BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP

BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP

Mixed hardwood chips were treated with lignin-degrading fungi to study the effect of fungal pretreatment on bleaching characteristics of kraft pulp. Pretreated wood chips were subjected to reduced active alkali doses in comparison to untreated chips. Comparable results were obtained for pretreated c...

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Bibliographic Details
Main Authors: Ravi Dutt Yadav, Smita Chaudhry, Saurabh Sudha Dhiman
Format: Article
Language:English
Published: North Carolina State University 2010-02-01
Series:BioResources
Subjects:
Biopulping
Hardwood
Kraft pulp
Lignin degrading fungi
Pollution load
Online Access:http://ojs.cnr.ncsu.edu/index.php/BioRes/article/viewFile/BioRes_05_1_0159_Yadav_CD_Biopulping_Less_Pollution/496
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spelling doaj-ae570e84ae8942e7964a2befce7c77c42020-11-25T01:05:24ZengNorth Carolina State UniversityBioResources1930-21262010-02-0151159171BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP Ravi Dutt YadavSmita ChaudhrySaurabh Sudha DhimanMixed hardwood chips were treated with lignin-degrading fungi to study the effect of fungal pretreatment on bleaching characteristics of kraft pulp. Pretreated wood chips were subjected to reduced active alkali doses in comparison to untreated chips. Comparable results were obtained for pretreated chips with reduced alkali dose as was obtained with higher dose of alkali in case of untreated chips. Fungal treatment made the process more energy-efficient, and 4.8% less chlorine was consumed in comparison to the control process. Pretreatment with Ceriporiopsis subvermispora was responsible for reduction of 4.7% in lignin contents, 14.3% permanganate number, and overall reduction of 15.5 kg/T of Cl2 consumption. The pollution load in terms of COD and BOD at the CD stage was reduced by 32.6% and 41.5% respectively, whereas 12% reduction in AOX compounds was observed in effluent of pretreated pulp.http://ojs.cnr.ncsu.edu/index.php/BioRes/article/viewFile/BioRes_05_1_0159_Yadav_CD_Biopulping_Less_Pollution/496BiopulpingHardwoodKraft pulpLignin degrading fungiPollution load
collection DOAJ
language English
format Article
sources DOAJ
author Ravi Dutt Yadav
Smita Chaudhry
Saurabh Sudha Dhiman
spellingShingle Ravi Dutt Yadav
Smita Chaudhry
Saurabh Sudha Dhiman
BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP
BioResources
Biopulping
Hardwood
Kraft pulp
Lignin degrading fungi
Pollution load
author_facet Ravi Dutt Yadav
Smita Chaudhry
Saurabh Sudha Dhiman
author_sort Ravi Dutt Yadav
title BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP
title_short BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP
title_full BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP
title_fullStr BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP
title_full_unstemmed BIOPULPING AND ITS POTENTIAL TO REDUCE EFFLUENT LOADS FROM BLEACHING OF HARDWOOD KRAFT PULP
title_sort biopulping and its potential to reduce effluent loads from bleaching of hardwood kraft pulp
publisher North Carolina State University
series BioResources
issn 1930-2126
publishDate 2010-02-01
description Mixed hardwood chips were treated with lignin-degrading fungi to study the effect of fungal pretreatment on bleaching characteristics of kraft pulp. Pretreated wood chips were subjected to reduced active alkali doses in comparison to untreated chips. Comparable results were obtained for pretreated chips with reduced alkali dose as was obtained with higher dose of alkali in case of untreated chips. Fungal treatment made the process more energy-efficient, and 4.8% less chlorine was consumed in comparison to the control process. Pretreatment with Ceriporiopsis subvermispora was responsible for reduction of 4.7% in lignin contents, 14.3% permanganate number, and overall reduction of 15.5 kg/T of Cl2 consumption. The pollution load in terms of COD and BOD at the CD stage was reduced by 32.6% and 41.5% respectively, whereas 12% reduction in AOX compounds was observed in effluent of pretreated pulp.
topic Biopulping
Hardwood
Kraft pulp
Lignin degrading fungi
Pollution load
url http://ojs.cnr.ncsu.edu/index.php/BioRes/article/viewFile/BioRes_05_1_0159_Yadav_CD_Biopulping_Less_Pollution/496
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