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Section 4.2.7

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1 Springer, E.L., J.F. Harris, Prehydrolysis

of aspen wood with water and with

dilute aqueous sulfuric acid. Svensk.

Papperstidn. 1982: 152–154.

2 Rydholm, S.A., Pulping Processes. Original

Edition, 1965 ed. New York: Wiley

Interscience, 1965, p. 665.

3 Springer, E.L., Hydrolysis of aspenwood

xylan with aqueous solutions of hydrochloric

acid. Tappi, 1966; 49(3): 102–106.

4 Springer, E.L., L.L. Zoch, Hydrolysis of

xylan in different species of hardwoods.

Tappi, 1968; 51(5): 214–218.

5 Papadopoulos, J., C.-L. Chen,

I.S. Goldstein, J. Appl. Polymer Sci.,

1983; 37: 631.

6 BeMiller, J.N., Acid-catalyzed hydrolysis

of glycosides. Adv. Carbohydrate Chem.,

1967; 22: 25–108.

7 Hojnos, J., et al., Hydrolyzate from prehydrolysis

of hardwood. In CS 230252 B

19861015, Czechoslovakia, 1986.

8 Hojnos, J., et al., Acid prehydrolysis of

wood chips. In CS 248106 B1 19880315.

Czechoslovakia, 1988.

9 Mozol’ova, L., E. Golis, L. Suty, Artenund

Gehaltsbestimmung der aromatschen

Bestandteile der Reinigungsstufen

des Buchenvorhydrolysat bei

D-Xylose-Produktion. Sammelschrift der

Arbeiten der Chemisch-technologischen

Fakultat der Slowakischen technischen

Hochschule, 1977, pp. 217–221.

10 Hojnos, J., Useful products from beechwood

hemicelluloses. Vyskumne Prace z

Odboru Papiera a Celulozy, 1987; 42(11):

V69–V70.

11 Rastall, R.A., Prebiotic oligosaccharides:

evaluation of biological activities and

potential future developments. In Probiotics

and Prebiotics, G.W. Tannock, Ed.

Caister Academic Press: Wymondham,

UK, 2002, pp. 107–148.

12 Vazquez, M.J., et al., Xylooligosaccharides.

Manufacture and applications.

Trends Food Sci. Technol. 2001; 11(11):

387–393.

13 Chen, H., J. Liu, Z. Li, Method for producing

active oligomeric xylose. In CN

1233614 A 19991103, 1999.

14 Reis, A., et al., Fragmentation pattern of

underivatized xylo-oligosaccharides and

their alditol derivatives by electrospray

tandem mass spectrometry. Carbohydrate

Polymers, 2004; 55(4): 401–409.

15 Kabel, A.M., H.A. Schols,

A.G.J. Alphons, Identification of structural

features of various (O-acetylated)

xylo-oligosaccharides from xylan-rich

agricultural by-products: A review. ACS

Symp. Ser. 864 Hemicelluloses, ACS.

Series. 2004, pp. 108–121.

16 Ishihara, M., Production of xylo-oligosaccharides

from woody biomass. BioIndustry,

2001; 18(12): 35–44.

17 Rycroft, C.E., et al., A comparative in

vitro evaluation of the fermentation

properties of prebiotic oligosaccharides.

J. Appl. Microbiol., 2001; 91(5): 878–887.

18 Vazquez, M.J., J.L. Dominguez, J.C.

Parajo, Enzymatic processing of crude

xylooligomer solutions obtained by

autohydrolysis of Eucalyptus wood. Food

Biotechnol., 2002; 16(2): 91–105.

19 Vazquez, M.J., et al., Production of

xylose-containing fermentation media

by enzymatic post-hydrolysis of oligomers

produced by cob autohydrolysis.

World J. Microbiol. Biotechnol., 2001;

17(8): 817–822.

20 Wizani, W., et al., Viscose production

process. In WO9412719 PCT Pub. 1994.

21 BeMiller, J.N., Acid-catalyzed hydrolysis

of glycosides. Adv. Carbohydrate Chem.,

1967; 22: 25–108.

22 Vernon, C.A., Proc. Roy. Soc. B., 1967;

167(389).

23 BeMiller, J.N., in Starch Chemistry and

Technology, R.L.W.a.E.F. Paschall, Ed. Academic

Press: New York, 1965.

24 Edward, J.T., Stability of glycosides to

acid hydrolysis. Chem. Ind. (London),

1955: 1102.

502 4 Chemical Pulping Processes

25 Bunton, C.A., et al., a– and b-phenyl-Dglucopyranosides.

J. Chem. Soc., 1955:

4419.

26 Capon, B., Mechanism of the anomerization

of the methyl D-glucopyranosides.

Chem. Commun., 1967; 1: 21–23.

27 Harris, J.F., Acid hydrolysis and dehydration

reactions for utilizing plant carbohydrates.

Appl. Polymer Symp., 1975;

28: 131–144.

28 Feather, M.S., J.F. Harris, Partial hydrolysis

and acetolysis of cellotriose-1–14C.

J. Am. Chem., 1967; 89(22): 5661–5664.

29 Conner, A.H., Kinetic modeling of hardwood

prehydrolysis. Part I. Xylan

removal by water prehydrolysis. Wood

Fiber Sci., 1984; 16(2): 268–277.

30 Klemm, D., et al., Comprehensive Cellulose

Chemistry. Volume 1: Fundamentals

and AnalyticalMethods. Vol. 1. Weinheim,

Germany: Wiley-VCH Verlag

GmbH, 1998, p. 84.

31 Root, D.F., et al., Kinetics of the acid-catalyzed

conversion of xylose to furfural.

Forest Products J., 1959: 158–165.

32 Dunlop, A.P., Furfural formation and

behavior. Ind. Eng. Chem., 1948; 40(2):

204–209.

33 Harris, J.F., et al., Factors influencing

dilute sulfuric acid prehydrolysis of

southern red oak wood. Prog. Biomass

Conversion, 1984; 5: 101–141.

34 Nee, C.I., W.F. Yee, Hydrolysis of pentosans

in bagasses pith. J. Appl. Chem.

Biotechnol., 1976; 2: 283–287.

35 Harris, J.F., et al., Two-stage dilute acid

hydrolysis of wood: an investigation of

fundamentals. J. L. for Prod. Lab., 1985;

p. 78.

36 Maloney, M.T., T.W. Chapman,

A.J. Baker, Dilute acid hydrolysis of

paper birch: kinetics studies of xylan

and acetyl-group hydrolysis. Biotechnol.

Bioeng., 1985; 27: 355–361.

37 Maloney, M.T., T.W. Chapman,

A.J. Baker, an engineering analysis of

the production of xylose by dilute acid

hydrolysis of hardwood hemicellulose.

Biotechnol. Prog., 1986; 2(4): 192–202.

38 Veeraraghavan, S., et al. Kinetic modeling

and reactor development for hemicellulose

hydrolysis. In AIChE National

Meeting. Orlando, FL, 1982.

39 Sixta, H., Water prehydrolysis of beech

wood. R&D Lenzing AG: Lenzing, Austria,

2003.

40 Grohmann, K., R. Torget, M. Himmel,

Optimization of dilute acid pretreatment

of biomass. Biotechnol. Bioeng.

Symp., 1986; 15: 59–80.

41 Casebier, R.L., J.K. Hamilton,

H.L. Hergert, Tappi, 1969; 52: 2369.

42 Smiljanski, S., S. Stankovic, Beech

wood glucuronoxylan in the prehydrolysis

kraft process. Cellulose Chem. Technol.,

1974; 8(3): 283–294.

43 Stamm, A.J., Tappi, 1968; 51(1): 62.

44 Baldinger, T., W. Milacher, Oligosaccharide

characterization of water prehydrolyzate

from beech wood. Lenzing AG:

Lenzing, 2004.

45 Goldschmid, O., Tappi, 1955; 38(12):

728.

46 Kratzl, K., et al., Monatsh. Chem., 1959;

90: 771.

47 Lin, C.K., Prehydrolysis-alkaline pulping

of sweetgum wood. Department of

Wood and Paper Science. North Carolina

State University: Raleigh, NC, USA,

1979.

48 Sixta, H., Visbatch cooking of various

hardwood species. R&D Lenzing: Lenzing,

Austria, 1997.

49 Brasch, D.J., K.W. Free, Tappi, 1964;

47(4): 186–189.

50 Sixta, H., Zellstoffherstellung unter

Berucksichtigung umweltfreundlicher

Aufschlu.- und Bleichverfahren am

Beispiel von Chemiezellstoffen. Habilitation

Thesis, Department of Pulp,

Fiber and Paper Technology. Technical

University of Graz: Graz, 1995

51 Sixta, H., A. Borgards, New technology

for the production of high-purity dissolving

pulps. Das Papier, 1999; 53(4):

220–234.

52 Sixta, H., VisCBC cooking of various

hardwood species. R&D Lenzing: Lenzing,

Austria, 2002.

53 Schild, G., W. Muller, H. Sixta, Prehydrolysis

kraft and ASAM paper grade

pulping of eucalypt wood. A kinetic

study. Das Papier, 1996; 50(1): 10–22.

54 Antonsson, S., et al., A comparative

study of the impact of the cooking process

on oxygen delignification. Nordic

Pulp Paper Res. J., 2003; 18(4): 388–394.

References 503

55 Sixta, H., A. Borgards, A. Lima, Influence

of reactions conditions on Visbatch

cooking of Eucalyptus urograndis. Lenzing

AG: Lenzing, 1999.

56 Sixta, H., Dissolving-pulp market study.

Lenzing AG: Lenzing, 2003.

57 Sixta, H., Influence of wood species on

the performance of the Visbatch process.

Lenzing AG: Lenzing, 2004.


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Читайте в этой же книге: Alternative Sulfite Pulping Concepts | Magnefite Process | Two-Stage Neutral Magnefite (Bisulfite-MgO) | Sivola Processes | Stora Processes (Hydrogen Sulfite or Monosulfite-Acid Sulfite) | Alkaline Sulfite Pulping | Na2SO3 Na2CO3 NaOH | Section 4.2.3 | Section 4.2.4 | Section 4.2.5 |
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