Ask HN: What can I do with extra electricity?
I'm looking at solar power systems, with the intention of eventually not being connected to the electrical grid at all and only having intermittent internet access.
In order to do that I need to over-provision my solar panels. Solar panels remain a lot cheaper than batteries, so for me at least it makes sense to get a lot of solar panels and only a few "hours" worth of batteries.
Let's assume that some sunny days I have an extra KW of power generation for ~8 hours. On overcast days I probably don't have any extra power, unless I'm not at home and can shut everything down.
What can I use the waste electricity for?
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[ 2.9 ms ] story [ 85.4 ms ] threadI'm probably going to go tankless propane for hot water heating though. Heating water takes a lot of power, storing hot water produces a lot of waste heat, and in the winter when I could most make use of that waste heat is when I'm expecting to not have much of a power surplus.
If I could get a hot water tank that was well enough insulated...
It's a good point, I'll need to do some math, and it would probably need to be in addition to some type of tankless/propane heater, since I still need to shower in the winter when I don't have as much extra power.
Make hydrogen (H2)with electrolysis. Need to found a good technology for that, and be careful hydrogen is very explosive.
Not sure what I'd do with a bunch of hydrogen. Fuel cells still aren't really a practical thing. I'd thought about maybe some kind of wood-gas biodiesel thing, but I don't know of any way to do that on a small scale with intermittent power.
What stops fuel cells being practical?
I think hydrogen storage is still one of the difficult parts.
Hydrogen storage tank seems to be available but keeping it all under pressure, i've not seen many people talk about that.
I also worry that I'd end up filling it up in town and using the power at home.
Still, it would certainly fix my battery situation...
You can save a surprising amount of money by just running the most energy intensive appliances during peak solar.
EDIT: I see it was right there in the first line of the post that the plan is to unplug from the grid. I would reconsider this decision. If you stay connected, you can share your excess capacity - if not then you use it or lose it. Why put yourself in that position?
Also most of it isn't going through an inverter, I'm using direct DC-DC, which is much more power efficient for what I'm doing. So that means more cost for inverters, which I'd consider paying even if at the scale I'm working at it would take years for the equipment to pay for itself, but...
You can't simply tie an inverter into the grid and sell back to the power company, as that could mean that during repairs lines they thought had no power were energized by some residential customer. You need special hardware that the power company can shut down remotely, and that's only available for larger customers.
Also I'm not sure if the price I'd be getting for that power would actually offset the monthly connection fee, making connecting to the grid and selling back extra power very likely cost more than just wasting the power, which is unfortunate.
So unfortunately grid-buyback that isn't really an option for me.
Which is why I'm looking at other options. I like the wood pellet one, in an ideal world I'd be able to do some kind of carbon capture or something, but I'm not seeing any good power-to-gas tech right now.
Let water flow out of it and power a turbine during times where electricity is needed.
Also I'm not sure that the amount of power I'd be putting back would actually pay for the basic connection fee. It would during the summer months, but during the winter it likely wouldn't, and seasonal connections aren't much cheaper.
I think that's generally the best bet if you can do it.
Is your utility Nova Scotia Power by chance? It appears they support net metering [2].
Everything I mention above will be cheaper than storage (which will start around $13k CAD).
[1] http://scitechconnect.elsevier.com/wp-content/uploads/2016/1... (AC disconnect in this image)
[2] https://www.nspower.ca/your-home/save-money-energy/make-own-... (Nova Scotia Power: Enhanced Net Metering)
Not sure if the economics would work out in your favor² but I personally consider going off-the-grid worth the cost.
¹https://www.tesla.com/powerwall
²subsidies: https://www.tesla.com/support/energy/powerwall/learn/incenti... (could potentially knock off 50% of the cost if you qualify)
I don't need any large AC inverters, so a big part of the appeal of a power wall is lost on my. Also I'd rather something with user-serviceable parts, as for me at least that goes hand-in-hand with going off grid.
background: this is second hand knowledge based on watching hundreds of videos people have made, documenting their experience and all the steps to go off grid, so this could be outdated. Learning every facet of this is one of my hobbies.
I've bought two different solar systems in two different states and the devil is in the details for your hypothetical situation. You need to understand average overcast days, ~90 percentile run of overcast days in your lowest intensity sun month, intensity of sun, angle of the sun, et c. Also, if you optimize for the worst days of the year, you could be reducing total energy output because your panels would be optimized for a lower sun angle.
Those numbers are a fair bit worse than the worst cases I was looking at, which assumed winter panels would be ~25% efficient on average....
So that assumes a 3kw system is producing around 4kw-hours per day. I'll need to see if that's realistic.
Do you guys get more overcast days? If so your panels may behave more like my place on the west side of the Cascade mountains near Portland Oregon. Looking at production on that 2.2 kW system for this January, I see a non-snow low of 0.4 kWh with an average daily production of 1.6 kWh.
Take a look at my January production, including some days with 0kWh production due to a dusting of snow:
https://i.stack.imgur.com/9qw18.jpg
That system is 6 years old.
So, IFF you get a system, your power storage needs to survive whatever is the longest run you can imagine (+50% ?) of days with overcast or snow coming down.
Another challenge is that the solar is part of an RV, which makes permanent grid tie challenging, but I'm definitely considering just "donating" it when I can at this point.
Power inverters need to be manufactured grid-tie style. They have a phase lock loop ( IIRC ) that ties into the phase of the grid and they need to not generate power if power is down on the grid in grid-mode, otherwise guys working on the lines can be electrocuted when they think they have turned off power lines.
Also, if you're donating back, you need to be concerned about amperage on that circuit and it needs to be dedicated, in addition to following all your local power code. If you just so happen to generate 14Amps net and then a device on that same circuit consumes 28A, then the panel 15A breaker may not trip, but parts of your circuit have 28 Amps flowing:
Energy storage, whether purchased batteries or built gravity storage is likely most useful.
Having consistent access to power through predictable reserves makes energy way more useful to you. You can do laundry at night, or run a heater, etc.
Storing energy allows you to adapt your power usage to your needs and preferences, instead of adapting your needs and preferences to power availability—which has daily and seasonal limitations.
You can't. That's really the end of it.
Lots have tried and failed. You can pick a fun project that you might get some skills from but it's not really a real answer.
It won't beat batteries which you've already spec'd out.
Best you have is move chores when you have extra electricity. Washing, download torrents, watch TV, run the pool pump, heat water, dry food.
https://solar.lowtechmagazine.com/about.html