L4sBotDebunking The "Dirty" Solar Panels And Battery Myth
TheWonderfoolNice article.
I feel though that, as many others, it compares the carbon footprint of production (panels and batteries) vs the footprint of burning only. By looking at the source of the carbon footprint, it seems that they take into account only the CO2 output of the energy factories, but extraction, transportation and storage has a non-negligible carbon footprint.
Most of those comparisons are done in bad faith. As you said, they compare the whole chain for renewables/electric cars/windmills (parts of that chain could be decarbonised down the line anyway) to just the burning of the fuel, forgetting about extraction, exploration, transport and refining. Before you even get to the stage where you’re burning fuel in your engine, there’s been multiples of the CO2 and other greenhouse gases emitted already.
And they’re pretty big differences. Burning a cubic meter of natural gas produces 1.7kg of co2, but producing and transporting it adds another 0.3kg to that. (In the Netherlands, at least, ymmv).
For something like gasoline or diesel, co2 emissions from well to tank is something like a quarter of all emission.
What is the carbon footprint of me covering my roast chicken in fucking aluminum foil and then throwing the foil away because it has grease on it and can no longer be recycled
Apparently just don’t cover it in foil
I don’t do it but it does make it a little bit crispier without drying it out
Ok fine, I roast the chicken on 350 for 45 minutes then 425 for 45 minutes then if I am feeling fancy put tin foil on the roasting pot and cover for 15 minutes, but usually I skip the tin foil and throw in already cooked potatoes carrots garlic onions etc
Of course it’s possible recycle aluminum covered in grease. It has to be cleaned before recycling though. Incineration is often used for getting rid of the plastic layer in soda cans and it’s possible to use the same method for fat too.
that guyUse a baster like a master
Alton Brown debunked basting decades ago.
Dirty foil can still be recycled at most recycling facilities now.
ZoboomafooOnly if the grease is super baked on, I don’t know how you roast your chickens but when I do the foil is fine to recycle
Check your county recycling for updates. My county recently changed to don’t recycle aluminum foil if it touched food.
Doesn’t make sense to me but that’s their new rule.
dtchas grease on it and can no longer be recycled
You’re thinking of cardboard. They melt Al scraps down at like 1300°c and any organics burn off or are removed as slag.
Like the OP, my county changed it’s rule and said do not put aluminum foil in recycling if it has any food residue on it.
Check your county recycling. You might be surprised what has changed.
I would certainly love to see a floatglass, aluminium and silicon production facility powered by renewable electricity only. And the previous steps in the production supply chain.
The problem with renewables aren’t that they are dirty. It’s that they’re not self sustainable, while we’re running out of fossils and minerals.
Mining/extraction of lithium is extremely destructive to the environment. This article gives a general overview of our predicament with having such a strong dependency on lithium for batteries: …climate.columbia.edu/…/the-paradox-of-lithium/
…columbia.edu/…/stop-calling-green-energy-clean/ goes into more depth with how much pollution mining/extracting lithium generates.
I don’t see it discussed nearly enough that finding an alternative to lithium should be among the top priorities in research.
People are looking for alternative to lithium batteries. Unfortunately the world does not stop while we’re looking.
This guy does a ton of videos on battery technology that is prepping for the market. One of the biggest things he mentions in every battery video is that we need to stop looking for a silver bullet and that all of the technologies have their place. Flow batteries are amazing for industrial/grid-scale storage, lithium-ion is good for small consumer electronics, and betavoltaics could be used for low-power sensors that are becoming quite prevalent. It is going to be a challenge of figuring out the right answer for a given class of situations, not one of finding the best battery.
Nice, I’ll check out his channel!
I’m surprised I never hear about Nickel–iron batteries for solar storage in pop media. Long life span, common metals, wide temperature ranges. Seems perfect for household/small industrial storage, but instead, people are strapping Musk’s lithium bombs to the sides of their garages.
Check out the channel I mentioned, I think he has several NiFe battery videos.
In small scale old truck/semi batteries are pretty good energy storage solution.
Not good enough for round the year use in transportation, but quite usefull in small scale energy storage. (I have a set of 10 attached to solar panels at summer cottage. Enough to run 12V lighting, fridge, fans and tv through the (short) night).
I don’t see it discussed nearly enough that finding an alternative to lithium should be among the top priorities in research.
Like the Italian startup with their massive CO2 battery? It was reported a year ago.
The article focuses entirely on the CO2 spent, and uses a pretty high number for batteries, taking nearly a year of daily use and clean charging to offset versus gas
They found it, sodium
ToRAWhere’s our slrpnk.net people?