houseofancients
Solar Wizard
They aren't paralleledHow do you have them in parallel without comms cable? So they are each powering different buildings/loads/panels?
They aren't paralleledHow do you have them in parallel without comms cable? So they are each powering different buildings/loads/panels?
Well. About 2100-2800 euro ( 2500-3200 USD) for the 12k 3 phase ( comparable to the 15k sol-ark)Get another Deye aren't they like $20 over there outside USA?
All good my final solution will need plenty of surge on the 120V legs so solark is out of consideration at any price.Well. About 2100-2800 euro ( 2500-3200 USD) for the 12k 3 phase ( comparable to the 15k sol-ark)
Sorry know that hurts
I pretty sure I'm too dumb for this kind of stuff. I mean my electrical knowledge is closer to "ouch, that hurts but did it again" than "ouch, that hurts but now I know better).Lots of options...
Power rectifier would be the easiest.
An Emerson R48-3000e3 can be had for $75.
You don't need to use any of the fancy programming features in the thread above, could just buy it for a pre-programmed voltage.DIY 'Chargenectifier'
Based of the informative info recently posted by @ChrisFullPower in another thread I'm intrigued in DIY'ing a charger from used rectifiers. A quick search on eBay for '48v rectifier' has made me realize it's definitely doable at costs much lower than off the shelf options... I'll start with a...diysolarforum.com
You could also pick a "cheap" AIO like the SRNE HYP, ASP, or HESP and use it for charging only if you wanted to have a additional solar charging power as well.
I pretty sure I'm too dumb for this kind of stuff.
I understand there are cheap chargers like these and hooking one up wouldn't be a problem even for me, BUT I'd want it to work only when I have excess PV power (or when genny is working). Spot prices are sometimes so low (negative even) that it is not wise to sell power to grid. I can suppress production by unticking "solar sell" box to avoid actually paying for backfeeding grid, but would prefer to charge batts with that extra energy instead.It's pretty much plug and play - it's a Chargeverter without the yellow case around. You hook up the battery, hook up the AC, and that's it. You just have to make sure you get them pre-programmed with the right voltage (57V should do just fine for 16s LFP).
They're cheap (yes, they're used) - but I've had no issues. It feels good to have dedicated separate charging hardware, not just the inverter. You can also add more of them as you go/need.
are these 3kW output?It's pretty much plug and play - it's a Chargeverter without the yellow case around. You hook up the battery, hook up the AC, and that's it. You just have to make sure you get them pre-programmed with the right voltage (57V should do just fine for 16s LFP).
They're cheap (yes, they're used) - but I've had no issues. It feels good to have dedicated separate charging hardware, not just the inverter. You can also add more of them as you go/need.
I'd say they are. They are installed like you'd install one and then install another one exactly the same. But they don't have comm cable connected and they don't share batteries so each Deye has its own battery bank. They both power my main panel together. They need to have separate CT coils (main panel is 75m from my "Solar corner" so needed two Eastron SMD630 modbus V2), but those are just located next to each other in my main panel.How do you have them in parallel without comms cable? So they are each powering different buildings/loads/panels?
are these 3kW output?
wondering if you have measured the efficiency of conversion with your unit?
I’m sorry if this sounds stupid, but why would you need the panels to be 1m above ground?It was about three years before I started building my solar than I decided I'll most definitely go with vertical bifacials if I ever build one. It was nothing as fancy what Matt Ferrell talks about. It's just that we have up to 19 hours of sun in the summer and I have open fields on my property plus it snows every other day in the winter. You don't have to be a rocket scientist to figure which way to go. There might be drawbacks though with high winds, ground heave force moving those poles or oxidation underneath glue patches, but I tried my best to address every possible problem. Then again my best isn't that much...
To optimize vertical bi-panels, one should lift them at least 1m from the ground, which bothers me on that video. Also using bi-panels as actual fences might not be that wise as making a fence out of glass wouldn't be my first choice... I also get why solar parks have their panels stuffed side by side, but when you have more land than you are ever going to install panels, leave some room between panels to get more backside irradiation if you can. It will get you more production. Lastly but not leastly albedo is very important and I will try to do some experimenting with it next summer.
In any case it's way too early to say if my setup is a hit or miss. Production seems to be ok, but longevity is still a total mystery.
To reduce chances of shed snow building up and blocking them.I’m sorry if this sounds stupid, but why would you need the panels to be 1m above ground?
Nothing stupid with your question. There are two reasons that I can think of. First is snow as we can have more than 1m snow maybe once in a decade. I really don't want to clear snow around my panels as I have to do that with my 1ha (~2,5acres) yard already. Secondly studies show that backside production of bifacials increase when you elevate then up to 1,2m from the ground. This has to do with more sunlight getting behind the panels. Up to 0,8m production raises rapidly and tapers off @1,2m. Didn't want to go 1,2m elevation because production increase is marginal after 1m and was worried about winds already.I’m sorry if this sounds stupid, but why would you need the panels to be 1m above ground?
Is that study not about horizontally lying panels ?studies show that backside production of bifacials increase when you elevate then up to 1,2m from the ground. This has to do with more sunlight getting behind the panels. Up to 0,8m production raises rapidly and tapers off @1,2m. Didn't want to go 1,2m elevation because production increase is marginal after 1m and was worried about winds already.
It doesn't matter if your panel is vertically or horizontally installed. It's all about getting light to the backside of the panels. The more light there is the more chances it has to hit the backside of your panel (reflecting from the ground, nearby buildings, trees, fences...). Albedo plays a big role here.Is that study not about horizontally lying panels ?
However, with your vertical panels, being 1m off the ground also helps receiving more reflection of light after hitting the ground.
EXW and never again.Hi Shadowmaker: Did you buy with DDP shipping, or EXW shipping and your group did the custom declaration yourself ?
Sellers on Alibaba often tell me that EXW is more cost effective to me than DDP, but after calculating the custom declaration fees, destination port fee, and VAT fee I have to pay at the port I see that DDP is only slightly more expensive but can save me a lot of headache.EXW and never again.
You have asked this same question now multiple times to different forum member and basically got the same answer..Sellers on Alibaba often tell me that EXW is more cost effective to me than DDP, but after calculating the custom declaration fees, destination port fee, and VAT fee I have to pay at the port I see that DDP is only slightly more expensive but can save me a lot of headache.
Why do they tell me that ? Because they want to sell their product quickly, and they want to make customer feeling attracted to the smaller EXW price. Am I right in this thought process ?