عنوان

A Molecular Dynamics Study on Rotational Nanofluid and Its Application to Desalination.

Number

LA7bp0h1zv

Title Proper

A Molecular Dynamics Study on Rotational Nanofluid and Its Application to Desalination.

General Material Designation

[Article]

First Statement of Responsibility

Tu, QingsongIbrahimi, WiceRen, StevenWu, JamesLi, Shaofan

Text of Note

In this work, we systematically study a rotational nanofluidic device for reverse osmosis (RO) desalination by using large scale molecular dynamics modeling and simulation. Moreover, we have compared Molecular Dynamics simulation with fluid mechanics modeling. We have found that the pressure generated by the centrifugal motion of nanofluids can counterbalance the osmosis pressure developed from the concentration gradient, and hence provide a driving force to filtrate fresh water from salt water. Molecular Dynamics modeling of two different types of designs are performed and compared. Results indicate that this novel nanofluidic device is not only able to alleviate the fouling problem significantly, but it is also capable of maintaining high membrane permeability and energy efficiency. The angular velocity of the nanofluids within the device is investigated, and the critical angular velocity needed for the fluids to overcome the osmotic pressure is derived. Meanwhile, a maximal angular velocity value is also identified to avoid Taylor-Couette instability. The MD simulation results agree well with continuum modeling results obtained from fluid hydrodynamics theory, which provides a theoretical foundation for scaling up the proposed rotational osmosis device. Successful fabrication of such rotational RO membrane centrifuge may potentially revolutionize the membrane desalination technology by providing a fundamental solution to the water resource problem.

Date of Publication

2020

Title

UC Berkeley

Electronic name

[Article]

278669

a

Y