- •Isbn: 3-527-30999-3
- •Introduction
- •Isbn: 3-527-30999-3
- •1072 1 Introduction
- •Isbn: 3-527-30999-3
- •Inventor of stone groundwood. Right: the second version
- •1074 2 A Short History of Mechanical Pulping
- •In refining, the thinnings (diameter 7–10cm) can also be processed.
- •In mechanical pulping as it causes foam; the situation is especially
- •In mechanical pulping, those fibers that are responsible for strength properties
- •Isbn: 3-527-30999-3
- •In mechanical pulping, the wood should have a high moisture content, and the
- •In the paper and reduced paper quality. The higher the quality of the paper, the
- •1076 3 Raw Materials for Mechanical Pulp
- •1, Transversal resistance; 2, Longitudinal resistance; 3, Tanning limit.
- •3.2 Processing of Wood 1077
- •In the industrial situation in order to avoid problems of pollution and also
- •1078 3 Raw Materials for Mechanical Pulp
- •2, Grinder pit; 3, weir; 4, shower water pipe;
- •5, Wood magazine; 6, finger plate; 7, pulp stone
- •Isbn: 3-527-30999-3
- •4.1.2.1 Softening of the Fibers
- •1080 4 Mechanical Pulping Processes
- •235 °C, whereas according to Styan and Bramshall [4] the softening temperatures
- •Isolated lignin, the softening takes place at 80–90 °c, and additional water
- •4.1 Grinding Processes 1081
- •1082 4 Mechanical Pulping Processes
- •1, Cool wood; 2, strongly heated wood layer; 3, actual grinding
- •4.1.2.2 Defibration (Deliberation) of Single Fibers from the Fiber Compound
- •4 Mechanical Pulping Processes
- •Influence of Parameters on the Properties of Groundwood
- •In the mechanical defibration of wood by grinding, several process parameters
- •Improved by increasing both parameters – grinding pressure and pulp stone
- •In practice, the temperature of the pit pulp is used to control the grinding process,
- •In Fig. 4.8, while the grit material of the pulp stone estimates the microstructure
- •4 Mechanical Pulping Processes
- •4.1 Grinding Processes
- •Is of major importance for process control in grinding.
- •4 Mechanical Pulping Processes
- •4.1.4.2 Chain Grinders
- •Is fed continuously, as shown in Fig. 4.17.
- •Initial thickness of the
- •4 Mechanical Pulping Processes
- •Include:
- •Increases; from the vapor–pressure relationship, the boiling temperature is seen
- •4 Mechanical Pulping Processes
- •In the pgw proves, and to prevent the colder seal waters from bleeding onto the
- •4.1 Grinding Processes
- •In pressure grinding, the grinder shower water temperature and flow are
- •70 °C, a hot loop is no longer used, and the grinding process is
- •4 Mechanical Pulping Processes
- •Very briefly at a high temperature and then refined at high
- •4.2 Refiner Processes
- •4 Mechanical Pulping Processes
- •Intensity caused by plate design and rotational speed.
- •4.2 Refiner Processes
- •1. Reduction of the chips sizes to units of matches.
- •2. Reduction of those “matches” to fibers.
- •3. Fibrillation of the deliberated fibers and fiber bundles.
- •1970S as result of the improved tmp technology. Because the key subprocess in
- •4 Mechanical Pulping Processes
- •Impregnation Preheating Cooking Yield
- •30%. Because of their anatomic structure, hardwoods are able to absorb more
- •Is at least 2 mWh t–1 o.D. Pulp for strongly fibrillated tmp and ctmp pulps from
- •4 Mechanical Pulping Processes
- •4.2 Refiner Processes
- •1500 R.P.M. (50 Hz) or 1800 r.P.M. (60 Hz); designed pressure 1.4 mPa
- •1500 R.P.M. (50 Hz) or 1800 r.P.M. (60 Hz); designed pressure 1.4 mPa;
- •4.2 Refiner Processes
- •4 Mechanical Pulping Processes
- •In hardwoods makes them more favorable than softwoods for this purpose. A
- •4.2 Refiner Processes
- •Isbn: 3-527-30999-3
- •1114 5 Processing of Mechanical Pulp and Reject Handling: Screening and Cleaning
- •5.2Machines and Aggregates for Screening and Cleaning 1115
- •In refiner mechanical pulping, there is virtually no such coarse material in the
- •1116 5 Processing of Mechanical Pulp and Reject Handling: Screening and Cleaning
- •5.2Machines and Aggregates for Screening and Cleaning
- •5 Processing of Mechanical Pulp and Reject Handling: Screening and Cleaning
- •5 Processing of Mechanical Pulp and Reject Handling: Screening and Cleaning
- •5.3 Reject Treatment and Heat Recovery
- •55% Iso and 65% iso. The intensity of the bark removal, the wood species,
- •Isbn: 3-527-30999-3
- •1124 6 Bleaching of Mechanical Pulp
- •Initially, the zinc hydroxide is filtered off and reprocessed to zinc dust. Then,
- •2000 Kg of technical-grade product is common. Typically, a small amount of a chelant
- •6.1 Bleaching with Dithionite 1125
- •Vary, but are normally ca. 10 kg t–1 or 1% on fiber. As the number of available
- •1126 6 Bleaching of Mechanical Pulp
- •6.2 Bleaching with Hydrogen Peroxide
- •70 °C, 2 h, amount of NaOh adjusted.
- •6.2 Bleaching with Hydrogen Peroxide
- •Is shown in Fig. 6.5, where silicate addition leads to a higher brightness and a
- •Volume (bulk). For most paper-grade applications, fiber volume should be low in
- •Valid and stiff fibers with a high volume are an advantage; however, this requires
- •1130 6 Bleaching of Mechanical Pulp
- •6.2 Bleaching with Hydrogen Peroxide
- •Very high brightness can be achieved with two-stage peroxide bleaching, although
- •In a first step. This excess must be activated with an addition of caustic soda. The
- •Volume of liquid to be recycled depends on the dilution and dewatering conditions
- •6 Bleaching of Mechanical Pulp
- •6 Bleaching of Mechanical Pulp
- •Is an essential requirement for bleaching effectiveness. Modern twin-wire presses
- •Is discharged to the effluent treatment plant. After the main bleaching stage, the
- •6.3 Technology of Mechanical Pulp Bleaching
- •1136 6 Bleaching of Mechanical Pulp
- •Isbn: 3-527-30999-3
- •7.3 Shows the fractional composition according to the McNett principle versus
- •1138 7 Latency and Properties of Mechanical Pulp
- •7.2 Properties of Mechanical Pulp 1139
5 Processing of Mechanical Pulp and Reject Handling: Screening and Cleaning
Feed Accept
P1 / hole P2 / slot
S2 / slot
To reject treatment
P1 Primary screen 1, hole basket
P2 Primary screen 2, slot basket
S2 Secondary screen 2, slot basket
Fig. 5.11 Modern main line screening.
Feed Accept
Reject (to reject treatment)
P1 / slot
S1 / slot
T1 / slot
P1 Primary screen 1, slot basket
S1 Secondary screen 1, slot basket
T1 Tertiary screen 1, slot basket
Fig. 5.12 Thermomechanical pulp (TMP) screening.
Feed Accept
Back to reject treatment
R1 / hole R2 / slot
R1 Reject screen 1, hole basket
R2 Reject screen 2, slot basket
Fig. 5.13 Screening concept for refined groundwood rejects.
1120
5.3 Reject Treatment and Heat Recovery
5.3
Reject Treatment and Heat Recovery
The separated coarse reject is treated in special reject disc refiners. In grinding, a
high-consistency refining of the reject is also useful. The technological scheme of
a high-consistency reject refining stage is shown in Fig. 5.14. The pulp arrives
from the reject bin with 2.5% consistency and is thickened up to 25–30%.
Fig. 5.14 Technological scheme of a high-consistency reject refining stage.
In a TMP mill, heat recovery plays an essential role in economic operating. Normally,
around two-thirds of the refining energy can be recovered in the form of
clean steam. The TMP steam generated in the refiners is separated from the fibers
in the cyclones (see Figs. 4.35–4.37), and then condensed in the reboiler against
vaporizing clean steam. The main components of a typical heat recovery unit are
illustrated in Fig. 5.15.
1121
5 Processing of Mechanical Pulp and Reject Handling: Screening and Cleaning
Fig. 5.15 Typical thermomechanical pulp (TMP) heat recovery flow sheet (Rinheat).
1122
1123
6
Bleaching of Mechanical Pulp
Hans-Ulrich Suss
Mechanical defiberization leaves most of the lignin compounds in the fiber. A
bleaching process using the aggressive chemicals applied in chemical pulp
bleaching would result in the oxidation and removal of this lignin. This cannot be
the target of the process, as it would decrease the yield dramatically, require an
enormous amount of chemical, and also destroy the optical properties of the fiber.
Bleaching of mechanical pulp has to apply chemicals with limited aggressivity, as
well as conditions which keep the extraction of lower molecular-weight carbohydrates
and lignin compounds as moderate as possible. The high temperature of
the defiberization process causes the solubilization of polyoses and starts the
hydrolysis of acetyl groups. Resins and lignans are partially dispersed and dissolved
[30–32]. A higher pH and a high temperature in bleaching will intensify
these effects; consequently, neutral or moderately acidic bleaching conditions are
required in order to maintain the pulp yield.
Softwood from forest thinning or wood chips from sawmills has an unbleached
brightness level which is sufficiently high as to allow its application in newsprint
production, without any bleaching process. The initial brightness typically is between