How much can I practically/legally DIY, and other newb questions
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- Posts: 2011
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Re: How much can I practically/legally DIY, and other newb questions
31kg! I wondered whether they were aimed at the solar farm market, where you might well be using mechanical handling aids for installation. Also for that use the bigger panels would reduce installation time.
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2.0 kW/4.62 MWh pa in Ripples, 4.5 kWp W-facing pv, 9.5 kWh batt
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
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- Posts: 662
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Re: How much can I practically/legally DIY, and other newb questions
I fitted these as I worked out the various permutations of sizes and three best fitted my available space, or so I thought, I hadn't allowed for the overhang of an eave of the gable end. This meant I have had to raise the frame's angle more than the plan to have them nearly horizontal. The upshot is they shade part of one pf my original panels till the early afternoon.AE-NMidlands wrote: ↑Sat Nov 26, 2022 12:38 pm 31kg! I wondered whether they were aimed at the solar farm market, where you might well be using mechanical handling aids for installation. Also for that use the bigger panels would reduce installation time.
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They were heavy but two of us hauled them up two storeys via a sloping "ladder" and manipulated them onto the framework without much drama.
Morso S11
FIT
16 Sharp PV panels facing WSW 4kW
Solarmax 4200S inverter
Non FIT
3 Canadian solar DC coupled 1.75kW facing SSE
Storage
Growatt SPA3000TL BL inverter ac coupled
Growatt GBLI6532 6.5kWh lithium phosphate battery
FIT
16 Sharp PV panels facing WSW 4kW
Solarmax 4200S inverter
Non FIT
3 Canadian solar DC coupled 1.75kW facing SSE
Storage
Growatt SPA3000TL BL inverter ac coupled
Growatt GBLI6532 6.5kWh lithium phosphate battery
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- Posts: 2011
- Joined: Wed Jun 02, 2021 6:10 pm
Re: How much can I practically/legally DIY, and other newb questions
I think that to get the most on the roof(s) they will be different sizes, but I'll try to do some sums to see how long the extra shoulder-season generation might take to balance the cost of the extra inverter.
I don't really understand this, one array with a battery, the others not? or do you mean link all 3 roofs to work as one array?Countrypaul wrote: ↑Fri Nov 25, 2022 11:17 pm If looking at hybrid inverters then presumably you are looking at battery storage, in which case why not just one hybrid inverter and one array directly charging the battery via a charge controller? - unless Nowty's suggestion would be appropriate.
I had imagined each of the E, S and W arrays working separately to get the most possible out of them as early and late in the year as possible. I see a reference to dual and even multi-MPPT inverters, claiming to be able to cope with 3 or more arrays.
Re the output options, I see that Bimble show https://www.bimblesolar.com/ongrid/hybr ... X1-FIT-5.0 as having a 5kW output... also a Solis one, so at that output I guess they don't need paralelling up - I don't imagine getting up to using 120 kWhr in a day!
2.0 kW/4.62 MWh pa in Ripples, 4.5 kWp W-facing pv, 9.5 kWh batt
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
Re: How much can I practically/legally DIY, and other newb questions
Be very careful with inverter specs. Note the use of the term "max" 6kW. A Solis RHI 6kW Hybrid with a "max" 5kW charge / discharge from the batteries. It will only maintain the "full" 5kW charge into the batteries for 15 minutes, after that it drops to 3.6kW. This has been confirmed as the case by Solis.AE-NMidlands wrote: ↑Sat Nov 26, 2022 1:16 pm
Re the output options, I see that Bimble show https://www.bimblesolar.com/ongrid/hybr ... X1-FIT-5.0 as having a 5kW output... also a Solis one, so at that output I guess they don't need paralelling up - I don't imagine getting up to using 120 kWhr in a day!
Before purchase satisfy yourself of the max and also the continuous ratings and see if that matches you load profile.
Last edited by marshman on Sun Jun 11, 2023 2:16 pm, edited 1 time in total.
Re: How much can I practically/legally DIY, and other newb questions
I would have thought you could connect the E and W arrays to the one MPPT using blocking diodes. The higher voltage will then win so you need not have the same # of panels in the two arrays provided each is within the MPPT spec. If they are facing opposite directions you won't lose any appreciable output by doing this, when the sun is in the S they will both be at glancing incidence anyway.AE-NMidlands wrote: ↑Sat Nov 26, 2022 1:16 pmI think that to get the most on the roof(s) they will be different sizes, but I'll try to do some sums to see how long the extra shoulder-season generation might take to balance the cost of the extra inverter.I don't really understand this, one array with a battery, the others not? or do you mean link all 3 roofs to work as one array?Countrypaul wrote: ↑Fri Nov 25, 2022 11:17 pm If looking at hybrid inverters then presumably you are looking at battery storage, in which case why not just one hybrid inverter and one array directly charging the battery via a charge controller? - unless Nowty's suggestion would be appropriate.
I had imagined each of the E, S and W arrays working separately to get the most possible out of them as early and late in the year as possible. I see a reference to dual and even multi-MPPT inverters, claiming to be able to cope with 3 or more arrays.
Re the output options, I see that Bimble show https://www.bimblesolar.com/ongrid/hybr ... X1-FIT-5.0 as having a 5kW output... also a Solis one, so at that output I guess they don't need paralelling up - I don't imagine getting up to using 120 kWhr in a day!
Agree with @marshman, 5kW nom is a good size. In fact my DNO will only allow inverting up to 3.7 kW and that is still enough for all everyday purposes.
A 5kW continuous load is easy enough to emulate using an electric cooker, I have tried this, a 32 A cooker point will in fact supply over 7kW and my inverter will allow a total of 12kW with pass-through.
16 x 230W Upsolar panels S Devon, 4kW Steca, 3.9 MWh FITs/yr
8 x 405W Longi panels, 250/60 MPPT, 3.3 MWh/yr
Victron MultiPlus II-GX 48/5000/70-50
10.65 kWh Pylontec Force-L2
zappi 7kW EVCS
Villavent whole-house MVHR
5000l rainwater system
Vaillant 12kW HP
8 x 405W Longi panels, 250/60 MPPT, 3.3 MWh/yr
Victron MultiPlus II-GX 48/5000/70-50
10.65 kWh Pylontec Force-L2
zappi 7kW EVCS
Villavent whole-house MVHR
5000l rainwater system
Vaillant 12kW HP
Re: How much can I practically/legally DIY, and other newb questions
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Last edited by marshman on Sun Jun 11, 2023 2:16 pm, edited 1 time in total.
Re: How much can I practically/legally DIY, and other newb questions
Never tried that (yet), sounds plausible but you would need to have an inverter which does a global peak scan (shade management function) like my SMA Sunny Boys.sharpener wrote: ↑Sat Nov 26, 2022 2:16 pm
I would have thought you could connect the E and W arrays to the one MPPT using blocking diodes. The higher voltage will then win so you need not have the same # of panels in the two arrays provided each is within the MPPT spec. If they are facing opposite directions you won't lose any appreciable output by doing this, when the sun is in the S they will both be at glancing incidence anyway.
A more elegant way is to use different types of panel so you get a similar working voltage with a different numbers of panels.
https://camelot-forum.co.uk/phpBB3/view ... tore#p9562
16.9kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 25MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Ripple 6.6kW Wind + 4.5kW PV > 25MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Re: How much can I practically/legally DIY, and other newb questions
I don't think so, with the diodes the MPPT will only ever see the higher voltage array and will not know the other one is there, so you will not get multiple MPPs in the output characteristic (VI) curve.nowty wrote: ↑Sat Nov 26, 2022 2:37 pmNever tried that (yet), sounds plausible but you would need to have an inverter which does a global peak scan (shade management function) like my SMA Sunny Boys.sharpener wrote: ↑Sat Nov 26, 2022 2:16 pm
I would have thought you could connect the E and W arrays to the one MPPT using blocking diodes. The higher voltage will then win so you need not have the same # of panels in the two arrays provided each is within the MPPT spec. If they are facing opposite directions you won't lose any appreciable output by doing this, when the sun is in the S they will both be at glancing incidence anyway.
A more elegant way is to use different types of panel so you get a similar working voltage with a different numbers of panels.
https://camelot-forum.co.uk/phpBB3/view ... tore#p9562
Didn't think it was a good idea to parallel arrays on different aspects without diodes even if the same nom Vmpp. The array with less light will pull down the output voltage of the one with more. The diodes prevent this from happening.
16 x 230W Upsolar panels S Devon, 4kW Steca, 3.9 MWh FITs/yr
8 x 405W Longi panels, 250/60 MPPT, 3.3 MWh/yr
Victron MultiPlus II-GX 48/5000/70-50
10.65 kWh Pylontec Force-L2
zappi 7kW EVCS
Villavent whole-house MVHR
5000l rainwater system
Vaillant 12kW HP
8 x 405W Longi panels, 250/60 MPPT, 3.3 MWh/yr
Victron MultiPlus II-GX 48/5000/70-50
10.65 kWh Pylontec Force-L2
zappi 7kW EVCS
Villavent whole-house MVHR
5000l rainwater system
Vaillant 12kW HP
Re: How much can I practically/legally DIY, and other newb questions
So, your first paragraph is totally correct, but what's the point of the lower voltage string then ?, it will sit there and do nothing, even in full sun as its voltage will still be lower than the shaded string. A shaded string still gives a similar voltage, just with less current. Thats why you need a global peak MPPT so it switches to the lower voltage peak as the sun moves around.sharpener wrote: ↑Sat Nov 26, 2022 2:45 pmI don't think so, with the diodes the MPPT will only ever see the higher voltage array and will not know the other one is there, so you will not get multiple MPPs in the output characteristic (VI) curve.nowty wrote: ↑Sat Nov 26, 2022 2:37 pmNever tried that (yet), sounds plausible but you would need to have an inverter which does a global peak scan (shade management function) like my SMA Sunny Boys.sharpener wrote: ↑Sat Nov 26, 2022 2:16 pm
I would have thought you could connect the E and W arrays to the one MPPT using blocking diodes. The higher voltage will then win so you need not have the same # of panels in the two arrays provided each is within the MPPT spec. If they are facing opposite directions you won't lose any appreciable output by doing this, when the sun is in the S they will both be at glancing incidence anyway.
A more elegant way is to use different types of panel so you get a similar working voltage with a different numbers of panels.
https://camelot-forum.co.uk/phpBB3/view ... tore#p9562
Didn't think it was a good idea to parallel arrays on different aspects without diodes even if the same nom Vmpp. The array with less light will pull down the output voltage of the one with more. The diodes prevent this from happening.
Your second paragraph is a common misconception, we had a massive argument about this many years ago on the old forum. An identical array with less light does not pull down the voltage, in fact a shaded string will still contribute a little to the one in sunlight. Yes it will still work with blocking diodes, but it just adds another point of failure for no benefit.
I've done many experiments with this over the years with different types of inverters.
Last edited by nowty on Sat Nov 26, 2022 3:27 pm, edited 1 time in total.
16.9kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 25MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Ripple 6.6kW Wind + 4.5kW PV > 25MWh generated
5 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 510 m3
Re: How much can I practically/legally DIY, and other newb questions
The point is this: I would have thought you could connect the E and W arrays to the one MPPT. The arrays face in opposite directions so to first order only one is generating at a time.
Thinking about this again a photodiode is reverse biased in normal operation. So if you just connect them in parallel the array in the sun will generate slightly more voltage so will bias the other one slightly more in the reverse direction and it will contribute less current than it would on its own, or none at all. Maybe you don't need the diodes after all.nowty wrote: ↑Sat Nov 26, 2022 3:26 pmYour second paragraph is a common misconception, we had a massive argument about this many years ago on the old forum. An identical array with less light does not pull down the voltage, in fact a shaded string will still contribute a little to the one in sunlight. Yes it will still work with blocking diodes, but it just adds another point of failure for no benefit.
I've done many experiments with this over the years with different types of inverters.
If you can draw me the combined load line on the output curves of two typical panels connected in parallel, one in 5x the irradiance of the other it might help my understanding as to why there are multiple possible maxima. I will look at it myself when I have more free time.
In any case I thought any decent MPPT does a global search periodically, Victon certainly claim to. Of course there is a trade off because during the search the panels are by definition not at the optimum operating point.
16 x 230W Upsolar panels S Devon, 4kW Steca, 3.9 MWh FITs/yr
8 x 405W Longi panels, 250/60 MPPT, 3.3 MWh/yr
Victron MultiPlus II-GX 48/5000/70-50
10.65 kWh Pylontec Force-L2
zappi 7kW EVCS
Villavent whole-house MVHR
5000l rainwater system
Vaillant 12kW HP
8 x 405W Longi panels, 250/60 MPPT, 3.3 MWh/yr
Victron MultiPlus II-GX 48/5000/70-50
10.65 kWh Pylontec Force-L2
zappi 7kW EVCS
Villavent whole-house MVHR
5000l rainwater system
Vaillant 12kW HP