How This Simple Material Breakthrough Will End Battery Storage
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- Опубликовано: 7 июн 2024
- How This Simple Material Will End Battery Storage - With Extreme Temperature and a Breakthrough HEAT ENGINE! #renewableenergy #energystorage #batterystorage
Thermal Energy Storage in the form of bricks is a solution that could immediately end the dependence of industries on fuel or battery storage. The solution that powers, as well as heats industry, is cheaper than natural gas & battery storage. Also, these efficient energy storage systems are the basis of making the most out of intermittent renewable energy.
Wherever industries require heat, the thermal energy storage solution is more feasible as its significantly cheaper and more reliable than Lithium-ion batteries. The bricks as a thermal battery storage solution are quite simple and last longer.
Two startups; Rondo Energy (using plain bricks for energy storage) & Antora Energy (using an unexpected material - see the video !) have both received millions of dollars in investment for their thermal battery-based solution.
In the Second half of the video, you will know the technology of a startup using an UNEXPECTED MATERIAL to not just store vast amounts of heat but also produce electricity using a super-efficient heat engine!
Both these companies have the potential to heat industry cheaper than fossil fuels & end battery storage, especially for heat-intensive applications.
This simple brick battery storage is way beyond SAND BATTERY due to the higher temperature range, and Energy density & could be a future for powering industries. They could be the future of industrial-scale energy storage beyond Lithium-ion based battery storage as well as a cheaper alternative to burning any fossil fuel including Natural Gas.
Thermal brick battery breakthrough, brick heat battery breakthrough, heat storage breakthrough, high-temperature thermal storage
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Chapters:
00:00 Introduction
01:00 Global Energy Usage Pattern
02:05 Rondo’s Brick Battery
04:38 Energy Density of Brick Battery
05:25 Concept of Sensible Heat Storage
06:14 Heat distribution in Bricks
07:58 Antora’s Thermal Battery Storage
08:46 Why This Material?
10:38 Electricity from Hot Blocks
11:12 The Technology of Antora
11:55 Benefits of This Material in Heat Battery
12:38 Conclusion
#revolutionaryengineering #energystorage #battery #renewableenergy #batterystorage 
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This was very helpful! Ty!
Glad it was helpful!
We were using this idea here in Oz back in the 70's in the form of 'offpeak home heating'. It utilised the low demand times cheaper off-peak rates to heat up a pile of bricks and the heat was extracted using a multi-speed fan. They seem to have lost popularity possibly due to the habit of running out of heat sooner than desirable requiring alternative heaters operating at full general supply rate to make up the difference. Heat pumps (with reverse cycle) combined with efficient insulation and double glazed windows are now the best 'off the shelf' option these days.
seems like every single day i hear about some new game changing green energy storage or battery technology which can solve many of our current problems, yet still not a single one of them has come to market as far as i can tell.
this does make sense of course, but when can we start to actually see this tech put into use?
Where does one buy these cheap large carbon blocks in US?
I had electric storage heaters at home which heated up bricks inside a metal casing, and these produced heat for several hours after the power supply was turned off. The only problem with those is that when they were used irregularly it cost a lot of money to get them warm from a cold start, but a brick battery would be in constant use, so far more efficient.
Let the planet heat up, then we wont need to use as much energy for heating 😂
Damn it! I had invented this utility patent decades ago but since I don't have money couldn't actually buy it...
Tpv cell + solar = an idea I wanted to implement for all solar cells. 🤦♂️ I need to go. To MIT before any more of my ideas are created... Already had like 5 taken by giant manufacturers 😢
Sure
I can't WAIT for ThunderF00t to destroy this with math and science.
i don't think thats going to happen, Carbon will reach 6000k before it melts, so IT IS a good store of excess HEAT energy
resistive heating is very inefficient. also you say you can store the heat for 50 years and then say 1% per day loss.
Converting electricity into heat using resistive heating is a 100% efficient process. That's because all electricity is converted into heat.
Storing heat for 50 years means that the material does not degrade and remains suitable for heat storage during this time.
@@revolutionaryengineering yea so i guess if you just need heat thats fine but if you need to convert back to electricity it seems like a battery is still the way.
@@revolutionaryengineering and being 100% efficient is misleading beacause a heat pump is 300-400% efficient. the real way to compare is cost to heat a cubic meter per hour. and in this sense electricity costs way more money. or even better cost per million BTU.
@@domenicperito4635 Sorry, but you don't seem to understand the premise. Heat is added to the thermal mass at a rate higher than a heat pump can generate. This is why resistant heat is used. With resistance heating, you can add heat well in excess of 500 degrees which is not possible with a heat pump. Your electric stove doesn't use a "heat pump" for a reason.
@@robertmiller5135 your missing my point. Your saying that resistive heat is 100% efficient when the electricity used was not generated at 100% efficiency. so yes it is 100% "efficient" as a closed system, but istead of burning fissil fuels or collecting solar energy and using to run a generator to then power your resistive heat is stupid when you can just directly use the energy to make heat.
Really nice film dood. I am experimenting with domestic sand batteries and would love to know more about the insulation that achieves 1% loss per day? Also the tpv cells for turning heat into power, where can I get one please (I’m in the uk). The properties of graphite as a thermal mass is very very interesting, I would like to know if graphite is heated with an element or does the graphite itself work as the element? I would love to establish an ongoing conversation about this if you don’t mind? Would you send me an email address please? Thanks again for a really really worthwhile contribution!
Glad that you liked the video. Yes, graphite blocks are resistively heated using elements.
@@revolutionaryengineering n hi and thanks for your reply, can you suggest a good strategy for insulating small systems (
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