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Vid Chalmers Tekniska

Hogskola, 1998.

35 Lapierre, L., Bouchard, J., Berry, R.M.,

van Lierop, V., Chelation prior to hydrogen

peroxide bleaching of kraft pulps:

an overview. J. Pulp Paper Sci., 1995;

21(8): 268–273.

36 Bouchard, J., H.M. Nugent, R.M. Berry,

A comparison between acid treatment

and chelation prior to hydrogen peroxide

bleaching of kraft pulps. J. Pulp

Paper Sci., 1995; 21(6): 203–208.

37 Phinney, S., Less bleach – Brighter

paper. Chemical Innovation, 2001: 3–5.

38 Sjogren, B., J. Hook, Extended oxygen

delignification – The effect of pretreatments

and process conditions. 2000

International Pulp Bleaching Conference:

Oral Presentations, 2000: 89–96.

39 Gratzl, J.S., The chemical principles of

pulp bleaching with oxygen, hydrogen

peroxide and ozone – a short review. Die

chemischen Grundlagen der Zellstoffbleiche

mit Sauerstoff,Wasserstoffperoxid

und Ozon – ein kurzer Uberblick.

Papier, 1992; 46(10A): V1–V8.

40 Guay, D.F., Cole, B.J.W., Fort, R.C.,

Hausman, M.C.,Genco, J.M., Elder, T. J.,

Overly, K.R., Mechanisms of oxidative

degradation of carbohydrates during

oxygen delignification. II. Reaction of

photochemically generated hydroxyl

radicals with methyl beta-cellobioside.

J. Wood Chem. Technol., 2001; 21(1):

67–79.

41 Guay, D.F., Cole, B.J.W., Fort, Jr. R.C.,

Genco, J.M., Hausman, M.C., b-D-glucopyranoside

with photochemically generated

hydroxyl radicals. J. Wood Chem.

Technol., 2000: 20: 375–394.

42 Guay, D.F., Cole, B.J.W., Fort, Jr. R.C.,

Hausman, M.C., Genco, J.M., Elder, T.J.,

Mechanisms of oxidative degradation of

carbohydrates during oxygen delignification.

Part III: Reaction of photochemically

generated hydroxyl radicals with

1,5-anhydrocellobitol and cellulose. J.

Pulp Paper Sci., 2002; 28(7): 217–221.

43 Zeronian, S.H., M.K. Inglesby, Bleaching

of cellulose by hydrogen peroxide.

Cellulose, 1995; 2(4): 265–272.

References 929

44 Lewin, M., Oxidation and aging of cellulose.

Macromolecular Symposia, 1997;

118: 715–724.

45 Chirat, C., Mateo, C., Furstoss, H.,

Jeunet, A., Lachenal, D., Formation of

chromophores from carbohydrates during

pulping and their impact on bleaching.

Pulp Paper Canada, 2002; 103(2):

28–30.

46 Mielisch, H.-J., O. Kordsachia, and

R. Patt, Katalysierte Wasserstoffperoxidbleiche.

Das Papier, 1996; 50: V16–V23.

47 Suess, H.U., W. Eul, O. Hemling, Semibleaching

of Kraft pulp using oxygen

and hydrogen peroxide. Das Papier,

1989; 43(7): 318–323.

48 Suess, H.U., J.D. Kronis. Impact of carbonate

ions on hydrogen peroxide in

sodium carbonate solutions. In International

Pulp Bleaching Conference, Portland,

OR, 2002.

49 Lee, H.H.B., A.-H. Park, C. Oloman,

Stability of hydrogen peroxide in

sodium carbonate solutions. Tappi J.,

2000; 83(8): 94.

50 Stromberg, C.B., R. Szopinski. Pressurized

hydrogen peroxide bleaching for

improved TCF bleaching. In International

Pulp Bleaching Conference, Vancouver,

BC, TAPPI Press, 1994.

51 Dillner, B., Tibbling. Optimum use of

peroxide and ozone in TCF bleaching.

In International Pulp Bleaching Conference.

Vancouver, BC: TAPPI Press,

1994.

52 Suess, H.U., C.L. Filho. ECF Bleaching:

Balancing hydrogen peroxide bleaching

effects and pulp yield. In ABTC Annual

Meeting, 1997.

53 Suess, H.U., N. Nimmerfroh,

H.D. Kronis, The naked truth on hot

peroxide bleaching. Pulp Paper Canada,

1998; 99(4): T122–T125.

54 Colodette, J.L., S. Rothenburger,

C.W. Dence, Factors affecting hydrogen

peroxide stability in the brightening of

mechanical and chemimechanical

pulps. Part III: Hydrogen peroxide stability

in the presence of magnesium

and combinations of stabilizers. J. Pulp

Paper Sci., 1989; 15(2): J45.

55 Suess, H.U., B. Hopf, K. Schmidt, Optimising

peroxide bleaching of deinked

pulps in the disperser. Wochenblatt fur

Papierfabrikation, 2002; 130(11/12):

738–745.

56 Sjodin, L., S. Noren. Extended delignification

with oxygen and hydrogen peroxide

in ECF and TCF sequences. In Tappi

Pulping Conference, 1994.

57 Ragnar, M., Alkaline extraction and a

control strategy for the chlorine dioxide

charge to the final stage in DED bleaching.

Nordic Pulp Paper Res. J., 2003;

18(2): 162–167.

58 Milanez, A., J.L. Colodette. Optimum

conditions for bleaching eucalyptus

kraft pulp with a three stage sequence.

In International Pulp Bleaching Conference,

Stockholm, 2005.

59 Strunk, W.G., Kraft bleach plants

increase use of hydrogen peroxide as

benefits mount. Pulp Paper, 1990; 1 0:

112–116.

60 Hook, J., L. Mueller, S. Wallin, Vateperoxid

iakalistegen hojer kvaiteten. Nordisk

Cellulosa, 1985; 2: 47–50.

61 Andersson, L., et al. The use of hydrogen

peroxide bleaching for bleaching of

chemical pulp. In Tappi Pulping Conference,

1985.

62 Loufti, H., The use of hydrogen peroxide

in bleaching of North-Eastern softwood

pulp. In CPPA Annual Meeting,

1981.

63 PAPTAC, Standard Testing Methods,

Montreal, Sep. 2003.

64 Gullichsen, J., The influence of temperature

and humidity in the color reversion

of pulp. Pap. Puu, 1965; 47: 215.

65 Hausalo, T., L. Soderhjelm, Chemical

analysis of pulps. In Pulp and Paper Testing,

J.E. Levlin, L. Soderhjelm, Eds.

Fapet Oy: Helsinki, 1999: 128–129.

66 Rydholm, S.A., Pulping Processes. Malabar,

Florida: Robert E. Krieger Publishing

Co., Inc., 1965: 851–854.

67 Gellerstedt, G., O. Dahlman. Recent

hypothesis for brightness reversion of

hardwood pulps. In International Colloquium

on Eucalyptus Kraft pulp. Universidade

Federal de Vicosa, MG, Brazil,

2003.

68 Tenkanen, M., et al., Heat-induced

brightness reversion of ECF-light

bleached pine kraft pulp. In 7th European

Workshop on Lignocellulosics

and Pulp. Turku, 2002.

930 7Pulp Bleaching

69 Suess, H.U., K. Schmidt, B. Hopf, ECF

bleaching: Improving brightness stability

of kraft pulp. IPW/Papier, 2004; 6:

T105–T111.

70 Jaaskelainen, A.-S., et al., Characterization

of residual lignin structures by UV

Raman spectroscopy and the possibilities

of Raman spectroscopy in the visible

region with Kerr-gated fluorescence

rejection. In International Symposium

on Wood and Pulping Chemistry, Madison,

WI, 2003.

71 Fischer, K., Vergilbung von Hochausbeutezellstoff.

Das Papier, 1990;

44(10A): V11.

72 Eckert, R.C. US Patent 894561, 1978.

73 Jakara, J., A. Paren, J. Patola, Peroxide

activation – a key to high brightness in

TCF bleaching of softwood Kraft pulp.

In International Symposium on Wood

and Pulping Chemistry. Helsinki, Finland,

1995.

74 Hamalainen, H., et al., Mill scale application

of a molybdate activated peroxide

delignification process in ECF and TCF

production of softwood and hardwood

Kraft pulp. In International Symposium

on Wood and Pulping Chemistry. Madison,

WI, 2003.

75 Patt, R., T. Jaschinski, H.-J. Mielisch,

Stabilisierte und katalysierte Peroxidbleiche.

Wochenblatt fur Papierfabrikation,

1996; 17: 750–755.

76 Wieghardt, K., Die aktiven Zentren in

manganhaltigen Metallproteinen und

anorganische Modellkomplexe. Angew.

Chem., 1989; 101: 1179–1198.

77 Suess, H.U., J.D. Kronis, B. Taylor.

Selection of the best available technology

for TCF bleaching of sulfite pulp. In

Tappi Pulping Conference, 1998.

78 Wackerberg, E., et al., High temperature

peroxide stage optimization on hardwood

and softwood sulfite pulp. In

Tappi Pulping Conference, 1997.

79 Heimburger, S.A., K.F. French, N.

Weber. Optimizing pressurized peroxide

bleaching of a hardwood sulfite pulp. In

Tappi Pulping Conference, 1997.

80 Bottcher, H., R. Kamprath, Umweltfreundliche

Zellstofferzeugung auf

Basis des konventionellen Magnesium-

Bisulfit-Verfahrens. Das Papier, 1990;

44(10A): V26–V32.

81 Nimmerfroh, N., et al., The German

approach to the closed-cycle sulfite mill

– development and implementation.

Pulp Paper Canada, 1995; 96(12):

T414–T420.

82 Suess, H.U., K. Schmidt, M.d. Grosso.

Options to improve TCF-bleaching of

sulfite pulp. In 57th Appita Annual

Conference, Melbourne, Australia,

2003.

83 Sturm, W., Hochweisse Sulfitzellstoffe

durch absolut chlorfreie Bleiche – Aktivierung

von Peroxid durch Nitrilamin.

Wochenblatt fur Papierfabrikation, 1990;

118(10): 423–424.

84 Kuchler, J.G., W.G.J. Sturm,

H.E. Teichmann, Hohe Wei.grade und

deutlich bessere Delignifizierungsleistung

in der OPMgO-Stufe – Aktivierung

von Peroxid durch Nitrilamin (Teil 2).

Das Papier, 1993; 2: 53–55.

85 Kappel, J., M. Grengg, Brauer, Highconsistency

bleaching technology for

TCF pulps. Pulp Paper Canada, 1994;

95(1): T1–T6.

86 Sixta, H., et al., Medium consistency

ozone bleaching: laboratory and mill

experience. Das Papier, 1991; 45(10):

610–624.

87 Wickstrom, P., Improved brightness by

adding a peracetic acid stage. In International

Pulp Bleaching Conference,

Stockholm, Sweden, 2005: p. 216–221.

[aa] Kadla, J. F., H.-M. Chang, H. Jameel,

The Reactions of Lignins with High

Temperature Hydrogen Peroxide Part 2.

The Oxidation of Kraft Lignin. Holzforschung,

1999; 53(3): 277–284.

[bb] Kadla, J. F., H. M. Chang, Jameel, H.,

The reactions of lignins with hydrogen

peroxide at high temperature.1. The

oxidation of lignin model compounds.

Holzforschung, 1997; 51(5): 428–434.


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