Случайная страница | ТОМ-1 | ТОМ-2 | ТОМ-3 Автомобили Астрономия Биология География Дом и сад Другие языки Другое Информатика История Культура Литература Логика Математика Медицина Металлургия Механика Образование Охрана труда Педагогика Политика Право Психология Религия Риторика Социология Спорт Строительство Технология Туризм Физика Философия Финансы Химия Черчение Экология Экономика Электроника

References. 1 Gullichsen, J., H. Ostman, Sorption and

1 Gullichsen, J., H. Ostman, Sorption and

diffusion phenomena in pulp washing.

TappiJ., 1976;59(6): 140–143.

2 Ingmanson, W.L., An investigation of

the mechanism of water removal from

pulp slurries. TappiJ., 1952;35(10):

439–448.

3 Vomhoff, H., On the in-plane permeability

of water-saturated fibre webs.

Nordic Pulp Paper Res. J., 2000;15(3).

4 Carman, P.C., Fluid flow through a

granular bed. Trans. Inst. Chem. Eng.,

1937;15: 150–167.

5 Clos, R.J., L.L. Edwards, Application of

the limiting-consistency web compression

model to vacuum-assisted drainage

cell tests. TappiJ., 1995;78(7): 107–114.

6 Wang, J., A.N. Hrymak, R.H. Pelton,

Specific surface and effective volume of

water-swollen pulp fibres by a permeability

method. J. Pulp Paper Sci., 2002;

28(1): 13–16.

7 Mantar, E., A. Co, J.M. Genco, Drainage

characteristics of pulp slurries under

dynamic conditions. J. Pulp Paper Sci.,

1995;21(2): J44–J50.

8 Vomhoff, H., D.M. Martinez, and B.

Norman, The transversal steady-stage

permeability of a fibre web compressed

between rough permeable surfaces.

J. Pulp Paper Sci., 2000;26(12): 428–436.

9 Luthe, C., R. Berry, L. Nadeau. How

does carbon dioxide improve pulp washing?

Fall Technical Conference. TAPPI,

2003.

10 Kerekes, R.J., J.D. McDonald, A decreasing

permeability model of wet pressing:

theory. TappiJ., 1991;74(12): 150–156.

11 McDonald, J.D., R.J. Kerekes, A decreasing

permeability model of wet pressing:

applications. TappiJ., 1991;74(12): 142–

149.

12 McDonald, J.D., R.J. Kerekes, A decreasing-

permeability model of wet pressing

with rewetting. TappiJ., 1995;78(11):

107–111.

13 Clos, R.J., L.L. Edwards, I. Gunawan,

A limiting-consistency model for pulp

dewatering and wet pressing. TappiJ.,

1994;77(6): 179–187.

14 McKibbins, S., Application of diffusion

theory to the washing of kraft cooked

References 559

wood chips. TappiJ., 1960;43(10): 801–

805.

15 Stromberg, C.B., Washing for low

bleach chemical consumption. TappiJ.,

1991;74(10): 113–122.

16 Ala-Kaila, K., H.V. Norden, Leaching of

organic material in washing after oxygen

delignification. Nordic Pulp Paper

Res. J., 1997;12(2): 94–102.

17 Hartler, N., R. Sture, Washing of pulps,

Part 1. Equilibrium studies. Svensk.

Papperstidn., 1975;78(10): 367–372.

18 Rosen, A., Adsorption of sodium ions

on kraft pulp fibers during washing.

TappiJ., 1975;58(9): p. 156–161.

19 Crotogino, R.H., N. Poirier, D.T. Trinh.

The Principles of Pulp Washing. Kraft

Recovery Operations. TAPPI, 1987.

20 Eriksson, G., U. Gren, Pulp washing:

Sorption equilibria of metal ions on

kraft pulps. Nordic Pulp Paper Res. J.,

1996;11(3): 164–170.

21 Towers, M., A.M. Scallan, Predicting

the ion-exchange of kraft pulps using

Donnan theory. J. Pulp Paper Sci., 1996;

22(9): J332–J337.

22 Bygrave, G., P. Englezos, A thermodynamic-

based model and data for Ca,

Mg, and Na ion partitioning in kraft

pulp fibre suspensions. Nordic Pulp

Paper Res. J., 2000;15(2): 115–159.

23 Rasanen, E., Modelling ion exchange

and flow in pulp suspensions. Helsinki

University of Technology: Helsinki,

2003.

24 Bryant, P.S., L.L. Edwards, Manganes

removal in closed kraft mill bleach

plants. TappiJ., 1994;77(2): 137–148.

25 Tervola, P., K. Henricson, J. Gullichsen.

Mathematical model of fractional pulp

washing and applications in a bleach

plant. Tappi Pulping Conference.

TAPPI 1993.

26 Hakamaki, H., K. Kovasin, The effect of

some parameters on brownstock washing:

A study made with a pulp tester.

Pulp Paper Can., 1985;86(9):

T243–T249.

27 Wang, J., et al., New insights into

dispersed air effects in brownstock

washing. TappiJ., 2001;84(1): 101–108.

28 Luthi, O., Equivalent displacement ratio

– evaluating washer efficiency by comparison.

TappiJ., 1983;66(4): 82–84.

29 Norden, H.V., Analysis of a pulp washing

filter. Kemian Teollisuus, 1966;4:

343–351.

30 McCabe, W.L., J.C. Smith, P. Harriott.

Unit Operations of Chemical Engineering,

6th edition. McGraw-Hill, 2001:

632–638.

31 Seader, J.D., E.J. Henley. In Separation

Process Principles. Wiley: New York,

1998: 242–246.

32 Norden, H.V., V.J. Pohjola, R. Seppanen,

Statistical analysis of pulp washing

on an industrial rotary drum. Pulp Paper

Mag. Can., 1973;56(10): 83–91.

33 IMPCO Coru-Dek III Vacuum Washer

(product leaflet). GL&V Pulp Group

Inc.: Nashua, NH, USA, 2001.

34 PW-PressureWashers (product leaflet).

Sunds Defibrator. Rauma Oy: Pori,

Finland, 1989.

35 Drum Displacer (product leaflet).

Andritz: Kotka, Finland, 2000.

36 Chemi-Washer (product leaflet), Kadant

Black Clawson. Mason, Ohio, USA.

37 Atmospheric diffuser (product leaflet).

Kvaerner Pulping: Karlstad, Sweden,

1998.

38 The Kvaerner pressure diffuser. In Fibrelines.

Kvaerner Pulping AB: Karlstad,

Sweden, 2000: 32.

39 TwinRoll-AWash Press (product leaflet).

Metso Paper: Sundsvall, Sweden, 2001.

40 TwinRoll-B Wash Press (product leaflet).

Metso Paper: Sundsvall, Sweden, 2001.

41 Compact Press (product leaflet). Kvaerner

Pulping AB: Karlstad, Sweden,

2002.

42 Tay, S.C.H., M.D. Ouchi, F.B. Cramer,

High-intensity mechanical pretreatment

and high-compression screw pressing

for deresination of aspen kraft pulps.

TappiJ., 1996;79(2): 265–275.

43 Timonen, O., K. Kovasin, P. Tikka. The

washing efficiency of digester displacement:

new aspects based on laboratory

studies and improved calculation procedures.

Fall Technical Conference.

TAPPI, 2002.

Дата добавления: 2015-10-21; просмотров: 158 | Нарушение авторских прав