Omid Ghaffarzadeh, Maryam Ataeefard, Sahab Hedjazi, Ali Abdulkhani, Mohammad J. Taherzadeh
{"title":"改性碱木质素涂布衬纸印刷适性的智能建模","authors":"Omid Ghaffarzadeh, Maryam Ataeefard, Sahab Hedjazi, Ali Abdulkhani, Mohammad J. Taherzadeh","doi":"10.1007/s13399-025-06817-w","DOIUrl":null,"url":null,"abstract":"<div><p>This research aimed to investigate the production of a sizing agent based on lignin extracted from the soda pulping black liquor. The crude lignin was subjected to chemical modifications, including sulfomethylation and amination, to improve its reactivity and to increase its solubility in water. Unmodified (crude), sulfomethylated, and aminated lignin were combined with starch and then applied on the surface of test liner papers. In this study, surface, mechanical, colorimetric, and printability properties were modeled via an innovative approach called the artificial intelligence method. The effect of ratios of crude lignin, sulfomethylated and aminated lignin, and even starch portion were investigated on the paper properties, i.e., tensile strength and ring crush test (RCT) as well as optical properties, i.e., L*, a*, and b* indices and optical density and roughness of the treated handsheets by surface. The developed code can appropriately learn the non-linear behavior process and make decisions according to the pattern constructed intelligently. The paper treated with unmodified lignin exhibited an increase in the roughness value, according to the results. It was illustrated that applying a layer based on the unmodified lignin solution increased the tensile index. Also, it caused a relative increase in the tensile index of paper when a sizing solution based on sulfomethylated/aminated lignin was implemented. The value of the RCT for the paper treated with unmodified lignin and even the paper treated using the aminated lignin was as high as the treated paper just based on pure starch. There was no discernible variation in the colorimetric indices between papers treated with the black ink. The findings showed that the treatment containing pure starch had the lowest value of optical density, and the control treatment had the closest value to it. The data about alternative treatments showed that a paper treated with pure lignin without starch has the highest optical density. </p><h3>Graphical Abstract</h3><div><figure><div><div><picture><source><img></source></picture></div></div></figure></div></div>","PeriodicalId":488,"journal":{"name":"Biomass Conversion and Biorefinery","volume":"15 18","pages":"25375 - 25389"},"PeriodicalIF":4.1000,"publicationDate":"2025-04-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Intelligent modeling of printability of liner paper coated with modified soda lignin\",\"authors\":\"Omid Ghaffarzadeh, Maryam Ataeefard, Sahab Hedjazi, Ali Abdulkhani, Mohammad J. Taherzadeh\",\"doi\":\"10.1007/s13399-025-06817-w\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>This research aimed to investigate the production of a sizing agent based on lignin extracted from the soda pulping black liquor. The crude lignin was subjected to chemical modifications, including sulfomethylation and amination, to improve its reactivity and to increase its solubility in water. Unmodified (crude), sulfomethylated, and aminated lignin were combined with starch and then applied on the surface of test liner papers. In this study, surface, mechanical, colorimetric, and printability properties were modeled via an innovative approach called the artificial intelligence method. The effect of ratios of crude lignin, sulfomethylated and aminated lignin, and even starch portion were investigated on the paper properties, i.e., tensile strength and ring crush test (RCT) as well as optical properties, i.e., L*, a*, and b* indices and optical density and roughness of the treated handsheets by surface. The developed code can appropriately learn the non-linear behavior process and make decisions according to the pattern constructed intelligently. The paper treated with unmodified lignin exhibited an increase in the roughness value, according to the results. It was illustrated that applying a layer based on the unmodified lignin solution increased the tensile index. Also, it caused a relative increase in the tensile index of paper when a sizing solution based on sulfomethylated/aminated lignin was implemented. The value of the RCT for the paper treated with unmodified lignin and even the paper treated using the aminated lignin was as high as the treated paper just based on pure starch. There was no discernible variation in the colorimetric indices between papers treated with the black ink. The findings showed that the treatment containing pure starch had the lowest value of optical density, and the control treatment had the closest value to it. 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Intelligent modeling of printability of liner paper coated with modified soda lignin
This research aimed to investigate the production of a sizing agent based on lignin extracted from the soda pulping black liquor. The crude lignin was subjected to chemical modifications, including sulfomethylation and amination, to improve its reactivity and to increase its solubility in water. Unmodified (crude), sulfomethylated, and aminated lignin were combined with starch and then applied on the surface of test liner papers. In this study, surface, mechanical, colorimetric, and printability properties were modeled via an innovative approach called the artificial intelligence method. The effect of ratios of crude lignin, sulfomethylated and aminated lignin, and even starch portion were investigated on the paper properties, i.e., tensile strength and ring crush test (RCT) as well as optical properties, i.e., L*, a*, and b* indices and optical density and roughness of the treated handsheets by surface. The developed code can appropriately learn the non-linear behavior process and make decisions according to the pattern constructed intelligently. The paper treated with unmodified lignin exhibited an increase in the roughness value, according to the results. It was illustrated that applying a layer based on the unmodified lignin solution increased the tensile index. Also, it caused a relative increase in the tensile index of paper when a sizing solution based on sulfomethylated/aminated lignin was implemented. The value of the RCT for the paper treated with unmodified lignin and even the paper treated using the aminated lignin was as high as the treated paper just based on pure starch. There was no discernible variation in the colorimetric indices between papers treated with the black ink. The findings showed that the treatment containing pure starch had the lowest value of optical density, and the control treatment had the closest value to it. The data about alternative treatments showed that a paper treated with pure lignin without starch has the highest optical density.
期刊介绍:
Biomass Conversion and Biorefinery presents articles and information on research, development and applications in thermo-chemical conversion; physico-chemical conversion and bio-chemical conversion, including all necessary steps for the provision and preparation of the biomass as well as all possible downstream processing steps for the environmentally sound and economically viable provision of energy and chemical products.
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