Microfibrillated cellulose: Energy-efficient preparation techniques and applications in paper

Ankerfors, Mikael

January 2015

This work describes three alternative processes for producing microfibrillated cellulose (MFC; also referred to as cellulose nanofibrils, CNF) in which bleached pulp fibres are first pretreated and then homogenized using a high-pressure homogenizer. In one process, fibre cell wall delamination was facilitated by a combined enzymatic and mechanical pretreatment. In the two other processes, cell wall delamination was facilitated by pretreatments that introduced anionically charged groups into the fibre wall, by means of either a carboxymethylation reaction or irreversibly attaching carboxymethylcellulose (CMC) to the fibres. All three processes are industrially feasible and enable energy-efficient production of MFC. Using these processes, MFC can be produced with an energy consumption of 500–2300 kWh/tonne. These materials have been characterized in various ways and it has been demonstrated that the produced MFCs are approximately 5–30 nm wide and up to several microns long. The MFCs were also evaluated in a number of applications in paper. The carboxymethylated MFC was used to prepare strong free-standing barrier films and to coat wood-containing papers to improve the surface strength and reduce the linting propensity of the papers. MFC, produced with an enzymatic pretreatment, was also produced at pilot scale and was studied in a pilot-scale paper making trial as a strength agent added at the wet-end for highly filled papers. / <p>QC 20150126</p>

Microfibrillated cellulose

microfibrillar cellulose

nanofibrillated cellulose

nanofibrillar cellulose

cellulose nanofibrils

nanocellulose

MFC

NFC

CNF

production techniques

energy efficient

gel properties

films

enzymes

carboxymethylation

carboxymethyl cellulose

CMC

mechanical properties

oxygen barrier

homogenization

linting

papermaking

Microfibrillated cellulose : Energy-efficient preparation techniques and key properties

Ankerfors, Mikael

January 2012

This work describes three alternative processes for producing microfibrillated cellulose (MFC) in which pulp fibres are first pre-treated and then homogenized using a high-pressure homogenizer. In one process, fibre cell wall delamination was facilitated with a combined enzymatic and mechanical pre-treatment. In the two other processes, cell wall delamination was facilitated by pre-treatments that introduced anionically charged groups into the fibre wall, by means of either a carboxymethylation reaction or irreversibly attaching carboxymethyl cellulose (CMC) onto the fibres. All three processes are industrially feasible and enable production with low energy consumption. Using these methods, MFC can be produced with an energy consumption of 500–2300 kWh/tonne, which corresponds to a 91–98% reduction in energy consumption from that presented in earlier studies. These materials have been characterized in various ways and it has been demonstrated that the produced MFCs are approximately 5–30 nm wide and up to several microns long. / <p>QC 20120928</p>

Microfibrillated cellulose

microfibrillar cellulose

nanocellulose

MFC

NFC

production techniques

energy efficient

gel properties

films

enzymes

carboxymethylation

carboxymethyl cellulose

CMC

mechanical properties

oxygen barrier

homogenization

Paper, Pulp and Fiber Technology

Pappers-, massa- och fiberteknik