| 1. | In the reaction chambers, nitric oxide reacts with oxygen to produce nitrogen dioxide.
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| 2. | These designs cause overheating resulting in premature failure of the electrocoagulation reaction chamber.
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| 3. | Heat loss is suppressed by magnetic confinement in the reaction chamber and nozzle.
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| 4. | Also, it is different for different structures of the reaction chamber.
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| 5. | The reaction chamber is surrounded by powerful magnetic fields to contain the anti-matter.
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| 6. | In the reaction chambers, sulfur dioxide and nitrogen dioxide dissolve in the reaction liquor.
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| 7. | Sulfuric acid produced in the reaction chambers is limited to about 35 % concentration.
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| 8. | The reaction chamber is, on the whole, dramatically simpler than those in magnetic fusion concepts.
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| 9. | The pedestal / susceptor is the primary origin of heat energy in the reaction chamber.
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| 10. | Collisions also spray high-mass ions into the reaction chamber, pollute the plasma and cool the fuel.
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मोबाइल