North Facing Solar Panels Finally Make Financial Sense!

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Gary, you are mistakenly attributing the yield from the north facing array as being from ambient light…this is not true. The yield from the north facing array during the summer months is due to the azimuth of the sun in those months…the sun rises in north-northeast and sets in the north-northwest. A south-facing array will only get direct sunlight on it when the sun’s azimuth is beyond east, and stops after it passes west. So having north-facing panels will produce useful yield between the spring and autumn equinoxes as it captures the northerly element of the sun’s azimuth during those months. Hope this makes sense?

My install was April 2023 and I worked with the installation company on the design. At that point they were talking about what was needed for the average house so I had to push to max out on panels and battery. I wanted some vertical panels on the rear of the house (SSE side) and some on the north facing roof at the front of the house.
They didn't do vertical mounts and didn't want to do north facing. I talked about ambient light (in the NW of England it's mostly cloudy) and we do get some direct sunshine leading up to sunset.
He explained that sun strength was like standing in a flowing river; side on you don't receive much power so there was little to no value in north-facing panels. I deferred to his knowledge and experience so feel I've missed out on better generation.

When we used to go to the beach in a very sunny climate, we would build a shelter for our infant son with four sticks, a blanket and some string for guy wires. This worked fine as there was hard shade under the shelter. Then one unusual hazy day we did the same. The poor little bloke was sun burned. On a hazy day, significant radiation comes from all points of the compass. Same thing with panels facing away from the sun. On all hazy days, they are generating a pretty significant amount of power.

We have (to within about 5°) a N/S double garage, set back slightly on the W side of our house. So the S roof is subject to shading from the house up until around midday day. Initially we filled the S facing roof connected via a SolarEdge 4 kW inverter in conjunction with SE optimisers for the shading. In February we took the plunge (because of the low panel prices and no scaffolding required) to get an additional 4 kWp of panels added to the N facing roof. This add on was relatively inexpensive because we also took advantage of the 100% over provisioning capacity of the original SE inverter, so we have the S roof connected on one string & the N roof connected to the 2nd string input. We also had optimisers fitted to the N panels.
Our experience so far that to date the N roof has produced around 62% that the S has. (1.97 MWh N Vs 3.18 MWh S) This figure is higher because of the shading the S roof experiences.
During the long grey gloomy days we've been experiencing the last few months, although still quite minimal, the N roof produces almost identical to the S roof.
During the peak summer months the N roof produces more first thing in the early morning and late afternoon/early evening because the sun does actually rise and fall for a few months to the rear of the house. From the positive results from our garage roof experiment, we are currently talking to our installer about doing similar on our N facing house roof. More costs to weigh up doing this one as the house Solis inverter can only be over provided by 50%, not 100% like the garage SE and we will need scaffolding to achieve it. But we do have the potential to add an additional 14 panels. Decisions decisions!

Upsidedownfork is an excellent and cadid channel that is straight down the line. I am looking to copy a SSW-NNE roof setup with the majority of the pannels on the rear due to the config of my home!
Time will tell once its up if it will pay for itself or not. Great video and something everyone should consider of fitting panels!

Your points about "indirect" or "ambient" light (diffuse irradiance) are well made. Also, in the UK in the summer, the sun rises in the North East and sets in the North West, so there is the opportunity for some direct irradiance on a north facing array in the morning and evening. This effect is exaggerated the further north one is located.
Furthermore, at noon there can be some direct irradiance on a north facing array if the sun is at a higher angle than the array pitch i.e. in summer. This effect is exaggerated the further south one is located.
I have been mulling the advantage of adding an array to the north facing roof of my house (I already have arrays on the south of the house and east and west on a detached garage). At the moment I am hesitating because the north is the street facing side and would affect the look of my house

With the prices dropping, it’s getting to the point it is cheaper to build fence panels out of bifacials instead of wood, so basically from an install perspective if you don’t mind the asthetics, put a panel there… please though, solar roadways will NEVER be viable 😂

Hi Gary. Now argument about panels facing away from the sun. But the problem now is the cost of battery storage. As we all have seen, batteries are now below $100 per kWh storage capacity and yet a contractor quoted me a price for a Tesla 13.5kWh power wall 19 times this price. Something is wrong in the supply chain.

I've got a matched north/south ish array on a shed. Shallow pitch: 22.5 degrees. North manages something like 68% of South over a year. The really interesting thing to me is that on an overcast flat light day i.e. a day when you are struggling for power they generate almost exactly the same energy over the day.

Excellent news. I would consider a video on the performance of different manufacturer’s panels in the same location in dull weather so the panel manufacturer choice for the north slope in ambient light might be different to the south slope panels?

My stats over the last 12 months (Southampton):
SE 1.17 kWh/day/panel average.
SW 1.03 kWh/d/p av = 88% of SE.
NW 0.72 kWh/d/p av = 61% of SE.
On overcast days (when you really want max solar) all panels produce the same amount of energy from the diffuse sunlight.
Also, if exporting on Flux then the NW are generating when the value of electricity is at a maximum in the evening, so I would estimate that my NW panels have produced maybe 70-75% of the value compared to the SE facing panels. I have 17SE, 2SW and 12NW x 420 Watt panels. I probably could have squeezed on another x8 on the NW roof and slightly regret not doing so.

This is very interesting. I have no usable east, west, or south roof space and have taken to putting the panels on my shed. But this suffers a lot of shading issues due to very high trees in the neighbour's garden to the east and opposite the property to the west and being relatively low down. All the same, these modern panels and the use of microinverters means I do get usable generation, but having watched this video, I'm very tempted to put a second array on my north facing roof.

Great video as always, thank you. Cooler panels on the north side may have helped, also they may have got more light at the cooler times of the day.

I live inPhoenix Arizona and my northern facing array generates about the same power during summer as my southern one, because the sun is almost directly overhead. There is quite a bit of drop-off in winter on the northern array, but I don't care since my AC isn't running I generate way more than enough power.

On the one hand I wish I had known about this 18 months ago when we got our solar installed. In the early morning and late evening our North facing roof receives plenty of sun.
On the other had our inverter shuts down dozens of times a day in peak summer because of over voltage protection because the infrastructure in the street can't handle the amount of energy generated at those times.
So in that regard we already have plenty of solar. What we really need is an affordable battery and properly integrated software to coordinate generation/consumption between the solar, the heat pump, the EV charger, home automation system and potentially battery.
Unfortunately I've been very disappointed by that. Officially all of the products we got are supported but it's still not working together correctly. And getting support from the vendors has been gruesome.
I live in Belgium, so rules/legislation and available companies are somewhat different here.

In 2011, we built a solar system with 560 kWp in Germany with orientations in all four sky directions, south, north, east and west at a roof pitch of 15°, which we still operate today. The northern roofs have an annual yield of around 800 kWh/kWp, the southern roofs 1000 kWh/kWp. Even today I ask myself why it takes so long for the obvious to be implemented?

Apart from the matters mentioned below, another one may be the reduced efficiency of panels that happens as the surface temperature rises. I’m familiar with this, with a group of SSW panels. On hot days around mid Summer, they are a lot less efficient than a typical Spring day with sunshine and showers, and are well within the capacity of the inverter. So, the south facing ones are probably affected by this feature compared with the north facing ones, which may well be cooler much of the time.

Spot on Gary. I plastered my entire pure N facing roof with 12 panels a few years ago. Here in Dublin, the return is 55% of pure S facing, so very close to the percentage you got. I got the panels for free as the frames were dented and I did the install DIY with the help of a roofer. They have already paid for themselves and will continue to contribute. I live in a small semi-detached house but with my 44 panels and 80kWh battery and two EVs, I am already energy emissions neutral (I generate 14MWh per year)

Amazing. Thanks for this info.

You still have to consider the individual characteristics of each installation . As well as the pitch of the roof, the individual shading at the ends of the day . A steeper pitch will generate less at midday even in summer , a flatter pitch will get much closer to the south array. But a steeper pitch will do better at the ands of the day when the sun is lower but then shading is more likely to be an issue. In Oval Renewable's example the pitch is relatively flat , but also the front roof is shaded by neighbours at the ends of the day whereas the rear north facing roof which is not shaded will pick up early in the morning and hold later in the evening in the middle months of the year. In this particular case that will compound the advantage of the north array. It's pretty much the ideal case for a north facing array .

I had a similar discussion with my installer over whether it was worthwhile to put a relatively small number of panels on the east and west facing parts of my hipped roof . For me it was a no brainer as I'm limited in number of panels on the south roof by the hipped design and the east/west roofs aren't at all shaded for 80% of the year. Installers concern was disproportionate increase in install costs vs. the number of panels , which is true, but has def. been worth it.

Where you are on earth makes a big difference. I am currently at 12 degrees north from the equator. My roof is facing south-east. This video is very interesting for me because in winter the sun is in the south and in 'summer' for a few months it is in the north. My roof is only at about 10 degrees angle. I am confident now, that I will get enough sun year-round.

Does SolarAzma suite cope with vertical installation and solaredge optimisation?

Our roof is located in an area with a lot of cloudiness in the transition period between October and March. In diffuse light, my 16 panels on the north side produce just as much as those on the south side. And in summer the sun rises at 45° East. This means I have electricity earlier in the summer.
I like my occupied north roof.

Panels so cheap now the cost of scaffold labour and cable is almost negligible in the grand scheme of things adding more panels makes sense

They should probably develop north facing panels with prism lenses to bend light from the south, so it’s perpendicular to the panels, especially for spring and autumn months.

That was a great video - most of us in the UK have small roofs so makes sense to fill it up. Even if you only get half the generation, thats still adding a third to your overall home’s generation which can have value if you have good export options and helping to cover baseload usage in dull/winter days

For fixed pitch,you need lower pitch lower pitch the nearer you get to equator.

I think these northfacing panels don't attribute positive if you also do have south or/and east facing panels. Because they only ad up to the surplus of summer over-production.. In the first graphs it's shown that the northpanels do the worst in wintertime.. compared to the southpanels. I think because the wintersun is too low to get over the top of the roof.. And is coming up south-east and going down south-west. So the sun is not getting "around the corner" !
It would be better to supplement east or west panels to a southfacing installation (if possible). Or wall atached south-facing 90 degreees up panels. So you will catch more of the low angeld wintersun.. So you will add up more to winterproduction..

Hi Gary. Yip, it’s in the data books. True north against south at 35 degree pitch equals 55% of year round generation. North facing panels should never be overlooked. At home I utilise north facing panels and panels on a flat roof, summer generation ( no export limitation) pays for all electrical usage, heating and 9000 ev miles.
Yeah we have a lot of battery storage and a good import tariff. Your point is good, north facing panels work 😊

I have installed 6.3kWp on our south roof, and 6.3kWp on our North roof, 12 panels on each, and a roof pitch of 23 degrees, the last 31 days the south has generated 105kWh with max power of 3831W, and the North has generated 54.66kWh with max power of 1366W, so this confirms the findings, basically the North generates approx 50% of what the South roof generates give or take. I am however expecting the North to generate a better % when we get to the Spring and summer as the sun will be higher in the sky, and as we have a low pitch on the roof, should get more sun hitting those panels than a house with a 45 degree pitch, system has only been on for a couple of months though hence not much data. Battery is a game changer, we have 32kWh battery which will store any excess production the panels produce in the summer

Pretty much the same results I'm getting. I have East, South and North panels over 5 roof faces totalling 8kWp. Went live on 28th June and have so far hit 2912kWh. This is with 4 of the panels are in a North/South valley (2 panels on each face) and even with the additional shading they are still working well. I'd say the rule of thumb should be to just fill roof to the extent of you budget, starting with the most optimal faces first.

Will microinverters on north roof be more effective?

Im only using on average 8kW a day, thats inder 3000kW a year. He is generating over twice thr juice to rim my house.
We are fare form energey efficient either. 7 of us in thr house, 2 dogs and a tortoise. Many devices, tv, consoles, laptops electric shower, hob, oven etc...
Im assuming this house has an ev?

Your solar fun will kick off in about March 2025

Our roof faces north and south. Had a guest who is an electrical engineer and installer tell us to install on both the north and south sides. We are in a hot part of the world and have a lot of visitors in summer. We heat in winter mostly with a wood stove, and run the heat pump cooling for much of the three summer months. And just having the panels on the roof will cool our house by 5 degrees. Just installing the panels and not hooking them up would probably be a fifteen year payoff!

Tech has come a long way in the last 12 years or so. Installing north and south facing panels with a single MPPT would have killed your production. Now, you can have as many aspects as you have MPPT inputs without needing optimisers. Just 2 years ago I paid as much for an optimiser on each of my panels as a 400w panel costs today! Breaks my heart

Why over complicate ? Roughly speaking north facing panels yield 60% of energy yield of identical array facing south. East or West facing arrays yield about 80% of an identical array facing south. One can easily work the energy yield in these situations quite easily using PVGIS or similar websites.

V surprising! I would have expected more like 25%

This is an interesting point and I was thinking of adding panels to my NE facing roof as I already have the SE facing roof full.
Only thing is I recently installed a battery system that can provide all my daily electrical needs from half price night time electricity so the majority of generation would be exported at only 10p. As I'm paying 14p for the night electricity the difference is only 4p. Maybe a little more if I count inverter losses but I'm not sure that the maths would add up to adding more panels.

Unsure if this has been considered but we find that the north facing side of our roof generates a thick moss covering which the South facing side does not, spoke to our solar provider (who installed out south facing panels and with whom I am discussing regarding adding north facing panels) and he advised the north facing panels would need to be cleaned once a year

Why aren't all new builds built south facing with a mono-pitch roof? Seems logical

🙏 Thanks for your analysis Gary and on this subject I have a few things that I would like to say.
Unfortunately, I cannot compare my system with any of the ones you have discussed for one reason but I'll come to that in a minute.
The first thing that strikes me though is that all of these installations are based on conventional domestic inverters normally only featuring one internal MPPT which has to deal with two different orientations (please correct me if wrong)
We know that this is not the optimal solution as the MPPT has to combine the two sources and average them out so, in your example, the south facing modules would produce marginally more if they were handled by their own MPPT and that obviously applies also to the north facing ones too.
Back to the first reason why I cannot compare my system to any of these which is due to the fact that they are all grid-tied as opposed to mine which is totally independent, at least for the moment.
But just to let you in the picture, I have installed 15 modules on a ground mount, fully adjustable from a summer 28° to a winter 72° in order to potentially maximise the generation and an extra 5 fitted on the roof of my solar shed at a mere 15º.
This also allowed me to confirm what you have just said and, namely the fact in this country the Sun is not always shining as much as it would in Italy where I come from, as a result of which, especially in the winter, they seem to produce more at an average angle, somewhere between 30º and 45°.
The production from the 415W x 20 panels doesn't get anywhere near the figures that you mentioned even though I have two independent and expensive MPPTs, one for each orientation.
Since my system does not export and therefore cannot maximise the usage of the Sun, particularly during the summertime when there is an abundance of it, my 20 kWh batteries are constantly between 80 and 100% throughout the good season and this is probably reflected in the much lower annual readings obtained (around 4500 during the first 11 months), basically use it or loose it.
Unfortunately, I have not yet been able to remove some sheds that obstruct the sunlight in some parts of the year so that also accounts for some of the losses.
I’d like to share with you a brief video (unlisted) of my setup which I have constructed myself even though I am practically new to the game and you will soon realise the cost of it is somewhere between 2.5 and 3 times as much as some others like the one in the UpsideDownFork video, far too much due to my age (72) but I did it mainly as a learning experiment.
Once again thanks for all your videos which I have been following with interest for some time now.
th-cam.com/video/lExITYwRQOc/w-d-xo.html
PS) Please forgive my accent in the video.

I also just noticed about the generation in the winter, you say its only about 10% of the generation of the South, well my generation over the last 30 days has been about 50% of the South, so I think that calculation may be under calculation for the winter months, My panels are not exactly N and S, the South are slightly tilted towards the West, and the North to the East, so that may be the reason why, but I dont think so.

So his north facing array wasnt actually north, and it contained far more panels......than the south facing. yep, well worth it!

Great vid, well presented info. Will definitely consider the NW facing roof I have, another 10x430w panels should fit there....hmmmmm.... :)

Excellent overview, thanks.

Gary forgot Northern Ireland on his map, tut!

My west/north panels to well. The biggest problem is the suns height. Even when the sun is good it is too low to hit the west panels well and in mid to late afternoon it is too low to get above the other houses. I look forward to the clocks changing each spring/

They've always made sense.

Interesting video. Next, it would be insightful to explore the performance of panels installed on walls facing west or east. Many still overlook fundamental principles of physics in such discussions. The critical question remains: what is the cost versus return if these panels are considered purely as a financial investment?

This is a fascinating topic. I had assumed any basically North facing roof would be hopeless for Solar PV.
This shows that assumptions need questioning with real evidence ...
If we get much warmer summer temperatures, no doubt that North facing rooves may be useful interns of operating air conditioning, which is still relatively unusual in UK.
Best wishes from George

Try Bi-facial panels vertically mounted.
The back side can pick up from ambient light. ( especially if the back side is a lighter color. ).

Just remember, Fork is down South. Where you in the Country will have a massive bearing on yield.

You need to compare generation for an average summer day between the N and S facing panels. That will show why the N ones contribute more in summer (early morning and late afternoon). This may be useful for some people but if you are already generating more than enough from your S facing array, then you will be sending it back to the grid (or batteries) and then the economics depends on your tariff. In the winter the extra generation is much less but may be of interest if your S array is limited.

I think the biggest factor in a north facing array is the pitch of the roof. If it is a gentle pitch (under 30 degrees), then the north array will get some direct light in spring and autumn, and lots in summer, not just ambient light. I have an east/west roof myself, 23 degree pitch. If it was north/south, then the north array would be effective most of the year. If the pitch of the roof is strong (say over 40 degrees) then the only direct light will be in summer, and the overall generation would be far less. Try modelling a northerly roof in PVGIS with a very gentle pitch versus a very strong pitch, and you'll see the difference.

I have been following the two TH-camrs you mentioned also my neighbour has a north facing array. I am now convinced enough to put them on my north facing roof next year. I have a south facing array installed in 2011. With advances in technology etc over that time I predict the north will produce as much solar as the south lets see 😀

Definitely have panels all round.....
I have 4 panels ~25' (NNE); 3 panels ~115' (ESE); 4 panels ~205' (SSW).
(30' pitch, Region 7E) 4.83kWp
I've only had these since early October, but can already see that the decision to include the north has been the right one.
Yes, as we approach the solstice you'd think you wouldn't bother with any of them, however I've seen some surprising days. On average, so far, I've seen the NNE generate about 20-30% of what the SSW produce. My ESE is fairly masked by the (close) house next door, but they do come alive again a bit later on. With the sun now so low, even my best panels are poor as they are masked by houses on the next street. I've been taking daily LUX measurements at about the same 'start of day' time to help reviewing my generation log.
So far, my bigger 'winter season wins have been from battery charging in the cheap rate period, and deferred washer runs to that time. My costs are about 60% of normal due to all of this. I've not yet really decided on tariff as it's all new to me, so I started on Flux for a start. (I have a PHEV, but neither it nor the charger match the Go tariff).
My feeling on battery size is that I'd aim for about twice your average daily usage for battery capacity. So for me, I'd want 2x10kWh. I have a PW3 (at 13.5kWh) and will be adding one expansion pack when they become available next year ~ Tesla say they are due Q1-2025 in the UK.
Thank you, and all the other TH-cam channels for your combined advice.

One more reason why north facing panels yield relatively more energy in the summer compared to to the South facing is due to South facing panels heat up much more than North facing panels - so there is a loss due to temperature that occurs on southern angels which northern ones wouldn’t incur (or incur much less of it)

Recently seen a video about Solaflect EV Charging. Their unit is mounted on a pole using stay wires to transfer most of weight to pole allowing for lighter frame. It follows the sun. If we could place units like this on new housing, it would not add weight to roof, pole could be in center of house allowing for short runs from batteries saving on cabling costs. Bifacial panels and a white roof would increase performance.

I have almost exactly what you are looking for. I have a 3.2kw South facing array and a 4KW North array: I would be happy to share the real world data with you.

I think OK but remember you get a lot extra in summer when you dont really need it and not a lot in winter when you do need it so I think it's good for some but not all.

But I bet that 50% is in the summer, when you don't need it, and zilch in the winter, when you do need it.

There is another greatly missed calculation that needs to come into this and that is your Latitude, I am in the southern hemisphere in Australia and at about 33 degrees, I have just gone off grid, but for 14 years was grid connected and had arrays that were east, north and west, between the north and the other two arrays, the north was only 10% more output

Another great lesson for a caveman like me - keep it up Gary; superb content!

That's not quite right. Given a fixed budget to cover only one side then S facing panels is the obvious choice. If you have a budget to fill your entire roof N and S then you will get a bit more generation. Whether it is economic to do so is another question. Nobody would put panels on the N side and leave the south side empty.

Brain exercise. If my home is at the north pole, which produces more annual energy, north or south array? If my home is at the equator, which produces more annual energy, north or south array? If my home is at 45 degrees do entire roof?

I've started looking at this myself for my garage roof after watching UpsideDownFork. And I agree... I think it's worth doing though I would like more data on the summer/winter differences. His data was whole-year, but that will skew towards summertime operation.