The Rise of Point Absorbers

Show Notes

From the staggering potential of 29,500 TWh of wave energy to the nuts and bolts of point absorber wave energy converters, this episode shows how buoys that ride the surf can generate electricity, desalinate water, and power remote islands. We also dive into micro-scale triboelectric nanogenerators that harvest energy from tiny ocean ripples, and explore the idea of offshore energy parks where wind, solar, and waves share a single seabed backbone. Along the way we discuss the challenges of corrosion and cables, and why designing with the ocean's rhythms could transform our energy future.

Note:  This podcast was AI-generated, and sometimes AI can make mistakes.  Please double-check any critical information.

Sponsored by Embersilk LLC

Transcript

SPEAKER_01 0:00

So uh I was at the beach recently, just trying to stand perfectly still in the ocean, you know, looking out at the horizon.

SPEAKER_00 0:06

Right, just taking it all in.

SPEAKER_01 0:08

Exactly. And out of nowhere, this single like waist-high wave effortlessly knocks me right off my feet. Just a total yard sale.

SPEAKER_00 0:17

Oh no.

SPEAKER_01 0:18

Right. But sitting there in the shallows, spitting out salt water, I actually had this realization. This sheer relentless power of water is just mind-boggling.

SPEAKER_00 0:28

It really is. And you know, we're doing a deep dive into exactly that today because there is a staggering uh 29,500 terawatt hours of technically exploitable wave energy out there.

SPEAKER_01 0:39

Wait, 29,000 terawatt hours? That honestly sounds like a made-up number.

SPEAKER_00 0:43

I know, but it's real. And we're finally figuring out how to capture it using these things called point absorber wave energy converters or uh POWEX for short.

SPEAKER_01 0:52

Okay, so if there's that much energy just rolling onto our beaches every day, why are we only just now figuring out how to actually harness it?

SPEAKER_00 0:59

Aaron Ross Powell Well, mostly because the ocean is a notoriously harsh environment. I mean, you're dealing with extreme saltwater corrosion for one.

SPEAKER_01 1:06

Aaron Powell Right. The salt just eats through everything.

SPEAKER_00 1:08

Aaron Ross Powell Exactly. Plus, you have violent storms and just the logistical nightmare of maintaining subsea cables. So for a long time, the proposed solutions were these massive intrusive seawalls.

SPEAKER_01 1:20

Which I imagine are incredibly expensive to build.

SPEAKER_00 1:22

Oh, yeah. Expensive to build, extensive to maintain. But pawwecks kind of sidestep a lot of those issues.

SPEAKER_01 1:28

Okay. So what makes a pawwick different from a giant concrete seawall?

SPEAKER_00 1:33

So they are essentially just compact buoys. Instead of fighting the ocean's force, they just bob up and down with the waves.

SPEAKER_01 1:40

Oh, okay.

SPEAKER_00 1:41

Yeah. And in physics, that vertical motion is called heaving. So inside that buoy is a power takeoff system, a PTO, which converts that vertical kinetic energy into electricity.

SPEAKER_01 1:51

Aaron Powell, but how does just like bobbing up and down actually generate power?

SPEAKER_00 1:55

Think of it like a bicycle dynamo. As the buoy rides up the wave, that vertical pull drives an internal generator.

SPEAKER_01 2:01

Ah, like pushing magnets through copper coils and all that.

SPEAKER_00 2:04

Exactly, yes. It creates an electrical current.

SPEAKER_01 2:06

So it's basically a giant self-winding watch. You know, like the ones that power up just from the natural bouncing of your wrist throughout the day.

SPEAKER_00 2:14

That is a really solid analogy, actually.

SPEAKER_01 2:16

Except this is an ocean-sized watch powering our grid.

SPEAKER_00 2:19

Right. And because they're compact and just ride that surface pulse, they aren't nearly as tethered to specific water depths like the older systems were.

SPEAKER_01 2:27

Okay, the watch analogy makes sense for a wrist, but you know, the ocean is violently unpredictable. Where are these delicate components actually surviving and doing useful work today?

SPEAKER_00 2:37

Aaron Powell Well, right now, they are really proving themselves in niche off-grid applications. Because they're modular, they can provide independent energy to, say, remote islands.

SPEAKER_01 2:49

Aaron Powell Places where running cables from the mainland is just impossible.

SPEAKER_00 2:52

Exactly. They're also powering offshore aquaculture farms and even running desalination plants.

SPEAKER_01 2:58

Wait, really? Generating fresh drinking water right on the coast.

SPEAKER_00 3:01

Yep, just using the ambient power of the waves. It's amazing.

SPEAKER_01 3:04

That makes total sense for large buoys, but the source material for our deep dive also mentioned microscale Poleks. And they use something called triboelectric nanogenerators.

SPEAKER_00 3:14

Yes, triboelectric nanogenerators.

SPEAKER_01 3:17

Which honestly sounds like a gadget from Star Trek. How does a nanogenerator survive in the ocean?

SPEAKER_00 3:22

By scaling the physics down to a microscopic level, it's essentially harnessing static electricity. So think about rubbing a balloon on your hair.

SPEAKER_01 3:31

Okay, yeah.

SPEAKER_00 3:32

Inside these micropawwax, the tiniest vibrations from ambient water ripples cause specialized dielectric materials to rev together.

SPEAKER_01 3:40

Wow, so that continuous micro friction generates a small, steady electric charge.

SPEAKER_00 3:45

Precisely. We're using friction from tiny ripples to power things like autonomous underwater vehicles and ocean sensors.

SPEAKER_01 3:52

That's brilliant because it's completely set and forget. You just drop the sensor in and the ocean powers it indefinitely.

SPEAKER_00 3:57

It really is the ultimate form of automation in nature.

SPEAKER_01 4:00

Speaking of set and forget automation, that perfectly mirrors what our sponsor does. Just like these microgenerators passively power ocean tech in the background, Embersilk helps you automate your digital life.

SPEAKER_00 4:12

Oh, nice transition.

SPEAKER_01 4:13

Thanks. Whether you need help with AI training, automation, integration, or software development, or if you're just uncovering where AI agents could make the most impact for your business or personal life, check out Embersilk.com for your AI needs. It's all about working smarter, not harder.

SPEAKER_00 4:30

And that is the exact principle driving Ocean Tech right now, working smarter. But you know, to your earlier point about the sheer scale of the ocean, powering an autonomous sensor or a remote island is great. But how does this scale up to actually replace traditional fuels on a larger grid?

SPEAKER_01 4:45

Right. Because a few scattered buoys aren't going to power a major city.

SPEAKER_00 4:49

No, definitely not. But a multi-use platform might. The future vision here isn't just solitary buoys.

SPEAKER_01 4:55

Okay, so what does that look like?

SPEAKER_00 4:56

Imagine floating offshore energy parks. Yeah, wind turbines, solar panels, and pawwacks all sharing the exact same physical space in the ocean.

SPEAKER_01 5:04

Oh, wow.

SPEAKER_00 5:05

And more importantly, they're sharing the exact same sub-sea cables back to the mainland.

SPEAKER_01 5:09

Oh, I see. They balance each other out. Like if the wind dies down, the waves are usually still rolling.

SPEAKER_00 5:15

Exactly.

SPEAKER_01 5:15

And if it's cloudy, you still have the ocean current driving the buoys.

SPEAKER_00 5:19

You got it.

SPEAKER_01 5:19

Yeah.

SPEAKER_00 5:20

We can turn the ocean into an interactive multi-tool energy park without drastically increasing our physical footprint.

SPEAKER_01 5:26

That is incredible.

SPEAKER_00 5:27

Yeah. It totally overcomes the old problems of ocean engineering by designing with nature's rhythms instead of fighting them.

SPEAKER_01 5:34

It's such a highly optimistic way to look at our future, too, just capturing the natural pulse of the planet to drive innovation.

SPEAKER_00 5:41

It is. And it leaves you with an interesting question to consider too. If we can power complex machinery and generate fresh water simply by letting a buoy bob in the ocean's natural rhythm. Yeah. What other ambient, unseen rhythms around you right now are just waiting to be tapped?

SPEAKER_01 6:00

What a thought to leave on. The world is just buzzing with potential. If you enjoyed this podcast, please subscribe to the show. Hey, leave us a five star review if you can. It really does help get the word out. Thanks for tuning in.