Very nice skanmyth. I wouldn't want to get on tbat top roof level. Did you photograph that with a drone?

My comments. A landscape panel in theory can start producing when 1/3 of the snow
slides off, which generally will uncover the first section (running the long way) with the
other 2/3 bypassed. However the available voltage will be only 1/3, so this will be
usable only if the inverter system can operate in that mode.

Second, I'm leaving a big gap between panels in the downhill direction, so the snow
only has to clear the short way across one panel instead of several. That never gets
mentioned, but will get built here eventually. I suppose that is only practical with a
ground mount.

This costs more? Yea, so does having panels covered with snow. Bruce Roe

I really can't believe what I'm reading . I agree with post 6 . OP the company that was telling you the landscape to be avoided if possible was right. But it can be done.
If you have a row of landscape panels going up the rails will be attached to the same 2 rafters in paralel . All the brackets on one rail will hit the same rafter . That is a lot of weight and stress from one row of panels on 2 rafters . What is required in this situation is to double up the loaded rafters in the attic so it eliminates the flex . Same goes for prefabricated trusses. There is no such thing horizontal trusses .
When your panels are in portrait you don't use the same rafter for the brackets , the top rail can be alternate / staggered ; if that's not posible for eny reason then the next row can , so you don't load the same rafter all in line up. Think of it you got a decking with the joists exposed , wich way are you going to sheet it up ? Paralel or across? Every survey I came across the structural engineer allowed for loaded rafters reinforcements on landscape and staggered loaded points on portrait.
Same goes for clamping on the short side , unless the frame is strong enough and the manufacturer specifies in they spec that short sides clamping is allowed. Otherwise you will leave the panel unsupported on its length and will flex more than permitted tolerances , hence snail trail and cell failure in the short future. Take a Lg 285 mono and compare it to a trina 240 silver C Chanel 40mm framed . The lg will flex like paper while the trina is solid. Not all panel frames are the same , to keep cost down some frames are less beefy than it used to.

Thanks for the info. I have a 36 cell panel I built have been using to test particular areas of roof to see production when I have a minute I will test your theory by covering with a cardboard bottom half for landscape and another test for portrait and will let you know if there is difference.

Generally sections of a panel each have a bypass diode; 3 for many panels. When a section
is entirely uncovered (snow), it can start to function. Sections partly obscured will be bypassed.
If you built your own panel, the sections will depend on how you wired bypass diodes. Bruce Roe

My big question is if there is a way to generate lets say 20% more solar power during winter months on landscape orientation installation why still portrait orientation is still popular my guess is if there is some cells are exposed to light and most of them are covered with snow the one's covered with snow would heat up and would quickly melt the snow away so another way it may not matter if its installed landscape or portrait for snow covered panels.

Out of 40 panels I will have 9 portrait panels I think during snow time I should be able to compare side by side for landscape and portrait how it generating power and how soon each one melting the snow away etc..

When I came on the scene, PV solar was designed for SW desert operation
on rooftops. I heard little mention of clouds and snow, and a roof could better
support portrait mounted panels.

In these parts there is a lot of snow and even more clouds. With a ground
mount the support is no longer an issue. Lately the price of the panels no
longer dominates the total installation cost. After a couple winters, I would
like to minimize the time spent clearing snow (at sunrise). No increased
energy production, but less work.

Sometimes evening snow hits still warm panels and slides down a foot or
so. If it only needs to slide a foot or 2 and onto the ground, the sun may very
well do the job next day. Or, I won't have to do so much pushing. Currently the
snow here must travel 10.5 feet over a couple butted portrait panels, which will
never happen by sun power, and is quite a bit of work for me. Experiments
have been and are still running here; lets see more results after more winters.

Bruce Roe

I know it would be a big expense for you but I would think if the panels were elevated higher
off the ground there would more space for the snow to slide off the panels and fall onto the ground.

Didn't read of this, so forgive me if this has been already mentioned.

While landscape uses more rail, it supports the panel the least. You see; the landscape mount has the rails running the length and the panel can bow, only being supported on it's ends. Portrait the panels are supported more towards the middle.

Most panel mfg. will list a much lower pounds-per-square foot for loading on a landscape panel mounted with length running rails.