Saturday, November 15, 2008

Solar Energy, Wind Power, Intermittency, and Storage

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In ordinary conversations about renewable energy, the issue of energy storage is often overlooked. Renewable sources generate energy on their own schedules, not customers' schedules. The difference must be met either by backup energy supplies or by energy storage. This article describes some storage calculations in the absence of fossil-fired or nuclear sources. The calculations can be downloaded from here.


This is a plot of electricity generation for the US. This writer doesn't have data for any other countries and wouldn't presume to offer advice if he did.


[DOE]


For the rest of this analysis, the average generation for the years 2003-2007 will constitute the model year.


First, compare the demand curve with the availability of wind energy. Wind energy is approximately proportional to the cube of wind speed. Density is also a factor, and there is considerable mismatch at very high and very low wind speeds, but those differences won't change the conclusions. This analysis is based on wind-speed cubed.


The data show wind speeds for 265 cities. We have deleted cities with low winds or high differences between high-wind and low-wind months. We also have deleted Alaska cities, owing to their unique characteristics and their separation from the US power grid. 244 cities are left.

[NOAA]

Clearly, wind energy doesn't match electricity demand well. Next, compare electricity generation with solar potential. Cities with poor solar characteristics were deleted from the data, leaving 221 out of 238.

[NREL]

So we see that solar energy matches the electricity demand somewhat better. For our first cut we shall calculate the maximum amount of solar energy that can be generated and used within a month, and we find that 80.6% of the yearly demand can be met with solar energy on these terms. Now we can consider the remaining demand after all that solar energy is accounted for.



Now we can compare the remaining demand with available wind energy.



The calculations show that 200 billion KWH of storage is required.


We can do the same calculations for other shares of supply from solar energy, with the results shown here:


Our calculations show that the storage requirement ranges from 141 to 386 billion KWH.


There is no way to store that amount of energy. In fact, we'll have to devise a fictional example to illustrate the problem.


Imagine that a lake exists, named Upper Lake Fead, which is equal in size to Lake Mead. Lower Lake Fead is the same size and is located at the bottom of Foover Dam, which is identical to Hoover Dam. However, all the water in Upper Lake Fead can drain through the water turbines.

Lake Volume = 30,000,000 acre-feet

Average head at dam = 520 feet

If the efficiency were 100%, then


Energy = volume x pressure = volume x head x weight-density
= 30,000,000 acre-feet x 43560 sq-ft/acre x 520 feet x 62.4 lb/cu-ft
= 4.24 x 10^16 ft-lb
= 16 billion KWH


We'll set the turbine efficiency at 85% and account for pump inefficiency by upsizing where necessary. Thus, Upper Lake Fead is good for 13.6 billion KWH.


So we have calculated that the US would need between 10 and 28 Foover Dams, each with Upper and Lower Lake Feads, depending on how much electricity is generated with solar energy. There are, in fact, no Foover Dams and no locations for building any.

4 comments:

Anonymous said...

Our last stimulus package cost 168 BILLION. The money was borrowed from China! It didn't do a thing to improve our economy. We have bailed out and bailed out. Still our economy is going down the tubes at a rapid pace. Not enough credit is being given to the role the record breaking cost of gas played in the downward spiral of our economy and the demise of businesses from the largest corporations on down the line. Families and business have struggled this past year to get buy while being slammed with high fuel costs. The average family broke the budget filling up the car alone. Then to add insult to injury, every consumer product cost us more due to increased production and shipping costs. Food, clothing, everything imaginable now cost more as well. Electric companies were quick to raise prices some as high as 22%. So, we cut back, drive only when we absolutely have to , quit going out to eat. Stop buying new clothes. Sadly the ripple effect is never ending, this results in even more jobs being lost. OPEC responds to our lowered consumption by cutting production and they continue to cut and will do so until they get the price per barrel back up. We need to end our dependence on foreign oil. We have so much available to us in the way of FREE energy sources such as wind and solar. We have modern technologies such as hybrid and electric plug in cars. Why don't we invest in America becoming energy independent. 168 billion would go a LONG way towards getting some of these things set up. We are using oil at the rate of 2x faster than new oil is being discovered. World demand is rising as 3rd world countries become more modernized and populations explode. Jeff Wilson has a new book out called The Manhattan Project of 2009 Energy Independence NOW. President elect Obama needs to read this book and provide every elected official one. We can't continue to bury our heads in the sand. We have the knowledge, we have the technology, what we seem to lack as a nation is a plan. www.themanhattanprojectof2009.com

kimberly said...
This comment has been removed by a blog administrator.
Red Craig said...

Kimberly's post was deleted because it included an advertisement.

Krista Hiles said...

Undoubtedly solar energy matches the electricity demand somewhat better than wind energy but that doesn’t make us to ignore the significance of wind energy. Keep sharing.
Professional Power Project