Pulp and paper
Kamyar Salehi; Ahmad Jahan latibari; Abdolrahman Hosseinzadeh
Abstract
In order to investigate the possibility of utilizing bagasse in high yield pulping, CMP and CTMP pulp from bagasse was compared.APMP pulping process was also investigated. Bagasse fiber length, diameter, lumen diameter and cell wall thickness was measured at 1166mm, 19.63 mLm,7.47 mLm, and ...
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In order to investigate the possibility of utilizing bagasse in high yield pulping, CMP and CTMP pulp from bagasse was compared.APMP pulping process was also investigated. Bagasse fiber length, diameter, lumen diameter and cell wall thickness was measured at 1166mm, 19.63 mLm,7.47 mLm, and 6.09 mLm respectively. Chemical composition was as follow: cellulose 553 %, lignin 20.5 %, ash 1.98% and extractive 2.9 %.The results and comparison of CMP and CTMP pulp are as follow: CTMP pulp yield was 3-4% higher than CMP pulp and the highest CTMP pulp at 80.7% was obtained at 15% NaOH application and 15 minutes chemical treatment time.Breaking length of both pulp was almost equal, but the burst index of CMP pulp was higher and the tear index was lower than CTMP. The highest breaking length of 3.85Kmwas obtained at 15% NaOH and 10 minutes, highest burst index of 4.81 KPa.m2/grat 20% NaOH and 20 minutes and highest tear index at 6.87 mN.m2/grat 15% NaOH and 15 minutes treatment time. Various treatments in APMP pulping reveald the following results: - Two stage pulping yield was almost 6% higher than one stage pulping and addition of H2O2 did not significant improve the yield.- The highest breaking length was related and two stage pulping. But addition of H2O2 in last stage and the lowest breaking length was related and two stage pulping with split application both NaOH and H202.- Even though two stage pulping with the addition of H2O2 in one stage produced highest burst index, but lowest burst index was with the CMP pulps.- Addition of DTPA produced highest brightness and opacity.
Pulp and paper
Abdolrahman Hosseinzadeh; Abbas Fakhryan roghani; Amir Nourbakhsh; Fardad Golbabaei
Abstract
In this investigation some anatomical, chemical and pulping suitability of two Iranian hardwood species which predominate in the Caspian forests were examined. The species are carpinus betulus (Hornbeam) and parotia persica (Ironwood).The results of this study revealed that:The average fiber length of ...
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In this investigation some anatomical, chemical and pulping suitability of two Iranian hardwood species which predominate in the Caspian forests were examined. The species are carpinus betulus (Hornbeam) and parotia persica (Ironwood).The results of this study revealed that:The average fiber length of carpinus betulus is 1.4 mm., fiber diameter 18 mm, and cell wall thickness 3.37 mm, while inparotia persica, fiber length, cell diameter and cell wall thickness are 1.34 mm, 17.3 mm and 3.48 mm respectively.The overall average of cellulose content: of carpinus betulus and Parotia persica were measured at 48.5, and 46.1 percent, and the lignin content at 17.5 and 21.5 percent respectively.The wood of each of the above species was cooked by means of a kraft process without difficulty but, there was a slight decrease in yield and kappa number with increase active alkali.The pulping yield with active alkali of14% was about 49.6 and with 20% was 43.44 percent, while the pulping yield of parotia persica in active alkali of 14% was 43.04 and in 20% about 37.79 percent. Thus, it may be concluded that for production of wrapping paper from carpinus betulus and parotia percica, using active alkali of 14% might give better quality paper and for production of printing paper from these two species active alkali of 20 percent might be desirable.