Crystal Cells Have Been Going for 4+ Years! - Crystal Cells Duration Testing Update
2015 ж. 29 Қаз.
142 987 Рет қаралды
I have been learning a lot about these crystal cells over the years. I have a few more ideas that I want to test but I think it will require a metal lathe to machine the needed parts.
LED Cell Started October 2011. Ran for 1490 days.
Motor Cell Started December 2011. Ran for 1429 days.
Glass Dome 100 Year Motor Started December 2013. Ran for 687 days.
How to Build: laserhacker.com/?p=326
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To reduce the internal pressure you need to add Diod to it. The Diode keep the power move forward and no electricity to return to damage the cell.
I had the understanding that it was the pressure applied to the lattice of the crystalline structure that aided in the communication of electrons. So much to learn here! I love it!
This is brilliant. I love your research. Looking forward to following your discoveries. Keep it up friend.
That motor with the bent coils looks really interesting. It looks like it would be pretty simple to build too. I'd love to see more about that motor in a future video!
Loos fun, hack away! Love the round single magnet motor. Neat stuff!
Still amazing the years running 24/7
Thank you for sharing that to the world!
Please don't get me wrong, the other guy has only two years on his video but his initial "pushing up" was much less drastic and there was no green color indicating electrolysis. I have yet to build any so I'm thankful for all of these videos. Keep it up. Let's give the world a way to have technology and harmony with our environment.
Outstanding research 😎
The Mg was surprising, normally whitens up in a short time. Got a C/Pb cell with epsom salt/rainwater electrolyte, 2 1/2 years so far flashing an LED 24/7. Nephilim Penny still going on same rainwater, 4 years. Everyone learned so much around 2010 and some builds are still going...fantastic ! :) Dancing Flowers FTW, very simple to take apart and reuse, with 500ohm coils as a bonus.
Pretty neat to watch my friend,your mind works "free" Keep going and the uploads here are a treat for some. Expanding your experiment will be the next step I think ? Only if you are ready,not if some tell you to do. (sorry for the bad English)
That's fascinating....should offer an ebook on these
If you have that much material left over in the core, might it not make sense to make the core smaller/put many small cores into each tube? Would probably give you a lot more current... And more efficient use of magnesium.
hear hear!
Or simply use thin magnesium tubes with progressivly smaller diameter with the cristal stuff in between and laterally drilled holes to hold the cores in place
An increase in surface area would definitely increase the amount of current also the crystal electrolyte could be made to 1 be anhydrous completely 2 made in a much thinner and lesser amount it's not nessary to have a thick layer and is actually causing this issue due to it not being sealed completely and allowed to absorb water from the air so if you sealed them well this wouldn't be ab issue and yeah think how a modern lithium battery is constructed use that method with these materials and without vent caps would be awesome
Lasersaber is the tesla of the 20th century
***** touche... I'm from the past marty
Star trek dilithium crystals here we come! Lol
interesting ! love your videos, what's the best electrolyte mix you made ? to have higher amperage, and would it be better to have a greater indifference in metals . I love the cut open view. thank you !
Have you considered using a box design with sheets of copper and graphene or lead with the crystal catalyst and maybe incorporating an expandable but very tight outer structure?
just a thought regarding the magnesium rod being pushed out, have you thought about drilling holes in the magnesium rod to kind of anchor it as well as increase surface area?
I have been thinking about this for a while. The key word is pressure. Ever since I learned about the piezoelectric effect, I have been fascinated with crystals like quartz. Applying just a bit of pressure in the right places generates a constant electrical discharge. This could be what we are seeing here.
Its just a simply crappy battery my guy, nothing else.
Amazing my friend.
Are you using germanium read switches?
Hello, I've just watched all of your videos regarding this subject, they are good and educative. For my observation I think that going for a bigger diameter of tubing and longer batteries with bigger, or similar sized core that is drilled trough, to increase the contact surface, and maybe transfer some pressure from the walls to the core, which might actually produce battery with more power and efficiency and with the same or greater longevity.
that was a cool oval motor. you said the coils crossed over, but one end wasn't. did crossing over twice cause too much resistance in the circuit? very cool video. could you pack the outer layer with a foam that decays slowly, like styrofoam, that way as pressure builds, it retains its contact with the magnesium, but can press into the foam without bursting the container?
have you considered encasing the batteries in concrete resin to use the external pressure and amplify the internal growth ?
My led has been going for 2.5 years! made from 3 cells one has 3 magnesium cores (quite large pipe end) the other 2 have a 2cm long pipe end cap. wired in series
Wow that is very interesting. What voltage does one cell produce?
Like to thank you and Robert Murray for all your hard working and sharing it with the rest of the youtube land. I have been experimenting lately with trying to make a thin crystal cell with graphene as the cathode and graphite as the anode. I have been mixing the compounds with PVC cement and acetone and then dipping aluminum screen into the mix to coat it. I was expired by cayrex2 with his polygraphite plates and neatpete45 titanium dioxide super capacitor experiments. Unfortunately, I am not getting the results I would like. if you haven't checked out Cayrex2 and neatpete45 videos you should. Heck, even Robert was asking how they are making their batteries. Says a lot to me.
Interesting that the failure point was the copper, was it across the weld seam? Have you played around with a stacked-coin / voltaic pile style arrangement? If only I had the spare resources to experiment with lol.
Off the subject at hand but which of your 3d printers do you prefer? Mine is beyond help (i3 rework) and it has laid dead (too many issues and very little fun with this thing on its best day) since April. I ask because I saw the delta and I saw the other Cartesian next to it. Keep up the good work.
cool deal I am glad the crystal cells have held up so long. have you put one of your graphene capacitors in line with one to see if the crystal cells benefit from having the current bounce back between the capacitor and the cell? have you tried making a sleeve of the pvc pipe around the copper to seal it in I doubt it would have enough force to split the thicker pvc. if it does you have made some powerful expanding crystals that need to have that power harnessed as well . pressure = power . who knows maybe this power of growth albeit slow could be focused to run something else.
Do you suppose if any were placed in a vacuum it might might have any effect ?...or perhaps placed in a chamber with other gasses might yield better or different results ?....
Perhaps instead of cylindrical shaped, one built in layers would last a bit longer. Maybe? cool video bro. I love watching your videos. MUDDy
+muddymuddymuddmann he should build one similar to the layout of a car battery with sheets of anodes and cathodes.
At home I have flexible copper pipes. It's another variation of copper. You can bend the pipe by hand. (some aditional material to the copper I think) That could solve the expansive properties of the cells.
If you used a smaller diameter magnesium rod ( because after the years of use , so much is still there) would that allow more area for the crystal to grow without splitting the case?
@Froddobaggins WasmyMilkman kzhead.info/sun/gN6qj9WPgJqXoIk/bejne.html&ab_channel=lasersaber
I've watched a few of your videos today and to be frank, I have a few ideas on how to stabilize your design
What were your ideas?
@Varen Grey , Did you make a video on this topic ? and any solutions ?
Maybe you can help keep all this pressure in check by building back to back cells. The pressure from each layer of crystal presses on the other layers next to it and vise versa putting a lot of force on the electrodes from two directions forcing them to keep there shape and stay flat.
LidMotor, just a couple thoughts... 1.) It would seem as though drilling holes in the Borax/Salt material prior to capping would allow for more expansion prior to the vessel being compromised, 2.) apparently cost can be reduced by decreasing the ratio of magnesium, and 3.) (out of curiosity) do you believe that increasing the area of the exposed magnesium (perhaps by cutting groves or using a star shape) would have any meaningful effect upon output? Thanks for sharing your work with us!
Hi! I like your videos, please make more! I like the techni what you use! Crystal cell is nice projekt... ;) Thank you!
Have you tried different materials besides magnesium for a crystal battery?
Yeah Robert Murry Smith worked on these "crystal Batteries" and they are an oxygen / magnesium battery. There was mention of a 6M copper pipe in the ocean with Mg lining and the O2 in the water gave the oil rig 65KWhrs of output. If you dripped water though these, it might wash out the MgOH MgO etc and stop the expansion but also supply the O2 needed.
Is this similar to Henry Moray's Radiant Energy device?
I like your 3D Kossel printer! Did you buy in off the shelf?! Please advise Thanks
an empire state building sized crystal battery could power a toaster and make free toast for years
I'm guessing zinc metal rods can be a substitute for the magnesium rods? Considering they are both more or less chemically the same.
Boy how time flies. Some of my projects are still running also but are suffering from old age now with materials breaking down. I just threw away a few of my old crystal cells that were too ugly to have around. Ha. One of my subscribers sent me some of graphene powder (like you have) to test. Mixed results so far.
+Lidmotor Same here, same guy sent it lol. but have just returned from a trip to buy polyurethane and will follow LS's method on some cells today.
I also have the polyurethane and found the phosphoric acid (it is what Naval Jelly is made of) Lowes had it. Loctite makes it and calls it 'Rust Dissolver'. My fist attempts at making a small cell with Al plates turned out so so. I am having my best results using lye (drain cleaner) as the electrolyte. I am still not convinced that we are not making rechargeable batteries instead of double layer super capacitors.
+Lidmotor Thanks for sharing your results Lid
You could make a steel sleeve that the copper can expand into. If you did that it would never break open. Or does the copper need to be exposed to air?
Alum react with sulfuric acid and heat and form Alunite. Alunite is pyroelectric and may be that if exposed to a strong electric field during cooling, crystals align and act like a semiconductor inside two metal of different electropotential (like a schottky diode). If it's true than there are better ways to move electron back from copper to magnesium inside the cell.
that music at the end is like watching an episode of fringe!
Thats pretty cool... the crystal cells being Drawn against for years have burst themselves in slow motion, not catastrophic failure, but a slow bursting as the magnesium expands outward thru the insulating material exerting pressure on the copper pipe containers... It would have been cool if he made 2 sets of cells, one left connected and running and the other just set aside to see if they both exhibit the pressurization result... or if that results because of the constant loading...
I'm not sure if this a late comment or if it has already been said but if the batteries are kept under load 24/7 I'm guessing that's what is causing them to split. Under power I think parts of it starts to liquify and give off some gas bubbles( on a small scale) and I'm guessing it's pressure over time that's building. Wondering if they had periodic breaks if they would still expand so much?
i wonder how this battery will behave if you design it just like a car battery (put many plates of copper and magnesium in a sandwich)
I'd like to see one tuned to 360 hz. Because of the piezoelectric effect it would vibrate from any vibration at 360hz possibly enhancing the voltage and having the current alternate.
Make sure to search for the acids and or electrolytes you use and see if it is corrosive to any metals involve. we usually learn that the hard way first.
you're creating matter!
That's another thing. I see people getting decent voltages on these but I'm not seeing how much draw can be pulled from one and it would seem like these are all being ran on extremely high efficiency motors. It begs the question if it's the battery or the motor that's really impressing me. I'm leaning towards both.
Hey. Would you try a carbon/graphite-air salt-water battery/fuel cell with external electrolysis/hydrogen reduction reload of CO/CO2?
I have some of them circuit to. I got them out of dollar store items. I can't remember what. I also got a bunch of them little solar panels. Can I make anything cool with them, or make one big one?
What if u drilled into your magnesium rod to have space to grow into
If the copper was reinforced with carbon fiber to maintain the internal pressure and the lead unable to come out of the top, do you think you'd get a greater energy density out of the cell?
So did you use Phosphoric acid for the copper cells?
Would potting the cells in a clear resin stop them splitting while keeping them visible?
I had an idea about encasing them in concrete tubes, maybe inside some square steel bar to rest against. concrete is really good with compressive forces 🤔
Were do you buy the magnesium rod?
You need a mechanical component to the battery systems you are building so the pressure can become power over time or a new cylinder system with a different metal content to hold the pressure thus making the 100 year experiment work "sleeve outside of copper" (titanium) . ( been watching for years now. ) good luck
Lasersaber, robert murray and slider will change the world like tesla wanted
A magnesium tube with thinner walls than the copper will keep everything contained, or rolled magnesium sheets might even work better. Another alternative you could try using the surviving cells would be a steel or gas pipe jacket.
could you please do a video tutorial on the small spherical one and release the files I am very interested in your videos
Come back to KZhead! We need more free energy!
Another guy had the same "pressure" issue with a different theory. -The magnesium was pushing up due to lack of insulator between the magnesium and copper at the bottom. He was using a wider copper and wider magnesium, thus had wider spacing between poles by a few centimeters. When he put a thin layer of cellulose (wood wafer) in the bottom of the copper before inserting the mag core he seemed to solve the issue. Also he used only big copper cap but no pipe so no solder. I think you have some serious electrolysis happening at the seems where you soldered joint likely due to different metals contaminating the chemistry. I've seen others use narrow copper tubing but only resin on bottom instead of soldered cap and cellulose insulator tube for the sides. The key to higher voltage is more surface area on metal and you can have a bit more space between nodes. I think this tip may help.
A nice concept of a primary cell. But i doubt that such an inefficient cell has any practical uses. Any chances on an update - like voltage/current measurements of what the loads have been? And how it works under realistic loads.
might be useful inside a remote control that is what most primary cells are used for
Have one battery pressure another? Then switch the load?
Would it be possible to get the 3d files for the last motor you showed? I didn't see it on your site.
have u considered trying to start a car on crystal power cells
How much total power do you estimate the four year device has used? I'm curious as to the total output of one of these things.
+ElGatoLoco698 You can calculate it. IT can provide roughly 200 ma and 1.5 volts per cell of that size, so 1.5 x 0.2 = 0.3 watts an hour. 0.3 x 35000 hours (assuming 4 years) a total of 10000 ish watts. or 10 kilo watts assuming I'm correct. More then any battery i know, a large car battery has maybe 1000 watts hours on one charge. If you have 10 then that is 100 kW. If that is not spectacular then i dont know what is.
Jette Christensen That's really quite unbelievable. I bet many a electrical engineer would say it's impossible. This kind of thing throws the whole conservation of energy into disarray. Theoretically it's possible but then again theoretically it's possible to blow up an entire city from the energy of one drop of water. Where is this energy coming from? Must be the vacuum energy that Tom Bearden is always talking about.
***** yes exactly that is what i think too, i think steven greer said it was called the quantum flux field from the vacuum of space. there are also devices that amplify the energy output. More energy out then you put in, in a way. I can't remember what they were called but they were like a modified electromagnetic generator. Sucks this technology has been hidden for so long.
It's a thermo electric device that turns ambient heat into electricity. A widely known application is for space probes and rovers, as used by NASA under the name of Radioisotope Thermoelectric Generator (RTG). Their implementation uses a small lump of radioactive material that always stays extremely warm due to the atoms keep fission-ing all the time. The curiosity is that even at 20 degrees Celsius, let's say, the elements shown in the video keep working. Long story short, the energy comes from the environment, namely the heat of the air and table on which the termoelectric elements sit on. If you think about it, even 0 degrees Celsius is hundreds of degrees above 0 Kelvin, so there is heat energy in our atmosphere. We're not like on Pluto with 33.1 K (-240 C).
200mA @ 1.5V for 35000 hours would be simply amazing for IoT devices In fact, far far too good to be true. A current top of the line lithium polymer 18650 cell will give you 1 mA @ 4.2 to 3.2 volts for about 3000 hours at best. These batteries would represent 3 orders of magnitude improvements. Like @shubus said, this is probably microamps not milliamps
have you ever used your 3d printer to create carbon capacitors?
Hello :) please could you explain how that works ? Is there a chemical reaction between magnesium and oxygen from air ? Or is it a secondary battery that you have recharged within these 4 years ? I've made some researches about these Crystal Hutchinson Batteries and I found an explanation where the Casimir effect was involved but I don't understand anything. Very interesting project though :)
May you share this research with me please? I’m really interested!
For the reed switch failure, just put a tiny capacity over the reed switches two ends so that its able to absorb the plasma resulting when the switch opens... then it will last a lot longer... without fusing shut...
Some half baked thoughts about the pressure. Trying to think of ways to alleviate the pressure so that it doesn't split. What if the magnesium had a hollow core, possibly with a compressible material. I'm thinking copper is more malleable than magnesium, but you might cut stress lines or even cut right into the magnesium so it breaks where you want and forces itself into the core.
I feel you need a "bleeder valve" on these types of batteries to relieve the pressure from time to time. That or a permanent "puke valve" that will constantly release any built up pressure growth.
Pizioelectric effect though, more pressure = better performance. I think he should wrap them in concrete inside a steel square bar to hold it all together 🤔
+lasersaber I wonder will it be different if graphene involved
+Ricky Supriyadi Wow, even the thought of that...
+Ricky Supriyadi great thought
I think with a pacification layer of magnesium oxide on the out side of the rod will extend the life of it mixing a small amount of crushed copper sulfate is grate as well in the mix.
Do you still mess with these batteries? Are they still going and can you please put them on your website with instructions on how to build
What are the practical applications of such batteries?
Internal pressure = PIEZO EFFECT, the bigger the pressure the better results you get.Just a couple of Ideas: 1) Have you ever try building a cristal battery using metal shavings instead of mg & zn rods? that way you may reduce the costs. 2) And to increase the piezo effect , what if you place two Neodymium magnets facing each other whit the same polarity, have you ever try these ideas? I'm no expert , I'm just an admirer and a fan of your brilliant work. THANKS FOR SHARING. Best regards.
What happens to the crystal cells if they are not hooked up to a device that pulls electricity from them?
Are unused batteries puffing like this as well?
What you could do is to put a smaller magnesium rod in. Or you could make A-Sized batteries. You can experiment with different shapes of magnesium. Like a spring. Where instead of the magnesium being pushed up will contract inside the cell Thus building less pressure.
Can you compare urs to the reid cell that doesnt use magnesium and can you compare the power output of these cells to a normal battery please?
Yes I would like to see some specs on each of them!
Would nano coating the copper help?
Whats the chemistry of the crystal blend? Recipe?
Hi! Can't you just let the crystal grow? I mean, instead of filling the mixture up to the top you leave a gap and over the years it will be filled by the crystals themselves I really want to see the graphene supercapacitor's build log though :) I found graphene powder on Amazon but it's very expensive, I wonder how much do you need to make a supercap
If it grows it is collapsing into itself. Like a seed has its fruit already packed inside before it grows perfectly down to PLANK. Geometry on a molecular level will inhibit the expansion leading to more power with less expansion?
Like some king of ultrasound added to it for reconditioning?
Is it still spinning? If so any change in the rotation speed?
Are the crystal cells rechargeable?
Try a Crystal voltaic pile
Will them things eventually explode no matter what you reinforce them with, or would the crystals just get so dense they stop growing? Or maybe cause a black hole🌀
that is a hurricane
what if you fill the pipe only loosely with material
Drop the copper cell in a close fitting steel pipe?
very cool
on average how many volts were the long cells making?
Hi Lasersaber, i want to ask, have you ever heard about orgonite? is it produce electricity? if u saw experience about orgonite, its changing water molecul?, can electricity your of your power crystal, doing the same thing like orgonite, i feel orgonite produce electricity, what do you thing? im looking for answer about orgone, would u help me
What if in the copper tube u install a sacrificial anode .