EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2011 |
| Outros Autores: | , , , , |
| Tipo de documento: | Artigo |
| Idioma: | por |
| Título da fonte: | Ciência Florestal (Online) |
| Texto Completo: | https://periodicos.ufsm.br/cienciaflorestal/article/view/2756 |
Resumo: | In this research, it was analyzed the lignin content effect of Eucalyptus globulus wood in kraft pulping optimization. Seventy-two laboratory cooking were made with wood chips obtained from six Eucalyptus globulus trees selected from a group of 50 trees. The wood chips from three trees with the lowest lignin content, with average 20,53%, were mixed proportionally based on the tree weights, obtaining the sample of low lignin content wood. The same was made to obtain the sample for wood chips with the highest lignin content, with average 23,02%. The two lignin levels were statistically different. The two wood samples had basic densities statistically not different. Using three maximum temperatures levels (160, 165 and 170ºC), and three active alkali charged (17, 18,5 and 20%), the wood chips were converted to kraft pulps. The pulps were then characterized to analyze the influence of the distinct treatments employed in the cooking on their properties. The effect of the cooking conditions was expressed by mathematical models in order to determine the optimum points for each of the evaluated properties. The optimization process indicated maximum temperature of 168ºC, and active alkali of 19%, for maximum kraft pulping yield to achieve kappa number 18; this result was for woods with low lignin content. For woods containing the high lignin content, the optimization showed maximum cooking temperature of 169ºC and active alkali of 19% for kappa number of 18. The average reduction of 2,49% in wood lignin content resulted a correspondent gain of 2,2% in the kraft yield (o.d. basis) and a reduction on the active alkali charge of 1,2% (o.d. basis) to achieve kappa numbers from 16 to 19, preserving pulp properties. If the option is to work with kappa number 19 instead of 16, the gain in kraft yield is approximately 2%. Therefore, when working with low lignin content wood and kappa number 19 instead of 16, a substantial gain of approximately 4,2% is obtained for kraft pulp yield, and additionally 2 to 2,5% reduction in the active alkali charge based on o.d. wood. |
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EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCEEfeito do teor de lignina da madeira de Eucalyptus globulus Labill. no desempenho da polpação kraftkraft pulpingoptimizationEucalyptus globuluslignin content.otimizaçãocozimento kraftEucalyptus globulusteor de ligninaIn this research, it was analyzed the lignin content effect of Eucalyptus globulus wood in kraft pulping optimization. Seventy-two laboratory cooking were made with wood chips obtained from six Eucalyptus globulus trees selected from a group of 50 trees. The wood chips from three trees with the lowest lignin content, with average 20,53%, were mixed proportionally based on the tree weights, obtaining the sample of low lignin content wood. The same was made to obtain the sample for wood chips with the highest lignin content, with average 23,02%. The two lignin levels were statistically different. The two wood samples had basic densities statistically not different. Using three maximum temperatures levels (160, 165 and 170ºC), and three active alkali charged (17, 18,5 and 20%), the wood chips were converted to kraft pulps. The pulps were then characterized to analyze the influence of the distinct treatments employed in the cooking on their properties. The effect of the cooking conditions was expressed by mathematical models in order to determine the optimum points for each of the evaluated properties. The optimization process indicated maximum temperature of 168ºC, and active alkali of 19%, for maximum kraft pulping yield to achieve kappa number 18; this result was for woods with low lignin content. For woods containing the high lignin content, the optimization showed maximum cooking temperature of 169ºC and active alkali of 19% for kappa number of 18. The average reduction of 2,49% in wood lignin content resulted a correspondent gain of 2,2% in the kraft yield (o.d. basis) and a reduction on the active alkali charge of 1,2% (o.d. basis) to achieve kappa numbers from 16 to 19, preserving pulp properties. If the option is to work with kappa number 19 instead of 16, the gain in kraft yield is approximately 2%. Therefore, when working with low lignin content wood and kappa number 19 instead of 16, a substantial gain of approximately 4,2% is obtained for kraft pulp yield, and additionally 2 to 2,5% reduction in the active alkali charge based on o.d. wood.Neste trabalho, foi analisado o efeito do teor de lignina da madeira de Eucalyptus globulus Labill. na otimização das condições do cozimento kraft. Foram realizados 72 cozimentos com cavacos de seis árvores de Eucalyptus globulus subespécie globulus com oito anos de idade. As árvores foram selecionadas com base em uma amostragem de 50 indivíduos da espécie. Os cavacos das três árvores de menor teor de lignina, com média de 20,53%, foram misturados entre si proporcionalmente ao peso das árvores, formando o nível com teor de lignina baixo; os cavacos das três árvores de maior teor de lignina, com média de 23,02%, também misturados proporcionalmente entre si, formaram o nível de teor de lignina alto. Os dois níveis diferiram estatisticamente entre si, diferentemente das densidades básicas das madeiras que não diferiram. Avaliaram-se três condições de temperatura máxima de cozimento (160, 165 e 170ºC) e três condições de álcali ativo (17, 18,5 e 20%) para os dois tipos de cavacos. Através de análise de regressão, estabeleceram-se relações entre as características das celuloses e as condições de cozimento que melhor representassem os pontos ótimos. A otimização realizada através dos modelos de regressão selecionados indicou temperatura máxima de 168ºC e álcali ativo de 17,9%, para se obter o máximo rendimento depurado com número kappa 18 para as madeiras de baixo teor de lignina. Para as madeiras de alto teor de lignina, as condições otimizadas foram temperatura máxima de cozimento de 169ºC e álcali ativo de 19%, para obter número kappa 18. Uma redução média de 2,49% no teor de lignina na madeira, promoveu um ganho médio de 2,2% no rendimento depurado, base madeira, e uma redução média de 1,2% de álcali ativo aplicado, base madeira, obtendo-se valores de número kappa de 16 a 19 e mantendo-se as demais propriedades da celulose. Se, adicionalmente, optar-se por trabalhar com números kappa 19 em vez de 16, o ganho em rendimento depurado é de cerca de 2%. Isso significa que com madeira de baixo teor de lignina e número kappa 19 consegue-se cerca de 4,2% a mais de rendimento depurado e 2 a 2,5% a menos de carga aplicada de álcali ativo, em relação a madeira com alto teor de lignina deslignificada a número kappa 16.Universidade Federal de Santa Maria2011-03-30info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://periodicos.ufsm.br/cienciaflorestal/article/view/275610.5902/198050982756Ciência Florestal; Vol. 21 No. 1 (2011); 133-147Ciência Florestal; v. 21 n. 1 (2011); 133-1471980-50980103-9954reponame:Ciência Florestal (Online)instname:Universidade Federal de Santa Maria (UFSM)instacron:UFSMporhttps://periodicos.ufsm.br/cienciaflorestal/article/view/2756/1682Cardoso, Gabriel ValimFoelkel, Celso Edmundo BochettiFrizzo, Sonia Maria BitencourtRosa, Claudia Adriana Broglio daAssis, Teotônio Francisco deOliveira, Patrícia deinfo:eu-repo/semantics/openAccess2017-05-04T17:04:25Zoai:ojs.pkp.sfu.ca:article/2756Revistahttp://www.ufsm.br/cienciaflorestal/ONGhttps://old.scielo.br/oai/scielo-oai.php||cienciaflorestal@ufsm.br|| cienciaflorestal@gmail.com|| cf@smail.ufsm.br1980-50980103-9954opendoar:2017-05-04T17:04:25Ciência Florestal (Online) - Universidade Federal de Santa Maria (UFSM)false |
| dc.title.none.fl_str_mv |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE Efeito do teor de lignina da madeira de Eucalyptus globulus Labill. no desempenho da polpação kraft |
| title |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE |
| spellingShingle |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE Cardoso, Gabriel Valim kraft pulping optimization Eucalyptus globulus lignin content. otimização cozimento kraft Eucalyptus globulus teor de lignina |
| title_short |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE |
| title_full |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE |
| title_fullStr |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE |
| title_full_unstemmed |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE |
| title_sort |
EFFECT OF LIGNIN CONTENT OF Eucalyptus globulus WOOD IN KRAFT PULPING PERFORMANCE |
| author |
Cardoso, Gabriel Valim |
| author_facet |
Cardoso, Gabriel Valim Foelkel, Celso Edmundo Bochetti Frizzo, Sonia Maria Bitencourt Rosa, Claudia Adriana Broglio da Assis, Teotônio Francisco de Oliveira, Patrícia de |
| author_role |
author |
| author2 |
Foelkel, Celso Edmundo Bochetti Frizzo, Sonia Maria Bitencourt Rosa, Claudia Adriana Broglio da Assis, Teotônio Francisco de Oliveira, Patrícia de |
| author2_role |
author author author author author |
| dc.contributor.author.fl_str_mv |
Cardoso, Gabriel Valim Foelkel, Celso Edmundo Bochetti Frizzo, Sonia Maria Bitencourt Rosa, Claudia Adriana Broglio da Assis, Teotônio Francisco de Oliveira, Patrícia de |
| dc.subject.por.fl_str_mv |
kraft pulping optimization Eucalyptus globulus lignin content. otimização cozimento kraft Eucalyptus globulus teor de lignina |
| topic |
kraft pulping optimization Eucalyptus globulus lignin content. otimização cozimento kraft Eucalyptus globulus teor de lignina |
| description |
In this research, it was analyzed the lignin content effect of Eucalyptus globulus wood in kraft pulping optimization. Seventy-two laboratory cooking were made with wood chips obtained from six Eucalyptus globulus trees selected from a group of 50 trees. The wood chips from three trees with the lowest lignin content, with average 20,53%, were mixed proportionally based on the tree weights, obtaining the sample of low lignin content wood. The same was made to obtain the sample for wood chips with the highest lignin content, with average 23,02%. The two lignin levels were statistically different. The two wood samples had basic densities statistically not different. Using three maximum temperatures levels (160, 165 and 170ºC), and three active alkali charged (17, 18,5 and 20%), the wood chips were converted to kraft pulps. The pulps were then characterized to analyze the influence of the distinct treatments employed in the cooking on their properties. The effect of the cooking conditions was expressed by mathematical models in order to determine the optimum points for each of the evaluated properties. The optimization process indicated maximum temperature of 168ºC, and active alkali of 19%, for maximum kraft pulping yield to achieve kappa number 18; this result was for woods with low lignin content. For woods containing the high lignin content, the optimization showed maximum cooking temperature of 169ºC and active alkali of 19% for kappa number of 18. The average reduction of 2,49% in wood lignin content resulted a correspondent gain of 2,2% in the kraft yield (o.d. basis) and a reduction on the active alkali charge of 1,2% (o.d. basis) to achieve kappa numbers from 16 to 19, preserving pulp properties. If the option is to work with kappa number 19 instead of 16, the gain in kraft yield is approximately 2%. Therefore, when working with low lignin content wood and kappa number 19 instead of 16, a substantial gain of approximately 4,2% is obtained for kraft pulp yield, and additionally 2 to 2,5% reduction in the active alkali charge based on o.d. wood. |
| publishDate |
2011 |
| dc.date.none.fl_str_mv |
2011-03-30 |
| dc.type.driver.fl_str_mv |
info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion |
| format |
article |
| status_str |
publishedVersion |
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https://periodicos.ufsm.br/cienciaflorestal/article/view/2756 10.5902/198050982756 |
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https://periodicos.ufsm.br/cienciaflorestal/article/view/2756 |
| identifier_str_mv |
10.5902/198050982756 |
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por |
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por |
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https://periodicos.ufsm.br/cienciaflorestal/article/view/2756/1682 |
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info:eu-repo/semantics/openAccess |
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openAccess |
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application/pdf |
| dc.publisher.none.fl_str_mv |
Universidade Federal de Santa Maria |
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Universidade Federal de Santa Maria |
| dc.source.none.fl_str_mv |
Ciência Florestal; Vol. 21 No. 1 (2011); 133-147 Ciência Florestal; v. 21 n. 1 (2011); 133-147 1980-5098 0103-9954 reponame:Ciência Florestal (Online) instname:Universidade Federal de Santa Maria (UFSM) instacron:UFSM |
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Universidade Federal de Santa Maria (UFSM) |
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UFSM |
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UFSM |
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Ciência Florestal (Online) |
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Ciência Florestal (Online) |
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Ciência Florestal (Online) - Universidade Federal de Santa Maria (UFSM) |
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||cienciaflorestal@ufsm.br|| cienciaflorestal@gmail.com|| cf@smail.ufsm.br |
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