نتایج جستجو برای: particle flow

تعداد نتایج: 641100  

2015
C. LACAVE

We consider the flow of a viscous, incompressible, Newtonian fluid in a perforated domain in the plane. The domain is the exterior of a regular lattice of rigid particles. We study the simultaneous limit of vanishing particle size and distance, and of vanishing viscosity. Under suitable conditions on the particle size, particle distance, and viscosity, we prove that solutions of the Navier-Stok...

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Journal: :Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics 2000
Reigada Marti Sokolov Sagues Sancho

We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective and focus on the two-particle and cluster dispersion by the flow. It has been recently reported that Richardson's law for the two-particle dispersion can stem from different dispersion mechanisms, and can be dominated by either diffusive or ballistic events. The nature of the Richardson dispersion ...

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2008
Jason A. Osborne Tony E. Grift

Probability models are proposed for passage time data collected in experiments with a device that was designed to measure particle flow during aerial application of fertilizer. Maximum likelihood estimation of flow intensity is reviewed for the simple linear Boolean model, which arises with the assumption that each particle requires the same known passage time. M -estimation is developed for a ...

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2014
G. Aad B. Abbott J. Abdallah S. Abdel Khalek O. Abdinov R. Aben B. Abi M. Abolins O. S. AbouZeid H. Abramowicz H. Abreu R. Abreu Y. Abulaiti B. S. Acharya L. Adamczyk D. L. Adams J. Adelman S. Adomeit T. Adye T. Agatonovic-Jovin J. A. Aguilar-Saavedra M. Agustoni S. P. Ahlen F. Ahmadov G. Aielli H. Akerstedt T. P. A. Åkesson G. Akimoto A. V. Akimov G. L. Alberghi J. Albert S. Albrand M. J. Alconada Verzini M. Aleksa I. N. Aleksandrov C. Alexa G. Alexander G. Alexandre T. Alexopoulos M. Alhroob G. Alimonti L. Alio J. Alison B. M. M. Allbrooke L. J. Allison P. P. Allport J. Almond A. Aloisio A. Alonso F. Alonso C. Alpigiani A. Altheimer B. Alvarez Gonzalez M. G. Alviggi K. Amako Y. Amaral Coutinho C. Amelung D. Amidei S. P. Amor Dos Santos A. Amorim S. Amoroso N. Amram G. Amundsen C. Anastopoulos L. S. Ancu N. Andari T. Andeen C. F. Anders G. Anders K. J. Anderson A. Andreazza V. Andrei X. S. Anduaga S. Angelidakis I. Angelozzi P. Anger A. Angerami F. Anghinolfi A. V. Anisenkov N. Anjos A. Annovi A. Antonaki M. Antonelli A. Antonov J. Antos F. Anulli M. Aoki L. Aperio Bella R. Apolle G. Arabidze I. Aracena Y. Arai J. P. Araque A. T. H. Arce J.-F. Arguin S. Argyropoulos M. Arik A. J. Armbruster O. Arnaez V. Arnal H. Arnold M. Arratia O. Arslan A. Artamonov G. Artoni S. Asai N. Asbah A. Ashkenazi B. Åsman L. Asquith K. Assamagan R. Astalos M. Atkinson N. B. Atlay B. Auerbach K. Augsten M. Aurousseau G. Avolio G. Azuelos Y. Azuma M. A. Baak A. E. Baas C. Bacci H. Bachacou K. Bachas M. Backes M. Backhaus J. Backus Mayes E. Badescu P. Bagiacchi P. Bagnaia Y. Bai T. Bain J. T. Baines O. K. Baker P. Balek F. Balli E. Banas Sw. Banerjee A. A. E. Bannoura V. Bansal H. S. Bansil L. Barak S. P. Baranov E. L. Barberio D. Barberis M. Barbero T. Barillari M. Barisonzi T. Barklow N. Barlow B. M. Barnett R. M. Barnett Z. Barnovska A. Baroncelli G. Barone A. J. Barr F. Barreiro J. Barreiro Guimarães da Costa R. Bartoldus A. E. Barton P. Bartos V. Bartsch A. Bassalat A. Basye R. L. Bates J. R. Batley M. Battaglia M. Battistin F. Bauer H. S. Bawa M. D. Beattie T. Beau P. H. Beauchemin R. Beccherle P. Bechtle H. P. Beck K. Becker S. Becker M. Beckingham C. Becot A. J. Beddall A. Beddall S. Bedikian V. A. Bednyakov C. P. Bee L. J. Beemster T. A. Beermann M. Begel K. Behr C. Belanger-Champagne P. J. Bell W. H. Bell G. Bella L. Bellagamba A. Bellerive M. Bellomo K. Belotskiy O. Beltramello O. Benary D. Benchekroun K. Bendtz N. Benekos Y. Benhammou E. Benhar Noccioli J. A. Benitez Garcia D. P. Benjamin J. R. Bensinger K. Benslama S. Bentvelsen D. Berge E. Bergeaas Kuutmann N. Berger F. Berghaus J. Beringer C. Bernard P. Bernat C. Bernius F. U. Bernlochner T. Berry P. Berta C. Bertella G. Bertoli F. Bertolucci C. Bertsche D. Bertsche M. I. Besana G. J. Besjes O. Bessidskaia M. Bessner N. Besson C. Betancourt S. Bethke W. Bhimji R. M. Bianchi L. Bianchini M. Bianco O. Biebel S. P. Bieniek K. Bierwagen J. Biesiada M. Biglietti J. Bilbao De Mendizabal H. Bilokon M. Bindi S. Binet A. Bingul C. Bini C. W. Black J. E. Black K. M. Black D. Blackburn R. E. Blair J.-B. Blanchard T. Blazek I. Bloch C. Blocker W. Blum U. Blumenschein G. J. Bobbink V. S. Bobrovnikov S. S. Bocchetta A. Bocci C. Bock C. R. Boddy M. Boehler T. T. Boek J. A. Bogaerts A. G. Bogdanchikov A. Bogouch C. Bohm J. Bohm V. Boisvert T. Bold V. Boldea A. S. Boldyrev M. Bomben M. Bona M. Boonekamp A. Borisov G. Borissov M. Borri S. Borroni J. Bortfeldt V. Bortolotto K. Bos D. Boscherini M. Bosman H. Boterenbrood J. Boudreau J. Bouffard E. V. Bouhova-Thacker D. Boumediene C. Bourdarios N. Bousson S. Boutouil A. Boveia J. Boyd I. R. Boyko J. Bracinik A. Brandt G. Brandt O. Brandt U. Bratzler B. Brau J. E. Brau H. M. Braun S. F. Brazzale B. Brelier K. Brendlinger A. J. Brennan R. Brenner S. Bressler K. Bristow T. M. Bristow D. Britton F. M. Brochu I. Brock R. Brock C. Bromberg J. Bronner G. Brooijmans T. Brooks W. K. Brooks J. Brosamer E. Brost J. Brown P. A. Bruckman de Renstrom D. Bruncko R. Bruneliere S. Brunet A. Bruni G. Bruni M. Bruschi L. Bryngemark T. Buanes Q. Buat F. Bucci P. Buchholz R. M. Buckingham A. G. Buckley S. I. Buda I. A. Budagov F. Buehrer L. Bugge M. K. Bugge O. Bulekov A. C. Bundock H. Burckhart S. Burdin B. Burghgrave S. Burke I. Burmeister E. Busato D. Büscher V. Büscher P. Bussey C. P. Buszello B. Butler J. M. Butler A. I. Butt C. M. Buttar J. M. Butterworth P. Butti W. Buttinger A. Buzatu M. Byszewski S. Cabrera Urbán D. Caforio O. Cakir P. Calafiura A. Calandri G. Calderini P. Calfayan R. Calkins L. P. Caloba D. Calvet S. Calvet R. Camacho Toro S. Camarda D. Cameron L. M. Caminada R. Caminal Armadans S. Campana M. Campanelli A. Campoverde V. Canale A. Canepa M. Cano Bret J. Cantero R. Cantrill T. Cao M. D. M. Capeans Garrido I. Caprini M. Caprini M. Capua R. Caputo R. Cardarelli T. Carli G. Carlino L. Carminati S. Caron E. Carquin G. D. Carrillo-Montoya J. R. Carter J. Carvalho D. Casadei M. P. Casado M. Casolino E. Castaneda-Miranda A. Castelli V. Castillo Gimenez N. F. Castro P. Catastini A. Catinaccio J. R. Catmore A. Cattai G. Cattani S. Caughron V. Cavaliere D. Cavalli M. Cavalli-Sforza V. Cavasinni F. Ceradini B. C. Cerio K. Cerny A. S. Cerqueira A. Cerri L. Cerrito F. Cerutti M. Cerv A. Cervelli S. A. Cetin A. Chafaq D. Chakraborty I. Chalupkova P. Chang B. Chapleau J. D. Chapman D. Charfeddine D. G. Charlton C. C. Chau C. A. Chavez Barajas S. Cheatham A. Chegwidden S. Chekanov S. V. Chekulaev G. A. Chelkov M. A. Chelstowska C. Chen H. Chen K. Chen L. Chen S. Chen X. Chen Y. Chen Y. Chen H. C. Cheng Y. Cheng A. Cheplakov R. Cherkaoui El Moursli V. Chernyatin E. Cheu L. Chevalier V. Chiarella G. Chiefari J. T. Childers A. Chilingarov G. Chiodini A. S. Chisholm R. T. Chislett A. Chitan M. V. Chizhov S. Chouridou B. K. B. Chow D. Chromek-Burckhart M. L. Chu J. Chudoba J. J. Chwastowski L. Chytka G. Ciapetti A. K. Ciftci R. Ciftci D. Cinca V. Cindro A. Ciocio P. Cirkovic Z. H. Citron M. Citterio M. Ciubancan A. Clark P. J. Clark R. N. Clarke W. Cleland J. C. Clemens C. Clement Y. Coadou M. Cobal A. Coccaro J. Cochran

ATLAS measurements of the azimuthal aniso-tropy in lead–lead collisions at √ s NN = 2.76 TeV are shown using a dataset of approximately 7 µb −1 collected at the LHC in 2010. The measurements are performed for charged particles with transverse momenta 0.5 < p T < 20 GeV and in the pseudorapidity range |η| < 2.5. The anisotropy is characterized by the Fourier coefficients, v n , of the charged-pa...

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Journal: :Physical review letters 2013
N Murdoch B Rozitis K Nordstrom S F Green P Michel T-L de Lophem W Losert

We investigate the role of gravity on convection in a dense granular shear flow. Using a microgravity-modified Taylor-Couette shear cell under the conditions of parabolic flight microgravity, we demonstrate experimentally that secondary, convective-like flows in a sheared granular material are close to zero in microgravity and enhanced under high-gravity conditions, though the primary flow fiel...

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Journal: :J. Comput. Physics 2006
Andrew Perrin Howard H. Hu

We present an explicit finite-difference scheme for direct simulation of the motion of solid particles in a fluid. The method is based on a second order MacCormack finite-difference solver for the flow, and Newton’s equations for the particles. The fluid is modeled with fully compressible mass and momentum balances; the technique is intended to be used at moderate particle Reynolds number. Seve...

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2012
Yucheng Peng Yousoo Han Douglas J. Gardner

Spray-drying was chosen as an appropriately scalable manufacturing method to dry cellulose nanofibril (CNF) suspensions. Spray-drying of two different types of CNF suspensions—nanofibrillated cellulose (NFC) and cellulose nanocrystals (CNC)—was carried out using a laboratory-scale spray dryer. Effects of three spray-drying process parameters on particle morphology and particle size distribution...

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2009
D Liu S V. Garimella Dong Liu Suresh V. Garimella

This paper presents a microfluidic pumping approach using traveling-wave dielectrophoresis (twDEP) of microparticles. With this approach, the flow is generated directly in the microfluidic devices by inducing strong electromechanical effects in the fluid using integrated microelectrodes. The fluidic driving mechanisms due to the particle-fluid and particle-particle interactions under twDEP are ...

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Journal: :Computers & Mathematics with Applications 2013
Hui Gao Hui Li Lian-Ping Wang

The paper describes a particle-resolved simulation method for turbulent flow laden with finite size particles. The method is based on the multiple-relaxation-time lattice Boltzmann equation. The no-slip boundary condition on the moving particle boundaries is handled by a second-order interpolated bounce-back scheme. The populations at a newly converted fluid lattice node are constructed by the ...

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2012
Sang Won Han Won Joo Lee Sang Jun Lee

A new multi inner stage (MIS) cyclone was designed to remove the acidic gas and fine particles produced from electronic industry. To characterize gas flow in MIS cyclone, pressure and velocity distribution were calculated by means of CFD program. Also, the flow locus of fine particles and particle removal efficiency were analyzed by Lagrangian method. When outlet pressure condition was –100mmAq...

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