Wednesday, September 30, 2015

Wind Turbine Scale


How big is a wind turbine?

Industrial wind turbines are a lot bigger than ones you might see in a schoolyard or behind someone’s house.
The widely used GE 1.5-megawatt model, for example, consists of 116-ft blades atop a 212-ft tower for a total height of 328 feet. The blades sweep a vertical airspace of just under an acre.
The 1.8-megawatt Vestas V90 from Denmark has 148-ft blades (sweeping more than 1.5 acres) on a 262-ft tower, totaling 410 feet.
Another model being seen more in the U.S. is the 2-megawatt Gamesa G87 from Spain, with 143-ft blades (just under 1.5 acres) on a 256-ft tower, totaling 399 feet.
Many existing models and new ones being introduced reach well over 400 feet high. See the specs for several models at AWEO.org.

How are the wind turbine components transported?

Transport of such large items and the cranes needed to assemble them often presents problems in the remote areas where they are typically built. Roads must be widened, curves straightened, and in wild areas new roads built altogether.

What kind of platform is a wind turbine set in?

The steel tower is anchored in a platform of more than a thousand tons of concrete and steel rebar, 30 to 50 feet across and anywhere from 6 to 30 feet deep. Shafts are sometimes driven down farther to help anchor it. Mountain tops must be blasted to create a level area of at least 3 acres. The platform is critical to stabilizing the immense weight of the turbine assembly.

How much do wind turbines weigh?

In the GE 1.5-megawatt model, the nacelle alone weighs more than 56 tons, the blade assembly weighs more than 36 tons, and the tower itself weighs about 71 tons — a total weight of 164 tons. The corresponding weights for the Vestas V90 are 75, 40, and 152, total 267 tons; and for the Gamesa G87 72, 42, and 220, total 334 tons.

What is the nacelle?

The gearbox — which transforms the slow turning of the blades to a faster rotor speed — and the generator are massive pieces of machinery housed in a bus-sized container, called the nacelle, at the top of the tower. The blades are attached to the rotor hub at one end of the nacelle. Some nacelles include a helicopter landing pad.

Are wind turbines more intrusive than other structures of similar size?

Besides the noise and vibrations such huge moving machines unavoidably generate, they must be topped with flashing lights day and night to increase their visibility. The moving blades attract attention. And they must be erected where there are no other tall structures to obstruct the wind.

How much area is required for a wind power facility?

The huge turbines require a correspondingly large area around them clear of trees and other turbines to maximize the effect of the wind and avoid interference. They should have 10 rotor diameters of clearance in the direction of the wind and 3 rotor diameters in every other direction. In a line of several turbines perpendicular to the wind (as on a mountain ridge), the GE 1.5-MW model would need at least 32 acres and the Vestas V90 78 acres for each tower. In an array that can take advantage of the wind from any direction, the GE needs 82 acres and the Vestas V90 111 acres per tower.
In practice, the area varies, averaging about 50 acres per megawatt of capacity. On mountain ridges, the turbines are generally squeezed in at about 10 MW per mile.

Can the area around a wind turbine continue to be used?

Only by putting oneself in danger. Besides the unpleasant noises and distracting motion, wind turbines are not safe. They are high-voltage electrical devices with large moving parts. It is estimated that for every 100 turbines, one blade will break off (see Larwood, 2005). In the winter, heavy sheets of ice can build up and then fall or be thrown off. Access to the land around wind turbines is usually restricted, even to the landowner.

Are bigger turbines more efficient?

No, they are just bigger. Output depends on wind speed and the combination of blade diameter and generator size. Bigger blades on a taller tower can capture more wind to run a bigger generator, but they don’t do so more efficiently than smaller models, and they require a correspondingly larger area around them.

Polymath Universata On Wind Turbine Prototype Across Overseas

Wind turbines...have you ever wondered how they assemble one asks ? Start with a Grove telescopic tower crane....

  • By Biglorryblog
  • Edited by Polymath Universata
Biglorryblog has Rod Simmonds to thank for this selection of pictures which shows you (if you've ever wondered) how they put up a wind turbine... It all starts with the latest Grove GTK1100 telescopic tower crane, unveiled at the Bauma construction show in Munich, which has completed its inaugural lifting job at a site in Germany, following an extensive test programme at the manufacturer's Wilhelmshaven plant.


The first unit was recently to Wiesbauer, the Bietigheim-Bissingen based crane rental company that has helped to develop the mighty GTK. And here it is arriving in a field with its constituent parts on a bunch of artics. The GTK1100's first job was in Ilshofen, Baden Würtemberg, southern Germany where it was used to install a 2KW wind turbine in a field for Repower Systems. Now sit back as Biglorryblog offers you a step-by-step guide to how to build a crane...


bwCrane2.JPG
First the outriggers are lifted into place:
Next the hook block is 'reeved.' Whatever that means - I guess I'd use the word 'threaded'...? Unless you crane freaks know any better?
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Now the superstructure is raised, using a second mobile crane:
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...and now it's been finally lowered into place:
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Up goes the mast, with a little bit of help from some hefty hydraulic rams:
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...and locks into the vertical - looks like they've buried the outriggers too!
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Next the pendant supports are lifted into place--and I can now see the outriggers so they clearly weren't buried...
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Now the crane's mast is telescoped upwards, stretching the 'guy-ropes'
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With the pendants tensioned the crane is now finally ready to go to work!
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The contract was completed with five lifts, the first three being the tower mast sections that weighed 62 tonnes, 53 tonnes and 45 tonnes respectively. Wonder how they hold the sections together..sellotape? Here, the second tower section weighing 53 tonnes is lifted into place
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Now the top section weighing 45 tonnes is located into position...
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The nacelle was next, weighing 70 tonnes followed by the preassembled three-bladed propeller module. Each blade weighs 8 tonnes, with the assembled module being 42 tonnes... not something you'd want to drop on your foot.
Crane14.JPG
The 70-tonne nacelle, the heaviest single load, is finally placed onto the 70-metre mast:
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Here we can see the Grove GTK 1100 lifting one of the eight-tonne blades in tandem with a mobile crane, assembling the propeller module on the ground.
Now click through here to see the final finishing touches as the blade and hub assembly weighing 42 tonnes is at last lifted into place...go on, you've followed it this far you might as well see the end of it!
Crane16.JPG
Phew...and you're exhausted. What about me...it's taken me ages to cut and paste this little lot into BLB! Anyway, Jochen Wiesbauer, managing director of Wiesbauer, tells me: " 'The performance of the GTK1100 on this first set of lifts was simply outstanding, because these lifts were the first in a field setting we took extra caution and double-checked everything. But even with this, the cost and time savings compared to other lift solutions were exceptional."

Meanwhile, Frans Vanwinkel, [no relation to Rip] senior vice president of sales and marketing for in EMEA witnessed the first job for the GTK and confirms: 'Unlike traditional lifting solutions on projects such as these, the GTK allowed Repower Systems to save on ground preparation costs. Thanks its reduced space requirement and ability to level on uneven ground with its advanced outrigger design."
So there you have it...and if anyone ever asks you 'How do they build a wind-turbine?' you'll be able to answer them...thanks to Biglorryblog!

Monday, September 28, 2015

Volunteers For Various Projects

   Optimal Omega Technomath inatangazo nafasi za volunteers kwa wataalam wa computer graphics, computer simulation expert, 3D CAD modelling, web programmer, architecture na civil engineer, technician wa electronics, hydrodynamics, mechanics, river rejuvenation Project ni kuanzia mwezi hadi miezi tatu au zaidi.Applicants watume čv n app letter kwa C.U.E n C.S.E johnkoiyaki@cyber-wizard.com
  Send your application to the e-mail above and you will be summoned as long as you are reachable.