How To Make A Solar Generator For Your Grow OP

southfloridasean

Well-Known Member
What up to all my fellow comrades here at roll it up. We are all always in search of better ways to beat electricity cost, the constant questions of whether or not to use generators & the most common question of how much will my light cost be if I use a T5, 250, 400 blah, blah. Well you get the point. :hump:

So ok let me get to it, while doing some research on the web tonight I came across some info that could be useful to us all with probably a little bit of tweeking per grow op. I have attached it as a pdf file & have also put it below in a text format. Let me know what you guys think. :mrgreen: :peace:
 

southfloridasean

Well-Known Member
How to Make a Solar Power Generator for Less Than $300



Using parts easily available from your local stores, you can make a small solar power generator for $250 to $300. Great for power failures and life outside the power grid. Power your computer, modem, vcr, tv, cameras, lights, or DC appliances anywhere you go. Use in cabins, boats, tents, archaeological digs, or while travelling throughout the third world. Have one in the office store room in case of power failures in your highrise. I keep mine in my bedroom where it powers my cd player, turntable, lights, modem, laptop, and (ahem) a back massager. I run a line out the window to an 8" x 24" panel on the roof.



1. Buy yourself a small solar panel. For about $100 you should be able to get one rated at 12 volts or better (look for 16 volts) at an RV or marine supplies store.



2. Buy yourself a battery. Get any size deep cycle 12 volt lead/acid or gel battery. You need the deep cycle battery for continuous use. The kind in your car is a cranking battery--just for starting an engine. Look for bargains, it should cost about $50-60.



3. Get a battery box to put it in for $10. (This is good for covering up the exposed terminals in case there are children about If you going to install the system in a pump shed, cabin, or boat, skip this.)



3. Buy a 12 volt DC meter. Radio Shack has them for about $25.

4. Buy a DC input. I like the triple inlet model which you can find at a car parts store in the cigarette lighter parts section for about $10. This is enough to power DC appliances, and there are many commercially available, like fans, one-pint water boilers, lights, hair dryers, baby bottle warmers, and vacuum cleaners. Many cassette players, answering machines, and other electrical appliances are DC already and with the right cable will run straight off the box.



5. But if you want to run AC appliances, you will have to invest in an inverter. This will convert the stored DC power in the battery into AC power for most of your household appliances. I bought a 115 volt 140 watt inverter made by Power-to-Go at Pep Boys for $50. More powerful inverters are available by mail. Count up the number of watts you'll be using (e.g., a small color television(=60 watts) with a VCR(=22 watts), you'll need 82 watts).



6. Use a drill to attach the meter and DC input to the top of the box.

7. Use insulated wire to attach the meter to the wingnut terminals on the battery. Connect the negative (-) pole first. Only handle one wire at a time. Connect the DC inlet to the battery in the same way. Connect the solar panel to the battery in the same way.



8. Close the lid (I use a bungee cord to keep it tight). Put the solar panel in the sun. It takes 5-8 hours to charge a dead battery; 1-3 hours to top off a weak one. It will run radios, fans, and small wattage lights all night, or give you about 5 hours of continuous use at 115 volt AC, or about an hour boiling water. This system may be added on to with larger panels, inverters, and batteries.
Options: A pop-up circuit breaker may be added between the positive treminal and the volt meter. Some of you will want an ampmeter as well. The panels I recommend have built-in bypass diodes, but I recommend charge controllers for people who have panels without diodes. Another option is a voltage regulator, which is not necessary for a system this small, but a larger system would require one.
 

SmokenGirl

Well-Known Member
Thanks for your info..I have been doin my research for set ups and I was thinking along the line fo solor and possible wind enery to offset electricy costs. I appreciate what you have contributed to this site. I infact would like to run lights 12 hrs at a time all off solar power and the info you found and shared with us gives me such a great start...your a saint!!
 

ACSCorp

Well-Known Member
One problem however is the wattage you will need. Lights pull some serious watts. This tutorial speaks of using a 140 watt inverter which means you would only be able to run a 140 watt or lower light. You'd need to beef up your inverter and battery bank to get ant serious run time out of this but it is a good idea, I love solar and if I decide to stay in the house I am currently in I'd love to put up a solar array.

If you want to follow up on this, I'd suggest you check out
http://www.sciplus.com/search.cfm/term/solar

Great place for odds and ends.
 

southfloridasean

Well-Known Member
One problem however is the wattage you will need. Lights pull some serious watts. This tutorial speaks of using a 140 watt inverter which means you would only be able to run a 140 watt or lower light. You'd need to beef up your inverter and battery bank to get ant serious run time out of this but it is a good idea, I love solar and if I decide to stay in the house I am currently in I'd love to put up a solar array.

If you want to follow up on this, I'd suggest you check out
http://www.sciplus.com/search.cfm/term/solar

Great place for odds and ends.

ACScorp, Yes definitely thats why I said that each grow op would have to tweek the system to its own individual needs. Bigger battery & a few more panels. :hump::peace:
 

mywayorthehighway

Active Member
great post, I'll never use it myself... but solar energy is well worth looking into if you live in those 'out of the way' places. Thanks for taking the time.

skunk skool, free forums.
google it
 

southfloridasean

Well-Known Member
great post, I'll never use it myself... but solar energy is well worth looking into if you live in those 'out of the way' places. Thanks for taking the time.

skunk skool, free forums.
google it
Yes it will definitely be necessary soon. If we all had the money to do solar we could grow in a log cabin in the mountains somewhere completely off the radar. A good way to get cheap solar panels is to source them in China. Act like your a company whos seeking samples for your showroom in the U.S. & they will be more than willing to send samples for a fee of course but it will not be the price that you pay in the states. If the order is large enough you can ship via sea vessel for a total time duration of 20-30 days for cheap than what you would pay to have it sent by air. :leaf: :peace:
 

ultranyte

New Member
Running any kind MH/HPS ballast off batteries will cause it drain very fast. Especially a 1000W light, it would drain that battery so fast the voltage would drop and stop providing enough juice to keep it going. since most voltage converters have a voltage gauge it would keep shutting off.
Not to mention the cost of the batteries and panels would be far more expensive then buying a generator and a few hundread liters of diesel. A system that won't fail.

This is a good idea for everything except running MH/HPS
 

southfloridasean

Well-Known Member
Well thats if you use a car battery or something similar. They have many different batteries such as those made just for solar use that will give the end user complete optimization of the system.
 

willygoat

Active Member
Is there a way I could run my 1000HPS from a solar setup like this?
There is always a way. Just remember, to provide this much converted DC power, you will need massive panels arrays, battery banks and a large inverter. Be prepared to spend a good deal of money to generate this amount of wattage.
 

AverageJoe21

Well-Known Member
Even with about $20,000.00 worth of solar panels and battery's ext you would have trouble keeping up with the power demand
 

paddy510

Well-Known Member
The best way to use solar power to grow plants is to grow them outside under the sun.
A 1000w light would require about 3000w of panels and over 3000 amp hours worth of battery to run for just 12hrs per day every day for 2 months without fail.
it was about $6+/watt for solar panels last time i looked. and about $1/AH for batts
could buy a lot of weed for the cost of that type of setup.

Wind power on the other hand would be a bit cheaper, if you can build a wind generator yourself, but you need a good supply of wind. The battery requirements would still be the same though.
 

specialkayme

Well-Known Member
The best way to use solar power to grow plants is to grow them outside under the sun.
A 1000w light would require about 3000w of panels and over 3000 amp hours worth of battery to run for just 12hrs per day every day for 2 months without fail.
it was about $6+/watt for solar panels last time i looked. and about $1/AH for batts
could buy a lot of weed for the cost of that type of setup.

Wind power on the other hand would be a bit cheaper, if you can build a wind generator yourself, but you need a good supply of wind. The battery requirements would still be the same though.
True, but all of that cost pays off. Even if you payed $50,000 for a solar set up, not just for your grow area but your entire house, it pays for itself. A typical homeowner, if they were to get a solar array pays for itself within 8 years. It's just like me telling you that you have to pay the next 8 years of electricity bills up front, then for the rest of your life you get free energy. We all will spend that much money on electricity anyway, and in the long run you make out like a bandit. 8 years of electircity for the price of a lifetimes worth of free electricity .... not a bad deal.
 

southfloridasean

Well-Known Member
As I stated in an earlier post China has solar panels for extremely cheap. They also sell panels by 220 & 320 watt per panel. So figure if you had an op that pulled 4000 watts you would only need 12 panels. There are all types of panels. All are diff in l x w x h. You can get smaller panels that are thicker that can fit your roof without looking cumbersome & ridiculous. :peace:
 
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