Praise Worthy Prize organizes
the
VI
Conference on Chemical Engineering and Advanced
Materials VIRTUAL FORUM (CEAM-VF),
in
November
10-24, 2014.
The Conference has the same topics of the
International Review of Chemical
Engineering - Rapid Communications (IRECHE)
and
International Journal on Advanced Materials and Technologies (IREAMT)
and
the International Steering Committee of the Conference
is made up by members of the Editorial Board of
IRECHE
and IREAMT. The papers submitted for the Conference should
respect the same rules following for a publication on
IRECHE.
The best papers accepted for the Conference will be
published also on a special issue of the
International Review of Chemical
Engineering - Rapid Communications (IRECHE)
and
International Journal on Advanced Materials and Technologies (IREAMT)
and therefore
will be abstracted on the best databases.
Corresponding
authors
should indicate to which journal (IRECHE
or IREAMT)
likes to publish the article, if accepted, after the
end of the Conference.
CEAM-VF
2014 aims to provide an
international forum for exchange of ideas and future trends amongst researchers,
students, consultants and practitioners.
Industry,
research, and academia are cordially invited to
participate in the wealth of presentations and tutorials for the advancement of science,
technology, engineering education and fellowship.
Contributions are invited in the following topics:
A: Biochemical and biomolecular
engineering; Bioreactors.
B: Process Fluid dynamics:
-
B1: Fluid flow and Mixing,
-
B2: Rheology, Time-dependent materials; Fractional modelling
-
B3: Multi-phase flows,
-
B4: Jets, Sprays,
Droplets.
-
B5: CFD modelling and
Visualization techniques.
C: Particles: Production, Powder
mechanics in both models and experiments;
D-1: Fluidization-broad aspects,
G-S, L-S, G-L-S;
D-2: Solids-fluid separations
processes (sedimentation, filtrations, membrane filtration, etc.);
E: Unit operations and Chemical
Reactors
-
E1: Diffusion separation
(modelling, equilibrium, adsorption, absorption, extraction, distillation,
evaporation, drying, etc.)
-
E2: Chemical Reactors
-
E3: New reactors;
Scale-up, scale-down
F: Process safety and physics of
accidents in chemical technology, Risk analysis;
G: Energy: Current ,
Alternative and Future trends:
-
G1: Combustion, pyrolysis, gasification, etc.;
-
G2: Bio oils, bio diesel
and those based on utilization of wastes
-
G3: Hydrogen technologies
– hydrogen production, separation, storage, risk and safety
-
G4: Solar technologies
-
G5: Fuel cells (design,
performance, trends)
-
G5: Energy technologies
for the future.
H: Environmental, green and
sustainable engineering
I: Transport phenomena.
Thermodynamics (chemical and thermal engineering, material science)
-
I1: Models and new concepts;
-
I2: Fractional modelling to transport processes;
-
I3: Extended thermodynamic problems.
J: External field assisted
processes :
-
J1: Electric and
magnetic fields; MHD and ferrofluid applications
-
J2: Ultrasound and
vibrations
-
J3: Process
intensification.
-
J4: Solar technologies in
chemical and material engineering
K: Micro scale fluid dynamics,
heat and mass transfer. Micro reactors and heat transfer Equipment.
L: Process Control, Process
Design, Process Development, Computer aided process Engineering; Process
analysis and synthesis
M: Thermodynamic optimization of
chemical reactors, thermal equipment and material syntheses
-
M1: Entropy and Exergy
analysis
-
M2: Bejan’s contructal
theory: models and applications
-
M3: Heat transfer
enhancements
N: Phenomena with phase change
-
N1: Flows with phase
change;
-
N2: Heat
transfer with phase change and
energy storage
-
N3: Moulding processes
(experiments and modelling)
O: Heat and mass transfer (both
modelling and experimental results pertinent to problems in chemical, mechanical
engineering, materials science and biotechnology);
P: Conventional Materials and
Related processing
-
P1: Physical metallurgy
and micro-metallurgy;
-
P2: Polymers and
composites;
-
P3: Modelling in Material
Science
-
P4: Corrosion Science and
Surface Coating &Technology
-
P5: Materials under
extreme conditions of accidents (fire, blasts, temperature shocks, etc)
Q: Advanced materials: Technologies, Experimental and Modelling
-
Q1: Nanotechnology ( Nanomaterials nano-composite materials, nano-coating, etc )
-
Q2: Advanced materials
(memory alloy, composite materials)
-
Q3: Fire retardants and
fire-resistant materials.
-
Q4: Energy related
materials (fuel cells, hydrogen related materials, solar cells, etc.)
-
Q5: Polymer-based composites, metal-matrix composites,
-
Q6: Carbon, Diamond, Fullerenes, Shape memory alloys,
-
Q7: Models of the macroscopic properties of materials
(mechanical, chemical, electrical, magnetic and optical) in terms of
microscopic mechanisms, mechanic aspects of advanced materials and
structures,
-
Q8:damage and failure mechanisms in material, mathematical,
-
Q9: formulation of the kinematic, constitutive, and
structural behavior of materials and structures,
-
Q10: Experimental methods directed toward mechanical
characterization, damage evolution, and failures in materials and structures,
-
Q11: Computational methods for the solution of micro-,
meso-, macro-mechanics mathematical models, methods dealing with the
determination of local effects
R: Nanotechnologies in Chemical
and Mechanical Engineering and Nanomaterials
-
R1: Nano scale enhanced
mass transfer
-
R2: Nanofluids in heat
transfer equipments
-
R3: Nanomaterials, nanocomposites, nanotubes, nanowires, nanoparticles
S: Materials science
-
S1: Porous materials, ceramics, adhesives,
-
S2: Light emitting materials,
-
S3: Biological materials,
-
S4: Metallic, thin films,
-
S5: Photovoltaics, solar cells,
-
S6: Liquid crystals, semiconductors, superconductors,
-
S7: Energetic materials,
-
S8: Measurements and experimental techniques.
T: Advanced Technologies
-
T1: Optics, Lasers, Sensors,
Photonics,
-
T2: Ferroelectrics, Multiferroics,
Metamaterials,
-
T3: Self-assembly and hierarchical
materials,
-
T4: Batteries,
-
T5: Super capacitors,
Thermoelectric,
-
T6: Welding : processes and
modelling
U: Food Science Engineering
-
U1: Unit operations in
food processing
-
U2: Heat and mass
transfer
-
U3: Materials for foods
and food packaging
-
U4: Advanced materials
and nanotechnologies in Food Science
-
U5:
Colloids and Emulsions
V: New and important
applications and trends.
-
V1: Micro and Hypo
gravity processes in both Chemical and Mechanical Engineering
-
V2: Micro, Hypo
and extreme conditions bio processing
-
V3: High pressure
processing
W: Miscellaneous
Any contributions “cross-linking” the topics scheduled are encouraged
The working
language of the conference is English, which is
used for all printed material, presentations and
discussion.
Individual Contributors:
-
Full paper submission deadline:
July 31
September 15,
2014
-
Full paper notification of acceptance:
August 8
September 20,
2014
-
Tutorial and special session
proposals:
July 31
September 15,
2014
-
Final paper submission deadline: September
20
October
20, 2014
-
Final paper
notification of acceptance:
October
9
October
25, 2014
-
Registration: on-line
submission of a Registration Form: October
20-November
10
October 30-November
10,
2014
-
Conference access: November 10, 2014 (09:00 GMT+1)
Viewers:
(Viewers are
single scientists, groups of scientists,
or Societies and Institutions that prefer to participate to the
conference
without to submit a paper).
-
Registration: on-line
submission of a Registration Form: October
20-November
10
October 30-November
10,
2014
-
Conference access: November 10, 2014 (09:00 GMT+1)
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