S Baker, wind was addressed in the feasibility report, and is continuing to be explored. The report says the amount available is not as high as would be required for mainland use, but is worth looking into since fuel costs on the islands have been so high.
Here in Oklahoma you would think that wind generation would work well. The south west portion of Oklahoma is on the edge of the plains in the Texas panhandle and receives considerably less moisture than central Oklahoma. A company studied the area north of Lawton/Fort Sill and finally decided it would be a great location for wind generation and "ranchers" would receive lease payments. After a few years it has been decided it is not near as profitable as thought. Wind generators generate at a fairly low wind speed and the wind usually dies down to nothing at night. BTW, wind generators are not near as nice to look at as the pink granite mountains they sit around.
It will intresting to see how solar power works out for island nations.
Chuck, the system will actually supply 150% of each island's electricity needs, although the original spec called for 90%. The Pacific is an area with a lot of sunshine, and some of them also have high potential for wind, hydro and geothermal energy.
I am all for renewable. My question is: was solar the best option?
I have not checked the lattitude of the islands but I question the cost of solar verses wind generation. Battery quanity may be the same but the land use may have been significantly less. On any island land is valuable. Be it Manhattan or an atoll in the pacific.
I think your points are well taken, and they show up the fact that modern mega-cities are not the best way to inhabit the land. In cities, it does take a long time to pay off the price of alternatives, but that's because the infrastructure in this dense, crowded area is simply not set up to a) generate and b) distribute alternative fuels and energy sources. That's not the case in rural areas and especially in places like Tokelau where people live more simply, consume less, still have enough resources available to make their own fuels, and sources are closer to end-points, so distribution doesn't require long distances traveled. Regarding solar energy, panels are not the simplest, cheapest or most effective way to go. Passive solar construction, which does require correct siting, has been done by humans for thousands of years, and is still being done today.
That is fantastic. Lessons learned here are, reduce your energy demands in how you live, and use renewables. However, in a modern urban society, is that even possible? Since it takes years to pay off the price of alternative energy products, could a USA based city follow suit? I would image that the surface area needed in solar panels to power Chicago, let's say, would replace a lot of the surrounding suburbs.
Even if you look at becoming a island unto yourself, the surface area for 100% solar power replacement of the grid would cover more land than the average person has available to them. Also, the cost, at current prices, would hover around $50,000 USD on up.
Hopfully, the work done on Tokelau will help promote similar styles of living globally.
An MIT research team has invented what they see as a solution to the need for biodegradable 3D-printable materials made from something besides petroleum-based sources: a water-based robotic additive extrusion method that makes objects from biodegradable hydrogel composites.
Alcoa has unveiled a new manufacturing and materials technology for making aluminum sheet, aimed especially at automotive, industrial, and packaging applications. If all its claims are true, this is a major breakthrough, and may convince more automotive engineers to use aluminum.
NASA has just installed a giant robot to help in its research on composite aerospace materials, like those used for the Orion spacecraft. The agency wants to shave the time it takes to get composites through design, test, and manufacturing stages.
The European Space Agency (ESA) is working with architects Foster + Partners to test the possibility of using lunar regolith, or moon rocks, and 3D printing to make structures for use on the moon. A new video shows some cool animations of a hypothetical lunar mission that carries out this vision.
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