DRYING SYMPOSIUM
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10th INTERNATIONAL DRYING SYMPOSIUM |
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| Preface | iii |
| VOLUME A | |
| Section I. Keynote Lectures |
1 |
| Innovation in drying A.S. Mujumdar |
3 |
| Combined impingement and through air drying of paper W.J.M. Douglas, G. Chen |
14 |
| Modeling of strain-stress behavior for advanced drying M. Hasatani, Y. Itaya |
27 |
| Flowsheet simulation and the use of CFD simulations in drying
technology T.A.G. Langrish |
40 |
| Deposit-free spray drying: dream or reality? K. Masters |
52 |
| Environmental and safety issues in drying M.A. Roques |
61 |
| Thermomechanical dewatering E.-U. Schlünder |
73 |
| Section II. Fundamentals of Drying |
83 |
| Wetting and drying process in fluidized bed granulation: consequences on particle growth mechanism R.-D. Becher, E.-U. Schlünder | 85 |
| Analysis of heat and mass transfer in drying processes of polymer
solution using high-intensity infrared radiation J.J. Chen, J.D. Lin |
93 |
| Universal drying curve W. Ciesielczyk |
103 |
| Parameter estimation of Fick's law drying equation W.R.W. Daud, M.H. Ibrahim, M.Z.M. Talib |
111 |
| Temperature and moisture distribution within materials undergoing
shrinkage during drying M.N.A. Hawlader, J.C. Ho, Zhang Qing |
120 |
| Steam drying of porous spheres; experiments and modelling J. Hager, R. Wimmerstedt | 129 |
| Presentation of drying kinetics in a fluidized bed by means of radial basis functions W. Kaminski, J. Stawczyk, E. Tomczak | 137 |
| A new apparatus to determine the drying behaviour of particulate
solids at low moisture contents A.M. Keech, R.B. Keey, I.C. Kemp |
145 |
| Drying induced stresses and their control S.J. Kowalski, A. Rybicki |
151 |
| Drying behaviour of deformable porous media: a mechanistic approach to
clay drying B. Kroes, W.J. Coumans, P.J.A.M. Kerkhof |
159 |
| Approximate solutions of diffusion equation with non-zero and time
dependent boundary concentration T. Liu, W.J. Coumans |
167 |
| Fixed bed vacuum desorption of a multicomponent moisture in the vacuum
drying J.F. Nastaj |
175 |
| A complete coupled model of the combined microwave and convective
drying of softwood in an oversized waveguide P. Perr? I.W. Turner |
183 |
| Convective heat and mass transfer and evolution of the moisture
distribution in combined convention and radio frequency drying A. Poulin, M. Dostie, P. Proulx, J. Kendall |
195 |
| The new ways of defining heat and mass transfer coefficients during
drying process M. Stefanovic, V. Turanjanin, J. Vodnik, M. Stakic, M. Urosevic |
205 |
| Selective drying of porous material containing a two phase moisture
M. Steinbeck, E.-U. Schlünder |
213 |
| Moist air drying potential in convective drying processes D. Voronjec, D. Antonijevic |
221 |
| A dynamic method for determination of desorption isotherms E. Mitura |
229 |
| Section III. Modelling and Simulation of Drying |
233 |
| Moisture diffusion in gelatin slabs by modeling drying kinetics C. Bonazzi, A. Ripoche |
235 |
| A model for drying sheet materials P. Chen |
243 |
| Simulation and scale-up of pneumatic conveying and cascading rotary
dryers I.C. Kemp, D.E. Oakley |
250 |
| Using computational fluid dynamics to model product quality in spray
drying: air flow, temperature and humidity patterns F.G. Kieviet, P.J.A.M. Kerkhof |
259 |
| Modelling of mechanical properties of dried materials S.J. Kowalski, G. Musielak |
267 |
| Modelling gas-solid flow in a pneumatic-flash dryer Z. Mindziul, A. Kmiec |
275 |
| Parameter estimation in cross-flow sliding bed drying O.C. Motta Lima, J.C. Pinto, G. Massarani |
283 |
| A model for the flow of air and coarse particles in cyclones M.A. Cremasco, R. Maciel Filho, S.A. Nebra |
291 |
| An equivalent thermal simile for freeze drying description and
modelling J.I. Lombrana, C. de Elvira, J. Izkara |
300 |
| Simulation of drying suspensions in a conical spouted bed I.M. Oliveira, M.L. Passos |
307 |
| A new model for fluid bed drying H. Groenewold, E. Tsotsas |
315 |
| Modelling of drum drying using neutral network and polynomial model
B. Heyd, G. Rodriguez, J. Vasseur |
323 |
| Drying of white sugar in a fluid bed: simulation and design of industrial scale dryers-coolers Z. Pakowski, J. Grochowski | 331 |
| Pseudo two-dimensional model for a pneumatic dryer S.C.S. Rocha, A.E.A. Paixão |
340 |
| Drying of biomass particles in fixed and moving beds J. Saastamoinen, R. Impola |
349 |
| Numerical simulation of drying in a cyclone M.A. Silva, S.A. Nebra |
357 |
| Experimental evaluation of a spray dryer dynamic model I. Solar, R. Pérez, V. Morales |
365 |
| Analysis and simulation of an industrial flash dryer in a Thai manioc
starch plant W. Tanthapanichakoon, C. Srivotanai |
373 |
| Modeling and optimization of the pneumatic rotary high temperature
dryer inner structure R.M. Topic, B.M. Vasiljevic |
381 |
| Section IV. Drying Equipment and Technology |
389 |
| Some aspects of waste slugdes drying in a fluid bed dryer J. Adamiec |
391 |
| Investigation of drying a multistage dryer with a vibrofluidized bed
I. Borde, M. Dukhovny, T. Elperin, V. Katz |
398 |
| Performance and improvements in heat pump dryers O. Alves-Filho, I. Strømmen |
405 |
| Hydrodynamic characteristics of a spouted bed dryer with a draft tube
T. Bartoszewicz, A. Kmiec, W. Ludwig |
417 |
| Pneumatic suspension drying R. Blasco, G. Díaz, A. Reyes |
427 |
| Metal-oxide sludge drying in a spouted bed M.A. Boizán, P.S. Chan, C.J. Lim, C.M.H. Brereton, N. Epstein |
435 |
| Research on double tube flash dryer for drying spent grain. C.W. Cao, D.W. Liu, Z.E. Zhou |
441 |
| The application of thin-film evaporator for getting solid products
from liquid solutions J. Dziak, A. Skoczylas |
447 |
| A heat pump assisted closed-loop tunnel dryer M.N.A. Hawlader, S.K. Chou, K.J. Chua |
455 |
| Comparison of various types of industrial dryers: design and operation
C.T. Kiranoudis, Z.B. Maroulis, D. Marinos-Kouris, G.D. Saravacos |
463 |
| Fluidized bed spray granulation and film coating. A new method for the
investigation of the coating process on a single sphere K.Ch. Link, E.-U. Schlünder |
470 |
| Development of instantaneous vacuum drying and jet milling system
Y. Maekawa, T. Yokoyama, M. Yoshikawa |
481 |
| Energy saving in industrial drying plants by partial recovery of the
latent heat of the exhaust air C.S. Moraitis, C.B. Akritidis |
489 |
| Impact of energy supply on properties of drops of alumina gel during
drying process F. Mercier, F. Kolenda, J.R. Puiggali, M.A. Roques |
497 |
| Analysis of evaporation rate in the spouted bed zones during drying of
liquid materials using a three region model W.P. Oliveira, J.T. Freire |
504 |
| Air pumping by rotary atomizers in spray dryers D.E. Oakley, R.B. Keey |
513 |
| Leidenfrost phenomenon for impinging droplets at low pressures
Y.K. Pan, T. Li, Z.Y. Li, T. Kudra |
521 |
| Effects of product drying rate and ambient condition on the operating
modes of heat pump dryer S. Prasertsan, P. Saen-Saby, G. Prateepchaikul, P. Ngamsritrakul |
529 |
| Wall to bed heat transfer coefficient in a two-dimensional continuous
spouted bed dryer B. Ranganna, S.A. Sotocinal, G.S.V. Raghavan, T. Kudra |
535 |
| Microencapsulation by spray drying: influence of wall systems on the
retention of the volatile compounds M.I. R? Y.J. Liu |
541 |
| Development of biogas burner accessory system for solar drying
P.T. Paliniswamy,T. Pandiarajan, R. Viswanathan |
550 |
| Flow visualisation and instantaneous velocity measurements of spray dryer gas and spray flows using particle image velocimetry R.A. Stafford, O. Fauroux, D.H. Glass | 555 |
| Performance tests of a new 2-stage counter-current heat pump fluidized
bed dryer I. Strømmen, O. Jonassen |
563 |
| The analysis of swirl-impact dryer hydrodynamics C. Strumillo, P. Kuts, I. Zbicinski |
569 |
| Convective heat transfer during coating of particles in
two-dimensional spouted beds O.P. Taranto, S.C.S. Rocha, G.S.V. Raghavan |
577 |
| Construction of a modular solar dryer I Farkas, I. Seres, B. Ball? |
585 |
| Large pressurized fluid bed steam dryers A.S. Jensen |
591 |
| Heat and mass transfer for drying of common salt in a vibrofluid bed
Z.Y. Li, Y.K. Pan |
598 |
| Experimental study of slurries drying on inert particles in spouted
bed and fluidized bed dryers A. Reyes, G. Díaz, R. Blasco |
605 |
| Design and development of a rotary heating equipment for sand in a
particulate medium dryer S.A. Sotocinal, G.S.V. Raghavan |
613 |
| Research on pulsofluidized bed drying X.Y. Wang, C.W. Cao |
621 |
| A novel rotary dryer with through air combination Y. Yamato |
627 |
| Application of pulse combustion to drying process I. Zbicinski, J. Grad, C. Strumillo, I. Smucerowicz |
631 |
| Commercial fluidized bed paddy dryer S. Soponronnarit, S. Prachayawarakorn, M. Wangji |
638 |
| Section V. Drying of Wood |
645 |
| Evolution of air pressure in wood during the drying process in an
evacuated kiln P. Audebert, D. Zeddam, C. Basilico |
647 |
| Steam drying of wood chips in pneumatic conveying dryers C. Fyhr, A. Rasmuson |
655 |
| Timber drying: trends in energy consumption and equipment utilisation
within the UK timber industry S. Jay, T. Oliver |
663 |
| The influence of the drying medium on high temperature convective
drying of single wood chips A. Johansson, A. Rasmuson |
671 |
| Moisture content profiles in sapwood boards on drying G. Chen, R.B. Keey, J.C.F. Walker |
679 |
| Dependence of swelling of wood upon the drying history B. Kolin, G. Danon, D. Ranisavljev |
688 |
| Heat and mass transfer in the drying of wood M.E. de Paiva Souza, S.A. Nebra |
695 |
| Analysis and optimisation of fast timber drying processes through the
use of computer simulations M. Riepen, W. Gard |
703 |
| Mass transfer from wooden surfaces J.-G. Salin |
711 |
| A study of heat and mass transfer during high temperature softwood
drying using a comprehensive transport model G.W. Slade |
719 |
| Capillary pressure: some static and dynamic views in semi-ordered
media and their applicability to wood drying G.W. Slade |
727 |
| Some remarks on vacuum drying kinetics J. Swigon |
734 |
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