Microhydrodynamics: Principles and Selected ApplicationsElsevier Science & Technology Books, 1991 - 507 sayfa Microhydrodynamics concerns the flow and related phenomena pertinent to the motion of small particles suspended in viscous fluids. This text focuses on determining the motion of a particle or particles through a viscous fluid in bounded and unbounded flow. Its central theme is the mobility relation between particle motion and forces. Microhydrodynamics: Principles and Selected Applications functions as a manual that explains methods for solving particulate flows at low-Reynolds number, from analytical to computational methods. The ever-increasing growth in computational power has resulted in a similar growth in the range of solvable problems in microhydrodynamics. Suitable for graduate students in engineering and applied mathematics, this text treats the mathematical foundations and highlights the interplay of both mathematical and physical insights, guiding readers through single particle theory and problems related to multiparticle analyses. Book jacket. |
İçindekiler
Microhydrodynamic Phenomena | 1 |
Transient Stokes Flows | 6 |
General Properties and Fundamental Theorems | 13 |
Telif Hakkı | |
18 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Microhydrodynamics: Principles and Selected Applications Sangtae Kim,Seppo J. Karrila Sınırlı önizleme - 2005 |
Microhydrodynamics: Principles and Selected Applications Sangtae Kim,Seppo J. Karrila Sınırlı önizleme - 2013 |
Microhydrodynamics: Principles and Selected Applications Sangtae Kim,Seppo J. Karrila Sınırlı önizleme - 2013 |
Sık kullanılan terimler ve kelime öbekleri
ambient field applied asymptotic axis axisymmetric boundary conditions Chapter coefficients collocation colloidal Consider coordinates denote derived distribution disturbance field electrophoretic ellipsoid energy dissipation Exercise expression F₂ Faxén law Figure flow field Fluid Mech force and torque geometry Green's function harmonics hydrodynamic center hydrodynamic force hydrodynamic interactions image system integral representation interface Lamb's general solution Lorentz reciprocal theorem mobility functions mobility tensors multipole expansion oblate spheroid obtained Oseen tensor particle surface prolate spheroid radius rate-of-strain field relation resistance and mobility resistance functions resistance tensor result rheology rigid particle rigid sphere rotation rotlet shear single layer singularity solution sinh sphere surface spherical drop Stokes equations Stokes flow Stokeslet streamfunction stresslet surface normal surface traction suspension symmetry tangential component torque translating sphere U₁ v₁ vector velocity field viscous viscous drop