1 Molecular reactor Faraday Lab Ltd
2 Goals Development of scientific conception presented by Irving Longmuir 80 years ago. Investigation of hydrogen dissociation and recombination to get a new high efficiency fuel less heat source. It is molecular reaction and we can name the device as molecular reactor There is not radioactivity in molecular reactions
3 The Idea Dissociation of hydrogen molecules produced by a low energy method (electric discharge in gas mixture of hydrogen and other gases). Recombination of atomic hydrogen generates extra heat output with small electric input. There are no expenses of the gas mixture in the dissociation-recombination cycles. It is fuel less technology of high efficient heating of working body (for example, water in heat exchanger).
4 Theory The hydrogen is not really a fuel but rather a medium, gateway or a super-conductor of free energy from the vacuum of space, converting this free energy radiation and ultra-high frequency electrical energy into infrared (heat) radiation. On recombination into molecules the free energy of vacuum is squeezed out, releasing the absorbed energy. The apparent source of the anomalous exothermic heat produced in Cold Fusion in water is also based on atomic hydrogen. It is important to note that the hydrogen process does not involve a consumption of the hydrogen as it is not combusted in the process.
5 Analogy Prof. Alexandrovs discovery #13 of 1962, Russia. Experiment with metal ball.
6 Novelty The Alexandrovs discovery of 1962 was applied in present project for molecular level: collision interaction between tungsten atoms (the heavy body) and hydrogen gas molecules (the easy body) is condition for effective dissociation- recombination.
7 Description of the Project Special gas (hydrogen) tube with tungsten electrodes. Design of this gas tube should be made by sub- contractors It is necessary to design the test bench with water cooling and heat measurement system. Calculations. Contacts us to get more infomation Photo: Previous test bench made by Faraday Lab
8 Previous design of the gas tube Standard design of vacuum tube diode. Hydrogen pressure 0.1 atm – 0.2 atm. Water cooling tank. Safe metallic-ceramic case of the tube. Note on the water tank: Water pump is necessary
9 The Experiments In previous experiments it was measured the heat output for the case of dissociation of hydrogen due to direct heating on the tungsten cathode. Different modes of the heating were investigated: –120 A current from 12 VDC accumulator battery –50 Hz sinus current –Current from diode rectifier bridge –Half-period unipolar current pulses Anode-cathode high frequency glow discharge also produces dissociation and it is the target of the planned joint project.
10 Glow discharge dissociation In previous experiments of by Faraday Lab it was detected that glow discharge in the hydrogen gas allow to increase of the efficiency. But this method requires application of a very high frequency generator. Other disadvantage of this method are expenses of the cathode material in this process since the cathode was hot in this design. New design must use cold tungsten electrode to organize glow discharge in gas (mixture of gases).
11 Glass body tube New equipment was produced for future experiments as glass body tube. Re-charge of gas is possible.
New experiment 12
13 Conclusions High efficient heater can be designed as closed cycles of atomic hydrogen dissociation-recombination. The technology is radiation safe. It is not nuclear but molecular reactions. Theoretical maximum of efficiency for this design is about 8300%
14 Contacts Alexander V. Frolov Faraday Lab Ltd