Sunday, December 7, 2008

SOLAR AND WIN ENERGY

California Utility Signs Agreement for 10 Megawatts from Thin-Film Solar Facility
Posted: 23 Dec 2008 12:56 PM CST
California utility
Pacific Gas and Electric announced yesterday it is signing a 20-year agreement to purchase the first 10 megawatts of electricity from Sempra Energy’s El Dorado Solar project near Boulder City Nevada.
The plant was built by Tempe, Arizona-based
Firsr Solar using thin film solar panels made of low-cost cadmium tellurium as the material converting sunlight to electrical energy, requiring only 1% of the silicon used in crystalline solar cells. The El Dorado unit is North America’s largest thin-film solar plant, and has plans to expand by another 50 megawatts next year, all part of Sempra’s plan to eventually produce 500MW of thin-film solar power, CEO Michael Altman told Reuters, adding “The size and scope of this new solar generation facility clearly demonstrates that we can build projects on a scale that helps utilities meet their renewable energy goals”.

SOLAR BATTERY
March Solar – Battery Advice
Batteries are mystical magic boxes in which we store electrical energy by chemical changes. Much of today's battery technology is a slight refinement of what we knew 45 years ago. If you know of a more economically viable way to store electrical energy, tell us! It will be the next wheel !Several warnings are included in this document please read all of them; the most important being:
WARNING:
This may surprise you but those innocent looking batteries can be extremely dangerous, your battery room should not be accessible to people unfamiliar with the risks of batteries; they can kill you if you don't treat them with the caution that is required. (use your legs...if you don't pick them up properly, there goes your back) When working with batteries use extreme care, insulated tools, protective gloves, footwear, and goggles. Remember: a typical P.V.P.S. battery bank can produce 6000 amperes if shorted. (that's enough to weld tools to terminals, cause burns, or STOP YOUR HEART DEAD.)
DISCLAIMER:
All of these statements are made from our experience using mainly large deep cycle wet lead acid batteries in conjunction with Photovoltaic Power Systems. They are opinions, if you have knowledge you wish to share with me... please do so.I am not a chemist, however with that said I can tell you there are very few people who really understand these wonderful "Black Boxes".
If you have recently purchased a Photovoltaic Power System (P.V.P.S) you know how expensive batteries can be! Batteries are our industries achille's tendon but until somebody comes up with something better here are some tips that should help you realize more years of use from them. If you pay a bit of attention to them it will pay you in the long run. (just like everything in PV!)
ALL batteries require a bit of maintenance (even sealed units should have their connections checked)
LOCATION:
The location of your battery bank is important; keep in mind that you want everything close together to reduce system losses but you want to isolate your batteries (i.e.: a separate container or room that is vented to the outside) The venting is important to avoid a buildup of hydrogen gas which can occur during charging and is explosive if ignited. (Big Sign: No Smoking near batteries) For these reasons (and the fact that battery acid is corrosive) you want to locate all of your electronics in a room other than the battery room. A spark that you can't see from an inverter is enough to ignite hydrogen gas. Batteries should be on a rack or support that allows free air movement all around, above and below the batteries. Never put batteries on a floor!!So Remember: Ventilate and separate!
General Battery Stuff
Discharge rate:Generally, if you discharge a battery at a slower rate its capacity is slightly higher than had you discharged it quickly.
Temperature:Lower temperatures affect batteries by lowering their amp hour capacity to a great degree. Very high temperatures will promote water loss and reduce the number of cycles your batteries are good for. Therefore its best to keep batteries as close to room temperature as possible and failing that try to reduce the possibility of severe or rapid temperature swings.
Freezing:Yes a battery can freeze because part of the electrolyte is water; but a maintained battery will not freeze under normal operating conditions. i.e.: an average deep cycle lead acid battery at a 50% state of charge will freeze at about -24 degrees centigrade and -16 when 75% discharged (which will never happen ...right? ) However, even with this in mind we prefer clients to bury insulated battery enclosures to help protect batteries from extreme temperatures.
Depth of Discharge:All batteries are affected by depth of discharge; the less you take from a battery between recharging the more cycles you will get from it (i.e.: if you deep discharge your batteries frequently they will not last very long) Batteries will self discharge when not being used; generally with lead acid cells you can guess it to be around 5% per month. (however it does increase with higher temperatures) A battery that is only allowed to be 30% D.O.D. (depth of discharge) could last three times the number of cycles as one that is 50% D.O.D.
March Solar's Recommended General Battery Maintenance
When working in the battery room I like a nice rubber pad to be on (it's more comfortable and isolates me a bit from ground) Even an old piece of thick carpeting can be of help.
I also like a big bucket of Baking Soda and some water nearby !!
(They are quite effective in neutralizing small amounts of spilled acid)
Check total battery bank voltage (if using a separate meter make sure it is within 5% of your control panel meter)
Check individual cell voltages; look for any that are out of sync with the others. Try to check everything in the same order every time and take notes. (Ask March Solar for our battery maintenance sheet)
Check that all electrical connections are tight and clean; watch for corrosion.
Check battery tops; they should be clean dry and secure.
Check your battery bank enclosure, make sure your rack is in good shape and nothing can fall onto or interfere with the batteries, make sure your enclosure is securable.
Check your electrolyte level in each cell of each battery and ADD DISTILLED WATER IF NECESSARY: never allow electrolyte level to fall enough to expose plates to air.
Always record any actions taken.
Checking State of Charge with a Hydrometer
To measure specific gravity use a hydrometer.(Careful... you're playing with acid !!)
To use Hydrometer:
Squeeze Bulb
Lower into electrolyte and slowly draw electrolyte into hydrometer 2a) on the first cell empty the electrolyte back into the cell and repeat step 2 four times to bring the hydrometer to the same temperature as the battery
Take the reading carefully. The sample must be large enough to float the inside tube, keep it straight up and down when taking a reading.(be certain the float is free and unimpeded)
Carefully return electrolyte to same cell
Check specific gravity against chart for state of charge.
All cells should be close to one another.
FIRST AID PROCEDURES:
When dealing with your battery bank be prepared for the accident that will never happen!
If battery acid gets in your eyes: flush with water for 15 minutes (to draw out the acid) and seek immediate medical attention.
If acid gets on your skin (even with those gloves on): pour baking soda on it (which you have handy) and then flush with water for 15 minutes (to draw out the acid). Seek immediate medical attention.
The unthinkable: if someone has managed to ingest acid: Rinse mouth and drink a glass of water (to dilute the acid). Call poison control.Seek immediate medical attention.


INVERTER
is the device responsible for changing the D.C. electricity from your battery bank to 115 Volts A.C. (regular house current) The inverter allows you to operate normal everyday appliances and devices. (up to the capacity of the particular inverter you choose) The key criteria for determining the size of inverter you require are:
Total watts required
Maximum expected surge
Because you are now your own power company, you must predict your expected as well as your present electrical needs.
Example: Say you wish to run several A.C. lights and a 14" T.V.Lights (3 flourescents @ 8 Watts) + T.V. (60 Watts) = 84 Watts.In this case a 100 Watt inverter would do the job.
However you will not be able to power much more. If you wanted to power a small 700 Watt microwave you would need an 800 Watt inverter to run it alone


Available options:
Remote switches/digital meters
Stacking interfaces
110/220 Volt A.C.
50/60Hz
Sizes up to 22 KVA available
Temperature sensors
PC Interfaces and Software
You will also require a DC safety disconnect breaker for your Inverter to protect yourself and your equipment.(399.00)Inverter cables: set of two 5 foot (79.00)
Please inquire as to the specific surge handling abilities of these inverters if you plan on using heavy loads like water pumps. Many other makes, models and sizes are available, please contact us with your specific needs.
CONTROLLERS

Charge Controllers
Charge controllers regulate how much charge your batteries get. Basically it is a smart switch that prevents your batteries from being over charged. It disconnects and reconnects (as required) the power coming from the solar panels to the batteries.
Reliable, low cost, simple to use
Features:
LCD meter 1% accurate three digit display
Manual Disconnect Switch; disconnects all loads and PV inputs
Automatic Voltage Selection 12 or 24 volts
LVD Low Voltage Disconnect
F.E.T.s no mechanical relays to fail
Easy connect Terminals accepts up to #6 AWG (5mm)
Five year warranty
Automatic Equalization
Really cool styling with neat LEDs and LCD
Pulse Width Modulation constant voltage charging algorithm
Temperature Compensation
Temp range: -40 C to 85 C
Rated Life: 15 years
SPECIFICATIONS:
6" x 4" x 2.25" deep 153mm x 105 x 55
max. PV voltage: 50 volts min voltage required 8.7
Self Consumption:
typical: 10mA
charging: 13mA
no load: 8mA
SETPOINTS: for 12 volt flooded
LVD: 11.5
LVD Reconnect: 12.6
Cons Voltg Reg: 14.3
Equalization: 14.6
HVD: 15.5

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