Pierre Boivin

Aix-Marseille Université

H-index: 22

Europe-France

About Pierre Boivin

Pierre Boivin, With an exceptional h-index of 22 and a recent h-index of 21 (since 2020), a distinguished researcher at Aix-Marseille Université, specializes in the field of combustion, hydrogen, reduced kinetics, multiphase flows, LBM.

His recent articles reflect a diverse array of research interests and contributions to the field:

Lattice Boltzmann methods for combustion applications

Three dimensional shapes of hydrogen-air flames within millimetric Hele Shaw cells

Large eddy simulation of fire-induced flows using Lattice-Boltzmann methods

A hybrid lattice Boltzmann method for gaseous detonations

Numerical assessment of Diffuse-Interface method for air-assisted liquid sheet simulation

Hydrogen ignition and safety

Lattice-Boltzmann modeling of the quiet and unstable PRECCINSTA burner modes

Linear interaction approximation for shock/disturbance interaction in a Noble–Abel stiffened gas

Pierre Boivin Information

University	Aix-Marseille Université
Position	M2P2, CNRS
Citations(all)	1399
Citations(since 2020)	1035
Cited By	659
hIndex(all)	22
hIndex(since 2020)	21
i10Index(all)	31
i10Index(since 2020)	30
Email	Access Email
University Profile Page	Aix-Marseille Université
Google Scholar	View Google Scholar Profile

Pierre Boivin Skills & Research Interests

combustion

hydrogen

reduced kinetics

multiphase flows

LBM

Pierre Boivin

Aix-Marseille Université

About Pierre Boivin

Pierre Boivin Information

Pierre Boivin Skills & Research Interests

Top articles of Pierre Boivin

Lattice Boltzmann methods for combustion applications

Seyed Ali Hosseini

Pierre Boivin

Three dimensional shapes of hydrogen-air flames within millimetric Hele Shaw cells

Large eddy simulation of fire-induced flows using Lattice-Boltzmann methods

Mostafa Taha

Song Zhao

Aymeric Lamorlette

Pierre Boivin

A hybrid lattice Boltzmann method for gaseous detonations

Said Taileb

Song Zhao

Pierre Boivin

Numerical assessment of Diffuse-Interface method for air-assisted liquid sheet simulation

Pierre Boivin

Thomas Schmitt

Hydrogen ignition and safety

Pierre Boivin

Said Taileb

Lattice-Boltzmann modeling of the quiet and unstable PRECCINSTA burner modes

Song Zhao

Muhammad Tayyab

Pierre Boivin

Linear interaction approximation for shock/disturbance interaction in a Noble–Abel stiffened gas

A Staggered Lattice Boltzmann Method for the Radiative Transfer Equation

Hydrogen Flame shapes within Hele-Shaw cells

A new method for systematic 1-step chemistry reduction applied to hydrocarbon combustion

Said Taileb

Pierre Boivin

A new hybrid lattice-Boltzmann method for thermal flow simulations in low-Mach number approximation

Song Zhao

Pierre Boivin

Eric Serre

Restoring the conservativity of characteristic-based segregated models: Application to the hybrid lattice Boltzmann method

Song Zhao

Pierre Boivin

Lattice-Boltzmann modeling of lifted hydrogen jet flames: A new model for hazardous ignition prediction

Said Taileb

Song Zhao

Pierre Boivin

Widom and extrema lines as criteria for optimizing operating conditions in supercritical processes

Adil Mouahid

Pierre Boivin

Elisabeth Badens

Development of a new OpenFOAM solver for plasma cutting modeling

Pierre Boivin

Large Eddy Simulation of Forced Plumes Using Lattice Boltzmann Method

Mostafa Taha

Song Zhao

Aymeric Lamorlette

Pierre Boivin

FINITE VOLUME LATTICE BOLTZMANN COMPRESSIBLE APPROACH FOR BOUNDARY CONDITIONS

Pierre Boivin

A Lattice-Boltzmann study of premixed flames thermo-acoustic instabilities

Pierre Boivin

Lattice-Boltzmann modeling of buoyancy-driven turbulent flows

Mostafa Taha

Song Zhao

Aymeric Lamorlette

Pierre Boivin

Co-Authors

Prof. Pierre Sagaut

Richard Saurel

Yongliang FENG

Almarcha Christophe

Xi Deng

Said TAILEB