Hey all,

I’ve been wanting to change my shopping habits to be more local and environmentally friendly, and in doing so, have been looking at changing up getting a product I get regularly: soap.

I decided to swap from liquid hand soap to bar soap, and am planning on doing the same with bath soap as well once I finish using the liquid soap I have left. However, the bar soap I got unfortunately came with the bars individually wrapped in plastic, which kinda defeats the purpose of why I made the swap to begin with, and since getting it I’ve also been thinking about what to get that’s made closer to home to reduce emissions in transportation.

Now I’ve been greeted with two options. The first one is a brand made within the province. There’s minimal packaging, with the only packaging being a cardboard wrap-around strip for labeling purposes, it’s vegan, which is important to me as I want to have a more plant-based lifestyle, and I’ve used some of their products before years ago and absolutely loved it.

The second option is really interesting, but leaves me with some questions. It’s called “carbon capture soap” and is apparently made by connecting a device that captures CO2 from natural gas-fueled heaters and water boilers, which converts the CO2 to pearl ash for use in soap. The packaging is paper, it’s also vegan, and it’s not just made in the province, but in the city I live in. It’s sounds like a viable option, but I have some concerns.

My worry is that, while the idea of reducing carbon emissions like this seems great at first by reducing the emissions of natural-gas appliances, is that it doesn’t address the root issue with fossil fuels, and that in using carbon-capture products like this, I’m signifying with my dollar that I’m content in not transitioning from fossil fuels.

Was hoping to maybe get some thoughts, as I’m currently heavily conflicted and unsure about which to go with. Appreciate all help in advance!

  • WaterWaiver@aussie.zone
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    2 days ago

    As a general rule I hold suspicion to any marketing that claims that using CO2 (or other products of burning) is environmental friendly. The products you get from burning fuels are supposed to be useless and of low value, otherwise they are not burning them efficiently.

    To turn CO2 into potassium carbonate (pearl ash) you will need a lot of energy. Where they get this energy from is far more important than where they got the CO2 from. I would not be surprised if it is more environmentally friendly to make the pearl ash through a different process and ignore the CO2 rather than trying to convert the CO2 into pearl ash.

    Background chemistry

    Fuels are chemicals with a lot of potential chemical energy stored in them. They are generally considered (at a minimum) flammable or “reactive” in some way.

    When we burn fuels we turn them into products with very little potential chemical energy, mainly CO2. You cannot burn CO2 and get energy out of it, it is a “stable” or “unreactive” chemical. It has very little chemical energy stored in it compared to the original fuel.

    The difference in stored chemical energy between the fuel (eg methane CH4) and the products (eg CO2) is turned into heat and then electricity (via steam turbines). If your products are still reactive then you have not used them to their full potential and you will not get as much heat out as you could (not to mention improperly burned products tend to be toxic, eg carbon monoxide).

    Now let’s look at potassium carbonate (K2CO3). It’s a somewhat reactive chemical, it’s not anywhere as stable as CO2, you can observe this by the fact it readily wants to react with other chemicals (caveman test: put it on your skin and it will sting). CO2 is very stable and does not want to do much (caveman test: put it on your skin and you won’t feel it).

    To make K2CO3 from CO2 you will require energy input. Turning an unreactive chemical into a reactive one is a bit like the reverse of burning something. This energy will probably come from burning more coal or gas. I suspect it will require more coal/gas than making the CO2 did, so net overall you will probably be releasing more CO2 than you capture and turn into K2CO3.

    Of course if they’re using renewal energy (solar) for this step then this could be a net positive.

    My level of trust in the honesty of product packaging and marketing is pretty low and if they don’t mention it then they obviously don’t think it’s important. 🤷

    EDIT: I’ll also add that “carbon capture” projects (things that claim to get rid of or make use of the CO2 from burning fuels) are universally disasters or scams.

    EDIT2: I’ve taking some simplification liberties with the chemistry here. Technically CO2 isn’t completely stable, you can do stuff like make weak acids in water with it, but I do not believe anyone has found a way for that to usefully use up what we emit from burning fuels.

    • queermunist she/her@lemmy.ml
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      2 days ago

      Carbon capture, as an energy intensive project, can only work if it is directly subsidized by the government.

      If the government built fields of solar panels and wind turbines to capture carbon from the atmosphere then it’d work (to some extent), it has to be a project dedicated solely to capturing carbon with any byproducts only being sellable at cost for the government. There is no profitable carbon capture model, it can not be done by private industry and all attempts are 100% scams.