A. A. Izyneev scite author profile

As an application of pulse intense electron beam for pollution control, removal of nitrogen oxides (NO x ) in atmospheric pressure N 2 was demonstrated. The pulse electron beam (energy; ∼200 keV, current; ∼140 A, current density; ∼2.2 A/cm 2 and pulse width; ∼500 ns) was injected into a gas cell filled by 1 atmospheric pressure N 2 with an initial concentration of 200 ppm of NO and at a temperature of 26 • C. The typical removal ratio was 17% for the first shot and reached to 93% after 8 successive shots. This removal ratio corresponds to 2740 nmol of removed NO x and to a 192 nmol/J removal efficiency. Many nitrogen radicals produced by the electron beam interaction with N 2 play an important role in the reduction of NO. The removal ratio was increased to 33% for the first shot when the initial concentration of NO was decreased to 64 ppm. However, the amount of removed NO x was smaller at low initial concentrations. When the filling pressure was decreased to 260 Torr, the amount of removed NO x decreased almost proportional to the pressure.

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ChemInform Abstract: EINFLUSS DER HYDROXYLGRUPPEN AUF DIE LUMINESZENZEIGENSCHAFTEN VON DURCH SELTENERDMETALLIONEN AKTIVIERTEN PHOSPHATGLAESERN

Alekseev¹,

Gapontsev²,

Gromov³

et al. 1975

Chemischer Informationsdienst

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Longitudinally diode-pumped ytterbium-erbium glass minilaser

et al. 2004

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New highly efficient LGS-KhM erbium-doped glass for uncooled miniature lasers with a high pulse repetition rate

Izyneev

Sadovskii

1997

Quantum Electron.

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A. A. Izyneev

Properties and structure of RONa2OAl2O3P2O5 (R = Mg, Ca, Sr, Ba) glasses

Mechanism and parameters of the quenching of luminescence of rare-earth ions by hydroxyl impurity groups in laser phosphate glass

ChemInform Abstract: EINFLUSS DER HYDROXYLGRUPPEN AUF DIE LUMINESZENZEIGENSCHAFTEN VON DURCH SELTENERDMETALLIONEN AKTIVIERTEN PHOSPHATGLAESERN

Longitudinally diode-pumped ytterbium-erbium glass minilaser

New highly efficient LGS-KhM erbium-doped glass for uncooled miniature lasers with a high pulse repetition rate

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