done by the end of the year, well in time for the first expected Virgin Galactic spaceflights in 2013.

Christine Anderson, the newly appointed executive director of the New Mexico Spaceport Authority, told SPACE.com she was ‘jazzed’ about the progress made so far.

‘When you think about what a feat that is, to build all that anywhere, but then to build it in the middle of the high desert in New Mexico — that’s a small city that was built,’ she said.

‘So hats off to all the contractors and architects and everybody else that spent a lot of time and sweat equity in its development.’

But Ms Anderson has already met challenges. No sooner had she started in her new job, the New Mexico legislature slashed the spaceport office budget by more than half.

And there is no firm date yet for Spaceport America to begin operations.

Virgin Galactic’s WhiteKnightTwo/SpaceShipTwo launch system is still in testing and she says it is up to them when they decide it is safe to fly tourists to the edge of space.

At a best guess, she told SPACE.com, flights could begin in the first quarter of 2013.

Construction of phase two has already begun and is set for completion in time for Virgin Galactic’s pioneering flights.

It will include the completion of the Vertical Launch Complex facility, two visitor centres in nearby towns and a further visitor center on the main spaceport site.

Original Article

posted on 11.09.06

Reblogged from: Respektlos
Tags: Science . cosmic . architecture . renders . 

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mothernaturenetwork: The Dutch are accustomed to building in flood-prone areas so perhaps it’s only natural for them to construct floating cities to cope with climate change. According to design company DeltaSync, such cities would be built to rise along with the sea level. Large blocks of polystyrene foam connected by frames of strong concrete would be used to float the dome-shaped buildings, and these structures would be linked via floating pedestrian bridges. Floating highways would even connect these aquatic cities, and heat drawn from the ocean’s surface would heat the city.10 ways we could live on water

mothernaturenetwork:

The Dutch are accustomed to building in flood-prone areas so perhaps it’s only natural for them to construct floating cities to cope with climate change. According to design company DeltaSync, such cities would be built to rise along with the sea level. Large blocks of polystyrene foam connected by frames of strong concrete would be used to float the dome-shaped buildings, and these structures would be linked via floating pedestrian bridges. Floating highways would even connect these aquatic cities, and heat drawn from the ocean’s surface would heat the city.
10 ways we could live on water

posted on 11.08.20

Reblogged from: Mother Nature Network
Tags: architecture . design . global warming . science . water . 

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chazhuttonsfsm:

This is beautifully simple and complex all at the same time.

Fifteen uncoupled simple pendulums of monotonically increasing lengths dance together to produce visual traveling waves, standing waves, beating, and random motion.
The period of one complete cycle of the dance is 60 seconds. The length of the longest pendulum has been adjusted so that it executes 51 oscillations in this 60 second period. The length of each successive shorter pendulum is carefully adjusted so that it executes one additional oscillation in this period. Thus, the 15th pendulum (shortest) undergoes 65 oscillations.

More here

posted on 11.05.03

Reblogged from: entangled spaces
Tags: diagram . nature . science . 

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proofmathisbeautiful: freshphotons: Chemical etching can spontaneously transform a flat silicon surface into one consisting of nanoscale facets, a process that covers the surface with tiny pyramids. Via.

proofmathisbeautiful:

freshphotons:

Chemical etching can spontaneously transform a flat silicon surface into one consisting of nanoscale facets, a process that covers the surface with tiny pyramids. Via.

posted on 10.03.13

Reblogged from: Proof
Tags: science . nature . 

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hooray for smart people! engineeringisawesome: Student Invents Material With Highest Known Hydrogen Storage Capacity A Ph.D. student at Rensselaer Polytechnic Institute has developed a new method for storing large amounts of hydrogen at room temperature using a version of the super-material graphene. Reportedly his material is inexpensive, easy to produce, and can store almost twice the amount of hydrogen than the U.S. Department of Energy’s ultimate target of 7.5% by weight at room temperature. One of the biggest stumbling blocks to the widespread introduction of hydrogen-based vehicles is the fact that storing it with current technologies requires huge amounts of effort for little reward. Hydrogen itself is such a low-energy-density substance that you have to find ways to compress gigantic amounts of it into very small spaces to make it usable. Up to now the available technologies were either putting it in a tank under very high pressure (read: explosive), or cooling it to incredibly low temperatures (like a couple hundred degrees celsius below freezing) and turning it into a liquid and then putting it in a tank (read: waste of energy). You might see how neither of these are really the optimal solution to storing hydrogen. The holy grail of hydrogen storage would be a material that can collect huge amounts of it in a lightweight and compact form at room temperature—getting around the masses of energy needed to simply store it in the first place. Well, now a bright student has figured out how to do just that—and then some. Javad Rafiee is a doctoral student in the Department of Mechanical, Aerospace, and Nuclear Engineering at Rensselaer. To come up with his solution, he used a combination of “mechanical grinding, plasma treatment, and annealing” to maximize graphene’s hydrogen storage capacity. The nanoscopic graphene molecules are arranged in a “chain-link” fence structure providing an extremely high surface area for the hydrogen to cling to. Couple that with graphene’s earth-shatteringly low density and you have the holy grail of hydrogen storage. Javad recently won a $30,000 student prize for his work, but I’m thinking that’s just the beginning for this whiz kid. I’m sure there are plenty of other hurdles to overcome in this quest, such as how to get the hydrogen in and out of the structure quickly and how to scale it up and commercialize it, but, nonetheless, it’s exciting. Source: EurekAlert! Gas 2.0

hooray for smart people!

engineeringisawesome:

Student Invents Material With Highest Known Hydrogen Storage Capacity

A Ph.D. student at Rensselaer Polytechnic Institute has developed a new method for storing large amounts of hydrogen at room temperature using a version of the super-material graphene. Reportedly his material is inexpensive, easy to produce, and can store almost twice the amount of hydrogen than the U.S. Department of Energy’s ultimate target of 7.5% by weight at room temperature.

One of the biggest stumbling blocks to the widespread introduction of hydrogen-based vehicles is the fact that storing it with current technologies requires huge amounts of effort for little reward. Hydrogen itself is such a low-energy-density substance that you have to find ways to compress gigantic amounts of it into very small spaces to make it usable.

Up to now the available technologies were either putting it in a tank under very high pressure (read: explosive), or cooling it to incredibly low temperatures (like a couple hundred degrees celsius below freezing) and turning it into a liquid and then putting it in a tank (read: waste of energy). You might see how neither of these are really the optimal solution to storing hydrogen.

The holy grail of hydrogen storage would be a material that can collect huge amounts of it in a lightweight and compact form at room temperature—getting around the masses of energy needed to simply store it in the first place.

Well, now a bright student has figured out how to do just that—and then some. Javad Rafiee is a doctoral student in the Department of Mechanical, Aerospace, and Nuclear Engineering at Rensselaer. To come up with his solution, he used a combination of “mechanical grinding, plasma treatment, and annealing” to maximize graphene’s hydrogen storage capacity. The nanoscopic graphene molecules are arranged in a “chain-link” fence structure providing an extremely high surface area for the hydrogen to cling to. Couple that with graphene’s earth-shatteringly low density and you have the holy grail of hydrogen storage.

Javad recently won a $30,000 student prize for his work, but I’m thinking that’s just the beginning for this whiz kid. I’m sure there are plenty of other hurdles to overcome in this quest, such as how to get the hydrogen in and out of the structure quickly and how to scale it up and commercialize it, but, nonetheless, it’s exciting.

Source: EurekAlert!

Gas 2.0

posted on 10.03.06

Reblogged from: Engineering is Awesome
Tags: science . renewable energy . 

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proofmathisbeautiful: un: Check out “Number Gossip”

proofmathisbeautiful:

un:

Check out “Number Gossip

posted on 10.02.21

Reblogged from: Proof
Tags: science . 

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biophysicalresonance: freshphotons: This series of veins have been plastinated using a method developed by Dr. Gunther von Hagens, the scientist behind the often controversial Body Worlds exhibits. A liquid plastic gets injected into the blood stream. When it hardens, scientists can study the system as it is in the human body. This as a sculpture would be awesome.

biophysicalresonance:

freshphotons:

This series of veins have been plastinated using a method developed by Dr. Gunther von Hagens, the scientist behind the often controversial Body Worlds exhibits. A liquid plastic gets injected into the blood stream. When it hardens, scientists can study the system as it is in the human body.

This as a sculpture would be awesome.

posted on 09.12.23

Reblogged from: Biophysical Resonance
Tags: science . 

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proofmathisbeautiful: biophysicalresonance: (via quantumpossibility) So pretty.

proofmathisbeautiful:

biophysicalresonance:

(via quantumpossibility)

So pretty.

posted on 09.12.17

Reblogged from: Proof
Tags: science . diagram . 

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proofmathisbeautiful: freshphotons: Theoretical flow of electrons in a two dimensional electron gas away from an electron source at the center. The same scattering that produces diffusion creates static branches of electron flow.Cover Article: Nature 410, 6825 (2001).

proofmathisbeautiful:

freshphotons:

Theoretical flow of electrons in a two dimensional electron gas away from an electron source at the center. The same scattering that produces diffusion creates static branches of electron flow.Cover Article: Nature 410, 6825 (2001).

posted on 09.12.17

Reblogged from: Proof
Tags: science . diagram . 

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proofmathisbeautiful: Blines and Circloids Boids are elements that describe leaderless groups like flocks, herds or schools, according to the algorithm made in 1986 by Craig Reynolds. Boids have no mathematical equations describing their path: they move along individually, and as an emergent group steering clear of each other and moving in the direction everyone else is going. Boids provide a good a way to describe natural compositions. Below is an example of curves drawn with a combination of the Boids library and the Cornu spline library, a spiralling curve algorithm by Raph Levien. Read more about Boids here: http://nodebox.net/code/index.php/Boids Or click through to see more pictures…

proofmathisbeautiful:

Blines and Circloids

Boids are elements that describe leaderless groups like flocks, herds or schools, according to the algorithm made in 1986 by Craig Reynolds. Boids have no mathematical equations describing their path: they move along individually, and as an emergent group steering clear of each other and moving in the direction everyone else is going.

Boids provide a good a way to describe natural compositions.

Below is an example of curves drawn with a combination of the Boids library and the Cornu spline library, a spiralling curve algorithm by Raph Levien.

Read more about Boids here:

http://nodebox.net/code/index.php/Boids

Or click through to see more pictures…

posted on 09.12.17

Reblogged from: Proof
Tags: inspired by nature . science . diagram . 

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Laminar Flow http://en.wikipedia.org/wiki/Laminar_flow

posted on 09.05.20

Tags: science . 

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Just your typical lipid structure… http://mhsp5lipids2.wikispaces.com/Structure

Just your typical lipid structure… http://mhsp5lipids2.wikispaces.com/Structure

posted on 09.05.11

Tags: science . 

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posted on 09.05.10

Tags: nature . science . 

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posted on 09.05.10

Tags: inspired by nature . diagram . science . 

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