Progress in the development and optimization of polyoxometalate delignification systems

R. H. Atalla; I. A. Weinstock; J. S. Bond; R. S. Reiner; E. L. Springer; C. G. Hill; Yu Geletii; V. A. Grigoriev; A. J. Bailey; L. Delannoy; C. L. Hill

Progress in the development and optimization of polyoxometalate delignification systems

R. H. Atalla, I. A. Weinstock, J. S. Bond, R. S. Reiner, E. L. Springer, C. G. Hill, Yu Geletii, V. A. Grigoriev, A. J. Bailey, L. Delannoy, C. L. Hill

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

We have reported the use of polyoxometalates (POMs) as selective, regenerable delignification agents that are inherently thermodynamically stable, and self-buffering. The re-activation with oxygen is under conditions that mineralize the organic byproducts of the delignification process. Thus, the POMs provide the basis for a closed bleach plant wherein the consumable oxidant is oxygen and the primary byproducts are carbon dioxide and water. They have been shown to reduce the kappa levels of softwood kraft pulps from 30 to below 5 while retaining viscosity above 20. Recently we have concentrated on POMs that are more efficient in the uptake of electrons from the substrate pulps per mole of POM. We have also studied the determinants of rates of electron transfer from the substrates to the POMs. All of these must be optimized in order to achieve the full economic potential of POM-based delignification. This report will summarize progress along the multiple fronts that we are investigating.

Original language	English
Title of host publication	2002 TAPPI Fall Technical Conference and Trade Fair
Pages	83-86
Number of pages	4
State	Published - 1 Dec 2002
Externally published	Yes
Event	Proceedings of the 2002 TAPPI Fall Technical Conference and Trade Fair - San Diego, CA, United States Duration: 8 Sep 2002 → 11 Sep 2002

Publication series

Name	TAPPI Fall technical Conference and Trade Fair

Conference

Conference	Proceedings of the 2002 TAPPI Fall Technical Conference and Trade Fair
Country/Territory	United States
City	San Diego, CA
Period	8/09/02 → 11/09/02

ASJC Scopus subject areas

Materials Science (all)
Engineering (miscellaneous)

Cite this

Atalla, R. H., Weinstock, I. A., Bond, J. S., Reiner, R. S., Springer, E. L., Hill, C. G., Geletii, Y., Grigoriev, V. A., Bailey, A. J., Delannoy, L., & Hill, C. L. (2002). Progress in the development and optimization of polyoxometalate delignification systems. In 2002 TAPPI Fall Technical Conference and Trade Fair (pp. 83-86). (TAPPI Fall technical Conference and Trade Fair).

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title = "Progress in the development and optimization of polyoxometalate delignification systems",

abstract = "We have reported the use of polyoxometalates (POMs) as selective, regenerable delignification agents that are inherently thermodynamically stable, and self-buffering. The re-activation with oxygen is under conditions that mineralize the organic byproducts of the delignification process. Thus, the POMs provide the basis for a closed bleach plant wherein the consumable oxidant is oxygen and the primary byproducts are carbon dioxide and water. They have been shown to reduce the kappa levels of softwood kraft pulps from 30 to below 5 while retaining viscosity above 20. Recently we have concentrated on POMs that are more efficient in the uptake of electrons from the substrate pulps per mole of POM. We have also studied the determinants of rates of electron transfer from the substrates to the POMs. All of these must be optimized in order to achieve the full economic potential of POM-based delignification. This report will summarize progress along the multiple fronts that we are investigating.",

author = "Atalla, {R. H.} and Weinstock, {I. A.} and Bond, {J. S.} and Reiner, {R. S.} and Springer, {E. L.} and Hill, {C. G.} and Yu Geletii and Grigoriev, {V. A.} and Bailey, {A. J.} and L. Delannoy and Hill, {C. L.}",

year = "2002",

month = dec,

day = "1",

language = "English",

isbn = "193065796X",

series = "TAPPI Fall technical Conference and Trade Fair",

pages = "83--86",

booktitle = "2002 TAPPI Fall Technical Conference and Trade Fair",

note = "Proceedings of the 2002 TAPPI Fall Technical Conference and Trade Fair ; Conference date: 08-09-2002 Through 11-09-2002",

}

Atalla, RH, Weinstock, IA, Bond, JS, Reiner, RS, Springer, EL, Hill, CG, Geletii, Y, Grigoriev, VA, Bailey, AJ, Delannoy, L & Hill, CL 2002, Progress in the development and optimization of polyoxometalate delignification systems. in 2002 TAPPI Fall Technical Conference and Trade Fair. TAPPI Fall technical Conference and Trade Fair, pp. 83-86, Proceedings of the 2002 TAPPI Fall Technical Conference and Trade Fair, San Diego, CA, United States, 8/09/02.

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AU - Reiner, R. S.

AU - Springer, E. L.

AU - Hill, C. G.

AU - Geletii, Yu

AU - Grigoriev, V. A.

AU - Bailey, A. J.

AU - Delannoy, L.

AU - Hill, C. L.

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N2 - We have reported the use of polyoxometalates (POMs) as selective, regenerable delignification agents that are inherently thermodynamically stable, and self-buffering. The re-activation with oxygen is under conditions that mineralize the organic byproducts of the delignification process. Thus, the POMs provide the basis for a closed bleach plant wherein the consumable oxidant is oxygen and the primary byproducts are carbon dioxide and water. They have been shown to reduce the kappa levels of softwood kraft pulps from 30 to below 5 while retaining viscosity above 20. Recently we have concentrated on POMs that are more efficient in the uptake of electrons from the substrate pulps per mole of POM. We have also studied the determinants of rates of electron transfer from the substrates to the POMs. All of these must be optimized in order to achieve the full economic potential of POM-based delignification. This report will summarize progress along the multiple fronts that we are investigating.

AB - We have reported the use of polyoxometalates (POMs) as selective, regenerable delignification agents that are inherently thermodynamically stable, and self-buffering. The re-activation with oxygen is under conditions that mineralize the organic byproducts of the delignification process. Thus, the POMs provide the basis for a closed bleach plant wherein the consumable oxidant is oxygen and the primary byproducts are carbon dioxide and water. They have been shown to reduce the kappa levels of softwood kraft pulps from 30 to below 5 while retaining viscosity above 20. Recently we have concentrated on POMs that are more efficient in the uptake of electrons from the substrate pulps per mole of POM. We have also studied the determinants of rates of electron transfer from the substrates to the POMs. All of these must be optimized in order to achieve the full economic potential of POM-based delignification. This report will summarize progress along the multiple fronts that we are investigating.

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ER -

Progress in the development and optimization of polyoxometalate delignification systems

Abstract

Publication series

Conference

ASJC Scopus subject areas

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