| ▲ | hbarka a day ago |
| The Powerwall system prioritizes filling up the batteries first. I assume it will take pretty much your entire solar day to fill your three batteries so why didn’t you choose the model that fills up your buckets as the first priority? I think the rule is “optimize on hourly storage” and the hourly production should follow that requirement. Doesn’t the 74% give you a bigger area under the production curve than the 72%? |
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| ▲ | gridspy a day ago | parent | next [-] |
| Bear in mind that charging and discharging batteries has an efficiency penalty - perhaps 98% efficient for each. So 74 stored is worse than 72 used directly because 74 -> 72.52 stored -> 71.06 discharged. And usually the efficiency is much worse than 98%. Oh, and also batteries such as the tesla power wall can only be charged and discharged about 1000 times before they have lost a lot of capacity. So generating when you use also makes your batteries last much longer. You could think of this as a cost of battery depreciation per kWh stored. |
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| ▲ | cogman10 a day ago | parent | next [-] | | That 1000 is for NMC batteries and its a 70% capacity. Still enough to be useful. Also, there's a lot of factors that go into play. For example, this assumes the batteries are fully charged and discharged. If you do something smarter like going down to 40% and up to 80% then they end up being able to do a lot more cycles. In fact, battery age starts mattering more than the cycles. But besides that, LFP batteries are currently being used in home battery storage (including powerwalls) because it's cheaper and it has 5000->10,000 cycles before dropping to 70% capacity. Generally, though, I'd agree that having more generation throughout the day is better than having perfectly optimized generation. | |
| ▲ | ziga 10 hours ago | parent | prev | next [-] | | > Oh, and also batteries such as the tesla power wall can only be charged and discharged about 1000 times before they have lost a lot of capacity. Powerwall's cycle life is much better than 1000. The Powerwall warranty guarantees 70% capacity after 10 years of daily cycles (i.e. 3650 cycles). This means they expect the capacity to be substantially above 70%. We posted an analysis of Powerwall capacity retention:
https://www.netzero.energy/content/2025-02/powerwall-analysi... | | |
| ▲ | bigiain 9 hours ago | parent [-] | | > The Powerwall warranty guarantees 70% capacity after 10 years of daily cycles (i.e. 3650 cycles). This means they expect ... to have pulled some corporate restructure which leaves a bankrupt legal entity responsible for the warranty claims before they start costing any real money. |
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| ▲ | hbarka 21 hours ago | parent | prev | next [-] | | The Powerwall solar controller prioritizes the home before sending surplus to the grid. And in the home, the controller will send power direct to any running load first, then to the Powerwall battery. Any spillover then goes to the grid. It’s very dynamic. I would go with the algorithm to “capture the rain into my rain buckets the moment I can” because the rain could stop. Solar irradiance is unpredictable. | | |
| ▲ | mgiampapa 21 hours ago | parent | next [-] | | If you have time based billing you can also input that into the system and it's even more effective. For example, if you tell it that electricity is cheap from 9am - 5pm (peak solar) and expensive from 5pm - 9pm (peak residential demand) it will take your trending consumption and decide when your solar production isn't keeping up with foretasted demand and let you charge from the grid to at the cheap rate to make up the shortfall and minimize cost. It even factors in things like grid charging speed and total site usage limits, which are great given my 100amp panel. | | |
| ▲ | OptionOfT 21 hours ago | parent [-] | | The charging the battery from the grid on its own is interesting in spaces where the TOU between 4-7pm (or whatever yours is locally). Here it is more than 3x, so if I can charge a battery and run off of that for those 3 hours, I am saving money. And it's not that I can lose money, a charge in the battery doesn't become stale. | | |
| ▲ | gridspy 20 hours ago | parent [-] | | Don't forget to account for the additional battery wear from extra charging and discharging. However your cost saving probably exceeds the wear cost. |
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| ▲ | dzhiurgis 19 hours ago | parent | prev [-] | | > Solar irradiance is unpredictable Except in my case it is! I wanna do most of my charge at noon when I'll have far more than I can export. Export first, then charge! |
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| ▲ | standardUser 19 hours ago | parent | prev | next [-] | | That strategy make sense if you're goal is longevity for your first battery units. But with most early-adopter, often the attitude is to know you'll be upgrading somewhat frequently (3-5 years) due to rapid advances in the tech, until more advanced offerings come around that could least 10-20 years. | |
| ▲ | kylebenzle 19 hours ago | parent | prev [-] | | [dead] |
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| ▲ | freedomben 21 hours ago | parent | prev | next [-] |
| Excuse what might be an ignorant question, but is the difference between 74% and 72% significant? At a big scale it certainly could be, but at the scale of a single family (or even small-ish multi-family) home I would think it wouldn't make a lot of difference, but I'd much appreciate a correction |
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| ▲ | Aeolun 18 hours ago | parent [-] | | I think the efficiency figure is the one the tesla engineers used. The one that he used is that he’d rather have optimal generation from 1-6pm than from 7-12am |
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| ▲ | cptskippy 18 hours ago | parent | prev | next [-] |
| > The Powerwall system prioritizes filling up the batteries first. I think it depends on how you've configured it. My never charges the battery up from solar. I think it estimates how much power you'll need based on the configuration and charges accordingly. I've noticed on hot summer days mine will charge a bit in the morning then stop, then in the afternoon when the AC kicks on and off it will charge between AC cycles. |
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| ▲ | dzhiurgis 19 hours ago | parent | prev [-] |
| This is annoying approach. Mine is not Powerwall so I have to try to play with HAs scripts to only charge battery on excess solar - I have far more panels than I can export, and inverter (Deye) can only handle so much AC so excess DC needs to go into batteries. Trouble is you don't really know how much excess power you've got until you crank up battery charge current. |
