In gas fuel TEG heat energy from gas burning converts directly into electric power. This solid-state technology does not require mechanical moving parts and does not results mechanical wear. It could be applied at any remote location were traditional AC electric power lines are not available.
Generating Electricity More Efficiently with Multiphase Thermoelectric Converter"Douglas" F. Palte
The Multiphase Thermoelectric Converter is a direct thermal-to-electrical energy conversion system designed in order to harvest most of the waste heat energy efficiently into electricity. Conceptually, it works by ionizing hot coolant in order to force it F=q(v × B) to push its ions against moving magnetic fields doing useful work converting thermal energy directly into electric power at high efficiency with almost no moving parts. Essentially, it can be comprised of two sets of concentric helix-coils (contra-aligned in Brayton cycle), feed by six phases [0° 60° 120° 180° 240° 300°], for producing opposing moving magnetic forces, for axially and radially compressing a hot ionized coolant F=q(v × B), forcing it to expand longitudinally which boosts the alternating magnetic fields F=i(L × B) ε=(Bℓv sinθ) electrodynamically converting thermal energy into electricity. Wherein, the phase rotation keeps hot plasma centered far from electromagnetic coils, which allow to induce high pressure and withstand very high temperatures for virtually getting closer to the maximum efficiency η=1-(TC/TH), e.g. TC=300K, TH=30000K, η%=99%. Together with the Aneutronic Reactor, it is to form the most perfect means for providing a high degree of cleanliness and efficiency, with practically no thermal and radioactive waste.
http://www.crossfirefusion.com/thermoelectric
In gas fuel TEG heat energy from gas burning converts directly into electric power. This solid-state technology does not require mechanical moving parts and does not results mechanical wear. It could be applied at any remote location were traditional AC electric power lines are not available.
Generating Electricity More Efficiently with Multiphase Thermoelectric Converter"Douglas" F. Palte
The Multiphase Thermoelectric Converter is a direct thermal-to-electrical energy conversion system designed in order to harvest most of the waste heat energy efficiently into electricity. Conceptually, it works by ionizing hot coolant in order to force it F=q(v × B) to push its ions against moving magnetic fields doing useful work converting thermal energy directly into electric power at high efficiency with almost no moving parts. Essentially, it can be comprised of two sets of concentric helix-coils (contra-aligned in Brayton cycle), feed by six phases [0° 60° 120° 180° 240° 300°], for producing opposing moving magnetic forces, for axially and radially compressing a hot ionized coolant F=q(v × B), forcing it to expand longitudinally which boosts the alternating magnetic fields F=i(L × B) ε=(Bℓv sinθ) electrodynamically converting thermal energy into electricity. Wherein, the phase rotation keeps hot plasma centered far from electromagnetic coils, which allow to induce high pressure and withstand very high temperatures for virtually getting closer to the maximum efficiency η=1-(TC/TH), e.g. TC=300K, TH=30000K, η%=99%. Together with the Aneutronic Reactor, it is to form the most perfect means for providing a high degree of cleanliness and efficiency, with practically no thermal and radioactive waste.
http://www.crossfirefusion.com/thermoelectric
The advantages of thermoelectric power generationAutomotive IQ
Thermoelectric power generation with converted waste heat: What are the advantages for next generation electric vehicles? What materials offer a high conversion efficiency? As a peek into the themes of our upcoming event on Thermal management for EV/HEVs we prepared this exclusive presentation by Dr. Sascha Populoh, Materials and Energy Conversion at Empa for you to download for free: http://bit.ly/Presentation-Populoh
To design a project that could be used to utilize the waste heat energy into electricity for multipurpose use in various applications and household purposes. This system should be economical, easy to implement and does not produce any kind of pollution, it is silent and does not require any kind of fuel to work. The main feature of this project is that it converts direct temperature difference into electricity. It is based upon thermoelectric energy generation concept and has many applications in electricity generation from automobile waste heat, heat liberated from household items, electricity generation from glaciers (ice) and a lot of similar applications where temperature difference from environment is converted into electricity. This concept is very useful in terms that it adds up to other renewable sources of energy and can be used in place of other non-conventional sources of energy like wind, solar, tides, geothermal heat, etc. This is a new concept for electricity generation using temperature difference between junctions of a peltier element to be used in our project. The complete Thermo Electric Generator would be based on Seebeck Effect that is reverse of peltier effect. The thermoelectric effect is the direct conversion of temperature differences to electric voltage and vice-versa
The advantages of thermoelectric power generationAutomotive IQ
Thermoelectric power generation with converted waste heat: What are the advantages for next generation electric vehicles? What materials offer a high conversion efficiency? As a peek into the themes of our upcoming event on Thermal management for EV/HEVs we prepared this exclusive presentation by Dr. Sascha Populoh, Materials and Energy Conversion at Empa for you to download for free: http://bit.ly/Presentation-Populoh
To design a project that could be used to utilize the waste heat energy into electricity for multipurpose use in various applications and household purposes. This system should be economical, easy to implement and does not produce any kind of pollution, it is silent and does not require any kind of fuel to work. The main feature of this project is that it converts direct temperature difference into electricity. It is based upon thermoelectric energy generation concept and has many applications in electricity generation from automobile waste heat, heat liberated from household items, electricity generation from glaciers (ice) and a lot of similar applications where temperature difference from environment is converted into electricity. This concept is very useful in terms that it adds up to other renewable sources of energy and can be used in place of other non-conventional sources of energy like wind, solar, tides, geothermal heat, etc. This is a new concept for electricity generation using temperature difference between junctions of a peltier element to be used in our project. The complete Thermo Electric Generator would be based on Seebeck Effect that is reverse of peltier effect. The thermoelectric effect is the direct conversion of temperature differences to electric voltage and vice-versa