International Journal of Science and Research (IJSR)

International Journal of Science and Research (IJSR)
www.ijsr.net | Most Trusted Research Journal Since Year 2012

ISSN: 2319-7064

Research Paper | Nanotechnology | Vietnam | Volume 9 Issue 3, March 2020

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

The research adopts the molecular dynamics simulation method to simulate the liquid molecule ejection through different ejection diameter sizes of 25 Å and 40 Å and pushing force 11.0 10-10 N. The obtained simulative results conclude that almost liquid molecules eject out through the hole diameter of 40 Å to build up liquid jet and then produce nanoscale droplets. Contrarily, the liquid molecules after ejecting out the container could not go away the top plate for the hole diameter of 25 Å under same the magnitude of pushing force.

Keywords: Molecular dynamics simulation method, ejection diameter size, liquid ejection

Edition: Volume 9 Issue 3, March 2020

Pages: 838 - 841


How to Cite this Article?

Van Quang Nguyen, Trong Ly Nguyen, "Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method", International Journal of Science and Research (IJSR), https://www.ijsr.net/search_index_results_paperid.php?id=SR20225054235, Volume 9 Issue 3, March 2020, 838 - 841

37 PDF Views | 31 PDF Downloads

Download Article PDF

Research Paper | Nanotechnology | Vietnam | Volume 9 Issue 3, March 2020

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

The research adopts the molecular dynamics simulation method to simulate the liquid molecule ejection through different ejection diameter sizes of 25 Å and 40 Å and pushing force 11.0 10-10 N. The obtained simulative results conclude that almost liquid molecules eject out through the hole diameter of 40 Å to build up liquid jet and then produce nanoscale droplets. Contrarily, the liquid molecules after ejecting out the container could not go away the top plate for the hole diameter of 25 Å under same the magnitude of pushing force.

Keywords: Molecular dynamics simulation method, ejection diameter size, liquid ejection

Edition: Volume 9 Issue 3, March 2020

Pages: 838 - 841


How to Cite this Article?

Van Quang Nguyen, Trong Ly Nguyen, "Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method", International Journal of Science and Research (IJSR), https://www.ijsr.net/search_index_results_paperid.php?id=SR20225054235, Volume 9 Issue 3, March 2020, 838 - 841

37 PDF Views | 31 PDF Downloads

Download Article PDF



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Research Paper, Nanotechnology, Vietnam, Volume 9 Issue 3, March 2020

Pages: 838 - 841

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

Share this article

Research Paper, Nanotechnology, Vietnam, Volume 9 Issue 3, March 2020

Pages: 838 - 841

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

Share this article

Similar Articles with Keyword 'ejection diameter size'

Research Paper, Nanotechnology, Vietnam, Volume 9 Issue 3, March 2020

Pages: 838 - 841

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

Share this article

Research Paper, Nanotechnology, Vietnam, Volume 9 Issue 3, March 2020

Pages: 838 - 841

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

Share this article

Similar Articles with Keyword 'liquid ejection'

Research Paper, Nanotechnology, Vietnam, Volume 9 Issue 3, March 2020

Pages: 838 - 841

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

Share this article

Research Paper, Nanotechnology, Vietnam, Volume 9 Issue 3, March 2020

Pages: 838 - 841

Investigating the Influence of Ejection Diameter Size Parameter to Liquid Ejection by Molecular Dynamics Simulation Method

Van Quang Nguyen, Trong Ly Nguyen

Share this article

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