I love the improvements you've made to previous designs and your articulation of the benefits that this ridiculously simple technology can have. Well done sir! I hope a lot of people see this video and stop wasting energy.
This design is refreshingly new. My question concerns condensation. As the continuous tube runs horizontally start to finish (opposed to vertical open-ended columns of cans ) , what happens with moisture when the system cools down? The can columns would drain, what happens in this system? I am assuming that condensed moisture will be evaporated in the heating process and delivered in to the room heating system. Mouldy issues later down the track?
Venkovní vzduch se v systému ohřívá, tím jeho relativní vlhkost klesá, takže během provozu nemůže kondenzovat. Je vháněn dovnitř, odkud někudy (stačí netěsnosti oken, dveří atd) vytlačuje vnitřní vzduch, který v sobě má víc vlhkosti, takže snižuje v místnosti vlhkost. Kondenzace může nastat až blízko místa venku, kudy vzduch z místnosti odchází do chladu venku.
Since heat rises from natural convection, do you really need the solar panel for power? The cool air intake would be at the bottom and the 'dispenser' is blowing into a room from the top of the unit.
awesome video. im looking at supplemental heating for a space 18ft by 8 ft wide. do you think this would work as background heating during our winters in england to take the chill off? i appreciate that its not the main heat source. superbly explained and such a simple solution.
O the joy of this septic isle.......yes,a panel like this would help, but with the addition of good insulation to the space, and maybe, if you could, use the air from the "bottom" of the room (ie coldest), to reheat it and put it back in....this maybe problematic as it could end up being too stale.
How does dilution affect the ability of these panels to warm a room? Notice how a drop of red liquid spreads throughout a large pitcher of water and almost disappears as it is diluted. It is not the air temperature at the outlet that will be the sole determinant of the heating affect but the volume of heated air that enters the house. Release one gallon of 120 F air into a room and it will have little affect on the inside temperature of a cold room. Also the speed of the air entering the room does produce the amount of heat added to the room. A simple explanation would be how many cubic feet of air at XX degrees will be needed to replace the air in a room to raise its temperature to xx Degrees? It’s a bit more complicated than that since you have to have a starting and ending temperature and the temperature of the incoming air and its speed, etc.
@@uncleeddie5813Pusťe si v pokoji malý 500 W ohřívač. Přesně takové teplo bude přidáno. Velkou místnost to bude temperovat, ale nevytopí. Když bude přechodné chladné období, může to stačit. Když bude mrznout a bude slunečno, nemusíte do kamen dávat tolik polen nebo můžete o 500 W snížit příkon do elektrického ohřívače. Je to úspora, jiné topení to nenahradí. Může také být velká oblačnost a v té době neušetříte nic.
It is impossible for anything solar to perform at night, unless it has a battery. So this device is great when used during a cold/ cool day or power outage.
I love the improvements you've made to previous designs and your articulation of the benefits that this ridiculously simple technology can have. Well done sir! I hope a lot of people see this video and stop wasting energy.
Sweet! A much easier and cheaper build. Great work.
Very nice ! One of the better one I have seen!
This design is refreshingly new. My question concerns condensation. As the continuous tube runs horizontally start to finish (opposed to vertical open-ended columns of cans ) , what happens with moisture when the system cools down? The can columns would drain, what happens in this system? I am assuming that condensed moisture will be evaporated in the heating process and delivered in to the room heating system. Mouldy issues later down the track?
Venkovní vzduch se v systému ohřívá, tím jeho relativní vlhkost klesá, takže během provozu nemůže kondenzovat. Je vháněn dovnitř, odkud někudy (stačí netěsnosti oken, dveří atd) vytlačuje vnitřní vzduch, který v sobě má víc vlhkosti, takže snižuje v místnosti vlhkost. Kondenzace může nastat až blízko místa venku, kudy vzduch z místnosti odchází do chladu venku.
Great video. How does this system hold up on a cloudy day in Britain?
Since heat rises from natural convection, do you really need the solar panel for power? The cool air intake would be at the bottom and the 'dispenser' is blowing into a room from the top of the unit.
Pues es muy eficiente 565 Wats ¡está muy bien¡.
What's the size of the heating box? Becasue on average 1000W per 1m2 power comes from sun in the blue sky
awesome video. im looking at supplemental heating for a space 18ft by 8 ft wide. do you think this would work as background heating during our winters in england to take the chill off? i appreciate that its not the main heat source. superbly explained and such a simple solution.
O the joy of this septic isle.......yes,a panel like this would help, but with the addition of good insulation to the space, and maybe, if you could, use the air from the "bottom" of the room (ie coldest), to reheat it and put it back in....this maybe problematic as it could end up being too stale.
very cool 😎
Nicely done ✅
How does dilution affect the ability of these panels to warm a room? Notice how a drop of red liquid spreads throughout a large pitcher of water and almost disappears as it is diluted. It is not the air temperature at the outlet that will be the sole determinant of the heating affect but the volume of heated air that enters the house. Release one gallon of 120 F air into a room and it will have little affect on the inside temperature of a cold room. Also the speed of the air entering the room does produce the amount of heat added to the room. A simple explanation would be how many cubic feet of air at XX degrees will be needed to replace the air in a room to raise its temperature to xx Degrees? It’s a bit more complicated than that since you have to have a starting and ending temperature and the temperature of the incoming air and its speed, etc.
Not only did he answer your question in video, but he showed detailed calculations of how he came to that conclusion.
@@uncleeddie5813Pusťe si v pokoji malý 500 W ohřívač. Přesně takové teplo bude přidáno. Velkou místnost to bude temperovat, ale nevytopí. Když bude přechodné chladné období, může to stačit. Když bude mrznout a bude slunečno, nemusíte do kamen dávat tolik polen nebo můžete o 500 W snížit příkon do elektrického ohřívače. Je to úspora, jiné topení to nenahradí. Může také být velká oblačnost a v té době neušetříte nic.
500W is your answer. put a 500W oil radiator in the room and circulate air around it with a fan. that would be an equivalent.
Hi I would like to see this unit perform at 20 deg f. A MB. Temps!
Does ZERO At Night ! Waste Of Time/Money/Material !
It is impossible for anything solar to perform at night, unless it has a battery. So this device is great when used during a cold/ cool day or power outage.
Who would have believed that solar furnaces can't produce heat at night?
Obviously you don't have to keep a woodstove burning all winter day long to heat a 3 floor house. This thing saves thousands
Really? It is based on sun energy. Is there sun at night? O yes moonlight but thats only very little;)