| 1. | Another way to improve efficiency is to increase the combustion temperature.
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| 2. | Higher combustion temperatures and residence times destroy unwanted constituents such as un-burnt hydrocarbons.
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| 3. | Pyrogens with content of magnesium allow reaching very high combustion temperatures.
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| 4. | Once carbon forms, the combustion temperature in engines is too low to burn it.
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| 5. | The higher combustion temperature of hydrogen produces more NO x than natural gas combustion.
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| 6. | Liquid-fuelled engines are often run fuel-rich, which lowers combustion temperatures.
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| 7. | Turbine efficiency is strongly correlated with combustion temperature through the completeness of the combustion reaction.
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| 8. | The role of combustion temperature in NO x formation has been understood for some time.
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| 9. | Combustion temperature influences thermal NO " x " emissions.
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| 10. | However, these numbers vary, as combustion temperature is an important variable in determining wood ash composition.
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