The comparison of acid and enzymatic hydrolysis of pulp obtained from poplar wood (Populus sp.) by the Kraft method

• Autorzy: Antczak Andrzej , Świerkosz Ryszard , Szeniawski Maksymilian , Marchwicka Monika , Akus-Szylberg Florentyna , Przybysz Piotr , Zawadzki Janusz

Identyfikatory

DOI

10.12841/wood.1644-3985.D07.01

• Języki publikacji: EN

Abstrakty

EN

This paper compares the acid and enzymatic hydrolysis in relation to bioethanol production. The pulp obtained from wood of the fast-growing poplar species (Populus deltoides x maximowiczii and Populus trichocarpa Torr. & A. Gray ex Hook) was used as a feedstock. The delignification process by the Kraft method was carried out with 19% and 26% of active alkali (NaOH and Na2S). The obtained sugars (xylose and glucose) were analyzed by a high-performance liquid chromatography. The results concluded that the enzymatic hydrolysis process is better than acid hydrolysis because a higher content of sugars (especially xylose) was obtained. Additionally, after the acid and enzymatic hydrolysis process from Populus trichocarpa pulp, more sugars were obtained than from the pulp of Populus deltoides × maximowiczii. The Kraft pulp from the wood of fast-growing poplar species is a good raw material for the production of glucose. However, in order to obtain a higher xylose content and finally increase the profitability of bioethanol production, a new method should be developed, or the Kraft method should be optimized.

Słowa kluczowe

EN

acid hydrolysis; enzymatic hydrolysis; Kraft pulp; poplar; bioethanol

• Wydawca: Sieć Badawcza Łukasiewicz - Poznański Instytut Technologiczny
• Czasopismo: Drewno : prace naukowe, doniesienia, komunikaty
• Rocznik: 2019
• Tom: vol. 62, nr 203
• Strony: 53--66
• Opis fizyczny: Bibliogr. 35 poz., rys., tab.

Twórcy

autor

Antczak Andrzej

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

autor

Świerkosz Ryszard

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

autor

Szeniawski Maksymilian

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

autor

Marchwicka Monika

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

autor

Akus-Szylberg Florentyna

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

autor

Przybysz Piotr

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

autor

Zawadzki Janusz

• Faculty of Wood Technology, Warsaw University of Life Sciences, Warsaw, Poland

Bibliografia

• Antczak A., Karpiński S., Zawadzki J., Radomski A., Zielenkiewicz T., Sadrak A. [2012]: Acidic cell wall hydrolysis as a method for determination of sugars profile in poplar wood material (Populus sp.). In: Zawadzki J., Waliszewska B. (eds.), Physicochemical analysis of lignocellulosic materials. Part 2. Wydawnictwo Szkoły Głownej Gospodarstwa Wiejskiego, Warszawa
• Antczak A., Radomski A., Zawadzki J. [2006]: Benzene substitution in wood analysis. Annals of Warsaw University of Life Sciences – SGGW, Forestry and Wood Technology 58: 15-19
• Antczak A., Spyszewska N., Michałuszko A., Kłosińska T., Archanowicz E. [2014]: Acid hydrolysis of poplar wood (Populus sp.). Przemysł Chemiczny 93: 1428-1431
• Antczak A., Ziętek K., Marchwicka M., Tylko B., Gawkowski A., Gawron J., Drożdżek M., Zawadzki J. [2016]: The sugars isolated from fast-growing poplar biomass (Populus sp.) as a raw material for production of bioethanol. Przemysł Chemiczny 95:1770-1773
• Buzała K., Przybysz P., Rosicka-Kaczmarek J., Kalinowska H. [2015]: Production of glucose-rich enzymatic hydrolysates from cellulosic pulps. Cellulose 22: 663-674
• Dence C.W. [1992]: The determination of lignin, In: Lin S.Y., Dence C.W. (eds.), Methods in Lignin Chemistry. Springer Verlag, Berlin
• Drapcho C.M., Nhuan N.P., Walker T.H. [2008]: Biofuels engineering process technology. McGraw Hill, New York
• Dyk J.S., Pletschke B.I. [2012]: A review of lignocellulose bioconversion using enzymatic hydrolysis and synergistic cooperation between enzymes – Factors affecting enzymes, conversion and synergy. Biotechnology Advances 30: 1458-1480
• Fay J.A., Golomb D.S. [2002]: Energy and the environment. Oxford University, New York
• Fengel D., Wegener G. [2003]: Wood. Chemistry, ultrastructure, reactions. VK, Remagen
• Gawron J., Antczak A., Borysiak S., Zawadzki J., Kupczyk A. [2014]: The study of glucose and xylose content by acid hydrolysis of ash wood (Fraxinus excelsior L.) after thermal modification in nitrogen by HPLC method. BioResources 9: 3197-3210
• Iiyama K., Wallis A.F.A. [1988]: An improved acetyl bromide procedure for determining lignin in woods and wood pulps. Wood Science and Technology 22: 271-280
• Johnson D.B., Moore W.E., Zank L.C. [1961]: The spectrophotometric determination of lignin in small wood samples. Tappi 44: 793-798
• Kačik F., Solár R. [1999]: Analiticka chemia dreva. TU, Zwoleń
• Krzyżaniak M., Stolarski M.J., Waliszewska B., Szczukowski S., Tworkowski J., Załuski D., Śnieg M. [2014]: Willow biomass as feedstock for an integrated multiproduct biorefinery. Industrial Crops and Products 58: 230-237
• Kumar P., Barrett D.M., Delwiche M.J., Stroeve P. [2009]: Methods for pretreatment of lignocellulosic biomass for efficient hydrolysis and biofuel production. Industrial and Engineering Chemistry Research 48: 3713-3729
• Kupczyk A., Sikora M., Klepacka A. [2013]: Redukcja emisji CO2 a atrakcyjność sektorów biopaliw transportowych w Polsce na przykładzie bioetanolu (Reduction of CO2 emission and the attractiveness of the transport biofuels sectors in Poland on the example of bioethanol). In: Pająk K., Ziomek A., Zwierzchlewski S. (eds.), Ekonomia i zarządzanie energią a rozwoj gospodarczy (Economics and management of energy and economic development). Wydawnictwo Adam Marszałek, Toruń
• Marton J. [1967]: Determination of lignin in small pulp and paper samples using the acetyl bromide method. Tappi 50: 335-337
• Palme A., Theliander H., Brelid H. [2016]: Acid hydrolysis of cellulosic fibres: comparison of bleached kraft pulp, dissolving pulps and cotton textile cellulose. Carbohydrate Polymers 136: 1281-1287
• Przybysz-Buzała K., Przybysz P., Kalinowska H., Przybysz K., Kucner M., Dubowik M. [2016]: Evaluation of pine kraft cellulosic pulps and fines from papermaking as potential feedstocks for biofuel production. Cellulose 23: 649-659
• Saeman J.F., Moore W.E., Mitchell R.L., Millet M.A. [1954]: Techniques for the determination of pulp constituents by quantitative paper chromatography. Tappi 37: 336--343
• Samdhu D.K., Bawa S. [1992]: Improvement of cellulase activity in Trichoderma. Applied Biochemistry and Biotechnology 34/35: 175-183
• Singh D.P., Trivedi R.K. [2013]: Acid and alkaline pretreatment of lignocellulosic biomass to produce ethanol as biofuel. International Journal of ChemTech Research 5: 727-734
• Stolarski M.J., Krzyżaniak M., Waliszewska B., Szczukowski S., Tworkowski J., Zborowska M. [2013]: Lignocellulosic biomass derived from agricultural land as industrial and energy feedstock. Drewno 56: 5-23
• Sun Y., Cheng J. [2002]: Hydrolysis of lignocellulosic materials for ethanol production: a review. Bioresource Technology 83: 1-11
• Taherzadeh M.J., Karimi K. [2007a]: Acid-based hydrolysis processes for ethanol from lignocellulosic materials: a review. BioResources 2: 472-499
• Taherzadeh M.J., Karimi K. [2007b]: Enzyme –based hydrolysis processes for ethanol from lignocellulosic materials: a review. BioResources 2: 707-738
• Willför S., Sundberg A., Pranovich A., Holmbom B. [2005]: Polysaccharides in some industrially important hardwood species. Wood Science and Technology 39: 601-617
• Wise L.E., Murphy M., D'Addieco A.A. [1946]: Chlorite holocellulose, its fractionation and bearing on summative wood analysis and on studies on the hemicelluloses. Paper Trade Journal 122: 35-43
• Wu S., Jameel H., Chang H., Philips R. [2014]: Techno-economic analysis of the optimum softwood lignin content for the production of bioethanol in a repurposed kraft mill. BioResources 9: 6817-6830
• Wyman C., Decker S., Himmel M., Brady J., Skopec C., Viikari L. [2005]: Hydrolysis of cellulose and hemicelluloses. In: Dumitriu S. (ed.), Polysaccharides: structural diversity and functional versatility. Marcel Dekker, Nowy Jork
• Zawadzki J., Radomski A., Antczak A., Kupczyk A. [2016]: Nowoczesne aspekty badawcze związane z otrzymywaniem bioetanolu z biomasy lignocelulozowej (Modern research aspects of obtaining bioethanol from lignocellulosic biomass). In: Karpiński S. (ed.), Wyniki wybranych badań przeprowadzonych w ramach projektu WOODTECH (Results of selected studies carried out within WOODTECH project). Oficyna Wydawniczo-Poligraficzna ADAM, Warszawa
• Zhang Y-H.P., Lynd L.R. [2004]: Toward an aggregated understanding of enzymatic hydrolysis of cellulose: noncomplexed cellulase systems. Biotechnology and Bioengineering 88: 797-824
• Zheng Y., Pan Z., Zhang R. [2009]: Overview of biomass pretreatment for cellulosic ethanol production. International Journal of Agricultural and Biological Engineering 2:51-68
• List of standards
• ISO 302:2015 Pulps - Determination of Kappa number

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).