2D Fluid Modeling of Light Pumped Na Containing Plasma to Develop a Prototype of a Photo Electromotive Force Converter

M. M. Mandour; S. A. Astashkevich; A. A. Kudryavtsev

doi:10.1088/1755-1315/1204/1/012001

2D Fluid Modeling of Light Pumped Na Containing Plasma to Develop a Prototype of a Photo Electromotive Force Converter

M. M. Mandour
, S. A. Astashkevich
, A. A. Kudryavtsev

Research output: Contribution to journal › Conference article › peer-review

Abstract

The development of innovative technologies for direct solar energy conversion is one of the main trends of modernity. The use of solar semiconductor panels is well-known in solar photovoltaics. As an alternative to this, the use of gas photoplasma can be promising. However, research in this direction is still very fragmentary so far. This paper shows the results of a systematic study of photoplasma in mixtures of sodium and inert gases to obtain photo-EMF in a gas cell. A fluid modeling considering detailed plasma chemistry, radiation transfer, and charge diffusion processes and 2D simulation were fulfilled and main plasma parameters were obtained and analyzed. In particular, non-trivial dependence of EMF in a two-chamber gas cell containing sodium and argon on the pressure of the inert gas was obtained, reaching up to 1.3 eV by absolute value at 100 Torr of Ar and changing its sign near 5 Torr at the decrease of the pressure.

Original language	English
Article number	012001
Journal	IOP Conference Series: Earth and Environmental Science
Volume	1204
Issue number	1
DOIs	https://doi.org/10.1088/1755-1315/1204/1/012001
State	Published - 2023
Externally published	Yes
Event	2023 International Conference on Chemical, Energy Science and Environmental Engineering, CESEE 2023 - Hybrid, Sanya, China Duration: 14 Apr 2023 → 16 Apr 2023

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10.1088/1755-1315/1204/1/012001

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title = "2D Fluid Modeling of Light Pumped Na Containing Plasma to Develop a Prototype of a Photo Electromotive Force Converter",

abstract = "The development of innovative technologies for direct solar energy conversion is one of the main trends of modernity. The use of solar semiconductor panels is well-known in solar photovoltaics. As an alternative to this, the use of gas photoplasma can be promising. However, research in this direction is still very fragmentary so far. This paper shows the results of a systematic study of photoplasma in mixtures of sodium and inert gases to obtain photo-EMF in a gas cell. A fluid modeling considering detailed plasma chemistry, radiation transfer, and charge diffusion processes and 2D simulation were fulfilled and main plasma parameters were obtained and analyzed. In particular, non-trivial dependence of EMF in a two-chamber gas cell containing sodium and argon on the pressure of the inert gas was obtained, reaching up to 1.3 eV by absolute value at 100 Torr of Ar and changing its sign near 5 Torr at the decrease of the pressure.",

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doi = "10.1088/1755-1315/1204/1/012001",

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AU - Mandour, M. M.

AU - Astashkevich, S. A.

AU - Kudryavtsev, A. A.

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2023

Y1 - 2023

N2 - The development of innovative technologies for direct solar energy conversion is one of the main trends of modernity. The use of solar semiconductor panels is well-known in solar photovoltaics. As an alternative to this, the use of gas photoplasma can be promising. However, research in this direction is still very fragmentary so far. This paper shows the results of a systematic study of photoplasma in mixtures of sodium and inert gases to obtain photo-EMF in a gas cell. A fluid modeling considering detailed plasma chemistry, radiation transfer, and charge diffusion processes and 2D simulation were fulfilled and main plasma parameters were obtained and analyzed. In particular, non-trivial dependence of EMF in a two-chamber gas cell containing sodium and argon on the pressure of the inert gas was obtained, reaching up to 1.3 eV by absolute value at 100 Torr of Ar and changing its sign near 5 Torr at the decrease of the pressure.

AB - The development of innovative technologies for direct solar energy conversion is one of the main trends of modernity. The use of solar semiconductor panels is well-known in solar photovoltaics. As an alternative to this, the use of gas photoplasma can be promising. However, research in this direction is still very fragmentary so far. This paper shows the results of a systematic study of photoplasma in mixtures of sodium and inert gases to obtain photo-EMF in a gas cell. A fluid modeling considering detailed plasma chemistry, radiation transfer, and charge diffusion processes and 2D simulation were fulfilled and main plasma parameters were obtained and analyzed. In particular, non-trivial dependence of EMF in a two-chamber gas cell containing sodium and argon on the pressure of the inert gas was obtained, reaching up to 1.3 eV by absolute value at 100 Torr of Ar and changing its sign near 5 Torr at the decrease of the pressure.

UR - https://www.scopus.com/pages/publications/85166967671

U2 - 10.1088/1755-1315/1204/1/012001

DO - 10.1088/1755-1315/1204/1/012001

M3 - 会议文章

AN - SCOPUS:85166967671

SN - 1755-1307

VL - 1204

JO - IOP Conference Series: Earth and Environmental Science

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T2 - 2023 International Conference on Chemical, Energy Science and Environmental Engineering, CESEE 2023

Y2 - 14 April 2023 through 16 April 2023

ER -

2D Fluid Modeling of Light Pumped Na Containing Plasma to Develop a Prototype of a Photo Electromotive Force Converter

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