A Thermoelectric generator powered by a tealight. It started as an
experiment of how much power I could get from one candle. But I liked
the idea and it worked really well so I built this electric-mechanical
ornament. I did not use a high temperature TEG-module, but instead a
cheap TEC-module. That can still handle 200 degrees Celsius which is
good enough.
Concept:
It is also called a peltier element and when you use it as a generator
it's called seebeck effect. You have one hot side and one cold. The
module generates power to drive a motor and the motor fan/air flow will
cool the upper heat sink. Higher temperature difference => increased
output power => increased motor RPM => increased air flow =>
increased temperature difference and so on. The airflow will spread the
heat into your room, which is the purpose of this construction. http://en.wikipedia.org/wiki/Thermoelectric_effect
If you unmounts the basement you could also use it as a stove-fan or
move air from other heat sources. The motor start to turn at about 15
degrees difference, which to my surprise worked when I just went
outdoors with it and the upper heat sink got cooler than the basement.
You can place it in hot water, on an ice cube, a pizza and it works just
as fine.
Total cost was about 50€ (incl. shipping costs). I used some spare parts but I bought most of it.
Components used: • CPU-cooler (cold side): Zalman CNPS5X (Base plate: 33x33mm) • CPU-cooler (hot side): From an old PC (WxLxH=78x63x67mm) • TEC-module: TEC1-07110T200 (30x30x3.3mm) • DC Motor: 1,5-3V • USB-fan (metal, only needed the fan) • Thermal paste: Arctic MX-4 • A piece of wood • Two pull springs • Four M4 bolts and two M3 bolts • Aluminum tubes (optional)
Construction:
First of all, it does not need to be exactly those components. Other
heat sinks, TEC/TEG, motor, fan, thermal paste, bolts and base plate can
be used. Main concept rules are:
A TEC or TEG module
(smaller dimension than upper heat sink base plate). Specifications are
not that important but make sure it can handle high temperature. Many
modules are only 100 degrees C and then you need to modify the
construction as it gets warmer than that.
One hot side that is not hotter than TEC max-temp (My candle flame never touches the surface)
One cold side, an efficient heat sink (heat pipes) are a good choice
Good thermal paste to maximize temperature difference
Low voltage motor, around 1V. I prefer it to be quite (low dB)
Fan with high air flow at low RPM
Base plate that adds stability, holder for light, isolate heat
The lower heat sink (hot side) was cut and polished to get it nice
looking. I kept 5mm of the fins to absorb the heat well when the light
flame burns and increases distance to the surface. New dimensions are
78x63x15mm. 4 holes are drilled through the heat sink and threaded as
M4. 4 bolts will hold the lower heat sink on top of a wooden platform.
Bolts go through the platform from below, covered with aluminum pipes
for a better looking design and are screwed into the heat sink. The
distance between wood and heat sink is 35mm but I would make it 40-45mm
as the flame almost touches the surface. You don´t want that because it
creates black soot. The lower heat sink gets really warm but at the same
time it works as a cooler to not get TOO warm, that would melt the
TEG-module.
Two springs attached to M3 bolts fixate the upper
heat sink on the lower, with TEC-module and thermal paste in between.
Both surfaces of the TEC are covered with a thin smooth layer of thermal
paste. The springs adds pressure as well as isolate the heat to travel
to the cold side. The upper heat sink could also be screwed into the
lower heat sink but then you need isolated screws.
The TEC is
directly attached/soldered to the motor and the motor is attached to the
upper heat sink by another small piece of metal and a cable tie. The
fan is attached to the motor with a small belt wheel and glue.
Result:
I think the hot aluminum part get to about 100-150 Celsius, I measured
the temp with a grill thermometer covered in thermal paste but can´t
tell how accurate it was. I measured 0.4V and 0.25A with one candle and
0.67V and 0.54A with two. That results in 0.1W resp. 0.36W output power.
The efficiency to produce electricity this way is not that impressive
though. A candle produce about 25 Watts, that means 0.7% efficiency..
But who cares, everything this machine does will eventually end up in
heat any way =) That is a bit interesting, you increase the room-heating
speed (I think) but looses nothing..
It is a bit noisy to have
running all the time. To find the optimal motor/fan => airflow/noise
level will require some more experimenting.
Mod Proposals:
Skip the base platform and bolts and use it as a stove-fan.
Use two/four TECs side-by-side to multiply output power. Add a 5-10mm
thick copper plate that covers all modules and then place the
CPU-cooler on top of that.
Use a brushless DC motor and a suitable fan to make it noiseless.
Build in a slow motor beneath the platform to make the whole thing spin 360 degrees.
Put wheels on the platform.
Edit:
I have changed the motor to a "Tamiya 76005 Solar Motor 02 (Mabuchi
RF-500TB)". Got it on Ebay. It´s incredibly strong at low RPM and I give
it only 0.5V. A very good motor, but best of all, it´s quiet! I cannot
hear it at 2m distance at full speed. It also gives stronger air flow.
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