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Advances in direct simulation Monte Carlo = from micro-scale to rarefied flow phenomena /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Advances in direct simulation Monte Carlo/ by Ehsan Roohi, Hassan Akhlaghi, Stefan Stefanov.
其他題名:	from micro-scale to rarefied flow phenomena /
作者:	Roohi, Ehsan.
其他作者:	Akhlaghi, Hassan.
出版者:	Singapore :Springer Nature Singapore : : 2025.,
面頁冊數:	xix, 484 p. :ill., digital ;24 cm.
內容註:	Introduction to Micro and Nano Flows -- A Brief Review of Kinetic Theory -- DSMC Method and its Connection to Kinetic Theory -- Recent Advances in DSMC -- Pressure Driven Flows: Poisselle Flow -- Thermal Driven Micro/Nano Flows -- Shear Driven Flows: Couette Flow and Cavity Flow -- High-Speed Microflows: Nozzle Flow -- External Flows: Micro-Scale Flat Plate and Airfoil -- Cold to Hot Transfer at Micro-/Nano-Scales.
Contained By:	Springer Nature eBook
標題:	Monte Carlo method. -
電子資源:	https://doi.org/10.1007/978-981-96-8200-3
ISBN:	9789819682003

Advances in direct simulation Monte Carlo = from micro-scale to rarefied flow phenomena /
Roohi, Ehsan.

Advances in direct simulation Monte Carlofrom micro-scale to rarefied flow phenomena /[electronic resource] :by Ehsan Roohi, Hassan Akhlaghi, Stefan Stefanov. - Singapore :Springer Nature Singapore :2025. - xix, 484 p. :ill., digital ;24 cm.

Introduction to Micro and Nano Flows -- A Brief Review of Kinetic Theory -- DSMC Method and its Connection to Kinetic Theory -- Recent Advances in DSMC -- Pressure Driven Flows: Poisselle Flow -- Thermal Driven Micro/Nano Flows -- Shear Driven Flows: Couette Flow and Cavity Flow -- High-Speed Microflows: Nozzle Flow -- External Flows: Micro-Scale Flat Plate and Airfoil -- Cold to Hot Transfer at Micro-/Nano-Scales.

This book provides a comprehensive and in-depth presentation of recent advancements in the Direct Simulation Monte Carlo (DSMC) method, focusing on modern collision algorithms that maintain accuracy even with low particle-per-cell. Drawing from theoretical insights and computational innovations, it bridges fundamental kinetic theory with practical simulation techniques for rarefied gas flows. Structured across ten chapters, the book begins with a discussion of micro- and nanoscale fluid flows, where non-equilibrium effects and rarefaction become dominant. It explores key phenomena in MEMS/NEMS devices, such as velocity slip, temperature jump, Knudsen minimum, and thermal polarization-essential for understanding transport in confined geometries. A strong emphasis is placed on advanced DSMC collision schemes, including the BT-family of algorithms (e.g., SBT, ISBT, GBT, SSBT, and SGBT), as well as emerging hybrid approaches such as DSMC-Fokker-Planck and Low-Variance DSMC. Applications span from pressure-driven microchannel flows, thermally induced rarefied flows, and Couette/cavity configurations, to supersonic wedge flows and nonlinear instability phenomena like Rayleigh-Bénard convection in rarefied gases. Special attention is given to semi-analytical aerodynamic models in free-molecular regimes, making the book particularly valuable for those working in aerospace applications at high altitudes or in low-density environments. With contributions from leading experts, this expanded volume serves as both a reference and a teaching guide for researchers and students in rarefied gas dynamics, microfluidics, and high-fidelity particle-based simulation methods.

ISBN: 9789819682003

Standard No.: 10.1007/978-981-96-8200-3doiSubjects--Topical Terms:

551308
Monte Carlo method.

LC Class. No.: QC174.85.M64

Dewey Class. No.: 518.282

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520 $a This book provides a comprehensive and in-depth presentation of recent advancements in the Direct Simulation Monte Carlo (DSMC) method, focusing on modern collision algorithms that maintain accuracy even with low particle-per-cell. Drawing from theoretical insights and computational innovations, it bridges fundamental kinetic theory with practical simulation techniques for rarefied gas flows. Structured across ten chapters, the book begins with a discussion of micro- and nanoscale fluid flows, where non-equilibrium effects and rarefaction become dominant. It explores key phenomena in MEMS/NEMS devices, such as velocity slip, temperature jump, Knudsen minimum, and thermal polarization-essential for understanding transport in confined geometries. A strong emphasis is placed on advanced DSMC collision schemes, including the BT-family of algorithms (e.g., SBT, ISBT, GBT, SSBT, and SGBT), as well as emerging hybrid approaches such as DSMC-Fokker-Planck and Low-Variance DSMC. Applications span from pressure-driven microchannel flows, thermally induced rarefied flows, and Couette/cavity configurations, to supersonic wedge flows and nonlinear instability phenomena like Rayleigh-Bénard convection in rarefied gases. Special attention is given to semi-analytical aerodynamic models in free-molecular regimes, making the book particularly valuable for those working in aerospace applications at high altitudes or in low-density environments. With contributions from leading experts, this expanded volume serves as both a reference and a teaching guide for researchers and students in rarefied gas dynamics, microfluidics, and high-fidelity particle-based simulation methods.
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