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the algaray is designed to go across the surface of the water and take the sargassum into its cavity, much like it's doing with these ducks here. once it's full, it dives down to 200m, at which point the water pressure crushes the air bladders that keep it afloat and the sargassum sinks down to the seabed. there it's locked away for many hundreds, if not thousands, of years. the first version of the algaray was attached to a remote—controlled catamaran, whereas the final version is going to be a 10m—long submersible powered by green energy. bagpipes skirl. the whole thing is going to be covered in solar panels... 0h, 0k. ..so there'll be quite

Water , Sargassum , Algaray , Surface , Doing , Cavity , Water-pressure , 200m , Version , Thousands , Seabed , Air-bladders

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a bit of available energy to drive sensors. so in here already, we've got depth temperature and a camera on the front. and then, in the future, we'll be able to gather, like, information about wind speeds, temperatures on the surface and map everything. using this information, they are creating machine learning training data which will then enable the algaray to increasingly make its own decisions, such as coordinating with other algarays to gather the mats. but for now, it's time to test the second prototype. cheering. applause. that was relatively quick but that's not how it's going to be in the end? this is only going down to 3m, so it should actually only take a couple of minutes to go down. in the field, the whole thing would be a ten—minute cycle.

Bit , Sensors , Information , Surface , Camera , Wind-speeds , Depth-temperature , Front , Energy , Map , Everything , Machine-learning-training-data

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using this information, they are creating machine learning training data, which will then enable the algaray to increasingly make its own decisions, such as coordinating with other algarays to gather the mats. but for now, it's time to test the second prototype. cheering and applause that was relatively quick, but that's not how it's going to be in the end? this is only going down to three metres, so it should actually only take a couple of minutes to go down. in the field, the whole thing would be a ten—minute cycle. the aim is for it to be buried, to go into that long carbon cycle. it's sort of like saying, "we're making the oil of the future." anything that was oil was once marine biomass. so it makes a lot of sense to us to start using that as one of the pathways that

Information , Decisions , Algaray , It-s-time , Machine-learning-training-data , Algarays , Mats , Cheering , Prototype , Applause , Thing , Couple

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afloat and the sargassum sinks down to the seabed. there it's locked away for many hundreds, if not thousands of years. the first version of the algaray was attached to a remote controlled catamaran, whereas the final version is going to be a ten—metre long submersible, powered by green energy. the whole thing is going to be covered in solar panels, so there'll be quite a bit of available energy to drive sensors. so in here, already, we've got depth temperature and a camera on the front, and then in the future we'll be able to gather information about wind speeds, temperatures on the surface and map everything.

Sargassum , Algaray , Version , Thousands , Seabed , Hundreds , Bit , Thing , Solar-panels , Green-energy , Long-submersible , Catamaran

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they are building a semi—autonomous ocean robot to sink the sargassum and the co2 it captures to the bottom of the sea. doing so, they prevent sargassum from hitting shores whilst fighting global warming. the ipcc has projected, in their most optimistic pathway, which is 1.5 degrees or less, that we will need to remove, from the atmosphere, ten billion tonnes of carbon every single year by 2050, which would be, in terms of volume, the largest industry that has ever existed. if you're looking for a good place to put carbon, the deep ocean is perfect. you have more carbon than there is the upper ocean and the entire terrestrial sphere combined. the algaray is designed to go across the surface of the water and take the sargassum into its cavity, much like it's doing with these ducks here. once it's full, it dives down to 200 metres, at which point the water pressure crushes the air bladders that keep it

Sargassum , Ipcc , Climate-change , Ocean-robot , Co2 , The-bottom-of-sea , Atmosphere , Industry , Volume , Pathway , Terms , 1-5

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the whole thing is going to be covered in solar panels... 0h, 0k. ..so there'll be quite a bit of available energy to drive sensors. so in here already, we've got depth temperature and a camera on the front. and then, in the future, we'll be able to gather, like, information about wind speeds, temperatures on the surface and map everything. using this information, they are creating machine learning training data which will then enable the algaray to increasingly make its own decisions, such as coordinating with other algarays to gather the mats. but for now, it's time to test the second prototype. cheering. applause. that was relatively quick but that's not how it's going to be in the end? this is only going down to 3m,

Thing , Bit , Sensors , Energy , Solar-panels , 0k- , 0 , Information , Machine-learning-training-data , Surface , Camera , Depth-temperature

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that has ever existed. if you're looking for a good place to put carbon, the deep ocean is perfect. you have more carbon than there is the upper ocean and the entire terrestrial sphere combined. the algaray is designed to go across the surface of the water and take the sargassum into its cavity, much like it's doing with these ducks here. once it's full, it dives down to 200m, at which point the water pressure crushes the air bladders that keep it afloat and the sargassum sinks down to the seabed. there it's locked away for many hundreds, if not thousands, of years. the first version of the algaray was attached to a remote—controlled catamaran, whereas the final version is going to be a 10m—long submersible powered by green energy. bagpipes skirl.

Place , Water , Sargassum , Carbon , Algaray , Surface , Ocean , Cavity , Doing , Deep-ocean , Terrestrial-sphere-combined , Water-pressure

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to their advantage. they are building a semi—autonomous ocean robot to sink the sargassum and the co2 it captures to the bottom of the sea. doing so, they prevent sargassum from hitting shores whilst fighting global warming. the ipcc has projected, in their most optimistic pathway, which is 1.5 degrees or less, that we will need to remove, from the atmosphere, ten billion tonnes of carbon every single year by 2050, which would be, in terms of volume, the largest industry that has ever existed. if you're looking for a good place to put carbon, the deep ocean is perfect. you have more carbon than there is the upper ocean and the entire terrestrial sphere combined. the algaray is designed to go across the surface of the water and take the sargassum into its cavity, much like it's doing with these ducks here. once it's full, it dives down

Sargassum , Climate-change , Ocean-robot , Advantage , Co2 , The-bottom-of-sea , Atmosphere , Ipcc , Pathway , Terms , 2050 , Ten-billion

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and map everything. using this information, they are creating machine learning training data, which will then enable the algaray to increasingly make its own decisions, such as coordinating with other algarays to gather the mats. but for now, it's time to test the second prototype. cheering. applause. that was relatively quick, but that's not how it's going to be in the end? this is only going down to three metres, so it should actually only take a couple of minutes to go down. in the field, the whole thing would be a ten—minute cycle. the aim is for it to be buried, to go into that long carbon cycle. it's sort of like saying, "we're making the oil of the future." anything that was oil was once marine biomass. so it makes a lot of sense to us to start using that as one of the pathways that

Information , Map , Everything , Decisions , Algaray , It-s-time , Machine-learning-training-data , Algarays , Mats , Prototype , Cheering , Thing

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to 200 metres, at which point the water pressure crushes the air bladders that keep it afloat and the sargassum sinks down to the seabed. there it's locked away for many hundreds, if not thousands of years. the first version of the algaray was attached to a remote controlled catamaran, whereas the final version is going to be a ten—metre long submersible, powered by green energy. the whole thing is going to be covered in solar panels, so there'll be quite a bit of available energy to drive sensors. so in here, already, we've got depth temperature and a camera on the front, and then in the future we'll be able to gather information about wind speeds, temperatures on the surface

Sargassum , Water-pressure , Seabed , Air-bladders , Thousands , Hundreds , 200 , Version , Algaray , Catamaran , Green-energy , Long-submersible