Showing posts with label electric grid. Show all posts
Showing posts with label electric grid. Show all posts

Tuesday, May 27, 2014

Why Owning Your Own Power Plant Might Not Be Crazy



It’s been three months since we released The Economics of Grid Defection exploring when off-grid solar-plus-battery systems could reach economic parity with retail electric service.  These systems could become competitive with retail electric service within the next decade for many commercial customers and for many residential customers in the decade thereafter. Since the release of our results, the industry has been abuzz with follow-on commentary considering the implications for utilities, consumers, and third-party service providers.
Of course, favorable economics do not equate to adoption. Just because customers could defect doesn’t mean they will. For the individual customers actually considering these investments many other factors come into play, such as performance risk, hassle/convenience factor, and simply the plain, easy inertia of continuing to get their power as they always have.
Even so, it’s not that far-fetched to imagine a day when large segments of customers choose to go mostly or even entirely off-grid with clean, quiet, distributed solar-plus-battery systems. In fact, could owning your own power plant become as convenient and practical—if not quite as ubiquitous—as the consumer appliances and electronics already so commonplace that we take them for granted in our daily lives—a refrigerator, a clothes dryer, or a computer?


more >> Why Owning Your Own Power Plant Might Not Be Crazy | Rocky Mountain Institute


what next: #RE_TOOL NOW

Monday, May 30, 2011

Solar Max


The most powerful flare ever observed was the first one to be observed, on September 1, 1859, and was reported by British astronomer Richard Carrington and independently by an independent observer named Richard Hodgson. The event is named the Solar storm of 1859, or the "Carrington event". The flare was visible to a naked-eye (in white light), and produced stunning auroras down to tropical latitudes such as Cuba or Hawaii. The flare left a trace in Greenland ice in the form of nitrates and beryllium-10, which allow its strength to be measured today (New Scientist, 2005). Cliver & Salvgaard (2004) reconstructed the effects of this flare and compared with other events of the last 150 years. In their words: While the 1859 event has close rivals or superiors in each of the above categories of space weather activity, it is the only documented event of the last 150 years that appears at or near the top of all of the lists.



On September 1–2, 1859, the largest recorded geomagnetic storm occurred. Aurorae were seen around the world, most notably over the Caribbean; also noteworthy were those over the Rocky Mountains that were so bright that their glow awoke gold miners, who began preparing breakfast because they thought it was morning. Telegraph systems all over Europe and North America failed in some cases even shocking telegraph operators. Telegraph pylons threw sparks and telegraph paper spontaneously caught fire. Some telegraph systems appeared to continue to send and receive messages despite having been disconnected from their power supplies.

The last solar maximum was in 2000. The next solar maximum is currently predicted to occur sometime between January and May 2013 and to be one of the weakest cycles since 1928. The unreliability of solar maxima is demonstrated in that NASA had previously predicted the solar maximum for 2010/2011 and possibly to occur as late as 2012. Previously, on March 10, 2006, NASA researchers had announced that the next solar maximum would be the strongest since the historic maximum in 1859 in which the northern lights could be seen as far south as Rome, approximately 42° north of the equator. (read more)

The next solar max could be powerful enough to knock out electric power grids around the world for months or even longer.
(space storm)