## What is/are Multiphase Reactive?

Multiphase Reactive - This review focuses on the advances and applications of DH in multiphase reactive/non-reactive flows in the last two decades.^{[1]}

## D Multiphase Reactive

A series of 2-D multiphase reactive transport simulations were set-up to model the geochemical processes occurring at the interface of a baffle and a reservoir rock for a period of 1000 years.^{[1]}A series of 2-D multiphase reactive transport simulations were set-up to model the geochemical processes occurring at the interface of a baffle and a reservoir rock for a period of 1000 years.

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## multiphase reactive transport

In this paper, we present a novel multiphase reactive transport solver for simulations on complex pore geometries, including microfluidic devices and micro-CT images, and its implementation in GeoChemFoam.^{[1]}A series of 2-D multiphase reactive transport simulations were set-up to model the geochemical processes occurring at the interface of a baffle and a reservoir rock for a period of 1000 years.

^{[2]}The pore-scale model for the coupled multiphase reactive transport processes is helpful for understanding the mechanisms inside the porous electrodes of PEMFC.

^{[3]}A series of 2-D multiphase reactive transport simulations were set-up to model the geochemical processes occurring at the interface of a baffle and a reservoir rock for a period of 1000 years.

^{[4]}Numerical simulations were performed using the multiphase reactive transport program TOUGHREACT.

^{[5]}In sea ice on Earth, the local thermochemical environment at the ice-ocean interface governs impurity entrainment into the ice, which has been successfully reproduced by multiphase reactive transport models that capture the physics occurring at this dynamic boundary [8-10].

^{[6]}In this study, we developed a mathematical model considering multispecies and multiphase reactive transport and bioclogging for a single-well injection test in a confined aquifer to investigate the microbial effects on parameter estimation.

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## multiphase reactive flow

It requires deep understanding of turbulent and multiphase reactive flow physics inside the combustor.^{[1]}A simple thermodynamic closure for the simulation of multiphase reactive flows is presented.

^{[2]}The engine combustion network (ECN) Spray A is modelled using the Reynolds-averaged Navier–Stokes-transported probability density function (RANS-TPDF) approach to validate the application of a new multiple mapping conditioning (MMC) mixing model to multiphase reactive flows.

^{[3]},The work provides a reliable numerical method to obtain boundary conditions for predicting the heat transfers in solids heated by expanding multiphase reactive flows.

^{[4]}As the mesoscale is critical to understand multiphase reactive flows, which the conventional two-fluid model without mesoscale modeling may be inadequate to resolve even using extremely fine grids, this review attempts to demonstrate that the energy-minimization multiscale (EMMS) model could be a starting point to develop such mesoscale modeling.

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