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Electrostatic Dust Mitigation and Manipulation Techniques for Planetary Dust

  • 1st Edition - August 18, 2022
  • Latest edition
  • Authors: Nima Gharib, Javad Farrokhi Derakhshandeh, Peter Radziszewski
  • Language: English

Electrostatic Dust Mitigation and Manipulation Techniques for Planetary Dust explains how to control and remove dust in space due to the presence of a vacuum, abrasiven… Read more

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Description

Electrostatic Dust Mitigation and Manipulation Techniques for Planetary Dust explains how to control and remove dust in space due to the presence of a vacuum, abrasiveness of dust particles and electrostatic charge on particles. The book introduces innovative technologies that use electrostatic and di-electrophoretic forces to remove and transport small particles away from surfaces. In addition, it discusses how to resolve thermal control problems and reduce lung inhalation and eye irritation problems. The book includes two abrasive wear test devices that were designed to study the rate of volume wear for different materials when subjected to lunar dust simulant of different size ranges.

This will be an ideal resource for space system engineers, space exploration researchers, and advanced students and professionals in space engineering.

Key features

  • Provides a comprehensive background on lunar and Martian dust properties and challenges and compares currently available mitigation strategies
  • Highlights the problems from dust on various space systems and crew
  • Features discrete element models which were created and calibrated based on experimental results to study the capacity of the proposed technique for removing and cleaning dust in a planetary environment

Readership

Space system engineers, Space exploration researchers (from NASA, ESA, etc.) and graduate students in the space engineering field and space physics

Table of contents

1. Introduction

1. Lunar environment

2. Martian environment

3. Asteroids

4. Summary
References

2. Dust related problems

1. Fine and charged dust particles

2. Dust challenges

3. Future plan
References

3. Fundamentals of electrodynamics

1. Introduction to electrostatics of particles

2. Electric charge

3. Coulomb’s law and electric field

4. Continues charge distributions

5. Field lines, flux, and Gauss’s law

6. Electric potential

7. Comments on potential

8. Work in electrostatics

9. Ohm’s law

10. Electromotive force

11. Faraday’s law
Reference

4. Dust mitigation techniques

1. Introduction

2. Particles removal approaches and mechanisms
References

5. Charging techniques and measurements

1. Introduction

2. Effective parameters on dust mitigation measurements

3. Dust charging measurements and strategies

4. Summary
References

6. Particle handling with electrostatic force
Hiroyuki Kawamoto

1. Introduction

2. Mitigation of dust adhesion

3. Sampling of regolith

4. Utilization of regolith
References

7. Analytical and numerical modeling

1. Forces applied on the particles

2. Electric and potential fields

3. Particles trajectory

4. Screened Coulomb force

5. Electric curtain modeling

6. Summary
References

8. Summary

Product details

  • Edition: 1
  • Latest edition
  • Published: August 18, 2022
  • Language: English

About the authors

NG

Nima Gharib

Nima Gharib is a former Assistant Professor and McGill graduate. He has been a space enthusiast and studied dust mitigation techniques experimentally and numerically for years. He received an award from the Canadian Space Agency for his article on dust mitigation. He is now consulting on combining different numerical methods (CFD, FEM and DEM) to model and optimise multidisciplinary problems.
Affiliations and expertise
Formerly Assistant Professor, Department of Materials Engineering, McGill University, Montreal, QC, Canada

JF

Javad Farrokhi Derakhshandeh

Javad Farrokhi Derakhshandeh earned his Ph.D. in Mechanical Engineering from the University of Adelaide, in South Australia. His Ph.D. project focused on harnessing hydropower energy from ocean and rivers using flow-induced vibration phenomenon. Currently, he has a position of associate professor at the American University of the Middle East (AUM), and he has made significant contributions to academia with many technical articles. Javad Farrokhi Derakhshandeh has published over 80 high-impact journal articles in leading publications such as Journal of Fluids and Structures, Ocean Engineering, ISA Transactions, International Communications in Heat and Mass Transfer, and Physics of Fluid. In addition to his journal contributions, he is the co-author of the textbook “Electrostatic Dust Mitigation and Manipulation Techniques for Planetary Dust” and numerous peer-reviewed conference papers.
Affiliations and expertise
Associate Professor, American University of the Middle East (AUM), Kuwait

PR

Peter Radziszewski

Peter Radziszewski is a former Associate Professor in Engineering Design at McGill University who pursued R&D and teaching activities in design and mineral processing. Joining Metso in 2012 as VP Solutions Offering Development, his conceptual design efforts encompassed mineral processes equipment as well as wear and consumables. In 2021, he joined Rampart Detection Systems as VP Research and Innovation.
Affiliations and expertise
Formerly Associate Professor, Engineering Design, McGill University, Montreal, QC, Canada

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