A thermalized electrokinetics model including stochastic reactions suitable for multiscale simulations of reaction-advection-diffusion systems

We introduce a scheme to simulate the spatial and temporal evolution of the densities of charged species, taking into account diffusion, thermal fluctuations, coupling to a carrier fluid, and chemical reactions. To this end, the diffusive fluxes in the electrokinetic model by Capuani et al. [1] are supplemented with thermal fluctuations. Chemical reactions are included via an additional source term in the mass balance equation. The diffusion-reaction model is then coupled to a solver for fluctuating hydrodynamics based on the lattice Boltzmann method. We describe our implementations, one based on the automatic code generation tools using pystencils and lbmpy, and another one contained as in the molecular dynamics package ESPResSo which allows the coupling of particles to the density fields. We validate our implementations by demonstrating that the expected influence of density fluctuations on the reaction rate for chemical reactions of order > 1 is reproduced. Our novel algorithm will be applicable to coarse-grained catalysis problems as well as to many other multi-scale problems that require the coupling of explicit-particle simulations with flow fields, diffusion, and reaction problems in arbitrary geometries.

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A thermalized electrokinetics model including stochastic reactions suitable for multiscale simulations of reaction-advection-diffusion systems

10.33774/chemrxiv-2021-39nhv-v2 ◽

2021 ◽

Author(s):

Ingo Tischler ◽

Florian Weik ◽

Robert Kaufmann ◽

Michael Kuron ◽

Rudolf Weeber ◽

...

Keyword(s):

Chemical Reactions ◽

Code Generation ◽

Lattice Boltzmann ◽

Soft Matter ◽

Thermal Fluctuations ◽

Reaction Model ◽

Diffusion Reaction ◽

Coarse Grained ◽

Ion Distribution ◽

Carrier Fluid

We introduce a scheme to simulate the spatial and temporal evolution of the densities of charged species, taking into account diffusion, thermal fluctuations, coupling to a carrier fluid, and chemical reactions. To this end, the diffusive fluxes in the electrokinetic model by Capuani et al. [1] are supplemented with thermal fluctuations. Chemical reactions are included via an additional source term in the mass balance equation. The diffusion-reaction model is then coupled to a solver for fluctuating hydrodynamics based on the lattice Boltzmann method. This combination is particularly useful for soft matter simulations, due to the ability to couple particles to the lattice-Boltzmann fluid. These could, e.g., be charged colloids or polymers, which then interact with an ion distribution. We describe one implementations based on the automatic code generation tools pystencils and lbmpy, and another one that is contained in the molecular dynamics package ESPResSo and that allows for an easy coupling of particles to the density fields. We validate our implementations by comparing to several known analytic results. Our method can be applied to coarse-grained catalysis problems as well as to many other multi-scale problems that require the coupling of explicit-particle simulations to flow fields, diffusion, and reaction problems in arbitrary geometries.

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Coupling between Mass Transfer and Chemical Reactions during the Absorption of CO2 in a NaHCO3-Na2CO3 Brine : Experimental and Theoretical Study

International Journal of Chemical Reactor Engineering ◽

10.2202/1542-6580.1502 ◽

2008 ◽

Vol 6 (1) ◽

Cited By ~ 6

Author(s):

Christophe E Wylock ◽

Pierre Colinet ◽

Thierry Cartage ◽

Benoît Haut

Keyword(s):

Mass Transfer ◽

Liquid Phase ◽

Chemical Reactions ◽

Reaction Model ◽

Gas Absorption ◽

Diffusion Reaction ◽

Co2 Absorption ◽

Bubble Liquid ◽

Liquid Mass ◽

Liquid Mass Transfer

This work deals with the study of the gas-liquid mass transfer, coupled with chemical reactions. The case of carbonic gas absorption in a brine of sodium carbonate and bicarbonate is investigated. It is performed in collaboration with Solvay SA. The aim of this work is to get a better understanding of this phenomenon. It would permit an optimization of the refined sodium bicarbonate production process. The basis of developed mathematical models is presented. The CO2 absorption is coupled with several chemical reactions taking place in the liquid phase. A mathematical modelling of this coupling is first developed. The equations of the model are solved numerically, using COMSOL Multiphysics. To model the bubble-liquid mass transfer of CO2, this diffusion-reaction model is completed by a representation of the liquid phase flow around the bubble. In order to validate experimentally each scale of modelling, two experimental devices are proposed.

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Enterprise WAE: A Lightweight UML Extension for the Characterization of the Presentation Tier of Enterprise Applications with MDD-Based Mockup Generation

International Journal of Software Engineering and Knowledge Engineering ◽

10.1142/s0218194017500486 ◽

2017 ◽

Vol 27 (08) ◽

pp. 1291-1331

Author(s):

Humberto Cortés ◽

Antonio Navarro

Keyword(s):

Code Generation ◽

Web Application ◽

Service Oriented Architecture ◽

Low Cost ◽

Unified Modeling Language ◽

Automatic Generation ◽

Role Based Access Control ◽

Enterprise Applications ◽

Uml Extension ◽

Automatic Code

Nowadays, the Unified Modeling Language (UML) is the most successful notation for the design of object-oriented applications. However, plain UML is not enough to characterize the web presentation tier of enterprise applications, including the navigational, structural and role-based access control (RBAC) features present in these applications. In this paper, we present Enterprise Web Application Extension (E-WAE), a lightweight UML extension for the modeling of these elements, which permits the inclusion of multitier, Service-Oriented Architecture (SOA) and security design-level patterns in the models. Our approach follows a Model-Driven Development (MDD) approach, which enables the automatic generation of intermediate platform-specific models and automatic code generation for JavaServer Faces (JSF) and Active Server Pages.NET Model-View-Controller (ASP.NET MVC) frameworks. In addition, this generated code can be used as a low-cost mockup for early client validation of the navigational, structural and RBAC features of enterprise applications. E-WAE has been used with different applications. In this paper, we refer to the checkout process in the Amazon website, the delete resources use case in OdAJ2EE, an educational application developed by us, and the US Library of Congress Online Catalog search facility as examples of its applicability.

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Diffusion-Reaction Model of ALD in Nanostructured Substrates: Analytic Approximations to Dose Times as a Function of the Surface Reaction Probability

ECS Transactions ◽

10.1149/1.3633665 ◽

2019 ◽

Vol 41 (2) ◽

pp. 169-174 ◽

Cited By ~ 9

Author(s):

Angel Yanguas-Gil ◽

Jeffrey W. Elam

Keyword(s):

Surface Reaction ◽

Reaction Model ◽

Diffusion Reaction ◽

Reaction Probability ◽

Analytic Approximations ◽

Nanostructured Substrates

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Rapid Control Prototyping Design of DSP-Based Motion Controller

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.383-390.308 ◽

2011 ◽

Vol 383-390 ◽

pp. 308-314

Author(s):

Lin Li ◽

Zhi Ming Peng ◽

Bi Cong Zhang ◽

Zhang Tie

Keyword(s):

Code Generation ◽

Automatic Code Generation ◽

Motion Controller ◽

Application System ◽

Pid Algorithm ◽

Development Platform ◽

Development Cycle ◽

Rapid Control ◽

Rapid Control Prototyping ◽

Automatic Code

This paper presents a Rapid Control Prototyping (RCP) development platform based on Matlab/Simulink, Real-Time Workshop and Embedded Target for C2000 and DSP development board. It also designs TMS320F2812 DSP-based motion controller under the proposed RCP. The controller using saturated integral PID algorithm produces PWM signal to control DC motor. Experimental results show that the designed controller can control motor accurately. Engineers can complete all design tasks such as modeling, automatic code generation, and download, running and parameters adjustment on this RCP platform when developing DSP application system. Thus the proposed RCP can shorten the DSP development cycle and improve the portability and modularity of program.

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