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Aerosol Science and Technology Volume 48, 2014 - Issue 8
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Original Articles

Extension of the Smoluchowski Theory to Transitions from Dilute to Dense Regime of Brownian Coagulation: Triple Collisions

M. S. VeshchunovNuclear Safety Institute, Russian Academy of Sciences, B. Tulskaya, Moscow, Russian Federation;Moscow Institute of Physics and Technology, Dolgoprudny, Moscow, Russian FederationCorrespondence[email protected]
&
V. I. TarasovNuclear Safety Institute, Russian Academy of Sciences, B. Tulskaya, Moscow, Russian Federation
Pages 813-821 | Received 07 Apr 2014, Accepted 28 May 2014, Published online: 11 Aug 2014

Citations (14)

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José Morán & M. Reza Kholghy. (2023) Theoretical derivation of particle collision kernels and its enhancement at a high concentration from a first-time-passage approach in the diffusive regime. Aerosol Science and Technology 57:8, pages 782-796.
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Articles from other publishers (13)

Dieter Vollath. (2022) Nanoparticles for energetic applications - formation and aggregation. FirePhysChem 2:4, pages 357-366.
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José Morán. (2022) On the Link between the Langevin Equation and the Coagulation Kernels of Suspended Nanoparticles. Fractal and Fractional 6:9, pages 529.
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Vikram Suresh, Zhibo Liu, Zachary Perry & Ranganathan Gopalakrishnan. (2022) Modeling particle-particle binary coagulation rate constants for spherical aerosol particles at high volume fractions using Langevin Dynamics simulations. Journal of Aerosol Science 164, pages 106001.
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Michał Hyrycz, Marek Ochowiak, Andżelika Krupińska, Sylwia Włodarczak & Magdalena Matuszak. (2022) A review of flocculants as an efficient method for increasing the efficiency of municipal sludge dewatering: Mechanisms, performances, influencing factors and perspectives. Science of The Total Environment 820, pages 153328.
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Giulia Mancardi, Matteo Alberghini, Neus Aguilera-Porta, Monica Calatayud, Pietro Asinari & Eliodoro Chiavazzo. (2022) Multi-Scale Modelling of Aggregation of TiO2 Nanoparticle Suspensions in Water. Nanomaterials 12:2, pages 217.
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Vikram Suresh & Ranganathan Gopalakrishnan. (2021) Tutorial: Langevin Dynamics methods for aerosol particle trajectory simulations and collision rate constant modeling. Journal of Aerosol Science 155, pages 105746.
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J. Morán, J. Yon, A. Poux, F. Corbin, F.-X. Ouf & A. Siméon. (2020) Monte Carlo Aggregation Code (MCAC) Part 2: Application to soot agglomeration, highlighting the importance of primary particles. Journal of Colloid and Interface Science 575, pages 274-285.
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Dmitri V. Alexandrov. (2020) Nonlinear dynamics of polydisperse assemblages of particles evolving in metastable media. The European Physical Journal Special Topics 229:2-3, pages 383-404.
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Eugenya V. Makoveeva & Dmitri V. Alexandrov. (2019) Effects of external heat/mass sources and withdrawal rates of crystals from a metastable liquid on the evolution of particulate assemblages. The European Physical Journal Special Topics 228:1, pages 25-34.
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V.I. Tarasov, P.V. Polovnikov, V.E. Shestak & M.S. Veshchunov. (2019) Development of the MFPR/R code for characterization of the rim zone and high burnup structure evolution in UO2 fuel pellets. Journal of Nuclear Materials 517, pages 214-224.
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D V Alexandrov, A A Ivanov & I V Alexandrova. (2019) The influence of Brownian coagulation on the particle-size distribution function in supercooled melts and supersaturated solutions. Journal of Physics A: Mathematical and Theoretical 52:1, pages 015101.
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P.V. Polovnikov, I.B. Azarov & M.S. Veshchunov. (2016) Advancement of the kinetic approach to Brownian coagulation on the base of the Langevin theory. Journal of Aerosol Science 96, pages 14-23.
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Eirini Goudeli, Maximilian L. Eggersdorfer & Sotiris E. Pratsinis. (2015) Coagulation–Agglomeration of Fractal-like Particles: Structure and Self-Preserving Size Distribution. Langmuir 31:4, pages 1320-1327.
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