Abstract

The Ornstein–Zernike (OZ) equation is the fundamental equation for pair correlation function computations in the modern integral equation theory for liquids. In this work, machine learning models, notably physics-informed neural networks and physics-informed neural operator networks, are explored to solve the OZ equation. The physics-informed machine learning models demonstrate great accuracy and high efficiency in solving the forward and inverse OZ problems of various bulk fluids. The results highlight the significant potential of physics-informed machine learning for applications in thermodynamic state theory.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
A Comparative Study on Physics-Informed Machine Learning for Battery Degradation Diagnostics
Sina Navidi ... Chao Hu
Electrochemical Society Meeting Abstracts | VOL. MA2023-01
Sina Navidi, et. al.Sina Navidi ... Chao Hu
28 Aug 2023
Physics-Informed Machine Learning—An Emerging Trend in Tribology
Max Marian ... Stephan Tremmel
Lubricants (Basel, Switzerland) | VOL. 11
Max Marian, et. al.Max Marian ... Stephan Tremmel
30 Oct 2023
Learning Tensor Representations to Improve Quality of Wavefield Data
Harsha Vardhan Tetali ... Joel B Harley
-
Harsha Vardhan Tetali, et. al.Harsha Vardhan Tetali ... Joel B Harley
24 Jul 2023
Reply on AC2
Toshiyuki Bandai
-
Toshiyuki BandaiToshiyuki Bandai
07 Apr 2022
View more papers

More From: Physics of Fluids

Paper Title
Journal
Date
Author
Analyzing the thermal performance of transient heat transfer mechanism due to the combined effects of solar energy and variable surface temperature: Growing applications of solar energy in co-axial pipes
Bakhtawar Bibi ... Tao Sun
Physics of Fluids | VOL. 36
Bakhtawar Bibi, et. al.Bakhtawar Bibi ... Tao Sun
01 Jun 2024
Data-driven modeling of unsteady flow based on deep operator network
Heming Bai ... Xin Bian
Physics of Fluids | VOL. 36
Heming Bai, et. al.Heming Bai ... Xin Bian
01 Jun 2024
Experimental study of the flow-induced vibration of a cut-corner prism energy harvester
Weizhe Wang ... Zhaohui Yao
Physics of Fluids | VOL. -
Weizhe Wang, et. al.Weizhe Wang ... Zhaohui Yao
01 Jun 2024
Research on the drainage mechanism of a novel gun barrel and the characteristics of gas–liquid mutual interference
Xuan Zhang ... Xin-Wei Zhang
Physics of Fluids | VOL. -
Xuan Zhang, et. al.Xuan Zhang ... Xin-Wei Zhang
01 Jun 2024
View more papers