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The
Laboratory of Pulp and Paper Science and Graphic
Arts (LGP2) is a joined research unit (UMR 5518) [CNRS, Grenoble INP, Agefpi (Grenoble INP-Pagora),
Centre
Technique du Papier].
The LGP2 is located on the Grenoble University Campus within the buildings of Grenoble
INP-Pagora. Currently about one hundred of people participate in the research activities of the
laboratory, maintaining its national and international
reputation. This workforce includes teachers and researchers, technicians, administrative staff
and more than 40 PhD students and post-doctoral fellowships. To accomplish its mission, the LGP2 calls upon five research groups: Chemical Processes
- Papermaking & Environment Engineering - Paper Physics - Converting-Biomaterials-Packaging
- Printing Processes.
The LGP2 PhD students, among them 50% are foreign students, constitute
the life blood of the laboratory. They are registered with the Grenoble
University Doctoral School
“Industrial, Material, Mechanical and Process
Engineering". This YearBook, which has been thought,
written and designed by the PhD students themselves, contains reviews of
their research work. |
|
— Summary — |
|
I - |
Papermaking and Environment Engineering |
|
I - 1 -
Reduction of
activated sludge production in aerobic waste-water treatment plant:
use of hydrogen peroxide |
Nguegan J.A. (3rd year) |
|
I - 2 -
Modeling of the
pulp mill and integrated refinery, and energy management |
Picot J.B. (1st
year) |
|
II - |
Chemical Processes |
|
II - 1 -
New catalytic
systems for oxygen delignification |
Gueneau B. (3rd
year) |
|
II - 2 -
Modelling of
kraft pulping of pure and mixtures wood species |
Margarido M. (3rd
year) |
|
II - 3 -
Bleaching of
cellulosic paper fibres with ozone - Effect on the fibre properties |
Mishra S.P. (3rd
year) |
|
II - 4 -
Pure cellulose
production from wood by an environmental friendly process
by using catalysed hydrogen peroxide |
Das S. (2nd
year) |
|
II - 5 -
Biorefinery in a
cellulosic fiber production mill.
Optimization of the wood hydrolysis process for the joint production of
cellulosic fibers and bio-ethanol |
Boiron L. (1st
year) |
|
II - 5 -
Extraction of hemicelluloses from wood for their chemical valorisation |
Sanglard M. (1st
year) |
|
III - |
Paper Physics |
|
III - 1 -
Fractionation
potential of fibrous suspension for rationalization of the deinking process |
Kumar S. (2nd
year) |
|
III - 2 -
Modelling of
the hygrothermomechanical behaviour of intricated networks of natural fibers |
Marulier C. (2nd
year) |
|
III - 3 -
Optimization of
the manufacturing process of wet-strengthened papers |
Siqueira E.J. (2nd
year) |
|
IV - |
Printing Processes |
|
IV - 1 -
Development of
new raw materials for the production of custom contact sensors:
a focus on cellulose paper as sensitive and electronic substrate |
Koehly R. |
|
IV - 2 -
Influence of rheology on droplets formation and their impact: application to ink-jet
printing |
Saidi A. (3rd
year) |
|
IV - 3 -
Photoluminescent
paper based on nanoparticles adsorption on cellulose fibres |
Sarrazin P. (3rd
year) |
|
IV - 4 -
Polypyrrole
preparation with wood derivatives |
Sasso C. (3rd
year) |
|
IV - 5 -
Optimization of
printing processes applied to the mass production of microdevices by
multilayer techniques |
Faddoul R. (2nd
year) |
|
IV - 6 -
Study of
polymers miniemulsification: surface functionalization by printing process |
Pras O. (2nd
year) |
|
IV - 7 -
Fuel cells
realisation by printing processes |
Bois C. (1st
year) |
|
IV - 8 -
Production of paper-based flexible Li-ion batteries using printing and UV-curing techniques |
Jabbour L. (1st
year) |
|
V - |
Converting Biomaterials Packaging |
|
V - 1 -
New printing processes
for electronic field |
Denneulin A. (3rd
year) |
|
V - 2 -
Evaluation of potential
paper prepared from a Tunisian biomass: Date palm rachis |
Khiari R. (3rd
year) |
|
V - 3 -
Cellulose surface
modification with organosilanes |
Paquet O. (3rd
year) |
|
V - 4 -
Processing and
characterization of cellulose whiskers and MFC reinforced nanocomposites |
Siqueira G. (3rd
year) |
|
V - 5 -
Starch nano-particles
for eco-efficient flexible barrier packaging: influence of botanic origin on
starch nanocrystals properties |
Le Corre D. (2nd
year) |
|
V - 6 -
Autoadhesive labels
design by adhesive microencapsulation |
Abderrahmen R. (1st
year) |
|
V - 7 -
Development of new
packaging materials using cellulose micro and nanofibrils |
Guezennec C. (1st
year) |
|
V - 8 -
Functionalization and
surface modification of microfibrillated cellulose |
Missoum K. (1st
year) |