Circular reasoning (Rolfe's solar energy system)

[QLeo]

Here, the issue is winter. Ask @QLeo about that. You can store enough solar in summer to keep you going, powering the night from yesterday's solar, and over the week you're fine. But in winter when day after day there's nowhere near enough, how do you store excess summer solar and use it then? How many MG4 batteries would you need?

QLeo has a wind turbine and a diesel generator, though I believe he's driving Goth Leo to the nearest charger and bringing back grid-derived electricity that way to run the house from VtL, rather than burn diesel. Storing excess summer solar for winter isn't yet practical.

However, I have no idea what it's like in winter in Australia. Is there still enough to run the house load, spread out over a week or so? You won't get enough to charge a car though, surely.

Yeah, we don't have a diesel generator, just a little petrol one, but until Goth Leo came on the scene, we'd need it perhaps a couple of times a week in winter. Goth Leo does make things easier as we can risk discharging the house battery deeper, then spend plenty of time on Leo's power to get them back up to a decent SOC rather than run a noisy generator.
As you say, long term battery storage at domestic levels is not really possible.
But Aus is much better off than we are for solar, possibly through the year. Even southern Tasmania is 18 degrees closer to the equator than we are, and we get most of our household power from solar for 8.5 months of the year.
But off-grid and feed-in systems are very different things, and priorities are very different. A case in point; someone in the electrical industry visited the other day and asked if we have panels on adjustable mounts. No, because I doubt they'd survive our winter gales. He then asked why the panels were at such a steep angle. It's because we're not seeking to maximise summer input, as one might if wishing to maximise feed-in tariffs. Instead, we want to squeeze more out of those shoulder seasons, so, if they're "optimised" at all, it's for those short times of the year.
Incidentally, and for a change, the person I was chatting with understood immediately why the house battery is a set of huge forklift 2v lead-acid cells - they can take the unpredictable charge regimes of an off-grid environment much better than lithium. But that may also be less of an issue in Aus, where sunlight may well be more certain than the far north west of Scotland.
Oops - got carried away - hope you didn't read this far...

 

[Rolfe]

Of course I read that far. It's extremely interesting (and not even long).

I'm not bothering to worry about the health of my home battery, on the principle that it's LFP and can probably take it. Also that battery prices are coming down so much that a replacement in some years time might not actually be all that expensive. (I have similar thoughts about my bike's battery, although I do try to look after it.)

In what way do you think lithium batteries are vulnerable to being messed around in an unpredictable way?

 

[T1 Terry]

I can see why you want to off grid!!!

Can you have a separate battery isolated from the grid for your own personal use?
One of those MG4 batteries would be fine.

That's the plan, but leave it in the MG4 and use it via V2L. The practice run will be with the motorhome and the 51 on the trailer. We have a 600Ah @ 12v sodium ion house battery.

I'll be setting up a method of charging the MG4 51 battery once the house battery is full via the solar on the roof, then turning on the V2L if the house battery drops below 30% SOC and turns off at 80% SOC .....

Well, that's the plan, the science is still lacking, but I'm confident any ideas I come up with will be shot full of holes as soon as I post them here and on the electric vehicle forums

For some reason, my V2L adapter plug I bought with the "fits every plug type in the world" output, doesn't trigger the load side and sees it as a charging plug .... so maybe there is a solution tied up in the fix to get the adapter to work ......

Other jobs to get finished before I pull the adapter to bits for a peek inside .... like finishing wiring up the control box (my own designed and built BMS), and the new Victron 5000 VA inverter/charger.

[ Edit moderator: 5000kva -> 5000 VA ]

T1 Terry

 

[decrep]

That's the plan, but leave it in the MG4 and use it via V2L. The practice run will be with the motorhome and the 51 on the trailer. We have a 600Ah @ 12v sodium ion house battery.

I'll be setting up a method of charging the MG4 51 battery once the house battery is full via the solar on the roof, then turning on the V2L if the house battery drops below 30% SOC and turns off at 80% SOC .....

Well, that's the plan, the science is still lacking, but I'm confident any ideas I come up with will be shot full of holes as soon as I post them here and on the electric vehicle forums

For some reason, my V2L adapter plug I bought with the "fits every plug type in the world" output, doesn't trigger the load side and sees it as a charging plug .... so maybe there is a solution tied up in the fix to get the adapter to work ......

Other jobs to get finished before I pull the adapter to bits for a peek inside .... like finishing wiring up the control box (my own designed and built BMS) and the new Victron 5000kva inverter/charger

T1 Terry

I wish you well Terry, seems like a must have bit of technology once you get it working. But 5000kva?? are you powering the whole suburb?

 

[T1 Terry]

Yeah, we don't have a diesel generator, just a little petrol one, but until Goth Leo came on the scene, we'd need it perhaps a couple of times a week in winter. Goth Leo does make things easier as we can risk discharging the house battery deeper, then spend plenty of time on Leo's power to get them back up to a decent SOC rather than run a noisy generator.
As you say, long term battery storage at domestic levels is not really possible.
But Aus is much better off than we are for solar, possibly through the year. Even southern Tasmania is 18 degrees closer to the equator than we are, and we get most of our household power from solar for 8.5 months of the year.
But off-grid and feed-in systems are very different things, and priorities are very different. A case in point; someone in the electrical industry visited the other day and asked if we have panels on adjustable mounts. No, because I doubt they'd survive our winter gales. He then asked why the panels were at such a steep angle. It's because we're not seeking to maximise summer input, as one might if wishing to maximise feed-in tariffs. Instead, we want to squeeze more out of those shoulder seasons, so, if they're "optimised" at all, it's for those short times of the year.
Incidentally, and for a change, the person I was chatting with understood immediately why the house battery is a set of huge forklift 2v lead-acid cells - they can take the unpredictable charge regimes of an off-grid environment much better than lithium. But that may also be less of an issue in Aus, where sunlight may well be more certain than the far north west of Scotland.
Oops - got carried away - hope you didn't read this far...

The brother in law lives in Tassie on the side of the Huon Valley, you can see the ocean at the very bottom tip of Tassie looking out his windows ..... well, when the clouds don't block it out ... it is Tassie after all

He lives completely off grid, about 5 kms straight up hill from the closest grid supply, and he is the type to shun any of that sort of "easy living" thing anyway

He built himself a 4 panel solar array, end to end along a length of water pipe, that is bearing mounted each end with the lower end adjustable up or down to suit the seasons.

The solar tracking is performed using an old tyre and wheel in a garbage can, with the vertical rod attached to a horizontal bar welded to the pivoting water pipe bar with the 4 solar panels attached.

When the sun comes up and supplies power from the panels, a tap/solenoid is turned on to slowly feed water into the garbage can and this floats the tyre and rotates the panels to track the sun.
Solar tracking is done with a plate with a 6" hole in the centre, mounted a set distance above another flat plate the same size ...... when the sun shining through the hole forms a circle that fits neat on the lower plate, the optimum solar is achieved ..... adjustment of the water flow sets the tilt speed throughout the day ..... at the end of the day, the supply solenoid turns off and the drain solenoid turns on and waters his vegie garden .......

Being on the most southern tip of Tasmania, the winds up that hill are tremendous ...... but a wind turbine isn't part of his plan yet .... gets enough from his solar and if needed, he turns on a tap to drain the spring trickle fed dam up the top of the hill into a Pelton wheel (like a wheel made out of teaspoons) attached to an old car alternator, and he tops the old telephone lead acid battery up with that ...... a true mountain man hillbilly

T1 Terry

 

[T1 Terry]

I wish you well Terry, seems like a must have bit of technology once you get it working. But 5000kva?? are you powering the whole suburb?

Ahhh... make that a 5kva inverter ..... and it will power the whole motorhome, HVAC, hot water, fridge freezer and possibly the MG4 51 charger ..... if I can't figure out how to direct DC charge from the solar ... depends how much trickery will be involved in getting the 400- 500vdc open circuit solar rigged up to converter 2 x 200vdc to 250vdc solar arrays in parallel to one x 400vdc to 500vdc in series .....

T1 Terry

 

[Archev]

The brother in law lives in Tassie on the side of the Huon Valley, you can see the ocean at the very bottom tip of Tassie looking out his windows ..... well, when the clouds don't block it out ... it is Tassie after all

He lives completely off grid, about 5 kms straight up hill from the closest grid supply, and he is the type to shun any of that sort of "easy living" thing anyway

He built himself a 4 panel solar array, end to end along a length of water pipe, that is bearing mounted each end with the lower end adjustable up or down to suit the seasons.

The solar tracking is performed using an old tyre and wheel in a garbage can, with the vertical rod attached to a horizontal bar welded to the pivoting water pipe bar with the 4 solar panels attached.

When the sun comes up and supplies power from the panels, a tap/solenoid is turned on to slowly feed water into the garbage can and this floats the tyre and rotates the panels to track the sun.
Solar tracking is done with a plate with a 6" hole in the centre, mounted a set distance above another flat plate the same size ...... when the sun shining through the hole forms a circle that fits neat on the lower plate, the optimum solar is achieved ..... adjustment of the water flow sets the tilt speed throughout the day ..... at the end of the day, the supply solenoid turns off and the drain solenoid turns on and waters his vegie garden .......

Being on the most southern tip of Tasmania, the winds up that hill are tremendous ...... but a wind turbine isn't part of his plan yet .... gets enough from his solar and if needed, he turns on a tap to drain the spring trickle fed dam up the top of the hill into a Pelton wheel (like a wheel made out of teaspoons) attached to an old car alternator, and he tops the old telephone lead acid battery up with that ...... a true mountain man hillbilly

T1 Terry

Love it. Nirvana always needs a persistent, inventive approach.