The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations

Shoumik Saha; Dilip Gersappe; Sherif L. Abdelaziz

doi:10.1061/9780784485347.005

The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations

Shoumik Saha
, Dilip Gersappe
, Sherif L. Abdelaziz

Materials Science and Engineering

Stony Brook University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Amending the composition of pore fluids by adding biopolymers can increase soil cohesion and improve the properties of soils. These advancements, however, mostly rely on trial and error in identifying the most suitable biopolymer. In this study, we show that we can model the properties of biopolymer pore fluids using coarse-grained molecular dynamics simulations. We model the effect of adding charged biopolymers, in the presence of nano-clay fillers, on the properties of pore fluids and their effect on improving soil cohesion. Our simulations show that these biopolymers form biogels that can absorb large amounts of water and potentially serve as a sustainable alternative for soil-strengthening purposes. We investigate the effect of charge distribution on gelation and structure formation in our system. Our results show that the physical properties of the gel can be controlled by the types of interactions between chains and nanofillers.

Original language	English
Title of host publication	Geotechnical Special Publication
Editors	T. Matthew Evans, Nina Stark, Susan Chang
Publisher	American Society of Civil Engineers (ASCE)
Pages	41-51
Number of pages	11
Edition	GSP 352
ISBN (Electronic)	9780784485309, 9780784485316, 9780784485323, 9780784485330, 9780784485347, 9780784485354
DOIs	https://doi.org/10.1061/9780784485347.005
State	Published - 2024
Event	Geo-Congress 2024: Geotechnical Data Analysis and Computation - Vancouver, Canada Duration: Feb 25 2024 → Feb 28 2024

Publication series

Name	Geotechnical Special Publication
Number	GSP 352
Volume	2024-February

Conference

Conference	Geo-Congress 2024: Geotechnical Data Analysis and Computation
Country/Territory	Canada
City	Vancouver
Period	02/25/24 → 02/28/24

Access to Document

10.1061/9780784485347.005

Cite this

Saha, S., Gersappe, D., & Abdelaziz, S. L. (2024). The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations. In T. M. Evans, N. Stark, & S. Chang (Eds.), Geotechnical Special Publication (GSP 352 ed., pp. 41-51). (Geotechnical Special Publication; Vol. 2024-February, No. GSP 352). American Society of Civil Engineers (ASCE). https://doi.org/10.1061/9780784485347.005

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title = "The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations",

abstract = "Amending the composition of pore fluids by adding biopolymers can increase soil cohesion and improve the properties of soils. These advancements, however, mostly rely on trial and error in identifying the most suitable biopolymer. In this study, we show that we can model the properties of biopolymer pore fluids using coarse-grained molecular dynamics simulations. We model the effect of adding charged biopolymers, in the presence of nano-clay fillers, on the properties of pore fluids and their effect on improving soil cohesion. Our simulations show that these biopolymers form biogels that can absorb large amounts of water and potentially serve as a sustainable alternative for soil-strengthening purposes. We investigate the effect of charge distribution on gelation and structure formation in our system. Our results show that the physical properties of the gel can be controlled by the types of interactions between chains and nanofillers.",

author = "Shoumik Saha and Dilip Gersappe and Abdelaziz, \{Sherif L.\}",

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language = "English",

series = "Geotechnical Special Publication",

publisher = "American Society of Civil Engineers (ASCE)",

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Saha, S, Gersappe, D & Abdelaziz, SL 2024, The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations. in TM Evans, N Stark & S Chang (eds), Geotechnical Special Publication. GSP 352 edn, Geotechnical Special Publication, no. GSP 352, vol. 2024-February, American Society of Civil Engineers (ASCE), pp. 41-51, Geo-Congress 2024: Geotechnical Data Analysis and Computation, Vancouver, Canada, 02/25/24. https://doi.org/10.1061/9780784485347.005

The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations. / Saha, Shoumik; Gersappe, Dilip; Abdelaziz, Sherif L.
Geotechnical Special Publication. ed. / T. Matthew Evans; Nina Stark; Susan Chang. GSP 352. ed. American Society of Civil Engineers (ASCE), 2024. p. 41-51 (Geotechnical Special Publication; Vol. 2024-February, No. GSP 352).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations

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PY - 2024

Y1 - 2024

N2 - Amending the composition of pore fluids by adding biopolymers can increase soil cohesion and improve the properties of soils. These advancements, however, mostly rely on trial and error in identifying the most suitable biopolymer. In this study, we show that we can model the properties of biopolymer pore fluids using coarse-grained molecular dynamics simulations. We model the effect of adding charged biopolymers, in the presence of nano-clay fillers, on the properties of pore fluids and their effect on improving soil cohesion. Our simulations show that these biopolymers form biogels that can absorb large amounts of water and potentially serve as a sustainable alternative for soil-strengthening purposes. We investigate the effect of charge distribution on gelation and structure formation in our system. Our results show that the physical properties of the gel can be controlled by the types of interactions between chains and nanofillers.

AB - Amending the composition of pore fluids by adding biopolymers can increase soil cohesion and improve the properties of soils. These advancements, however, mostly rely on trial and error in identifying the most suitable biopolymer. In this study, we show that we can model the properties of biopolymer pore fluids using coarse-grained molecular dynamics simulations. We model the effect of adding charged biopolymers, in the presence of nano-clay fillers, on the properties of pore fluids and their effect on improving soil cohesion. Our simulations show that these biopolymers form biogels that can absorb large amounts of water and potentially serve as a sustainable alternative for soil-strengthening purposes. We investigate the effect of charge distribution on gelation and structure formation in our system. Our results show that the physical properties of the gel can be controlled by the types of interactions between chains and nanofillers.

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U2 - 10.1061/9780784485347.005

DO - 10.1061/9780784485347.005

M3 - Conference contribution

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BT - Geotechnical Special Publication

A2 - Evans, T. Matthew

A2 - Stark, Nina

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PB - American Society of Civil Engineers (ASCE)

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Y2 - 25 February 2024 through 28 February 2024

ER -

The Effect of Biopolymer Pore Fluids on Soil Properties Using Molecular Dynamics Simulations

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