Abstract
Material of Rhizoclonium from brackish water in Taiwan was investigated for its possible use in pulping and papermaking. After beating, this filamentous alga produced a pulp with a length to width ratio of about 10, much less than that of a typical wood pulp. Handsheets made from this pulp had a moderate breaking length of 4.02 km. Cooking pre-beaten pulp with a low chemical charge (5–25%NaOH) at a low cooking temperature (100 °C), and for a short time (30–120 min) gave high algal pulp yields (70–80%). This cooking process was sulfur-free, but the water requirement was high. After cooking and further caustic soda and bleaching treatments, wide-angle X-ray diffraction and FTIR spectroscopy showed that the crystallinity of the algal pulp increased substantially, but type I cellulose conformation was retained. The best pulp mechanical strengths (breaking length 5.23 km,zero-span tensile strength 79.2 Nm g-1, bursting index of 2.2 kpa m2 g-1) were obtained after cooking for 1 h with 20% NaOH. Because of the morphological characteristics of the algal strands, the pulp generally lacked bursting, tearing and folding strengths, but proper blending with softwood pulp increased the tensile breaking length to8.40 km, the tearing index to 14.5 mNm2 g-1, the bursting index to 6.42 kpam2 g-1 and the folding endurance to 4299 double folds, i.e. levels comparable to a typical kraft pulp. The algal pulp thus showed clear potential as a supplement for traditional medium strength wood pulps.
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References
Black NP (1991) Biomass gasification project gets funding to solve black liquor safety and landfill problems. Tappi J. 74: 65-68.
Blackwell J, Vasko PD, Koenig JK (1970) Infrared and raman spectra of the cellulose from the cell wall of Valonia ventricosa. J. appl. Physics. 41: 4375-4379.
Bose SK, Akhtaruzzaman, Khan HR (1999) Effect of spent liquor recirculation on NS-AQ pulping of jute. Tappi J. 82: 148-151.
Bustamante P, Ramos J, ZÚ?iga V, Sabharwal HS, Young RA (1999) Biomechanical pulping of bagasse with the white rot fungi Ceriporipsis subvermispora and Pleurotus ostreatus. Tappi J. 82: 123-128.
Chalk RC, Evans ME, Parrish FW, Sousa JA (1978) Infrared spectra of sulfonic esters of carbohydrate. Carbohydr. Res. 61: 549-552.
Chao KP, Su YC, Chen CS (1997) The industrial utilization of filamentous algae: Part 1. The feasibility study of pulping and papermaking. Annual Committee of the Fisheries Society of Taiwan (Abstract). The Fisheries Society of Taiwan, 167 pp.
Chao KP, Su YC, Chen CS (1999) Chemical composition and potential for utilization of the marine alga Rhizoclonium sp. J. appl. Phycol. 11: 523-531.
Cronshaw J, Myers A, Preston RP (1958) A chemical and physical investigation of the cell walls of some marine algae. Biochem. Biophys. Acta. 27: 89-103.
De Sirshendu, Bhattacharya PK (1996) Recovery of water and inorganic chemicals from kraft black liquor using membrane separation processes. Tappi J. 79: 103-111.
Dinwoodie JM (1965) The relationship between fiber morphology and paper properties. Tappi J. 48: 440-447.
Giovannozzi-Sermanni G, Cappelletto PL, D'Annibale A, Perani C (1997) Enzymatic pretreatments of nonwoody plants for pulp and paper production. Tappi J. 80: 139-144.
Groot BD, van der Kolk JC, van Dam JEG, Van 't Riet K (1999) Papermaking characteristics of alkaline hemp-woody-core pulps. Tappi J. 82: 107-112.
Gupta S, Madan RN, Bansal MC (1987) Chemical composition of Pinus caribbaea hemicellulose. Tappi J. 70: 113-114.
Horn RA, Wegner TH, Kugler DE (1992) Newsprint from blends of kenaf CTMP and deinked recycled newsprint. Tappi J. 75: 69-72.
Hulleman SHD, van Hazendonk JM, van Dam JEG (1994) Determination of crystallinity in native cellulose from higher plants with diffuse reflectance fourier transform infrared spectroscopy. Carbohydrate Res. 261: 163-172.
Jackson F (1988) Fiber length measurement and its application to paper machine operation. Appita J. 41: 212-216.
Jiménez L, Sánchez I, López F (1992) Olive wood as a raw material for paper manufacture. Tappi J. 75: 89-91.
Jiménez L, Francisco LB, José Luis FH (1993) Evaluation of agricultural residues for paper manufacture. Tappi J. 76: 169-173.
Kibblewhite RP, Bawden AD (1991) Radiata pine thinnings and toplog kraft pulp qualities. Appita J. 44: 247-256.
Kibblewhite RP, Uprichard JM (1996) Kraft pulp qualities of eleven radiata pine clones Appita J. 49: 243-249.
Kibblewhite RP, Riddel MJC, Shelbourne CJA (1998) Kraft fibres and pulp qualities of 29 trees of New Zealand grown Eucalyptus nitens. Appita J. 51: 114-121.
Kiran E, Teksoy I, Güven KC, Güler E, Güner H (1980) Studies on seaweeds for paper production. Bot. Mar. 23: 205-207.
Kobayashi Y (1988) Application of speaker cone from seaweeds papers. Japanese Journal of Paper Tech. 31: 7-10.
Kobayashi Y (1999) Can Thailand become a kenaf-pulp supplying country again? Japanese J. Paper Tech. 42: 33-38.
Law KN, Valade JL, Yang KC (1998) Fibre development in thermomechanical pulping: Comparision between black spruce and jack pine. J. Pulp and Paper Sci. 24: 73-76.
Lee BS, Shin HS, Ryu DDY (1982) Adsorption of cellulase on cellulose: Effect of physicochemical properties of cellulose on adsorption and rate of hydrolysis. Biotechnol. Bioengng. 24: 2137-2153.
Liang CY, Bassett KH, McGinnes EA, Marchessault RH (1960) Infrared spectrum of crystalline polysaccharides. VII. Thin Wood Section. Tappi J. 43: 1017-1024.
Loutfi H, Blackwell B, Uloth VC (1991) Lignin recovery from kraft black liquor: preliminary process design. Tappi J. 74: 203-210.
Maddern KN, French J (1995) The potential application of nonwood fibres in papermaking: an Australian perspective. Appita 48: 191-217.
Mamers H, Balodis V, Garland CP, Langfors NG, Menz DNJ (1991) Kraft pulping of East Gippsland eucalypt regrowth. Appita J. 44: 375-378.
Marchessault RH, Liang CY (1960) Infrared spectra of crystalline polysaccharides III. Mercerized cellulose. J. Polymer Sci. 43: 71-84.
Masahiro N O, Chuji T (1979) The method of pulping by algae. Japanese patent 38901. (In Japanese)
Masayasu S, Tetsu S, Masato K, (1992) The method of pulping. Japanese patent 202872. (In Japanese)
McLaren J (1996) A glut now, but what about future supplies? Pulp & Paper International 38: 41-43.
Morimoto M (1998) Nonwood plantfiber pulp-The status quo and future. Japan Tappi J. 52: 1205-1211.
Morimoto M (1999) Recent topics on the utilization of non-wood plant fibers. Japanese Journal of Paper Tech. 42: 1-5.
Myers GC, Arola RA, Horn RA, Wegner TH (1996) Chemical and mechanical pulping of aspen chunkwood, mature wood, and juvenile wood. Tappi J. 79: 161-168.
Nelson ML, O'connor RT (1964) Relation of certain infrared bands to cellulose crystallinity and crystal lattice type. Part II. A new infrared ratio for estimation of crystallinity in cellulose I and II. J. appl. Sci. 8: 1325-1341.
Phillips FH, Logan AF, Balodis V, Ward J (1991) Studies on pulpwood resources in southern Tasmania. Part 1 Kraft pulps. Appita J. 44: 85-90.
Radiotis T, Li J, Goel K, Eisner R (1999) Fiber characteristics, pulpability, and bleachability of switchgrass. Tappi J. 82: 100-105.
Rhiannon J, Heide M, Janssens I, Kenny J (1999) P & B breaks the 300 million ton barrier. Pulp & Paper International 41: 11-12.
Sao KP, Mathew MD, Ray PK (1987) Infrared spectra of alkali treated degummed ramie. Textile Res. J. 57: 407-414.
Schultz TP, McGinnis GD, Bertran MS (1985) Estimation of cellulose crystallinity using fourier transform-infrared spectroscopy and dynamic thermogravimetry. J. Wood Tech. 5: 543-557.
Su YC, Kuo YT, Ku YC, Yo HM (1995) Study on the fast-growing wood species Gmelina arborea (part 2) relationships between wood characteristics and pulping potentials. Q. J. Chin. For. 28: 69-86.
Su YC, Ku YC, Lin YH (1990) Wood fiber characterisics and pulping experiments of fast-growing tree species (IV). Q. J. Chin. For. 23: 63-76.
Technical Association of Pulp, Paper Industries (1971) Standard and Suggested Methods. TAPPI, New York.
Tyrväien J (1997) Newsgrade TMP from three different Norway spruce (Picea abies) wood assortments in mill-scale. Pulp & Paper Canada J. 98: 51-60.
Upadhyaya JS, Singh SP (1988) Studies on neutral sulphite pulping of Sesbania aculeata. Appita J. 41: 47-50.
Venter JSM, Van der Klashorst GH (1989) The recovery of byproducts and pulping chemicals from industrial soda bagasse spent liquors. Tappi J. 72: 127-132.
Xiang JZ (1997) Environmentally friendly processing of nonwood fibers. Papermaker 7: 44-46.
Xu EC (1999) Properties and papermaking potential of alkaline peroxide mechanical pulp from Acacia mangium. Appita J. 52: 121-125.
Yalamanchili SR, Gillett JD, Maddern KN (1991) Soda recovery from cotton linter pulping liquor by wet pyrolysis. Appita J. 44: 318-332.
Zablack E, Perez J (1990) A partially pyruvated carrageenan from Hawaiian Grateloupia filicina (Cryptonemiales, Rhodophyta). Bot. mar. 33: 273-276.
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Chao, KP., Su, YC. & Chen, CS. Feasibility of utilizing Rhizoclonium in pulping and papermaking. Journal of Applied Phycology 12, 53–62 (2000). https://doi.org/10.1023/A:1008166815023
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DOI: https://doi.org/10.1023/A:1008166815023