An improved numerical method for lunar dust transport during electric curtain-traveling wave removal in the lunar environment

The law of dust removal by electric curtain in the lunar environment is considerably different from that in Earth's environment. This paper proposes an improved calculation method, which successfully simulates the kinematics of lunar dust transport during removal by electric curtain-traveling w...

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Published inActa astronautica Vol. 190; pp. 308 - 322
Main Authors Feng, Yulong, Dong, Tailang, Ren, Depeng, Wang, Jianshan, Cui, Yuhong
Format Journal Article
LanguageEnglish
Published Elmsford Elsevier Ltd 01.01.2022
Elsevier BV
Subjects
Air pollution
Algorithms
Computer simulation
Dielectrophoresis
Dielectrophoretic force
Discrete element method
Dust
Dust control
Dust pollution
Dust transport
Electric curtain
Environmental law
Finite element method
Kinematics
Lunar dust
Lunar environments
Lunar exploration
Mitigation
Numerical methods
Particle transport
Six-node triangular finite element method
Surface energy
Traveling waves
Lunar dust
Dielectrophoretic force
Six-node triangular finite element method
Electric curtain
Surface energy
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Abstract The law of dust removal by electric curtain in the lunar environment is considerably different from that in Earth's environment. This paper proposes an improved calculation method, which successfully simulates the kinematics of lunar dust transport during removal by electric curtain-traveling waves in the lunar environment. The numerical formula of the dielectrophoretic force component is derived based on a six-node triangular (T6) finite element method (FEM) in electromagnetics. A discrete element method (DEM) based on the Johnson–Kendall–Roberts soft-sphere model is chosen to simulate lunar dust particle transport under the action of the electric curtain dust removal system in the lunar environment. The validity, accuracy, and reliability of the present DEM algorithm are verified by comparing the experimental and numerical results. The final dust removal rate is positively correlated with frequency when the surface energy between the particles and insulating film is γf≥0.0075 J/m2. The final dust removal rate is negatively related to the surface energy between the particles and the film but positively related to the applied voltage and the charge of the particles. This research is of great significance to the mitigation of the lunar dust pollution problem that the crewed lunar exploration project will face in the future. •An improved calculation method simulated the mechanism of lunar dust transport.•A formula for dielectrophoretic force component is derived based on the T6 FEM.•Kawamoto's experimental and Liu's calculation results are compared to verify the DEM.•Electric curtain dust removal is realized by the vertical upward movement of particles.
AbstractList The law of dust removal by electric curtain in the lunar environment is considerably different from that in Earth's environment. This paper proposes an improved calculation method, which successfully simulates the kinematics of lunar dust transport during removal by electric curtain-traveling waves in the lunar environment. The numerical formula of the dielectrophoretic force component is derived based on a six-node triangular (T6) finite element method (FEM) in electromagnetics. A discrete element method (DEM) based on the Johnson–Kendall–Roberts soft-sphere model is chosen to simulate lunar dust particle transport under the action of the electric curtain dust removal system in the lunar environment. The validity, accuracy, and reliability of the present DEM algorithm are verified by comparing the experimental and numerical results. The final dust removal rate is positively correlated with frequency when the surface energy between the particles and insulating film is γf≥0.0075 J/m2. The final dust removal rate is negatively related to the surface energy between the particles and the film but positively related to the applied voltage and the charge of the particles. This research is of great significance to the mitigation of the lunar dust pollution problem that the crewed lunar exploration project will face in the future. •An improved calculation method simulated the mechanism of lunar dust transport.•A formula for dielectrophoretic force component is derived based on the T6 FEM.•Kawamoto's experimental and Liu's calculation results are compared to verify the DEM.•Electric curtain dust removal is realized by the vertical upward movement of particles.
The law of dust removal by electric curtain in the lunar environment is considerably different from that in Earth's environment. This paper proposes an improved calculation method, which successfully simulates the kinematics of lunar dust transport during removal by electric curtain-traveling waves in the lunar environment. The numerical formula of the dielectrophoretic force component is derived based on a six-node triangular (T6) finite element method (FEM) in electromagnetics. A discrete element method (DEM) based on the Johnson–Kendall–Roberts soft-sphere model is chosen to simulate lunar dust particle transport under the action of the electric curtain dust removal system in the lunar environment. The validity, accuracy, and reliability of the present DEM algorithm are verified by comparing the experimental and numerical results. The final dust removal rate is positively correlated with frequency when the surface energy between the particles and insulating film is γf ≥ 0.0075 J/m2. The final dust removal rate is negatively related to the surface energy between the particles and the film but positively related to the applied voltage and the charge of the particles. This research is of great significance to the mitigation of the lunar dust pollution problem that the crewed lunar exploration project will face in the future.
Author Dong, Tailang
Ren, Depeng
Feng, Yulong
Cui, Yuhong
Wang, Jianshan
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  surname: Cui
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  organization: School of Mechanical Engineering, Tianjin University, Tianjin, 300350, China
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CitedBy_id crossref_primary_10_1016_j_energy_2023_129230
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crossref_primary_10_1016_j_actaastro_2024_02_016
crossref_primary_10_1142_S1758825123500254
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Keywords Lunar dust
Dielectrophoretic force
Six-node triangular finite element method
Electric curtain
Surface energy
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SSID ssj0007289
Score 2.3808947
Snippet The law of dust removal by electric curtain in the lunar environment is considerably different from that in Earth's environment. This paper proposes an...
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StartPage 308
SubjectTerms Air pollution
Algorithms
Computer simulation
Dielectrophoresis
Dielectrophoretic force
Discrete element method
Dust
Dust control
Dust pollution
Dust transport
Electric curtain
Environmental law
Finite element method
Kinematics
Lunar dust
Lunar environments
Lunar exploration
Mitigation
Numerical methods
Particle transport
Six-node triangular finite element method
Surface energy
Traveling waves
Title An improved numerical method for lunar dust transport during electric curtain-traveling wave removal in the lunar environment
URI https://dx.doi.org/10.1016/j.actaastro.2021.09.025
https://www.proquest.com/docview/2620415488
Volume 190
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