Wednesday, May 16, 2018

Thermo-pile 6


The EMF of this pile was no less than 109 Volts, with an internal resistance of 15.5 Ohms. The maximum power output was therefore 192 Watts, at 54 Volts and 3.5 Amps.
This pile was fired by coke. The hot junctions were at C, while the cold junctions D were cooled by sheet iron as in the original design above. The tortuous path T-O-P taken by the hot gases prevented flames playing on the hot junctions. This mighty beast was 98 inches high and 39 inches in diameter. It was a serious piece of machinery, quite capable of delivering a lethal voltage. Further details come from Rankin Kennedy. The pile shown here was described by Clamond before the Paris Academy in 1879. It had 3000 elements, and at 20 elements to generate 1 Volt it should have given 150 Volts unloaded. It consumed 22 pounds of coke per hour. See how they discourage you from trying this device first burning anything is just not green at all, and the 22 pounds is just a waste for just 1 hour. But what they didn't mention is that the device can be heated from a another thermal device
Let's discuss the difference in these devices; the Peltier (tec) or (teg) Module, 94.3W, 6A, 24.6V, 40 x 40mm explain in the YouTube video in the highlighted word above.


A thermo-pile  and the thermocoupling devices just to name a few there are many tights of these devices out there but let's focus on what's been spoken on so far. let's see some



This shows how sophisticated we have gotten the thermal devices,
Picture of a heat flux sensor that utilizes a thermopile construction to directly measure heat flux. Model shown is the FluxTeq PHFS-01 heat flux sensor. Voltage output is passively induced from the thermopile proportional to the heat flux through the sensor or similarly the temperature difference across the thin-film substrate and number of thermocouple junction pairs. This voltage output from the sensor's thermopile is initially calibrated in order to relate it to heat flux
So what have we learned so far, if you start to get it especially after we wrote so many different papers on this subject. Then you start to understand that these thermal devices is a good source of electricity even if they only produce a small amount of electricity. They can produce electricity from themselves and generate this electricity by taking just one Peltier device and pumping electricity into it one side gets hot the other gets cold and then you just let the thermal couplings do their job. Like aluminum or copper heat sinks.
Remember some of these devices only take Heat you don't have to cool them, and others you have to cool and Heat. The fact is if you MacGyver this then you will be successful in making it operate the way you wanted to. They are already used in many devices, so it's up to you if you can do better. Do anyone remember what I said about iron and copper wire, about making your own.
By following this diagram you're able to take wire yourself put them into a device and heat them using the Peltier, and all you would have to know is this little secret!
The Peltier can be heated with a 1.5 aa battery. I believe if you do the math you will see the Step Up in power, now repeat. If you still don't get it please give me a library a call, 
you can reach us at 1-313-651-5349 

Ps; forgot to mention this device that's been in use for quite some time works really well and is still used today he uses hot water that is generated by its own power and also has enough power to generate power for other devices

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