Previous Air Battery Video 👉 th-cam.com/video/OfrTHRbNOVg/w-d-xo.htmlsi=mLPvYBbSVRbGZtj0 3D Print - cults3d.com/en/3d-model/tool/aluminum-air-battery-design-10v-to-12v-dc Check my other videos on the same topic. Search Air Battery by Mr. Electron on youtube or Google.
Cyclic voltammetry method has been used to compare the electrochemical behaviors for the supercapacitors electrode based on the activated carbon material in form of monolith derived from areca catechu husk in 1 M H2SO4 and 1 M KOH electrolyte solutions. Monolith carbon electrode in 1 M H2SO4 performed excellent electrochemical storage properties including a highest specific capacitance of 150 F g−1 , energy density of 20.83 Wh kg-1 , and power density of 75.06 W kg-1 at 1.0 V voltage window. However, the specific capacitance produced from the KOH electrolyte is more stable than the H2SO4 at high scanning rates of 10 mV s-1 with reduced of 70.4%. These results suggest and confirm that 1 M H2SO4 is the ideal aqueous electrolyte for monolith biomass based-carbon electrode especially derived from areca catechu husk.
Its due to dendrites and passivation. I have a solution for that but I did a voting for the next project on my community post and the topic (500 amps transformer is winning it) so after this transformer project, I will make it.
When I saw "free power" in the title after clicking the thumbnail I thought this was just one of the many free energy videos on TH-cam, but it seems to actually be real and not "free energy", just "power from a battery mostly made of scraps". Very nice!
This makes me happy, and we are enjoying this moment! I found the brightness of the lightning in your face. Yes, that's the happiness, which gave a positive result.
This experiment works because of the potassium aluminum hydroxide, which produces free electrons. But if you want to actually consume the oxygen to complete the reaction with the hydroxyl groups, you need to use a breathable cathode. For a real aluminum-air (or metal-air) battery, you need to use a cathode like carbon to react with the oxygen and hydroxy groups in the electrolyte. You can try a new design, using a cathode in contact with air on one side and the electrolyte on the other side, and the carbon cannot be flooded.
@@danielrosselli Actually, I have already done that project in the past with the carbon cathodes around a year back and yes, the results was great. This time I went with the steel wire because somehow I have experienced that the mA output for steel wire is a little higher for same cathode area of crossection.
@@MrElectron How is the performance of the battery now? How much life circle it had? Because it's very important project for DIY batteries, I'm personally interested with it.
Good idea and its much improvable 👍 starting with geometrik after making your Ironcoil print a seperator 1mm thick around this coil the alu around it so you got a round cell instead of a two point cell. 👍Now you take some spare alu to connect all cells as thick as posible, also use bolts to connect the ironcoils to each other 👍 these 2 things will give the Reaktion much better surface so more Reaktion in same space, also the bigger Terminals support bigger Wattages and leads to less powerlosses between the cells👍 hope this helps you improve it 👍
Thanks! Correct and I have already stated that in the video as well. Actually the issue was that the design adjustments were taking linger than usual and the project was getting delayed.
Wow!!!!! Fantastic video to watch. Another enormous aluminum air battery!!!! Also another efficient design of a great battery. Best video with a project that is easy to make than other videos on TH-cam. 👍👍👍👍👍👍 Absolutely outstanding video demonstrating how an aluminum air battery works
Very nice video. You should figure out how to make a lead acid battery some day. People don't make those on the internet very often and when they do, it's either a proof of concept ultra low power type thing or a video with no explanation of factory workers doing it in India. It would be incredibly valuable information to see someone figure out what *exactly* it takes to diy a viable lead acid battery.
lead acid batterys need charging first, the battery in the video is just chemical, mixing in and away you free electic (or more free electrons, harnessing anyway)
Very cool experiment, you are very creative! I noticed that this battery has very high internal resistance. When you measured 160 mA shorted output at 10V, it means: 10V/.16A=60 Ohms. Although it's free (if you use scrap aluminum) it will not have very good power density. Are there ways to reduce the internal resistance?
@@loungelizard836 Thanks A lot ! Actually, it has one of the best power densities and that is why I am so much into this thing. This video was majorly created to show the passivation and dendrites problem. Yes! This battery that i have made is a basic one but I already have tested a better performing one 😊. Can't wait to share it with you all. Also , I do voting after every project on my community tab so if the majority of my viewers choose it again, I will make it for sure 👍
@@MrElectron I Read that platinum wires are anti-rust but steel wires get rusty in the electrolyte over time resulting in high resistance. I used carbon electrodes and it's working well.
Correct. Yes carbon electrodes give better results in the long run as I tested in my previous video 👉 th-cam.com/video/sBIAWSCLKFA/w-d-xo.htmlsi=zjZOBI7Tf_7FPYE7
@@arnaudmosse6894 This is not a proper version of this type. There is an even better upgrade for this on which the capacity and power density test should be done but I did a voting on my community tab as I always do after my video uploads for the next project and majority voted for high current transformer. So probably in the next to next.
It is much easier than that. Simply mix aluminum with strong hydroxide or hydrochloric acid and you can produce plenty of hydrogen very quickly. Sometimes the reaction starts slowly but it can quickly go out of control once the aluminum oxide passivation layer has dissolved. Edit to add that as a teenager, my friends and I would make “percussion bombs” by closing aluminum foil and HCl containing toilet cleaner in 20oz soda bottles. Very illegal in most places but it sounds like a cannon going off.
@@solvated_photon very fun; and you have time to move off because of the NOISE!! COVER YOUR EARS, each with ONE finger; seal them tight; i did not do that when i was young, and my right ear is less than half effective now, too late....
@@josepeixoto3384 oof! Sorry to hear that, no pun intended. Back in the day I lived next to a river so I chucked a few in there at some point or another and they would get downstream a bit before going off. Otherwise I remember me and my gf’s brother put a few in garbage cans outside gas stations before driving off down the road a ways.
Береги глаза! Обещал воздушный элемент, а получился какой-то мокрый. Светодиод светящийся это здорово, но какой ток короткого замыкания? P.s. вопрос неактуален, досмотрел! 😊 Молодец! 1.5 Ватта - это мощь! ❤ Алюминий не самый удобный материал, моментально покрывается оксидной плёнкой.
@@DmitriNesterov Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
@@MrElectron wow, thank you for an explanation, now everything is clear! In my Russian language "air" ≈ "dry" (adjective) 😊 I will never argue with terms, the inventor knows better! And thank you for measuring short circuit current for me, I was very interested. 🤡 Now it is clear, that you know, what you are doing. Wish you success and to find a way to the new knowledge ❤️
One Question is it rechargeable or are you going to have to replace the electrolytic compound every time. Maybe the dendrites will return to the electrolytic solution by Ionization if you try or maybe it will blow up :-P
Sure ! Here I have use KOH but it work with Salt water as well. Check my other videos on the same topic. Search Air Battery by Mr. Electron on youtube or Google.
Se puede recargar? Porqué le llaman de aire aluminio? Puedo ver aluminio, hierro y el electrolito líquido, en un contenedor polímero. Felicitaciones por tu creatividad, de poderse reducir la oxidación sería útil en muros de construcciones para gigantes baterías que almacenen energía eléctrica renovable.
The term air is used by all the researchers in the world because oxygen from the air is consumed to by the anode to get oxidised and release electrons.
you are checking the ampere in a wrong way. for checking ampere you have to disconnect the positive probe and connect it to the top of the socket provided just top of the +ve probe of multimeter and rotate the switch to ampere mode
nice, you got it working. do you have any idea why its working in the air mode and not in the voltaic pile mode. ie why it prefers the aluminium-air instead of aluminium-iron working mode. one little problem is that the aluminium+KOH produces hydrogen. so it might drop down to hydrogen+ogyxen fuel cell at 0.6-0.7v working mode. if the liquid/walls gets saturated with hydrogen gas. do some long time tests, how the cell operates. not only fresh cells. if the chemistry gets contaminated easily then not so good. ie total energy over time graph. if it works in true aluminium-air mode, then no dendrite formation, just aluminium consumption. you have two reactions going at the same time. the deposition reaction is the second. find a chemistry that does not do that deposition. yeah carbon air electrode does not do that. try silver. possibly platinum. with silver you get the silver air electrode brightening up. yep the silver clean-up chemistry. try silver spoons as the air electrode.
yep you literally get an aluminium-iron galvanic cell after the deposition on the iron. no more high aluminium-air voltages. more like 8x 0.6v = 4.8V. or so.
Correct. Sure, silver will solve the problem but it's expensive. My aim is to go for the simplest, cost effective + efficient methods that provides a long term performance.
@@MrElectron the silver even as thin layer is not consumed. from the air electrode. pure silver regenerated if oxidated. maybe a silver conductive paint is enough as air electrode.
since the voltage of cell is 2.8V, my repeat output 3 times as fast as a dry cell(1.5V). now I am using a voltage devider to reduce the v. Not yet a success
I have doubts do comple ion move from anode to cathode through electrolite or it pass only electron or pass only charge via electric field. Some one has to end these doubts.
Actually, measuring current with load gives connected load current while measuring current without it gives maximum produced current or Short Circuit Current.
Well ! there is this big confusion with many viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
Seems like you are new to my channel. I can totally understand you especially when there is so much fake content surrounding us all over youtube, insta and fb. It will take time for you to gain trust on any new channel with research grade content. I as a content creator will say only 3 things about me. 1- You are free to verify my other videos to gain trust. 2- I am the one who actually exposes the fake video creators on youtube through my other channel ( Mr. electron alternator ). 3- I never hide the number of dislikes on my videos even though this option has been provided by youtube. Although, I think it's an evil option and I have asked youtube to remove it but at the end, it's youtube's decision. I hope that these should clarify things.
I believe it actually would work and it would be on the same basis as the thermite reaction. The aluminum will want to readily give its electrons to the iron oxide on the cathodes and creating the closed circuit gives it the ability to do so. Edit to add that I was skeptical when I saw the thumbnail but as I watched this I realized that it is actually a viable electrochemical reaction to take advantage of. My question is how reversible can this be? Can you recharge this cell to any significant amount?
@@MrElectronokay, so it is the dissolving of the aluminum in the hydroxide itself that drives the electron flow. This makes sense because aluminum dissolving is recognized as an effective reducing reaction in chemistry. One way people will speed this up is by adding a Hg2+ salt which helps mitigates the passivation layer, but in this case I think that would make the reaction too fast. You already have an impressive power source from very basic materials. Well done! 👍
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
@DmitriNesterov Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
Recommendation is to remove the aluminium plates or removing the electrolyte out of the battery after use.Companies all over the world are still working on it to find an approach that is simple, long lasting and effective.
@@MrElectron actually I am asking about magnetic energy conversion into mechanical energy......and mechanical energy into electrical energy. Does it possible?
@@moon.m8727 Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
@@rosewindows1 The term air is used by all the researchers in the world because oxygen from the air is consumed to by the anode to get oxidised and release electrons.
Excellent question. Seems like you are new to my channel. Anyways, as I have already explained about this in the previous aluminium air battery parts that the oxygen gets absorbed by the electrolyte from the air which is then used in anode oxidation. ( that's how fishes breath under water 🙂 ) Also, more than 80% of the electrolyte is water.
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
@DmitriNesterov Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
Seems like you are new to my channel. I can totally understand you especially when there is so much fake content surrounding us all over youtube, insta and fb. It will take time for you to gain trust on any new channel with research grade content. I as a content creator will say only 3 things about me. 1- You are free to verify my other videos to gain trust. 2- I am the one who actually exposes the fake video creators on youtube through my other channel ( Mr. electron alternator ). 3- I never hide the number of dislikes on my videos even though this option has been provided by youtube. Although, I think it's an evil option and I have asked youtube to remove it but at the end, it's youtube's decision. I hope that these should clarify things.
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery. Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) . Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities. So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous. Air battery electrolytes can be solid state as well as liquid.
Previous Air Battery Video 👉 th-cam.com/video/OfrTHRbNOVg/w-d-xo.htmlsi=mLPvYBbSVRbGZtj0
3D Print - cults3d.com/en/3d-model/tool/aluminum-air-battery-design-10v-to-12v-dc
Check my other videos on the same topic. Search Air Battery by Mr. Electron on youtube or Google.
The voltage drops very fast it seems the ionisation potential of koh is affected by impurities
Cyclic voltammetry method has been used to compare the electrochemical behaviors for the
supercapacitors electrode based on the activated carbon material in form of monolith derived from
areca catechu husk in 1 M H2SO4 and 1 M KOH electrolyte solutions. Monolith carbon electrode in 1
M H2SO4 performed excellent electrochemical storage properties including a highest specific
capacitance of 150 F g−1
, energy density of 20.83 Wh kg-1
, and power density of 75.06 W kg-1
at 1.0 V
voltage window. However, the specific capacitance produced from the KOH electrolyte is more stable
than the H2SO4 at high scanning rates of 10 mV s-1 with reduced of 70.4%. These results suggest and
confirm that 1 M H2SO4 is the ideal aqueous electrolyte for monolith biomass based-carbon electrode
especially derived from areca catechu husk.
Its due to dendrites and passivation.
I have a solution for that but I did a voting for the next project on my community post and the topic (500 amps transformer is winning it) so after this transformer project, I will make it.
Boss wts ur no
When I saw "free power" in the title after clicking the thumbnail I thought this was just one of the many free energy videos on TH-cam, but it seems to actually be real and not "free energy", just "power from a battery mostly made of scraps". Very nice!
@@Lampe2020 Ohh! Thanks 😊. Seems like I must avoid using this term free power to remove any possible confusion.
This makes me happy, and we are enjoying this moment! I found the brightness of the lightning in your face. Yes, that's the happiness, which gave a positive result.
Yes! Thank you! 😊 💥
This experiment works because of the potassium aluminum hydroxide, which produces free electrons. But if you want to actually consume the oxygen to complete the reaction with the hydroxyl groups, you need to use a breathable cathode. For a real aluminum-air (or metal-air) battery, you need to use a cathode like carbon to react with the oxygen and hydroxy groups in the electrolyte. You can try a new design, using a cathode in contact with air on one side and the electrolyte on the other side, and the carbon cannot be flooded.
@@danielrosselli Actually, I have already done that project in the past with the carbon cathodes around a year back and yes, the results was great. This time I went with the steel wire because somehow I have experienced that the mA output for steel wire is a little higher for same cathode area of crossection.
@@MrElectron How is the performance of the battery now? How much life circle it had? Because it's very important project for DIY batteries, I'm personally interested with it.
Good idea and its much improvable 👍 starting with geometrik after making your Ironcoil print a seperator 1mm thick around this coil the alu around it so you got a round cell instead of a two point cell. 👍Now you take some spare alu to connect all cells as thick as posible, also use bolts to connect the ironcoils to each other 👍 these 2 things will give the Reaktion much better surface so more Reaktion in same space, also the bigger Terminals support bigger Wattages and leads to less powerlosses between the cells👍 hope this helps you improve it 👍
Thanks! Correct and I have already stated that in the video as well. Actually the issue was that the design adjustments were taking linger than usual and the project was getting delayed.
very clever design ,well done ,thank you for making the files available
😊
Wow!!!!! Fantastic video to watch. Another enormous aluminum air battery!!!! Also another efficient design of a great battery.
Best video with a project that is easy to make than other videos on TH-cam. 👍👍👍👍👍👍 Absolutely outstanding video demonstrating how an aluminum air battery works
Thanks a lot 💥 🤗🤗
Im from Bangladesh...!! I also enjoy your videos.
😊😊 Thanks !
The pure Enthusiasm and inquisitive perspective have motivated me to SUBSCRIBE that i to may learn.
Thank you Sir.
So nice of you. You are most welcome 😊 💥
Great job, very proud of you
Thankyou 😊 😊 😊
Very nice video. You should figure out how to make a lead acid battery some day. People don't make those on the internet very often and when they do, it's either a proof of concept ultra low power type thing or a video with no explanation of factory workers doing it in India. It would be incredibly valuable information to see someone figure out what *exactly* it takes to diy a viable lead acid battery.
Thanks and sure I will. These days, I am fascinated by any battery making project .
lead acid batterys need charging first, the battery in the video is just chemical, mixing in and away you free electic (or more free electrons, harnessing anyway)
Boss experiment..🎉. Love to see this scaled up in readily available buxkets..
@@blainecelestaine4543 Thanks 😊
6:33 check the happiness 😂❤
Great experiment..
Thanks for this video..
Thanks! 😊
Very cool experiment, you are very creative!
I noticed that this battery has very high internal resistance.
When you measured 160 mA shorted output at 10V, it means: 10V/.16A=60 Ohms.
Although it's free (if you use scrap aluminum) it will not have very good power density.
Are there ways to reduce the internal resistance?
@@loungelizard836 Thanks A lot ! Actually, it has one of the best power densities and that is why I am so much into this thing. This video was majorly created to show the passivation and dendrites problem.
Yes! This battery that i have made is a basic one but I already have tested a better performing one 😊. Can't wait to share it with you all.
Also , I do voting after every project on my community tab so if the majority of my viewers choose it again, I will make it for sure 👍
This is a very nice project ❤
But does the battery runs down ??
@@Vick5g yes it done like any other battery
Ok
Nice one, what's the advantage of not using graphite or carbon cathode in your battery.
Excellent question. For the same current production, larger carbon cathode size is required when compared to steel.
@@MrElectron I Read that platinum wires are anti-rust but steel wires get rusty in the electrolyte over time resulting in high resistance. I used carbon electrodes and it's working well.
Correct. Yes carbon electrodes give better results in the long run as I tested in my previous video 👉 th-cam.com/video/sBIAWSCLKFA/w-d-xo.htmlsi=zjZOBI7Tf_7FPYE7
Really InteresTing! Could you mesure capacity and power density?
@@arnaudmosse6894 This is not a proper version of this type. There is an even better upgrade for this on which the capacity and power density test should be done but I did a voting on my community tab as I always do after my video uploads for the next project and majority voted for high current transformer. So probably in the next to next.
At 1.6 amps, you could make hydrogen with only 2 units!
It is much easier than that. Simply mix aluminum with strong hydroxide or hydrochloric acid and you can produce plenty of hydrogen very quickly. Sometimes the reaction starts slowly but it can quickly go out of control once the aluminum oxide passivation layer has dissolved. Edit to add that as a teenager, my friends and I would make “percussion bombs” by closing aluminum foil and HCl containing toilet cleaner in 20oz soda bottles. Very illegal in most places but it sounds like a cannon going off.
@@solvated_photon *Any Alkyd Hydroxide YES but not with Acid. Please revise your statement. Signed - John Slugger, Chemical Engineer @ MIT.*
@@solvated_photon very fun; and you have time to move off because of the NOISE!! COVER YOUR EARS, each with ONE finger; seal them tight; i did not do that when i was young, and my right ear is less than half effective now, too late....
@@josepeixoto3384 oof! Sorry to hear that, no pun intended. Back in the day I lived next to a river so I chucked a few in there at some point or another and they would get downstream a bit before going off. Otherwise I remember me and my gf’s brother put a few in garbage cans outside gas stations before driving off down the road a ways.
would you not get a higher voltage with copper wire instead of steel wire, as copper and aluminum are further apart on the reactance chart.
Nice idea
Cool👍 you never stop to amaze..can this be of use to drive small ebike motors 250/350 watt and can be built under the budget of a 10AH battery pack?
Thanks 😊! Sure with some more additions like catalysts, ph stabilisers, etc and a bigger battery size , it is definitely possible.
Try graphene next time for higher conductivity cool video
Thanks 😊
I just learnt of aluminum -air battery last month, i was researching batteries for my ebikes startup. Thank you for this wonderful video❤
@@Dolani16 You are most welcome...❤️😊
Береги глаза! Обещал воздушный элемент, а получился какой-то мокрый. Светодиод светящийся это здорово, но какой ток короткого замыкания?
P.s. вопрос неактуален, досмотрел! 😊 Молодец! 1.5 Ватта - это мощь! ❤ Алюминий не самый удобный материал, моментально покрывается оксидной плёнкой.
Thanks I will.. yes the oxide problem. Although its seen more on the cathode than aluminium itself with KOH electrolyte.
@@MrElectron yes you are right, later understood that aluminium dissolves continuously on anode. But you promised an air battery, why is it so wet? 😀
@@DmitriNesterov Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
@@MrElectron wow, thank you for an explanation, now everything is clear! In my Russian language "air" ≈ "dry" (adjective) 😊 I will never argue with terms, the inventor knows better! And thank you for measuring short circuit current for me, I was very interested. 🤡 Now it is clear, that you know, what you are doing. Wish you success and to find a way to the new knowledge ❤️
@@DmitriNesterovThanks and you are most welcome 🙂❤️
Do you ever have your 3d print files available for viewers to try and print
3d print link is in the description and Pinned Comment
good
Parabéns!
Thanks ! 😊
Is it rechargeable?
Congratulations, you made a battery...
Good
What is the steel wire used for? Isn't the cathode supposed to be air?
Wonder how that could compare to aluminum wire being wound, and steel for electrode? Just metals reversed.
Interesting approach.
Hi sir
Hi 😊
How long it last?
Very nice❤
Thanks ! 😊
One Question is it rechargeable or are you going to have to replace the electrolytic compound every time. Maybe the dendrites will return to the electrolytic solution by Ionization if you try or maybe it will blow up :-P
No it's not rechargeable, we have to replace the aluminium plates.
Can you recharge it?
So could this be done in a automobile ? You use salt water correct ?
Sure ! Here I have use KOH but it work with Salt water as well. Check my other videos on the same topic. Search Air Battery by Mr. Electron on youtube or Google.
Se puede recargar? Porqué le llaman de aire aluminio? Puedo ver aluminio, hierro y el electrolito líquido, en un contenedor polímero.
Felicitaciones por tu creatividad, de poderse reducir la oxidación sería útil en muros de construcciones para gigantes baterías que almacenen energía eléctrica renovable.
The term air is used by all the researchers in the world because oxygen from the air is consumed to by the anode to get oxidised and release electrons.
what is the capacity?
would it work if the steel wire were galvanized?
I am not sure.. I has to be tried.
is this recharge able?
No. We have to replace the Aluminium Plates after consumption
Do a capacity test. It's a nice proof of concept but I think it is very weak
Sure! Although, I have a much better idea to eliminate the flaws. I will be uploading it in one of my upcoming videos.
you are checking the ampere in a wrong way. for checking ampere you have to disconnect the positive probe and connect it to the top of the socket provided just top of the +ve probe of multimeter and rotate the switch to ampere mode
*I am From America. You sound like the guy who took me for $6000 in Target gift cards last year!*
😁
Hi all
but you told that you used steel wire in the coil
so what may be used normal steel wire or copper wire
Actually different steel wires give different results so I gave you the proper source to avoid any confusion.
nice, you got it working. do you have any idea why its working in the air mode and not in the voltaic pile mode. ie why it prefers the aluminium-air instead of aluminium-iron working mode. one little problem is that the aluminium+KOH produces hydrogen. so it might drop down to hydrogen+ogyxen fuel cell at 0.6-0.7v working mode. if the liquid/walls gets saturated with hydrogen gas. do some long time tests, how the cell operates. not only fresh cells. if the chemistry gets contaminated easily then not so good. ie total energy over time graph. if it works in true aluminium-air mode, then no dendrite formation, just aluminium consumption. you have two reactions going at the same time. the deposition reaction is the second. find a chemistry that does not do that deposition. yeah carbon air electrode does not do that. try silver. possibly platinum. with silver you get the silver air electrode brightening up. yep the silver clean-up chemistry. try silver spoons as the air electrode.
yep you literally get an aluminium-iron galvanic cell after the deposition on the iron. no more high aluminium-air voltages. more like 8x 0.6v = 4.8V. or so.
Correct. Sure, silver will solve the problem but it's expensive. My aim is to go for the simplest, cost effective + efficient methods that provides a long term performance.
@@MrElectron electroplate an steel electrode with silver, much cheaper.
@@MrElectron the silver even as thin layer is not consumed. from the air electrode. pure silver regenerated if oxidated. maybe a silver conductive paint is enough as air electrode.
Good idea 👏. Didn't think about that. I will keep that in mind for one of my upcoming air battery videos.
Its rechargeable?
No it's a fuel cell. We have to change the aluminium plates evrytime they get consumed
Hindi me banao please 🙏
is it steel or copper wire
please inform me
@@SoumojeetSaha normal steel/iron wire used in construction
@@MrElectron then may I use copper wire in the coil
@@SoumojeetSaha I have not tested with that but yes there is no harm in trying.
Thank you very much
@@MrElectron thank you
Perhaps more aluminum surface area more power
Yes
Can these batteries be charged
No
since the voltage of cell is 2.8V, my repeat output 3 times as fast as a dry cell(1.5V). now I am using a voltage devider to reduce the v. Not yet a success
Test every cell make sure produce power cell by cell
I have doubts do comple ion move from anode to cathode through electrolite or it pass only electron or pass only charge via electric field. Some one has to end these doubts.
Ions move from anode to cathode and electrons move from anode to cathode externally when a wire is connected
@@MrElectroninstead of transfer of ion can we make transfer of only charge by electric field similar to current in conductor?
Is it Me or Do you Need to Test the Battery Current With a Load to get the Right Current Load..??..
Actually, measuring current with load gives connected load current while measuring current without it gives maximum produced current or Short Circuit Current.
“Air” batteries, adds liquid electrolyte. Cool story bro.
Well ! there is this big confusion with many viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
For the next Nobel Prize, you should rightfully be nominated.
🤠❤️
Agreed
@@josephlieberman5324 Thanks for the honor. It's more valuable than any prize in the world. 🎖 😇
i don't think you know what an air battery is because that is defiantly not an air battery
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
this thing seems to be fake
Seems like you are new to my channel. I can totally understand you especially when there is so much fake content surrounding us all over youtube, insta and fb.
It will take time for you to gain trust on any new channel with research grade content.
I as a content creator will say only 3 things about me.
1- You are free to verify my other videos to gain trust.
2- I am the one who actually exposes the fake video creators on youtube through my other channel ( Mr. electron alternator ).
3- I never hide the number of dislikes on my videos even though this option has been provided by youtube. Although, I think it's an evil option and I have asked youtube to remove it but at the end, it's youtube's decision.
I hope that these should clarify things.
I believe it actually would work and it would be on the same basis as the thermite reaction. The aluminum will want to readily give its electrons to the iron oxide on the cathodes and creating the closed circuit gives it the ability to do so. Edit to add that I was skeptical when I saw the thumbnail but as I watched this I realized that it is actually a viable electrochemical reaction to take advantage of. My question is how reversible can this be? Can you recharge this cell to any significant amount?
@@solvated_photon No, it's a fuel cell and its non rechargeable. Once the aluminium plates get consumed, we have to change it..
@@MrElectronokay, so it is the dissolving of the aluminum in the hydroxide itself that drives the electron flow. This makes sense because aluminum dissolving is recognized as an effective reducing reaction in chemistry. One way people will speed this up is by adding a Hg2+ salt which helps mitigates the passivation layer, but in this case I think that would make the reaction too fast. You already have an impressive power source from very basic materials. Well done! 👍
@@solvated_photon Correct! And Thanks 😊 .
old tv flyback transformer make plasma
to call it as Aluminium AIR battery is a SCAM.
looks more like stainless steel than aluminium, so remove all words but SCAM.
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
@@MrElectron Thank you for a brilliant description of what an air battery is and their history 👍
@@paulfrost8952 You are most welcome 😊 ❤️
@@MrElectronHmm, they thought that you were that guy who posts free energy stuff like others. That's why they were angry 😅👻
Bro please use a good multimeter
@@sultanshah9434 And why is this bad ?
❤
Fe-Al battery, more correct name
@DmitriNesterov Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
Aluminum oxidizes quickly, after battery is made, and allowed to sit for a time, (a few days) does it still work without polishing the aluminum again?
Recommendation is to remove the aluminium plates or removing the electrolyte out of the battery after use.Companies all over the world are still working on it to find an approach that is simple, long lasting and effective.
From which city are you from?
Sorry, I can't share that. Hope u understand 😊
@@MrElectron ok bro, by the way I am from Hyderabad, Telangana🙂
@@mohammedansari7888 Cool ! Its a nice place I have heard. 👍 I will visit someday soon 😀
Does free electricity made up ? Brother?
Are you asking about free energy videos ?
@@MrElectron yes ?
@@MrElectron can you work on it ?
@@MrElectron with a practical demonstration
@@MrElectron actually I am asking about magnetic energy conversion into mechanical energy......and mechanical energy into electrical energy. Does it possible?
Where’s air? This is a normal battery
@@moon.m8727 Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
The title of this video is misleading, why is it an 'air' battery?
@@rosewindows1 The term air is used by all the researchers in the world because oxygen from the air is consumed to by the anode to get oxidised and release electrons.
@@MrElectron But the anode is immersed in liquid electrolyte, so how can it oxidise oxygen from the air?
Excellent question. Seems like you are new to my channel. Anyways, as I have already explained about this in the previous aluminium air battery parts that the oxygen gets absorbed by the electrolyte from the air which is then used in anode oxidation.
( that's how fishes breath under water 🙂 )
Also, more than 80% of the electrolyte is water.
@@MrElectron Very interesting. Perhaps oxygen is also released from the Potassium hydroxide.
@@rosewindows1 released gas is hydrogen by the anode.
Afsos mujey english samaj mey nahi ati .sarkari school valoka bura hal hai .😮😮😢😢😮😮
Sahi baat 😔
Aluminium Air Battery?????
I do not see air but water
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
Beta akho ki seyfti key liye chasma pahna karo .buzurg ki salh hai .Beytri water camical . Aap log bharat ka bhavishya ho .😊😊😊😊😊
Ok 🙂 Thanks.
This is not an Al-air battery!
@DmitriNesterov Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
Who has potassium hydroxide if not no one will be interested to watch
Good battery, but NOT air battery! Aluminium-copper alkaline battery.
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
Great project, but why call it an "Air Battery " ? It's an Electrolyte Battery. Proper wording is crucial in science !
@@jimviau327 Air (oxygen) gets consumed from the surroundings by the Aluminium plates to produce electrons. Hence the term aluminium air battery
Fake video kuchh kiye ho battery ke sath
Seems like you are new to my channel. I can totally understand you especially when there is so much fake content surrounding us all over youtube, insta and fb.
It will take time for you to gain trust on any new channel with research grade content.
I as a content creator will say only 3 things about me.
1- You are free to verify my other videos to gain trust.
2- I am the one who actually exposes the fake video creators on youtube through my other channel ( Mr. electron alternator ).
3- I never hide the number of dislikes on my videos even though this option has been provided by youtube. Although, I think it's an evil option and I have asked youtube to remove it but at the end, it's youtube's decision.
I hope that these should clarify things.
One word ,,,,... Dumb😅
is that not just a multi cell smaller scale bagdad battery ..
Well ! there is this big confusion with may viewer's. Firstly - This term Air battery is not given by me but by the inventor of this air battery. Charles F homes patented the first aluminium air battery.
Secondly - Air battery name was never meant for air electrolyte but flow of current because of absorption of air (oxygen) by the anode aluminium (or others) .
Thirdly - Water contains different levels of dissolved gasses amongst which, oxygen is also present in large quantities.
So in simple terms, the name air battery was give in 1886 because air (oxygen) is consumed by Amluminum for production of current and not because the electrolyte is air or gaseous.
Air battery electrolytes can be solid state as well as liquid.
Very nice 🎉🎉🎉
Thanks 🤗