Number of hours
- Lectures 15.0
- Projects -
- Tutorials 9.0
- Internship -
- Laboratory works -
ECTS
ECTS 2.0
Goal(s)
Learning outcomes :
- To propose a well-argued choice of cellulose production process according to its use, oriented towards sustainable development
- To understand the chemistry and technology of kraft and bisulphite processes for chemical pulp production, based on the chemistry of plant biomass constituents, the main mechanisms of organic chemistry and the chemical structure of wood constituents
- To know the processes of production of cellulosic fibres by mechanical processes
- To know and understand the evolution of virgin lignocellulosic pulp production, lignin degradation during the Kraft process - the different phases of delignification - Factor H, hemicellulose and cellulose degradation during the Kraft process, and kinetic aspects
- To know the technologies of batch and continuous cooking
- To know the levers for improving the Kraft process: increase in fibre yield, improvement in fibre quality, modified firing (MCC, EMCC, ITC, lo-solid, compact...), regeneration of kraft firing reagents
- To know the soda, anthraquinone, evaporation-combustion-regeneration process
- To understand the degradation of lignin, cellulose and hemicelluloses in bisulfite processes
- To know bisulfite process technology
Christine CHIRAT
Content(s)
Describe the chemistry and technology of kraft and sulphite pulping of lignocellulosic substrates as well as recent developments in the manufacture of chemical and mechanical pulps
Evolution of the pulp production worldwide
Degradation of lignin in the Kraft process - the different phases of delignification - H Factor
Degradation of cellulose and hemicelluloses in the Kraft process. Kinetic aspects.
batch and continuous cooking technologies .
Kraft process improvement: increased fiber yield - Improved fiber quality - modified cooking (RDH, Superbatch, MCC, EMCC, ITC, lo-solid, compact ...)
Influence of wood species and size of chips on the quality of pulp.
Composition of the different liquors in the Kraft process.
Titration of kraft liquors (active alkali, effective alkali, residual alkali after cooking sulphidity.
Soda - anthraquinone pulping process
Washing technology - efficiency of washing
Evaporation-combustion-recovery of chemicals - simplified material and thermal balances
Degradation of lignin, cellulose and hemicelluloses in the sulphite process
Sulphite process technology
Main mechanical pulping processes - evolution (APMP, Thermopulp, RTS)
Bleaching of mechanical pulps. Brightness stability
Targeted skills: developing solutions and innovation; managing a process or system; acting for sustainable development
PrerequisitesBasic chemistry of vegetal biomass components
Accessibility for people with disabilities : please contact us for further information
writen exam in the middle and at the end of the course
this course can be recovered in 2nd round
note = note du DS (examen écrit en présentiel ou à distance)
The course exists in the following branches:
- Curriculum - Master Bio2 - Semester 9 (this course is given in english only)
Course ID : 6FMT1050
Course language(s):
You can find this course among all other courses.
Environmental security
Rien de particulier :
Les enseignements ont lieu dans des salles de cours.
Penser à éteindre ordinateurs et lumières en quittant la salle.
The lessons take place in classrooms.
Also remember to turn off the lights and any equipment (according to current regulations) when leaving the rooms.
SUNDHOLM J. [et al.] Papermaking science and technology, book 5, Mechanical pulping. Helsinki : Fapet Oy, 1999.
GULLISCHEN J., FOGELHOLM C.J. [et al.] Papermaking science and technology, book 6A, Chemical pulping. Helsinki : Fapet Oy, 1999.
GULLISCHEN J., FOGELHOLM C.J. [et al.] Papermaking science and technology, book 6B, Chemical pulping. Helsinki : Fapet Oy, 1999.
GÖTTSCHING L., PAKARINEN H. [et al.] Papermaking science and technology. book 7, Recycled fiber and deinking. Helsinki : Fapet Oy, 2000.
FENGEL D., WEGENER G. Wood : chemistry, ultrastructure, reactions. Berlin ; New York : W. de Gruyter, 1984.