@@kittyhatescrap3500 yeah but tat would be a downgrade for the audience and Rob. This is his how, channel and he is the decision makers and we are his audience.... Nothing about TV makes that better. All we need to do is make sure Rob receives value for the value he brings to his viewers/customers. Robs product(s) are awesome. Hope he never has to accept a TV deal.
Hi Robert, these guys are in Bourbon Missouri and a lot of us have put dampers on the intake air to slow the burn for pellet heating. Otherwise, the unit is a blast furnace and will cook you out of your own house. Adding a thermal mass is indeed the most efficient use of this heater if you can afford the space for the mass. I have been to the factory and the fellows that work there are genuinely ingenious.
I've had the older model Liberator for a few years now running mostly pellets. It does exactly as advertised. Heats up very quick, burns hot and efficiently. I have nothing negative to say about it.
Your shouty voice and crazy laughing are one of the most endearing I have heard. You remind me of my late engineering profs who was just about the best teacher I ever had. Keep going- its wonderful
Thank you for making me remember Professor Julius Sumner Miller. He was another outstanding gentleman with nary a dull moment as he performed his wonderful experiments.
Hello Robert! We're glad to see the heater found its way to you. If there is anything else we can help you with, please feel free to let us know. We may or may not be developing a stirling engine for these heaters in the future. And dont feel bad about taking a grinder to it. We will have a 3rd generation heater coming out in the future, and we'll be sure to send one your way. I can't give away too much, but its going to be absolutely nuts!
Improvement suggestions. Instead of drilling extra holes, run a tube from the front to the back. The air will also be heated by the combustion part. Improve heat convection by increasing the surface by welding on extra pipes or flanges on the outside.
Yes, a 1/2" or 3/8 ss tube running from air inlet, through burn chamber, and up chimney. With small air holes up chimney to inject hot air and add turbulence to mix o2 and combustible gas more thorough. Add an exterior graphine coating or water jacket to help pass off radient heat before it escapes the flue. Add a mass heater along the flue exit. Efficiency isn't only the burn, but the release of the energy for desired effect also.
I like this idea for the air tube. I think about 3/4 to an inch, judging by the number of holes he drilled. Turn the end of the tube upwards so it's not blocked by ash. Weld the tube to the centre of the ash pan. The tube is the long handle of the ash pan, just extract the pan from the front to empty it. No drilling holes, ash falling out, no trapdoor.
So grateful for all you share with us. I am planning out three Rocket stoves, one for house, one for shop and one for my bus to tv conversion. Love all the ideas, plans and explanations. Have to check out the boys up north, awesome that we have folks here in the states. From AZ thank you kindly!
Hi Bob. One improvement I can think of is a Sand Battery . One can make it as a buy on for the Liberator. Just a box that encapsulates the chimney, and the client can then fill it with sand... Or water and heat it....
This is a pretty good idea. As long as any diversion of exhaust flow does not reduce the airflow too much. Quite a bit of the unused heat can be recovered. Just in case anyone is thinking of passing the exhaust gas through sand, don't even try it. The restriction in the flow will screw up the whole combustion process.
In Ukrainian villages, they build massive rocket-style stoves/ovens, which take up a good chunk of the wall. I think people even sleep on the very top of it, as it stays warm all night. For the country people, the oven/stove isn't just an appliance, it's a viable part of the home to dry wet clothes, to cook, to bake, to sleep on after the day is done. It's amazing how much thermal mass those things have...
If your enthusiastic knowledge is combined with these manufacturers the i can only say that the sky is the limit in rocket stove technology from now on . Great video and a wealth of extremely helpful information as always. Thank you.
This is the basis for a rocket stove mass heater. The exhaust would be piped through a long horizontal pipe embedded in a thick piece of masonry inside the home. Then to the outside into a fairly tall chimney pipe. When done correctly it produces no smoke at all. People often use the inside masonry, with cushions of course, as a couch.
Great VID !!, Burbon is in Missouri MO is Missouri. Montana is MT. Keep up the great Vids, I've been following your posts on this series and much as possible.
People are willing to pay for convenience and no one likes to spend time cleaning the rig day after day. So, one suggestion to expand on what you have, look at the bottom of the riser and burn chamber. In a drawing it looks like a rectangle connected with a circle on one end which I'll call the BASE. Change the mount system so that the entire BASE becomes a hatch which will swing open on the long side so all the ash will fall to the ground or in a larger container. Then you can easily sweep it clean with a broom if it's not hot 🔥. Close the BASE and your done, less than a minute! People like easy clean and are willing to pay for it! If you like my idea, give me a good price on your new build. :). GL!
For those of us who are ladies having a trivet on the top of the lid to be able to put a dutch oven on to cook. Also maybe make accessories such as a off-grid food dehydrator that can go on the trivet, reflector for the back that could be far enough away from the back that there would be a shelf to put a bread loaf pan and possibly bake bread or meatloaf. The reflector shield would have to have a hinge to openba side to put in and take out the liaf pan. Lol Yes, I am a female and a foodie. Lol Women love accessories that can be purchased with or after.
@@chrisallen2005 No where did I say that I would be the one cooking. Women will gladly step aside and let the man cook so long as we still get the accessories to make it look pretty. Lol
A very useful bit of explication there, with the phrasing of "burn at" vs "burn to." I've been discussing this with my family, and we hadn't hit upon that very clear conceptual framing. Thanks!
the only way you lose the heat is venting exhaust gasses while they are still hot enough to capture and redirect to the heating location. the improvement like you mentioned could be an easy cleaning feature, also a coolant loop in the cavity space would be good to help with either heat storage, second room heat or domestic hot water use.
I have had one myself in my other building, sold building with stove, worked GREAT, will buy another after new building built, was in Massachusetts, now in Tennessee.
It would be adding more cost, but I think add two runners on the bottom that run the length of the base to the chimney for the secondary air intakes, and a flappy panel on a hinge could be used as a damper to control the amount of air intake
Isn't the internet amazing! Someone on the other side of the planet who clearly has followed Robs journey with the rocket stove and recognises he knows what he is talking about. Now they are willing to send their stove over for him to assess and if possible improve. Love it!
Birds eye view on the drum, put a full height half divider and in the front section you can fill it with sand. Will still act like a rocket stove giving instant heat but will also charge the sand as a battery!
I am in the process right now of doing just that although I am using an L shaped exhaust pipe inside the drum and filling it with sand to just below the exhaust pipe.
@@ThinkingandTinkering Variant add on - 'quadrant' shaped drums filled with sand that bolt to put side of burn drum. Other thing often missing from rocket stoves is higher capacity fuel feed so that it can be left longer between refueling - pellet hopper?? Also when I was thinking about rocket stoves my 'design' got (on paper) as far as something like the liberator but half the height but the rear drum had fresh air pipes coming in from the base and running up to near the 'lid' to bring heated fresh air into the drum to give more efficient secondary burn.
The idea behind Insulating the Rocket Stove is not to do anything in the way of heat radiation. It's 2 purposes are to First get the burn box area up to temperature ASAP. Second is insulating the Inner wall is to Protect the steel from being destroyed by the excessive heat & keeping enough heat in the riser tube is to make sure the wood gas ignites before it leaves said tube. This is where the secondary air comes into play right at the vertical turn of the riser tube.
1Up the sides of the larger tube - add a few heat exchanger tubes that go all the way through the main chamber, possibly large enough for an added 2. fan, or one of those wood stove fans that operate on heat from the stove. 3.Maybe add a spot of plate on top for warming up coffee or frying some eggs? 4.Paint it with some cool looking flames? 5.Make an an attachable tank and input tube for modification into a liquid fuel (veg/motor oil) stove? 6.Put radiator fins on the outside to help radiate the heat. 7. A modification to run a hose to and from a standard water heater, and water jacket heat exchanger to either replace or supplement home hot water heaters. 8. An add-on tool kit for cleaning/adjusting the unit. 9. A health and safety sticker... lol , ok I'm out of ideas... lol 🤣
That looks very well put together. But if they're asking for ideas... 1) Another air channel beside or under the main intake to supply hot, fresh air to the flue/chimney 2) Crinkle the sides of the barrel to increase the surface area and radiative emissions. Some kind of wave pattern or 90 degree bends, like a washboard. It would use extra material for the same diameter, but that's kind of the point. 3) An option for running a coil of pipe through the barrel to heat water. Maybe just an access port on the top and bottom, with a pipe fitting of some standard size, would be useful enough to allow people to mod that themselves without taking an angle grinder to their beautiful stove. 4) A thermostat. Some kind of feedback loop for output temperature vs. intake air. I'm thinking the effluent temperature from #3 here, but perhaps there could be a design for the outside air temperature as well. I'm not sure how much you can throttle this thing down without affecting the burn quality, smoke, etc, but it seems like some kind of thermostat would be very useful. It might be possible with a bi-metallic strip, a lever to increase the travel distance, and a bicycle brake cable. The valve would need to be easy to move if you're relying purely on the mechanical force of the strip. A coil of something with a high coefficient of thermal expansion might also work.
Would have been nice to see the Liberator lit up and working, and some results from the test. Maybe another video? Thank you though for doing such wonderfully informative videos.
Depending on the application or combination thereof if they were to fill the heating chamber with sand but have hollow pipes running through it the sand would heat up and draw air from the bottom, through the pipes, and then out. It can capture the heat quickly and use natural convection currents to slowly (passively) radiate the heat.
You could use an access door at the bottom of the chimney side, that hinges out from the backside, for a clean out. If you just want airflow then cut some conduit straws to lay inside at the bottom. The conduit can be perforated or have perpindicular slits for airflow, and it will pull from the cold side. That way you aren't making holes in your chimney bottom.
@3:08 I think those fasteners securing the insulation will prove to be a design flaw. Those may corrode from hot exhaust gases. Also possibly cause the insulation to crack and fall apart due to expansion. I would suggest; instead of bolts, score a rough texture onto the steel walls, and secure the insulation with a thermosetting epoxy.
The ventilator holes shouldn't leak ash, since they are drawing air. But the easiest fix is just a short angled up tube on the outside. More on those holes, if you put one near each of the three available corners, they would add oxygen while starting the vortex. You don't need a lot to start that, just a hint (also keeps the temp from dropping), which three maybe 3/8 inch holes would do.
The up-angled tubing is a great idea! The bypass air could be "throttled", and if my thinking is correct, the ash would become concentrated in the center.
@@mikebond6328 I'm not sure what you're saying. Are you expecting a deep pool of ashes in the chimney that will flow over to the holes and pour out? Then make your holes a little higher up the pipe.
I was worried we might never see another rocket stove video! I am thrilled you got in touch with the professionals... Actually, the other way around! It proves you know what you are talking about, and perhaps that is what others might be implementing to their projects! Cheers
I think it's great Rob, that someone with your noggin caliber is getting right into this. Thanks for explaining the finer points of effective burn temperature and the whole principle behind an effective rocket stove. The only thing that I can think of to modify this stove is to have a smaller version. Maybe one that could be dismantled ? But we dont want to sacrifice simplicity. The focus on these stoves is evolving and it will be very interesting to see where it goes. Some method of chimney insulation for the DIYer would be good.
Brilliant Robert, great project. I've a vintage cast iron Tangye stove, it has horizontal, slightly inclined air ports right through the upper section of the stove body. This adds surface area and encourages air flow as cold air is drawn in at the lower end of the port and exits as hot air. Might be too much of a modification but it could be an optional model B Liberator. Tony
Jeez I love this channel! I can't wait to see what you do with the Liberator! From what I've already read in the comments, you're going to have plenty of ideas for improvement with this, can't wait!
Suggest: change lid at top to inverted drum so you can get down to bottom for cleaning. Put outer sleeve (open at bottom and top) over gas chamber to create convection current, include fins b/w inner and outer walls for better heat exchange, which will remove more heat from exhaust gases, it will also keep the outer gas chamber temperature lower and safer
Wrap the heat exchanger with corrugated metal. You want more surface area to better couple the hot metal to the air. Look up heat exchangers for camp cooking to get an idea.
Absolutely! I was thinking to maybe weld round or square tubing vertically around outside, to increase surface area and create a convective air flow. But your idea of using corregated metal (like roofing panels) would be of lower cost I think. Nice one! 👍
Hi Robert, not my own idea, but seen in a video of something very similar - wood gasifiers - for vehicles, they added (or injected?) water or steam into the unit, which took care of ash/ soot/ creosote problems and hugely (+/- 40% ??) improved clean heat output. Overlapping technologies & sharing refinements seems like a good idea to me. Have fun! I think it was a you tube video which covered WW2 and included Germany, also London, amongst others, also later, showing more modern use of gasifiers mounted on the backs of pick-up trucks, which looked unusual, but still, a great, portable concept!
if you fitted iron pipe(s) where the holes are drilled you could then use those pipes, when cold, to vacuum out the ash, the change would add little cost. You could also add fans to increase the flow. The neatest solution I have seen however was the Aussie rockets site where he created a vortex.
Interesting, I built a rocket stove the size of that large stove and it got the back of my pizza oven red hot! I couldn't believe it, I thought my BakerStone pizza oven was going to explode, the temperature dial went all the way around! I had to remove the pizza oven and it was OK. After that incident, I added a vent door to control the temperature and I can now keep it steady at 350F to bake bread etc. Very powerful those rocket stoves. I use the wood from falling branches at my Farm.
In the past I’ve worked on a vortex rocket stove which made the gravity fed flame concentrate into a swirl coming out from the stack which generate more heat while burning less fuel . The idea is to have the gravity fed material drop down into a circular burn chamber slanted slightly upward to the round stack while positioning the air intake at just the right placement to control the adjustable draft or air intake .Burnt material or ash from pellets would drop down through a grate into a collection box . When built right and depending on the controlling of the air intake , you will actually have a very strong swirl of flame which is very interesting to see .
To allow the point for air entry and easy cleaning, try a 50x100mm (2x4inch) pipe under the bottom of the ‘J’, coming to the ‘front’ of the unit, with an removable ash drawer. The drawer can then also be opened and closed by varying amounts to regulate the air then entering the bottom of the flue. That way all three intakes (main air intake, fuel hopper and ‘bypass’ air intake with the ash collector drawer) are at the ‘front’ of the heater.
@@ThinkingandTinkering I have seen a few variations of "afterburner" and so far one was very appealing to me. You just drilled some holes in the bottom of the chimney. Air that is drawn this way is at room temperature, so about 20 degrees C. As you obviously know that, in all substances it will try to reach thermal equilibrium, so you are wasting energy here, cooling that part which should be the hottest. In a few designs i saw that this air was supplied by a square profile, cut off one side then welded along the hearth. One guy even made holes along the chimney pipe and just drilled them on an angle, which gave the exhaust gasses a vortex effect. Anyways, that's my two cents on this topic :) P.S. I really love that someone reached out to you with such request. It means you are doing a wonderful job and it's getting noticed :)
I agree that drilling holes at the chimney base for secondary air intake is not the best idea. The air should come via a tube from the front "mouth" of the stove, so it's preheated in the fire section. Turn the chimney end of the tube upwards and weld it positioned in the middle of the ash pan. Then the air intake tube (maybe 3/4 to an inch?) is also the long handle of the ash pan. Pull it out & empty
Hi Rob. You’re absolutely right about chimney insulation for a ROCKET STOVE (though chimney height is clearly important …HOWEVER, for a ROCKET MASS HEATER (like that liberator clearly is), the chimney is typically made completely out of firebrick for insulation! This is to MAXIMISE THE HEAT FOR CONVECTION. For instance, my rocket mass heater, built 3 yrs ago (from hundreds of RUclips videos AND the purchase of The Rocket Mass Heater Builder’s guide (Ernie Wisner), EVEN THE GAP of almost precisely 45mm (for 6 inch design) must be maintained. This allows the ‘draw’ to not only continue down and out the barrel, but ‘snake’ along the wall up to 15 METERS (covered in thermal mass). I have pictures I took, but no idea how to insert them into comments :( You’re AWESOME! Keep up the amazing work!! You’re helping more people in the world that I’m sure you could possibly imagine!! Cheers, Mark Caudrey, Montreal, Canadian chap ;)
Hi, yes I can think of a few suggestions.. you covered two in your vid with a secondary air inlet and an ash pan.. but the only issue you need to ensure is that after the initial burn phase that no air will escape from where its not supposed to.. being as it is meant for internal use you don't want any form of carbon monoxide to leak.. My suggestion includes a secondary burn feed from the main air inlet (Shared inlet) this will negate any blowback if it were to occur as it would be dragged back in via the initial burn inlet. Ash extraction could be done by installing a service hatch on the side or bottom as you suggest, but this will need to be sealed using fire rope or caulking.. Air flow is like water and electricity, it always follows the path of least resistance, so although the heat is pumping out of the top of the rocket stove and hitting the top plate (which can suffer from heat damage over long term) most of the heat also flows down the side of the exhaust port. My suggestion would be to insert some baffle plates to force the air in circular motion around the radiant heater section before it gets to the exhaust port. Yes this might slow the air flow down a bit. But it would also make it more efficient in using the available heat produced to come into contact with the outer edge. Also on that note, utilising the available heat on the outer edge .. my biggest suggestion is to add fins to the internal and external surfaces of the radian heat drum.. this will give a larger surface area for heat transfer and also increase the rate at which the heat is dissipated out of the system.. Only problem is.. now I've made these suggestions on a public forum they cannot be used in a patent and are open to the public.. that sort of thing really sucks if your trying to make the ideas novel and unique.. to improve your own patent applications. Anyhow good luck to them on developing their product 😎 👍
This would pair very well with a Tesla Turbine from TesTur Energy. We've just run our first steam tests. Previously we've achieved 4 kW+ with just compressed air alone. In fact, at one point, we were working with Sky Huddleston of Liberator to apply for a grant to pursue pairing the two together, which didn't materialize.
Looks great. Maybe one or two of those stove fans on top would help circulate the heat quicker. Speaking as a non-techie, does it make sense to add more thermal mass if the rate of burn and temperature can be regulated by air intake and the amount of fuel being fed in by the hopper? Perhaps a couple of temperature guages would be helpful?
it depends what you want to do with time the heat is released mate - you can think of thermal mass as a battery - the first bit of heat goes to heating the mass - then the room then the fire dies and the heat absorbed by the mass is given out - with out the mass the heating is felt straight away
I like the round exterior housing, it looks like it would lend itself, quite easily to adding a water coil for hot water or distribute heat to other areas.
I think I would wrap a thin layer of some kind of insulating, protective cover around the outside as well, to keep some nunny from touching it when it's operating.
Before you modify the Liberator itself, see if you can make a waste oil kit for it that people who own Liberator's could buy and drop in without modification. ideally the waste oil kit would have an external "tank" that holds about 8hrs worth of oil and a way to see how much is in the "tank".
Can’t wait for some of your ideas for improvement! Mine is rocking away on pellets, thinking about wrapping exhaust with copper pipe for thermal battery of 55 gallon barrels.
@@ThinkingandTinkering I’d love to see if you have any clogging issues. I think my pellets have a bit too much softwood. Mine will burp smoke too when it runs out of pellets, but I’m working through those issues. Maybe we can come up with fixes.
@@nghermit4922 Try loosening the set screw in the collar of the pellet hopper, dropping the pellet feed tube 1/4" - 1/2", and/or opening the damper when you get low on pellets.
@@nghermit4922 Its "standard starting point" should be around 19" of pipe coming out of the bottom of the hopper; but we make it so that it can be adjusted either way.
Steel spalls at 1600F. And we are looking for temps over 1350F which means we could hit 2000F. The liberator is perfect for a home - especially when running on pellets with a bit of a mass. A bit underpowered for quickly heating a shop. Bigger rocket "engines" hit the higher temps easier/faster for cleaner burns. More wood also means more heat per filling - so less need to fill. Which is why the liberator really shines when using pellets.
Have a look in the horizontal burn chamber of the liberator and I think you will see insulation on the inside that is detachable and the burn chamber width is wider than the feed tube so the insulation doesn't obstruct the gravity feed.
It could be possible to extend the bottom square pipe and cover the open end with a hinged cover with air valve. This way you can easily clean out the whole pipe by pushing through a simple piece of wood into the ash bin underneath. A simple folded metal tray sliding on fixed bars could serve as low dust ash holder. On top of the extended pipe a cooking plate can be mounted.
I'd just use a shop vac with a decent length of hose to remove the ash [but only when it has cooled, naturally]. The only other thing I could possibly suggest, for how little I can see it from a distance, is putting radiator fins around the outside. In fact, you could literally add them completely independent of the actual body of the unit with a couple of wide pieces of shipping banding [it is typically a hardened steel], and if you can get a couple feet/meters of it, one for the top and one for the bottom, OR some really large hose clamps [I've seen some amazingly large ones out there, but you might still need to daisy-chain 2 or 3 to get around your barrel], take some simple L or U or even square aluminum extrude, cut it to the length of the barrel, cut 2 slits in the aluminum to poke your metal strapping through, and then wrap the whole thing like a beach fence around the barrel so that at least one whole flat side contacts the barrel so it can conduct some heat, and let the other side(s) facing out into the room go into convection and radiation mode, as Aluminum will do a really good job of extracting a lot of that heat and liberating it into the surrounding area. To close up the ends of packing banding [by the way, some times you can find the stuff thrown away any place a lot of large shipping pallets can be found, so if you look in the alleys of some industrial parks, you might find strips of it for free, plenty large enough for the job] just take a small drill bit or, if it proves too hard, get a carbide tipped burr and put it on a dremel motor, make yourself 2 matching holes close to the end, bend them over 90 degrees with a pair of pliers, so you can slip a bolt and a nut through them and gently tighten the straps just enough to do the task without breaking them. These can be put on and taken off, they can be cleaned behind, you COULD, should you be so obsessed with efficiency, strip away the paint and apply thermal paste between the bare metal and the bare aluminum, but I get a feeling that would be a real waste of time... The only reason I might ever bother taking the radiator fins off is to clean them, or clean behind them. Not sure it would be with the effort to clean them much more than sweeping them occasionally with a fuller's brush for dust and cobwebs anyhow.
My Dunsley Yorkshire stove could almost be described as a kind of rocket stove, it has a large fire box for logs, at the back and at the bottom of the chamber is a slot maybe 11/2" high, it is there where I have to light it. The firebox merely undergoes Pyrolysis, once the flames exit through the slot in the back they go through what would be best described has a venturi chamber, this is firebrick insulated and a special brick with I think about 8 holes in it which line up with holes in the back of the steel. The flames drag in more air, and the afterburn chamber goes to about 1500 degrees where it burns off all the smoke, this is then sent around a boiler jacket before heading for the chimney at the same time it passes over the top of the fire box fire brick which provides more heat for pyrolysis. It burns very clean provides hot water and central heating in the worst of winter, it has just not been cold enough yet to use it. But the design could be used in a rocket stove and you may be able to get a diagram online. Another thing I once read about was a professor hills boiler, these involve a down burn feed and a super insulated refractory channel with a air blower.
Add an ash pan that seals the space effectively so that when you can adjust the amount of venting by sliding it in and out., that way you sort two issues with one simple alteration.
I've tinkered with homemade rocket stoves for a few years. Love the ideas on the different heater options they provide. From masonry heaters, rocket mass, and drop-in units like this and the "wiseway" pellet stove. Very cool. I love burning wood for heat. But my back is giving out so pellet is probably going to be my route. Great to hear someone else and their findings in this "hobby " your description on how the Temps can rise and improper over insulation.... spot on...
I watched some videos on rocket stoves that used a long pipe connected to the stove that zig zagged from ceiling to floor placed next to a heat sink wall of stone or clay. This was done to use as much heat as possible in the home and not let the energy go to waste by venting it outside. After the heat from the pipe was spent, the pipe coiled back around the initial "heating drum" from the floor to heat up the air a little bit to help push what was used back outside since the air in the pipes had cooled and most of the energy was spent heating the home and/or heat sink. These folks channeled air from outside the house to feed a sealable chamber under the fire. I think the fire was on a grate of some kind. If the initial air for the fire in the lower chamber and air for the additional vents, like the holes made to help combust the gasified material, came from outside the house it may not be necessary to ventilate the home with a cracked window or whatever is used to ventilate the house. The air inside the home would only be warming the air inside and any gases that may cause harm wouldn't be able to enter the home and would return outside through whatever piping originally vents to the outside. The intake vents would need to be covered and away from the exhaust to keep from circulating non combustible air. I think much of this has already been done in small scale and in some homes. But I'm not sure that anyone has tried using air from outside the home to help combust the gasified material they are using for the rocket stove.
Consider testing the air flow of the air intake holes you suggested adding to the Liberator stove by having the ability to control the amount of air entering. Looking forward to the results. Thanks for the video. (JF)
I love this!! I was thinking moving the location of the holes around a little bit might be good to help find where they work best! (If they aren't already in the best spot) I was thinking including your oxygen slightly closer to your primary wood burn might be a good idea! Of course too far could be bad but maybe only a couple of inches?
Allowing the fresh air from the holes to mingle with your freshly generated flammable gases a little sooner might allow for an easier burn? They can get roaring a little sooner and have more time spent in the exhaust tube to do their thing?!
Robert: Rather than an ash pan under the amplifier elbow where you have a row of holes drilled, try an angled slot ground into the elbow on a 45° angle where the bottom of this air intake slot is 30mm from the bottom, no ash will roll out here and the relocation of the intake of the air jet air intake will enhance the draw toward through and up the flue. Holes across the bottom will tend to create a burn there and not enhance the draw where it is needed. I would like to see this in oil burner with an automatic light system for a thermostat and flame sensor, etc. I also don't see a circulation blower on the hot air plenum, as a unit this size should have a better way to utilize flow to the space it is intended to heat. And for thoughts and giggles, I am starting a build of a soybean (aka rapeseed oil) forced air furnace to replace my wood burning stove because the price of cut wood deliveries has gone out of sight in my are, and I assume it has gone up drastically in most places.
Also on the below described heater add an air intake preheater drawing from the chimney exhaust with the timble drawing thru the roof or wall where the chimney exits. All the air to run the stove comes from the preheater with caps on the feed tube and a sealed door on the horizontal run opposite the chimney end . Air preheater will have exterior insulation to hold the increasing temperature drawn off of about the last 8 to 12 feet of the chimney before it exits the building.
We'd love to see a modification to the pellet hopper--(A) it heats up due to proximity to the barrel and (B) as it empties or the plate is closed to stop the flow of pellets, smoke travels up through the hopper and fills our house. Thank you--we love your channel! As for a sand battery--I am going to use a popcorn tin filled with sand on the top and place around the house overnight after the wood has burned out.
Great video! I hope more people listen to what you are saying about not insulating the outside. Nobody needs an iron furnace in their house, especially a self-destructive one. I'm not going to brag about stuff made here in the states, but we have some really smart folks when it comes to wood stoves/heating and good design. I'd like a Liberator for my basement and emergency use, but a designed in cooking surface would be beneficial.
The removable top plate of the heat exchanger is 1/4" plate steel that is designed to double as a cooking surface--although you may want a trivet to keep things from burning.
Interesting explanation. I understood that in masonry stove they burned to about 1200C and captured the high temp in a ceramic mass via a convoluted flu system. Is the difference that the flu is not metal and the ceramic can sustain the higher temp, which then acts as a temperature "transformer"....
Doesn't look like you can get any sizable pieces of wood in there good luck keeping that going when it's 10 below out. Good design and good explanation, I wondered why you needed an insulated rise tower and now I know. I built my own rocket stove and been using it for 9 yrs now and it is amazing. I made mine with a burn area made from firebrick and cob, I used stove pipe stuffed w cob as insulated rise tower, capped it w old cylinder water tank thing and vent it right out the fireplace. It uses much less wood and you don't have to clean it for weeks which is a blessing in itself, and it throws some heat. I do have cob and sand and cinderblocks packed in around the burn area for thermal mass to hold heat when fire is low or out. This thing works like a dream, I built it and I am continually amazed at how badass it is.
Weld pipe fitting at bottom 2nd burn chamber to port in outside fresh cold air to burn in 900c plus chamber. Dual use at clean time vacuum hose could adapt to air supply for clean out or plug it shut.
I can suggest a two chamber sliding ash tray. With one chamber in the stove under a grate to keep the wood above and let the ash fall down into the chamber. While the stove is still burning the sliding ash tray can be moved to place the empty chamber into the stove while the chamber that just slid out can be emptied of ash. The ash tray would just need to slide back and forth from left to right in order to empty one of the chambers. The stove never has to be shut down to empty the ash and no efficiency should be lost.
That looks pretty much perfect to me. I have to wonder how hot the air coming out of the vent will be, ideally as cold as possible so non of the heat gets wasted which leads me to wonder if 2 or 3 upright parts (smaller) inside the chamber would all heat up to the required temperate without exceeding it. Might also preserve the steel better.
yeah ideally the exhaust should be pretty cool - the problem is with a neat exchanger you get a tortuous path and that will limit draw - maybe a fan assist?
If it were mine I would weld some 2-2.5cm steel fins on the inside of the drum. That adds cost, though it also adds mass to heat without restricting the air flow of the hot exhaust gasses. Actually now that I think about it it would work just as well as an insert that just sets in. That way there is no permanent modification to the unit and then the cost would be optional. Can't think of much other than what you mentioned about adding an air intake area by drilling holes and adding an ash pan. The ash pan might be an area where the how air might leak out if it doesn't seal properly. That may lead to long term maintenance concerns. She sure is a beaut though Rob. That is quite a gesture and I think it speaks to the quality of the channel. Keep banging on mate!
You non-stop enthusiasm combined with your knowledge is always entertaining and enlightening.👍
This man deserves his own TV series
Oh wow - cheers mate
@@kittyhatescrap3500 We already have a "MacGuyver" TV series... ;)
@@kittyhatescrap3500 yeah but tat would be a downgrade for the audience and Rob. This is his how, channel and he is the decision makers and we are his audience.... Nothing about TV makes that better. All we need to do is make sure Rob receives value for the value he brings to his viewers/customers.
Robs product(s) are awesome. Hope he never has to accept a TV deal.
Hi Robert, these guys are in Bourbon Missouri and a lot of us have put dampers on the intake air to slow the burn for pellet heating. Otherwise, the unit is a blast furnace and will cook you out of your own house. Adding a thermal mass is indeed the most efficient use of this heater if you can afford the space for the mass. I have been to the factory and the fellows that work there are genuinely ingenious.
I've had the older model Liberator for a few years now running mostly pellets. It does exactly as advertised. Heats up very quick, burns hot and efficiently. I have nothing negative to say about it.
awesome mate - thank you for sharing
What about some thermal mass. Like masonry stoves. To hold on to some heat when the stove burns out. Fantastic stuff. Thanks.
@@juliancripps1580 Sand?
@@dengle2001 Robert has a video with a sand-filled thermal mass.
@@juliancripps1580 soapstone
Your shouty voice and crazy laughing are one of the most endearing I have heard. You remind me of my late engineering profs who was just about the best teacher I ever had. Keep going- its wonderful
lol - cheers mate
Thank you for making me remember Professor Julius Sumner Miller. He was another outstanding gentleman with nary a dull moment as he performed his wonderful experiments.
Mr gamble my science teacher was similar very inspiring, had a wacky moustache to match
Hello Robert! We're glad to see the heater found its way to you. If there is anything else we can help you with, please feel free to let us know. We may or may not be developing a stirling engine for these heaters in the future. And dont feel bad about taking a grinder to it. We will have a 3rd generation heater coming out in the future, and we'll be sure to send one your way. I can't give away too much, but its going to be absolutely nuts!
Improvement suggestions. Instead of drilling extra holes, run a tube from the front to the back. The air will also be heated by the combustion part. Improve heat convection by increasing the surface by welding on extra pipes or flanges on the outside.
cheers mate
Yes, a 1/2" or 3/8 ss tube running from air inlet, through burn chamber, and up chimney. With small air holes up chimney to inject hot air and add turbulence to mix o2 and combustible gas more thorough. Add an exterior graphine coating or water jacket to help pass off radient heat before it escapes the flue. Add a mass heater along the flue exit. Efficiency isn't only the burn, but the release of the energy for desired effect also.
Welding on extra pipes or flanges on the outside is a absolutely brilliant idea. Good thinking H P. Rocket stove's rock!
I like this idea for the air tube. I think about 3/4 to an inch, judging by the number of holes he drilled.
Turn the end of the tube upwards so it's not blocked by ash. Weld the tube to the centre of the ash pan. The tube is the long handle of the ash pan, just extract the pan from the front to empty it. No drilling holes, ash falling out, no trapdoor.
Maybe, just add a control valve (ball or gate) to this intake pipe, like a damper. Will allow for fine tuning of the air intake.
So grateful for all you share with us. I am planning out three Rocket stoves, one for house, one for shop and one for my bus to tv conversion. Love all the ideas, plans and explanations. Have to check out the boys up north, awesome that we have folks here in the states. From AZ thank you kindly!
Hi Bob.
One improvement I can think of is a Sand Battery . One can make it as a buy on for the Liberator. Just a box that encapsulates the chimney, and the client can then fill it with sand... Or water and heat it....
Spot on. I was thinking copper coil midway and surrounded by sand or other material that will hold heat.
@@rocklover7437 I would like to think 2 coils. One for hot water, the other to circulate through another heat-sink and then a radiator.
I like that - good thinking mate - cheers
This is a pretty good idea. As long as any diversion of exhaust flow does not reduce the airflow too much. Quite a bit of the unused heat can be recovered. Just in case anyone is thinking of passing the exhaust gas through sand, don't even try it. The restriction in the flow will screw up the whole combustion process.
I was thinking of heat bricks like the old storage heaters use to have, similar to the sand idea but maybe more tunable.
In Ukrainian villages, they build massive rocket-style stoves/ovens, which take up a good chunk of the wall. I think people even sleep on the very top of it, as it stays warm all night. For the country people, the oven/stove isn't just an appliance, it's a viable part of the home to dry wet clothes, to cook, to bake, to sleep on after the day is done. It's amazing how much thermal mass those things have...
Russians also
They're all over Europe.
Thermal mass stoves/fires
@@lsmith992 brilliant idea
In Romania as well. We call them teracota
@@danielbuse3639 I think perhaps Eastern Europeans are ahead of the globalists games
You really have a way of imparting knowledge and enthusiasm at the same time, whish I had you as my teacher when I was growing up.
oh wow - cheers mate
If your enthusiastic knowledge is combined with these manufacturers the i can only say that the sky is the limit in rocket stove technology from now on . Great video and a wealth of extremely helpful information as always. Thank you.
This is the basis for a rocket stove mass heater. The exhaust would be piped through a long horizontal pipe embedded in a thick piece of masonry inside the home. Then to the outside into a fairly tall chimney pipe. When done correctly it produces no smoke at all. People often use the inside masonry, with cushions of course, as a couch.
Great VID !!, Burbon is in Missouri MO is Missouri. Montana is MT. Keep up the great Vids, I've been following your posts on this series and much as possible.
People are willing to pay for convenience and no one likes to spend time cleaning the rig day after day. So, one suggestion to expand on what you have, look at the bottom of the riser and burn chamber. In a drawing it looks like a rectangle connected with a circle on one end which I'll call the BASE. Change the mount system so that the entire BASE becomes a hatch which will swing open on the long side so all the ash will fall to the ground or in a larger container. Then you can easily sweep it clean with a broom if it's not hot 🔥. Close the BASE and your done, less than a minute!
People like easy clean and are willing to pay for it! If you like my idea, give me a good price on your new build. :). GL!
It's brilliant to see you get the respect from the wider community 👏. Keep making the world a better place mr Murray Smith
That is fantastic! I have watched this for years! Great to see your review!!
I love your knowledge and how you teach as you talk. Thank you for your content and insight.
When a man laughs while saying "I'm very reluctant to take an angle grinder to it" I'm all in 😂👌
8:39
For those of us who are ladies having a trivet on the top of the lid to be able to put a dutch oven on to cook. Also maybe make accessories such as a off-grid food dehydrator that can go on the trivet, reflector for the back that could be far enough away from the back that there would be a shelf to put a bread loaf pan and possibly bake bread or meatloaf. The reflector shield would have to have a hinge to openba side to put in and take out the liaf pan. Lol Yes, I am a female and a foodie. Lol Women love accessories that can be purchased with or after.
I am offended. Since when did cooking become the sole domain of women?
@@chrisallen2005 No where did I say that I would be the one cooking. Women will gladly step aside and let the man cook so long as we still get the accessories to make it look pretty. Lol
A very useful bit of explication there, with the phrasing of "burn at" vs "burn to." I've been discussing this with my family, and we hadn't hit upon that very clear conceptual framing. Thanks!
the only way you lose the heat is venting exhaust gasses while they are still hot enough to capture and redirect to the heating location. the improvement like you mentioned could be an easy cleaning feature, also a coolant loop in the cavity space would be good to help with either heat storage, second room heat or domestic hot water use.
MT is Montana, MO is Missouri, just information, Love your channel, I’m the same way you are in improving things. Thanks
I have had one myself in my other building, sold building with stove, worked GREAT, will buy another after new building built, was in Massachusetts, now in Tennessee.
Anxiously following this thread. Can't wait!!!
Thank you, I really appreciate your work
Thanks Robert!
cheers mate
It would be adding more cost, but I think add two runners on the bottom that run the length of the base to the chimney for the secondary air intakes, and a flappy panel on a hinge could be used as a damper to control the amount of air intake
Isn't the internet amazing! Someone on the other side of the planet who clearly has followed Robs journey with the rocket stove and recognises he knows what he is talking about. Now they are willing to send their stove over for him to assess and if possible improve. Love it!
Birds eye view on the drum, put a full height half divider and in the front section you can fill it with sand. Will still act like a rocket stove giving instant heat but will also charge the sand as a battery!
ahhh - now then - that's clever - cheers mate
I am in the process right now of doing just that although I am using an L shaped exhaust pipe inside the drum and filling it with sand to just below the exhaust pipe.
@@ThinkingandTinkering Variant add on - 'quadrant' shaped drums filled with sand that bolt to put side of burn drum.
Other thing often missing from rocket stoves is higher capacity fuel feed so that it can be left longer between refueling - pellet hopper??
Also when I was thinking about rocket stoves my 'design' got (on paper) as far as something like the liberator but half the height but the rear drum had fresh air pipes coming in from the base and running up to near the 'lid' to bring heated fresh air into the drum to give more efficient secondary burn.
Clay might hold onto the heat for longer from some research papers (bentonite based cat litter has been mentioned as a useful substance)
@@markhedger6378 I wonder how well rock wool would work in this application...?
I just found your channel yesterday. I wish you lived in my neighborhood. I would have a blast in your shop learning. The wisdom is so enjoyable!
The idea behind Insulating the Rocket Stove is not to do anything in the way of heat radiation. It's 2 purposes are to First get the burn box area up to temperature ASAP. Second is insulating the Inner wall is to Protect the steel from being destroyed by the excessive heat & keeping enough heat in the riser tube is to make sure the wood gas ignites before it leaves said tube. This is where the secondary air comes into play right at the vertical turn of the riser tube.
So glad they sent you their heater to look over. Wonder if a sliding ash pan on the bottom would be hard to add to it?
1Up the sides of the larger tube - add a few heat exchanger tubes that go all the way through the main chamber, possibly large enough for an added 2. fan, or one of those wood stove fans that operate on heat from the stove.
3.Maybe add a spot of plate on top for warming up coffee or frying some eggs?
4.Paint it with some cool looking flames?
5.Make an an attachable tank and input tube for modification into a liquid fuel (veg/motor oil) stove?
6.Put radiator fins on the outside to help radiate the heat.
7. A modification to run a hose to and from a standard water heater, and water jacket heat exchanger to either replace or supplement home hot water heaters.
8. An add-on tool kit for cleaning/adjusting the unit.
9. A health and safety sticker... lol , ok I'm out of ideas... lol 🤣
An extra inlet, to take oxygen from the outside (of the house etc). The inlet may wrap around the outlet to preheat the air intake.
That looks very well put together. But if they're asking for ideas...
1) Another air channel beside or under the main intake to supply hot, fresh air to the flue/chimney
2) Crinkle the sides of the barrel to increase the surface area and radiative emissions. Some kind of wave pattern or 90 degree bends, like a washboard. It would use extra material for the same diameter, but that's kind of the point.
3) An option for running a coil of pipe through the barrel to heat water. Maybe just an access port on the top and bottom, with a pipe fitting of some standard size, would be useful enough to allow people to mod that themselves without taking an angle grinder to their beautiful stove.
4) A thermostat. Some kind of feedback loop for output temperature vs. intake air. I'm thinking the effluent temperature from #3 here, but perhaps there could be a design for the outside air temperature as well. I'm not sure how much you can throttle this thing down without affecting the burn quality, smoke, etc, but it seems like some kind of thermostat would be very useful. It might be possible with a bi-metallic strip, a lever to increase the travel distance, and a bicycle brake cable. The valve would need to be easy to move if you're relying purely on the mechanical force of the strip. A coil of something with a high coefficient of thermal expansion might also work.
Fantastic Rob, wonderful application of enthusiasm, knowledge and passion buddy, thanks for sharing
Would have been nice to see the Liberator lit up and working, and some results from the test. Maybe another video? Thank you though for doing such wonderfully informative videos.
Depending on the application or combination thereof if they were to fill the heating chamber with sand but have hollow pipes running through it the sand would heat up and draw air from the bottom, through the pipes, and then out. It can capture the heat quickly and use natural convection currents to slowly (passively) radiate the heat.
You could use an access door at the bottom of the chimney side, that hinges out from the backside, for a clean out. If you just want airflow then cut some conduit straws to lay inside at the bottom. The conduit can be perforated or have perpindicular slits for airflow, and it will pull from the cold side. That way you aren't making holes in your chimney bottom.
@3:08 I think those fasteners securing the insulation will prove to be a design flaw. Those may corrode from hot exhaust gases. Also possibly cause the insulation to crack and fall apart due to expansion. I would suggest; instead of bolts, score a rough texture onto the steel walls, and secure the insulation with a thermosetting epoxy.
The ventilator holes shouldn't leak ash, since they are drawing air. But the easiest fix is just a short angled up tube on the outside.
More on those holes, if you put one near each of the three available corners, they would add oxygen while starting the vortex. You don't need a lot to start that, just a hint (also keeps the temp from dropping), which three maybe 3/8 inch holes would do.
The up-angled tubing is a great idea! The bypass air could be "throttled", and if my thinking is correct, the ash would become concentrated in the center.
cheers mate
When the fire goes out gravity wins.
@@mikebond6328 I'm not sure what you're saying. Are you expecting a deep pool of ashes in the chimney that will flow over to the holes and pour out? Then make your holes a little higher up the pipe.
How about drilling air holes in the bottom? An ash pan could cover the holes and catch extra ash. Great video! Thanks!
I just hope everybody can stay warm this winter good luck❤️🇦🇺
I was worried we might never see another rocket stove video! I am thrilled you got in touch with the professionals... Actually, the other way around! It proves you know what you are talking about, and perhaps that is what others might be implementing to their projects!
Cheers
More to come mate - for sure - but I do have a wide range of interests
brilliant explanation, thanks
I think it's great Rob, that someone with your noggin caliber is getting right into this.
Thanks for explaining the finer points of effective burn temperature and the whole principle behind an effective rocket stove.
The only thing that I can think of to modify this stove is to have a smaller version. Maybe one that could be dismantled ? But we dont want to sacrifice simplicity.
The focus on these stoves is evolving and it will be very interesting to see where it goes. Some method of chimney insulation for the DIYer would be good.
I just really like you Robert, you seem so genuine. Keep up the good work.
Brilliant Robert, great project. I've a vintage cast iron Tangye stove, it has horizontal, slightly inclined air ports right through the upper section of the stove body. This adds surface area
and encourages air flow as cold air is drawn in at the lower end of the port and exits as hot air. Might be too much of a modification but it could be an optional model B Liberator. Tony
Jeez I love this channel! I can't wait to see what you do with the Liberator! From what I've already read in the comments, you're going to have plenty of ideas for improvement with this, can't wait!
Suggest: change lid at top to inverted drum so you can get down to bottom for cleaning. Put outer sleeve (open at bottom and top) over gas chamber to create convection current, include fins b/w inner and outer walls for better heat exchange, which will remove more heat from exhaust gases, it will also keep the outer gas chamber temperature lower and safer
Here's my comment to boost the YT algorithm. Thanks for your willingness to share your knowledge; I really appreciate it.
Wrap the heat exchanger with corrugated metal. You want more surface area to better couple the hot metal to the air. Look up heat exchangers for camp cooking to get an idea.
Absolutely! I was thinking to maybe weld round or square tubing vertically around outside, to increase surface area and create a convective air flow. But your idea of using corregated metal (like roofing panels) would be of lower cost I think. Nice one! 👍
Ely cathedral has old cast iron (?) stoves with vanes jutting out from the sides to increase the heat exchange surface area
The problem with metal is that it vaporizes and crumbles in the presence of high heat and oxygen. It does conduct heat well though.
Hi Robert, not my own idea, but seen in a video of something very similar - wood gasifiers - for vehicles, they added (or injected?) water or steam into the unit, which took care of ash/ soot/ creosote problems and hugely (+/- 40% ??) improved clean heat output.
Overlapping technologies & sharing refinements seems like a good idea to me.
Have fun!
I think it was a you tube video which covered WW2 and included Germany, also London, amongst others, also later, showing more modern use of gasifiers mounted on the backs of pick-up trucks, which looked unusual, but still, a great, portable concept!
if you fitted iron pipe(s) where the holes are drilled you could then use those pipes, when cold, to vacuum out the ash, the change would add little cost. You could also add fans to increase the flow.
The neatest solution I have seen however was the Aussie rockets site where he created a vortex.
cheers mate - a vortex does seem interesting for sure
Great series on rocket stoves Bob. An improvement suggestion, a hot plate for cooking and boiling a kettle seems essential imo.
Isn't that what the flat top of the big barrel section already provides? I was considering that basically a stove top.
I thought the same. Heat goes right away through a chimney.
Interesting, I built a rocket stove the size of that large stove and it got the back of my pizza oven red hot! I couldn't believe it, I thought my BakerStone pizza oven was going to explode, the temperature dial went all the way around! I had to remove the pizza oven and it was OK. After that incident, I added a vent door to control the temperature and I can now keep it steady at 350F to bake bread etc. Very powerful those rocket stoves. I use the wood from falling branches at my Farm.
In the past I’ve worked on a vortex rocket stove which made the gravity fed flame concentrate into a swirl coming out from the stack which generate more heat while burning less fuel .
The idea is to have the gravity fed material drop down into a circular burn chamber slanted slightly upward to the round stack while positioning the air intake at just the right placement to control the adjustable draft or air intake .Burnt material or ash from pellets would drop down through a grate into a collection box . When built right and depending on the controlling of the air intake , you will actually have a very strong swirl of flame which is very interesting to see .
Thanks for looking into this and helping them to improve the Liberator.
To allow the point for air entry and easy cleaning, try a 50x100mm (2x4inch) pipe under the bottom of the ‘J’, coming to the ‘front’ of the unit, with an removable ash drawer. The drawer can then also be opened and closed by varying amounts to regulate the air then entering the bottom of the flue. That way all three intakes (main air intake, fuel hopper and ‘bypass’ air intake with the ash collector drawer) are at the ‘front’ of the heater.
got it - this is one I may well do myself - cheers mate
@@ThinkingandTinkering I have seen a few variations of "afterburner" and so far one was very appealing to me. You just drilled some holes in the bottom of the chimney. Air that is drawn this way is at room temperature, so about 20 degrees C. As you obviously know that, in all substances it will try to reach thermal equilibrium, so you are wasting energy here, cooling that part which should be the hottest.
In a few designs i saw that this air was supplied by a square profile, cut off one side then welded along the hearth. One guy even made holes along the chimney pipe and just drilled them on an angle, which gave the exhaust gasses a vortex effect.
Anyways, that's my two cents on this topic :)
P.S. I really love that someone reached out to you with such request. It means you are doing a wonderful job and it's getting noticed :)
I agree that drilling holes at the chimney base for secondary air intake is not the best idea. The air should come via a tube from the front "mouth" of the stove, so it's preheated in the fire section. Turn the chimney end of the tube upwards and weld it positioned in the middle of the ash pan.
Then the air intake tube (maybe 3/4 to an inch?) is also the long handle of the ash pan. Pull it out & empty
Looking forward to 1753 already. That's a lovely looking bit of kit!
You have to be careful with adding additional vents. You will run into back drafting issues.
Hi Rob. You’re absolutely right about chimney insulation for a ROCKET STOVE (though chimney height is clearly important …HOWEVER, for a ROCKET MASS HEATER (like that liberator clearly is), the chimney is typically made completely out of firebrick for insulation! This is to MAXIMISE THE HEAT FOR CONVECTION. For instance, my rocket mass heater, built 3 yrs ago (from hundreds of RUclips videos AND the purchase of The Rocket Mass Heater Builder’s guide (Ernie Wisner), EVEN THE GAP of almost precisely 45mm (for 6 inch design) must be maintained. This allows the ‘draw’ to not only continue down and out the barrel, but ‘snake’ along the wall up to 15 METERS (covered in thermal mass).
I have pictures I took, but no idea how to insert them into comments :(
You’re AWESOME! Keep up the amazing work!! You’re helping more people in the world that I’m sure you could possibly imagine!!
Cheers,
Mark Caudrey, Montreal, Canadian chap ;)
* gap between top of chimney and top of barrel
cheers mate and thanks for adding to the conversation - great knowledge and a great share
Wow nice one Liberator looks like a great product !!
1 minute 30 seconds in and I gotta hit the like button just for the humor ! Can’t wait to see any improvements.
Hi,
yes I can think of a few suggestions.. you covered two in your vid with a secondary air inlet and an ash pan.. but the only issue you need to ensure is that after the initial burn phase that no air will escape from where its not supposed to.. being as it is meant for internal use you don't want any form of carbon monoxide to leak..
My suggestion includes a secondary burn feed from the main air inlet (Shared inlet) this will negate any blowback if it were to occur as it would be dragged back in via the initial burn inlet.
Ash extraction could be done by installing a service hatch on the side or bottom as you suggest, but this will need to be sealed using fire rope or caulking..
Air flow is like water and electricity, it always follows the path of least resistance, so although the heat is pumping out of the top of the rocket stove and hitting the top plate (which can suffer from heat damage over long term) most of the heat also flows down the side of the exhaust port. My suggestion would be to insert some baffle plates to force the air in circular motion around the radiant heater section before it gets to the exhaust port. Yes this might slow the air flow down a bit. But it would also make it more efficient in using the available heat produced to come into contact with the outer edge.
Also on that note, utilising the available heat on the outer edge .. my biggest suggestion is to add fins to the internal and external surfaces of the radian heat drum.. this will give a larger surface area for heat transfer and also increase the rate at which the heat is dissipated out of the system..
Only problem is.. now I've made these suggestions on a public forum they cannot be used in a patent and are open to the public.. that sort of thing really sucks if your trying to make the ideas novel and unique.. to improve your own patent applications.
Anyhow good luck to them on developing their product 😎 👍
I also was going to suggest incorporating a sand battery into that but it looks like it's already been suggested. Great video thanks.
Love this channel!!
👍💜👍💜......love the community spirit ....👍
This would pair very well with a Tesla Turbine from TesTur Energy. We've just run our first steam tests. Previously we've achieved 4 kW+ with just compressed air alone.
In fact, at one point, we were working with Sky Huddleston of Liberator to apply for a grant to pursue pairing the two together, which didn't materialize.
Yeah, that grant went to Approvecho Research Labs.
I heard it was only barely, but nevertheless, it's still being considered.
@@bli3366 Thanks for the heads up!
Looks great. Maybe one or two of those stove fans on top would help circulate the heat quicker. Speaking as a non-techie, does it make sense to add more thermal mass if the rate of burn and temperature can be regulated by air intake and the amount of fuel being fed in by the hopper? Perhaps a couple of temperature guages would be helpful?
it depends what you want to do with time the heat is released mate - you can think of thermal mass as a battery - the first bit of heat goes to heating the mass - then the room then the fire dies and the heat absorbed by the mass is given out - with out the mass the heating is felt straight away
I have seen heat powered fans on stoves. Not very powerful but a big help circulating the air.
I like the round exterior housing, it looks like it would lend itself, quite easily to adding a water coil for hot water or distribute heat to other areas.
We actually exported something! Excellent review, on a very nice product. Thankyou.
I think I would wrap a thin layer of some kind of insulating, protective cover around the outside as well, to keep some nunny from touching it when it's operating.
Before you modify the Liberator itself, see if you can make a waste oil kit for it that people who own Liberator's could buy and drop in without modification. ideally the waste oil kit would have an external "tank" that holds about 8hrs worth of oil and a way to see how much is in the "tank".
Can’t wait for some of your ideas for improvement! Mine is rocking away on pellets, thinking about wrapping exhaust with copper pipe for thermal battery of 55 gallon barrels.
that is one of the things I am thinking about mate for sure
@@ThinkingandTinkering I’d love to see if you have any clogging issues. I think my pellets have a bit too much softwood. Mine will burp smoke too when it runs out of pellets, but I’m working through those issues. Maybe we can come up with fixes.
@@nghermit4922 Try loosening the set screw in the collar of the pellet hopper, dropping the pellet feed tube 1/4" - 1/2", and/or opening the damper when you get low on pellets.
@@bli3366 Thanks! I will set that pipe down a bit! Appreciate it!
@@nghermit4922 Its "standard starting point" should be around 19" of pipe coming out of the bottom of the hopper; but we make it so that it can be adjusted either way.
Steel spalls at 1600F. And we are looking for temps over 1350F which means we could hit 2000F. The liberator is perfect for a home - especially when running on pellets with a bit of a mass. A bit underpowered for quickly heating a shop. Bigger rocket "engines" hit the higher temps easier/faster for cleaner burns. More wood also means more heat per filling - so less need to fill. Which is why the liberator really shines when using pellets.
I'm just waiting to hear it run!
Have a look in the horizontal burn chamber of the liberator and I think you will see insulation on the inside that is detachable and the burn chamber width is wider than the feed tube so the insulation doesn't obstruct the gravity feed.
It could be possible to extend the bottom square pipe and cover the open end with a hinged cover with air valve. This way you can easily clean out the whole pipe by pushing through a simple piece of wood into the ash bin underneath. A simple folded metal tray sliding on fixed bars could serve as low dust ash holder.
On top of the extended pipe a cooking plate can be mounted.
I'd just use a shop vac with a decent length of hose to remove the ash [but only when it has cooled, naturally].
The only other thing I could possibly suggest, for how little I can see it from a distance, is putting radiator fins around the outside.
In fact, you could literally add them completely independent of the actual body of the unit with a couple of wide pieces of shipping banding [it is typically a hardened steel], and if you can get a couple feet/meters of it, one for the top and one for the bottom, OR some really large hose clamps [I've seen some amazingly large ones out there, but you might still need to daisy-chain 2 or 3 to get around your barrel], take some simple L or U or even square aluminum extrude, cut it to the length of the barrel, cut 2 slits in the aluminum to poke your metal strapping through, and then wrap the whole thing like a beach fence around the barrel so that at least one whole flat side contacts the barrel so it can conduct some heat, and let the other side(s) facing out into the room go into convection and radiation mode, as Aluminum will do a really good job of extracting a lot of that heat and liberating it into the surrounding area.
To close up the ends of packing banding [by the way, some times you can find the stuff thrown away any place a lot of large shipping pallets can be found, so if you look in the alleys of some industrial parks, you might find strips of it for free, plenty large enough for the job] just take a small drill bit or, if it proves too hard, get a carbide tipped burr and put it on a dremel motor, make yourself 2 matching holes close to the end, bend them over 90 degrees with a pair of pliers, so you can slip a bolt and a nut through them and gently tighten the straps just enough to do the task without breaking them.
These can be put on and taken off, they can be cleaned behind, you COULD, should you be so obsessed with efficiency, strip away the paint and apply thermal paste between the bare metal and the bare aluminum, but I get a feeling that would be a real waste of time...
The only reason I might ever bother taking the radiator fins off is to clean them, or clean behind them. Not sure it would be with the effort to clean them much more than sweeping them occasionally with a fuller's brush for dust and cobwebs anyhow.
My Dunsley Yorkshire stove could almost be described as a kind of rocket stove, it has a large fire box for logs, at the back and at the bottom of the chamber is a slot maybe 11/2" high, it is there where I have to light it. The firebox merely undergoes Pyrolysis, once the flames exit through the slot in the back they go through what would be best described has a venturi chamber, this is firebrick insulated and a special brick with I think about 8 holes in it which line up with holes in the back of the steel. The flames drag in more air, and the afterburn chamber goes to about 1500 degrees where it burns off all the smoke, this is then sent around a boiler jacket before heading for the chimney at the same time it passes over the top of the fire box fire brick which provides more heat for pyrolysis. It burns very clean provides hot water and central heating in the worst of winter, it has just not been cold enough yet to use it. But the design could be used in a rocket stove and you may be able to get a diagram online. Another thing I once read about was a professor hills boiler, these involve a down burn feed and a super insulated refractory channel with a air blower.
Add an ash pan that seals the space effectively so that when you can adjust the amount of venting by sliding it in and out., that way you sort two issues with one simple alteration.
Beautiful!
I was waiting for you to spark it up and let it roar !!!! . I must have one in my life ! Liberator !
Love your channel! ❤️
I've tinkered with homemade rocket stoves for a few years. Love the ideas on the different heater options they provide. From masonry heaters, rocket mass, and drop-in units like this and the "wiseway" pellet stove. Very cool. I love burning wood for heat. But my back is giving out so pellet is probably going to be my route. Great to hear someone else and their findings in this "hobby " your description on how the Temps can rise and improper over insulation.... spot on...
I watched some videos on rocket stoves that used a long pipe connected to the stove that zig zagged from ceiling to floor placed next to a heat sink wall of stone or clay. This was done to use as much heat as possible in the home and not let the energy go to waste by venting it outside. After the heat from the pipe was spent, the pipe coiled back around the initial "heating drum" from the floor to heat up the air a little bit to help push what was used back outside since the air in the pipes had cooled and most of the energy was spent heating the home and/or heat sink. These folks channeled air from outside the house to feed a sealable chamber under the fire. I think the fire was on a grate of some kind. If the initial air for the fire in the lower chamber and air for the additional vents, like the holes made to help combust the gasified material, came from outside the house it may not be necessary to ventilate the home with a cracked window or whatever is used to ventilate the house. The air inside the home would only be warming the air inside and any gases that may cause harm wouldn't be able to enter the home and would return outside through whatever piping originally vents to the outside. The intake vents would need to be covered and away from the exhaust to keep from circulating non combustible air. I think much of this has already been done in small scale and in some homes. But I'm not sure that anyone has tried using air from outside the home to help combust the gasified material they are using for the rocket stove.
Consider testing the air flow of the air intake holes you suggested adding to the Liberator stove by having the ability to control the amount of air entering.
Looking forward to the results.
Thanks for the video.
(JF)
I love this!! I was thinking moving the location of the holes around a little bit might be good to help find where they work best! (If they aren't already in the best spot) I was thinking including your oxygen slightly closer to your primary wood burn might be a good idea! Of course too far could be bad but maybe only a couple of inches?
Allowing the fresh air from the holes to mingle with your freshly generated flammable gases a little sooner might allow for an easier burn? They can get roaring a little sooner and have more time spent in the exhaust tube to do their thing?!
Robert: Rather than an ash pan under the amplifier elbow where you have a row of holes drilled, try an angled slot ground into the elbow on a 45° angle where the bottom of this air intake slot is 30mm from the bottom, no ash will roll out here and the relocation of the intake of the air jet air intake will enhance the draw toward through and up the flue. Holes across the bottom will tend to create a burn there and not enhance the draw where it is needed.
I would like to see this in oil burner with an automatic light system for a thermostat and flame sensor, etc. I also don't see a circulation blower on the hot air plenum, as a unit this size should have a better way to utilize flow to the space it is intended to heat.
And for thoughts and giggles, I am starting a build of a soybean (aka rapeseed oil) forced air furnace to replace my wood burning stove because the price of cut wood deliveries has gone out of sight in my are, and I assume it has gone up drastically in most places.
Thanks for sharing, always good to see innovation 👍
Also on the below described heater add an air intake preheater drawing from the chimney exhaust with the timble drawing thru the roof or wall where the chimney exits. All the air to run the stove comes from the preheater with caps on the feed tube and a sealed door on the horizontal run opposite the chimney end . Air preheater will have exterior insulation to hold the increasing temperature drawn off of about the last 8 to 12 feet of the chimney before it exits the building.
We'd love to see a modification to the pellet hopper--(A) it heats up due to proximity to the barrel and (B) as it empties or the plate is closed to stop the flow of pellets, smoke travels up through the hopper and fills our house. Thank you--we love your channel! As for a sand battery--I am going to use a popcorn tin filled with sand on the top and place around the house overnight after the wood has burned out.
Great video! I hope more people listen to what you are saying about not insulating the outside. Nobody needs an iron furnace in their house, especially a self-destructive one. I'm not going to brag about stuff made here in the states, but we have some really smart folks when it comes to wood stoves/heating and good design. I'd like a Liberator for my basement and emergency use, but a designed in cooking surface would be beneficial.
The removable top plate of the heat exchanger is 1/4" plate steel that is designed to double as a cooking surface--although you may want a trivet to keep things from burning.
Interesting explanation. I understood that in masonry stove they burned to about 1200C and captured the high temp in a ceramic mass via a convoluted flu system. Is the difference that the flu is not metal and the ceramic can sustain the higher temp, which then acts as a temperature "transformer"....
Doesn't look like you can get any sizable pieces of wood in there good luck keeping that going when it's 10 below out. Good design and good explanation, I wondered why you needed an insulated rise tower and now I know. I built my own rocket stove and been using it for 9 yrs now and it is amazing. I made mine with a burn area made from firebrick and cob, I used stove pipe stuffed w cob as insulated rise tower, capped it w old cylinder water tank thing and vent it right out the fireplace. It uses much less wood and you don't have to clean it for weeks which is a blessing in itself, and it throws some heat. I do have cob and sand and cinderblocks packed in around the burn area for thermal mass to hold heat when fire is low or out. This thing works like a dream, I built it and I am continually amazed at how badass it is.
Well done to the guys at Liberator. If Robert likes it, well what can I say?
Weld pipe fitting at bottom 2nd burn chamber to port in outside fresh cold air to burn in 900c plus chamber.
Dual use at clean time vacuum hose could adapt to air supply for clean out or plug it shut.
I can suggest a two chamber sliding ash tray. With one chamber in the stove under a grate to keep the wood above and let the ash fall down into the chamber. While the stove is still burning the sliding ash tray can be moved to place the empty chamber into the stove while the chamber that just slid out can be emptied of ash. The ash tray would just need to slide back and forth from left to right in order to empty one of the chambers. The stove never has to be shut down to empty the ash and no efficiency should be lost.
That looks pretty much perfect to me. I have to wonder how hot the air coming out of the vent will be, ideally as cold as possible so non of the heat gets wasted which leads me to wonder if 2 or 3 upright parts (smaller) inside the chamber would all heat up to the required temperate without exceeding it. Might also preserve the steel better.
yeah ideally the exhaust should be pretty cool - the problem is with a neat exchanger you get a tortuous path and that will limit draw - maybe a fan assist?
The Liberator has instructions for coupling to a mass. Its very much worth doing and it can be rather simple to do.
If it were mine I would weld some 2-2.5cm steel fins on the inside of the drum.
That adds cost, though it also adds mass to heat without restricting the air flow of the hot exhaust gasses.
Actually now that I think about it it would work just as well as an insert that just sets in.
That way there is no permanent modification to the unit and then the cost would be optional.
Can't think of much other than what you mentioned about adding an air intake area by drilling holes and adding an ash pan.
The ash pan might be an area where the how air might leak out if it doesn't seal properly. That may lead to long term maintenance concerns.
She sure is a beaut though Rob. That is quite a gesture and I think it speaks to the quality of the channel.
Keep banging on mate!