Graphite Rod This is a bio-energy thermal melting furnace, relying on the magnetic effect to tie the graphite rods with spatial positions in the molecules into a circle, and then form the pressure of the spatial position on the fixed object. When the graphite rod is adsorbed on a fixed object, the molecular motion will be driven due to the positional relationship. Therefore, the temperature can be raised to ensure that the heat continues, instead of being limited to the duration of the low temperature (generally speaking, this is an energy-consuming approach). As for why the heat is dissipated, it is dissipated through heat conduction and heat radiation. So this is closer to air than an air-powered thermal furnace.
Energy is conserved, which is true from both macro and micro perspectives. Although people don’t need to move their legs when they are barefoot, their bodies are actually in constant motion. However, the temperature of human feet is relatively high. When low, the dissipation is naturally slower.
Graphite rods can be used, or air thermal furnaces (graphite thermal furnaces?) The mechanism of graphite rods can be seen in the transmission process of graphite thermal furnaces, which is equivalent to the heating of graphite rods, and then dissipated by heat conduction.
Hot melting is a cooling process, so heat conduction is required
I also want to know. Let’s just talk about an air-heated melting furnace. Its mechanism is very simple. By changing the way of heat conduction, there are fewer ways to transfer energy through the air, so that more energy can be released and high temperature can be generated to meet the cycle conditions. The graphite rod itself is not in the container, nor in the real circulation body. Theoretically, the energy of the cycle cannot be higher than the heat source such as the graphite rod per unit volume.
The graphite rod mechanism is that 1 is converted into 2 (here refers to the outside world), and 2 is reduced to 1 (inside). So it is essentially a heating process, that is, 1 and 2 cycles. This is just insulation. As for the heating rate, it depends on the specific heat of each graphite rod. If it is too large, the specific heat is not enough, and if it is not controlled well, it will freeze to death or rot.