If you believe Hank Green (https://www.youtube.com/watch?v=325HdQe4WM4), a lot of recycled plastics aren't recycled the way I used to think they were (by shredding them, melting them down, and extruding them into new shapes). Rather, they're chemically decomposed into what's essentially raw feedstock, purified, and then re-synthesized into new polymers.
That's pretty energy intensive, to the point that it may be better to just use new feedstock (which is produced as a byproduct of oil and gas extraction). There are obviously higher-order effects to think about, but for me, plastic recycling isn't an obvious win for the environment.
I think we’ve more or less debunked plastic recycling, as nothing more but a way to make consumers feel good about purchasing things made of plastic.
We have to recycle plastic where we live — and do so happily —, but I often joke with my partner about where the plastic will end up, since she insists on first washing the plastic.
I see the point you are trying to make, but Energizer batteries are a bad exemplar for it. Even if all of the batteries are the exact same SKU, some of them may be 10 years old and some of them may be fresh from the factory. I've had this happen with several (perishable) products from Amazon.
That's an entirely separate but related issue - stock rotation has to be managed, and commingling (in theory) helps alleviate the issue. Removing it means that you may find quite old product sold alongside brand new.
(I suspect but have not proven that Walmart actually rotates UPCs/SKUs on identical product so they can remainder it out).
The people you're replying to aren't talking about converting from AC to DC or stepping voltage up or down. Rather, they're talking about grid stability. You can have mechanisms to convert from AC to DC and to step voltage up or down, but still have a unstable grid. We had a notable example of that last year: https://en.wikipedia.org/wiki/2025_Iberian_Peninsula_blackou....
One way to think about this problem is that our electrical grids are giant machines—in many ways, the largest machines that humanity has every constructed. The enormous machine of the grid is comprised of many smaller connected machines, and many of those have spinning loads with enormous mechanical inertia. Some of those spinning machines are generators (prime movers), and some are loads (like large electric motors at industrial facilities). All of those real, physical machines—in addition to other non-inertia generators and loads—are coupled together through the grid.
In the giant machine of the grid, electricity supply and demand have to be almost perfectly in sync, microsecond to microsecond. If they're not, the frequency of the grid changes. Abrupt changes in frequency translate into not only electrical/electronic problems for devices that assume 60 Hz (or 50, depending on where you are), but into physical problems for the machines connected to the grid. If the grid frequency suddenly drops (due to a sudden drop in generation capacity or sudden drop in load), the spinning masses connected to the grid will suddenly be under enormous mechanical stress that can destroy them.
It's obviously not possible to instantaneously increase or decrease explicit generation in response to spikes or drops in load (or alternatively, instantaneously increase or decrease load in response to spikes or drops in generation). But we don't need to: all of the spinning mass connected to the grid acts as a metaphorical (and literal) flywheel that serves as a buffer to smooth out spikes.
As the generation mix on the grid moves away from things with physical inertia (huge spinning turbines) and toward non-inertial sources (like solar), we need to use other mechanisms to ensure that the grid can smoothly absorb spikes. One way to do that is via spinning reserves (e.g. https://www.sysotechnologies.com/spinning-reserves/). Another way to do it is via sophisticated power electronics that mimic inertia (such as grid-forming inverters, which contrast with the much more common grid-following inverters).
Great explanation about the grid being a giant machine that couple smaller machines with each other. About your last point, the buffer, I think batteries (chemical and also physical) seems to be the main key going forward.
I actually have a patent in this space for demand response. I know. I was being a bit cheeky. Stability is still a concern as unstable loads and generation needs to be mitigated as well as properly phased.
The California Public Utilities Commission moved last month to prevent the shutdown of the Ivanpah solar concentrator. They cite data centers, grid reliability, and the state's clean energy goals as reasons to keep it online.
Is is essentially a SaaS version of what businesses like OSH Cut and SendCutSend have built? And are you doing just the quoting, or full shop management?
That's exactly what it is. But instead of keeping it as some proprietary tool for one shop, our goal is to make that same tech accessible and affordable for all shops. Not every fab shop is tech-first, and that's totally fine. We're building something that helps them compete without needing a full-time developer or a six-figure software budget.
As for your last question, we're not trying to replace any existing ERP or CRM systems. We're focused on delivering instant, accurate quotations through our own turnkey pricing model that helps job shops stay competitive day-to-day, manage payments seamlessly, and give customers real-time shipping options or an easy Will Call pickup if they're local.
He was at Microsoft for a few months, and Google for 16 years before that.
I worked pretty closely with him and his team for a bit at Google, and he seemed like a great human being, in addition to being a great engineer. I wouldn't read too much into a few-month stint at Microsoft.
That's pretty energy intensive, to the point that it may be better to just use new feedstock (which is produced as a byproduct of oil and gas extraction). There are obviously higher-order effects to think about, but for me, plastic recycling isn't an obvious win for the environment.
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