So in all my playing I wanted to find a way to use the electricity I was producing, but short of buying a $500+ 3-phase inverter PER turbine there didn't seem to be a lot of support. I inquired a lot about using a DC grid tie inverter and got very little feedback, and a lot of shaking fingers, but I decided to try it anyway.
So this is my setup:
These are all inexpensive Chinese components...just like the turbines...so I'm sure none of the components are as efficient as they could be, but this is a toy hobby for me. I'm not going to invest a whole lot until I'm actually producing 2kw+.
The turbines will come in through the
bridge rectifiers on top. I did solder the connections at the rectifiers. I tried spades and crimps but they can't working their way loose. It then runs 12g wire from the rectifiers to the
watt meters. These watt meters are nice and simple but the displays suck...if I redo it, I'll be looking at different meters.
I did setup my lugs for four meters, and I left room to add one more set of lugs. Ultimately I will probably have five inputs all together. Output from the meters all go to single lugs at the bottom, still 12g wire. Each one has it's own wire...the battery lugs are the first point where voltages come together. The battery lugs are where the batteries, inverter, and output all tie in.
The batteries are not very impressive, being all
inexpensive lawn and garden batteries. Currently there's four of them, plus the old battery from our Ford Expedition, and an old battery from my BMW 540i...both of which are old and were replaced because they had become unreliable in our cars. They are arranged in a 36v bank.
The
inverter is a generic 1000w model. It does have island protection and I have tested it to make sure that feature does work properly. These things are known for not be the most efficient, but it was inexpensive and it does shut down during a power outage. I made the board with enough room to add another inverter if demand for it was there.
Lastly, after it leaves the inverter I have it going through
an appliance power analyzer. I like having this so I can log what's coming out of the inverter but I wouldn't advise going this route. I have to run the thing backwards to get it to read...which requires me to have one of
these amazing things to make it work.
How does it work? Well, okay, I guess.
The biggest problem this system has is the batteries. The inveter pulls current off the batteries and will keep pulling until they're tapped. It's why I'm not investing in better batteries...and the batteries are only there for voltage regulation anyway. I tried running the system without batteries...just turbines and the inverter. The problem is that the inverter changes it's rate of draw really violently while the turbines spool up and down. So long as the turbines are kicking out about 38~40v it's works awesome and I get a lot of power out of them. The problem is that when they get a little faster, the inverter asks for more juice, and it chokes the turbines...or the breeze goes away and they slow down...but as current from the turbines goes down, the less stress the inverter puts on them. And then a gust comes along, voltage spikes a little above 60v, and the inverter locks out. I think that if I could find an inverter that could handle up to a 60v input it might work.
Watching the system work is also a little disappointing. If the batteries are down enough that the inverter can't pull anything off of them, that's when it's working off the turbines only. And then it's like a rubber band doing it's thing. The turbines will spool up and start kicking out a combined output of 500w for about 20 seconds. By the time the inverter is kicking anything out, the turbines are already coming down...and output from the inverter will peak about 185~200w...but it'll hold that output for nearly a minute. So less output, but for a longer duration. Makes the immediate reaction a disappointment, but in the long run I feel like it balances out. Logged kwh on the watt meters is about 10% higher than whats shown on the appliance analyzer.
What's in the future?
I have one more turbine on hand to tie in, ans I'm going to buy another to play with. Trying to decide if I'm going to gwet another one of the "700w" ebay mills that I'm pretty pleased with, or picking up something like the ista-breeze i1500...no one seems to like them so it's perfect for what I'm doing (though since they don't publish any specs getting compensated if it fails to perform is way riskier).
I'm also considering buying more batteries. I'm pondering if removing the two larger batteries and adding five more of the lawn and garden batteries might be helpful in any way. seems like the way I'm using the system the only benefit I'd have with more batteries is way more cushion during an outage.
Just thought I would share.
