Friday, May 6, 2011

China More Than Doubles Its Solar Power Goal For 2020 - 6May2011

Reuters is reporting that China has doubled its goal for solar power installations for 2015, with a target of 10GW of photovoltaic panels installed by that year. China has also more than doubled its goal for 2020. China’s previous goal was to have 20GW installed by 2020, but the target is now 50GW.


China has become increasingly aggressive as of late in pursuing alternative energy sources, driven by commodity prices as well as concerns over air pollution. Last year, China installed a staggering 18GW of wind power, with a goal of achieving 200GW installed by 2020.

Given its history of alternative energy growth, I think it’s definitely possible for China to achieve this goal. But the real question is, can their grid keep up with the capacity? Right now, about 25% of China’s wind capacity is doing nothing — because it’s not connected to the grid. That’s not a new problem, either. In 2008, about 30% of China’s wind capacity was unconnected as well. So while China has surpassed the United States in total wind power capacity, it’s behind the U.S. in terms of capacity connected to the grid.

I think that China is making the smart move in attempting to build out their alternative energy capacity. At their rates of economic growth, disruptions in coal or natural gas supply could prove to be a major stumbling block to their economy. But unless they focus on improving their electric infrastructure, that capacity isn’t doing them any good.

by: Alex Knapp


China is leading the world in most everything these days, why not alternate energy also.........
                                                                                          Charley Star






Using Concentrated Solar to Produce Hydrogen

Researchers develop new solar technology that produces heat




Much of the research in the solar power field is devoted to increasing the efficiency of solar panels so that solar power can be efficiently harnessed to power homes and businesses. Now, a new study shows how researchers are harnessing solar power to split water, releasing hydrogen and oxygen that can then be used for power.


The authors of the study, published in the current issue of Science, affirm that the reactions do not need an exotic catalyst to take place, but rather cerium - an element as abundant as copper and stable for hundreds of cycles. The device works by amplifying sunlight through a focusing lens, directing it through a window into a reaction chamber where most of the photons are captured and turned into heat.

At such high temperatures, the cerium dioxide loses one of its two oxygens and produces a steady flow of oxygen from the device. At that point, researchers added water vapor which ultimately releases hydrogen quickly and efficiently in heat form.

The system produces ample amounts of excess heat that could be harvested and put to use, according to its inventors. Moreover, the study's authors affirm that the system is easy to manufacture in bulk and can be quickly incorporated into an industrial-sized facility.
 
Please Read On----------------------------------------------
 
 Using Concentrated Solar to Produce Hydrogen
 
When it comes to the available sources of renewable energy, most of the focus is on the sun, since all other sources, like wind and biomass, ultimately are derived from it. But solar presents its own challenges, because it’s most easily converted into heat or electricity and we can’t store either of these at a high enough density for uses like transportation.


This explains why there’s a lot of effort going into things like biofuels and using electricity to produce hydrogen. Each additional step, however, involves a potential inefficiency.

These problems are what makes a system described in the current issue of Science very appealing. The authors demonstrate a device that is capable of taking solar energy and using it directly to split water, releasing oxygen and hydrogen. It can also perform a similar conversion on carbon dioxide, converting it to carbon monoxide and oxygen.

Better yet, it doesn’t need an exotic catalyst. Instead, its catalyst is based on cerium, an element that’s about as abundant as copper, and is stable for hundreds of cycles.

The structural part of the device is remarkably simple. Most of it acts simply as a focusing lens, which directs sunlight through a transparent quartz window and into a reaction chamber. That chamber is designed for internal reflection, and is efficient enough that most of the photons get captured.

“The selected dimensions ensure multiple internal reflections and efficient capture of incoming solar energy; the apparent absorptivity exceeds 0.94, approaching the ideal blackbody limit,” the authors claim.



Once absorbed, those photons are converted to heat. Temperatures rise at a rate of 140 Celsius degrees [242 Fahrenheit degrees] a minute until they clear 1,250 degrees Celsius [2,282 degrees Fahrenheit], before stabilizing between 1,400 and 1,600 degrees Celsius [2,552 and 2,912 degrees Fahrenheit]. Those temperatures are hot enough to cause a chemical change in the catalyst, a cylinder of porous cerium dioxide.

At the high temperatures present in this phase of the reaction cycle, the cerium dioxide loses one of its two oxygens. By flowing some inert gas over the porous cylinder, the authors were able to detect a steady flow of oxygen off the device, which lasted for more than an hour before falling off. (Peak rate was 34 milliliters [1.2 fluid ounces] of oxygen per minute from the 325-milligram [0.011-ounce] sample of cerium dioxide.)

Once oxygen production tailed off, the device could be dropped to a lower temperature (900 degrees Celsius, or 1,652 degrees Fahrenheit) and a reactant pumped into the chamber. When water vapor was used, the catalyst would strip out its oxygen to re-form cerium dioxide. This releases hydrogen quickly and efficiently. This portion of the reaction was typically complete in less than 10 minutes. Alternately, carbon dioxide could be pumped in, in which case carbon monoxide was produced.

The devices produced by the authors would tend to have an erratic drop in performance over the first hundred cycles, which they found was associated with a rearrangement of the cerium oxide structure through the repeated heatings. Once the material formed somewhat larger particles, performance stabilized and remained stable out to 400 cycles.

The authors use a complex formula to calculate the efficiency of the device, one that accounts for things like the solar input, the flow rate of the inert gas, and the energy required to purify the outputs. According to their calculations, the results are pretty impressive.

“The solar-to-fuel energy conversion efficiency obtained in this work for CO2 dissociation is about two orders of magnitude greater than that observed with state-of-the-art photocatalytic approaches,” they state. “The gravimetric hydrogen production rate exceeds that of other solar-driven thermochemical processes by more than an order of magnitude.”

There are some drawbacks to this system, of course. A steady supply of inert gas is needed, and the water and carbon dioxide that are used as inputs have to be kept pure to keep other chemicals from building up on the porous material.

Pure water is often a fairly rare commodity that requires significant energy to produce. But the system also produces significant amounts of waste heat that could be harvested and put to use (the primary inefficiency right now is heat loss).

The ability to switch the system between carbon monoxide and hydrogen production is also intriguing. We already use these two ingredients to produce methanol, which can be transported in bulk and used in fuel cells, and it may be possible to combine them into more complex hydrocarbons. It might also be possible to use this as a part of a carbon sequestration system.

In any case, the researchers involved specifically designed the hardware to be easy to manufacture in bulk and incorporate into a industrial-size facility, so it seems to be a serious attempt at getting something that could be tested in a real-world deployment.



Thursday, May 5, 2011

Thoughts on Solar power systems

Solar power systems are becoming a more and more popular option for homes today. It is no wonder why with all they do to save money as well as to save the environment. The way they save the environment is by making use of solar energy. Sunlight is an inexhaustible energy source as opposed to many other sources of energy.




In addition to not contributing to the depletion of the planet's resources, solar power systems do not create any harmful emissions. This is untrue of the fossil fuels used to create city power. The use of a free and renewable energy source is also they way in which they create money savings for homeowners.



There are a few basic things which should be considered before the purchase of solar power systems.



Location is one of these things. This refers in part to the geographic location of the home- whether it is at the equator, far north of the equator, etc. It also refers to the specific area of the home where the solar panels will be placed.



For best results, the PV panels of solar power systems should face solar south. Solar south is slightly different than magnetic south. Magnetic south is determined by a compass, while solar south is determined by the path of the sun. Though not ideal, an angle within 30 degrees of magnetic south is also acceptable.



If a tree is shading the southern-facing parts of a home, it may be difficult to get a solar power system to work particularly well. The same is true of areas where the sun is always behind clouds. Some solar power will be produced as long as there is light, but it may be very little. Very northern locations, such as Alaska, will allow solar power systems to produce immense amounts of energy during the summer yet very little during the shorter days of winter.



Tuesday, March 29, 2011

New Book --- Goin' Green ---- by Charley Star

Check out the new book written by Charley Star on Solar Power.

Wounderfully written and easy to understand and follow....maybe this would be just what you need.........

http://www.amazon.com/s/ref=ntt_athr_dp_sr_1?_encoding=UTF8&search-alias=digital-text&field-author=Charley%20Star