[en] Three different types of Mediterranean, agro-industrial wastes (olive kernels, grape pomace/seeds, peach kernels), were subjected to two pretreatment processes, a chemical/organosolv and a physicochemical one. The organosolv process included lignocellulosic biomass treatment with formic acid/acetic acid/water (30/50/20, v/v%), for 3 h at 107 °C, while the physicochemical method was conducted by immersing the biomass in a water/ethanol (8/92, v/v%), H2SO4 0.32 M, solvent and further exposing the slurry to microwave irradiation (maximum 250 W) for 1/2 h at 150 °C. Both processes were evaluated regarding the achieved delignification and the purity of the extracted lignins. The effect of the pretreatment processes onto the structure and thermal decomposition behavior of the extracted lignins was investigated via FT-IR and TGA analysis, respectively. The objective of the research work was to investigate potential valorization routes for these biomass agro-residues in the context of a biorefinery, focusing on lignin extraction. The pretreatment results showed that the obtained lignins, derived from both procedures, were of high purity (>82 wt%). Under the organosolv procedure, peach kernel delignification showed the maximum value (∼16 wt%), while under microwave pretreatment, olive kernel delignification showed the maximum value (∼35 wt%). Grape pomace/seeds appeared to be the most resistant in both treatments.
Disciplines :
Physical, chemical, mathematical & earth Sciences: Multidisciplinary, general & others
Author, co-author :
Manara, Panagiota; Department of Chemical Engineering, Aristotle University of Thessaloniki, Univ. Box 455, 24154 Thessaloniki, Greece
Zabaniotou, Anastasia; Department of Chemical Engineering, Aristotle University of Thessaloniki, Univ. Box 455, 24154 Thessaloniki, Greece
Vanderghem, Caroline ; Université de Liège - ULiège > Chimie et bio-industries > Chimie biologique industrielle
Richel, Aurore ; Université de Liège - ULiège > Chimie et bio-industries > Chimie biologique industrielle
Language :
English
Title :
Lignin extraction from Mediterranean agro-wastes: Impact of pretreatment conditions on lignin chemical structure and thermal degradation behavior
Han, S., Baigude, H., Hattori, K., Yoshida, T., Uryu, T., (2007) Carbohydrate Polymers, 68 (1), pp. 26-34
Holladay, J.E., Bozell, J.J., White, J.F., Johnson, D., (2007) Top Value Added Chemicals from Biomass - Volume II - Results of Screening for Potential Candidates from Biorefinery Lignin, , PNNL-16983, Pacific Northwest National Laboratory and the National Renewable Energy Laboratory Richland, WA
Gandini, A., Belgacem, M.N., Lignins as components of macromolecular materials (2008) Polymers and Composites from Renewable Resources, pp. 243-271. , M.N. Belgacem, A. Gandini, Monomers Elsevier Amsterdam
Abe, A., Dusek, K., Kobayashi, S., Hatakeyama, H., Hatakeyama, T., Lignin, T., Structure, properties, and applications (2010) Biopolymers, 232, pp. 1-63. , Springer Berlin/Heidelberg
Sahoo, S., Seydibeyoglu, M.O., Mohanty, A.K., Misra, M., (2011) Biomass and Bioenergy, 35, pp. 4230-4237
Gosselink, R.J.A., (2011) Lignin As A Renewable Aromatic Resource for the Chemical Industry, , Wageningen University Wageningen, NL ISBN: 978-94-6173-100-5 (PhD Thesis)
Zabaniotou, A.A., Skoulou, V.K., Mertzis, D.P., Koufodimos, G.S., Samaras, Z.C., (2011) Industrial and Engineering Chemistry Research, 50, pp. 602-608
Damartzis, T., Michailos, S., Zabaniotou, A., (2012) Fuel Processing Technology, 95, pp. 37-44
Ehrman, T., (1994) Standard Method for the Determination of Total Solids in Biomass, , National Renewable Energy Laboratory Golden, CO (Laboratory Analytical Procedure)
Sluiter, A., Ruiz, R., Scarlata, C., Sluiter, J., Templeton, D., (2008) Determination of Extractives in Biomass, , National Renewable Energy Laboratory
Golden, CO (Laboratory Analytical Procedure)
Sluiter, A., Hames, B., Ruiz, R., Scarlata, C., Sluiter, J., Templeton, D., (2005) Determination of Ash in Biomass, , National Renewable Energy Laboratory Golden, CO (Laboratory Analytical Procedure)
Sluiter, A., Hames, B., Ruiz, R., Scarlata, C., Sluiter, J., Templeton, D., (2008) Determination of Structural Carbohydrates and Lignin in Biomass, , National Renewable Energy Laboratory Golden, CO (Laboratory Analytical Procedure)
Tkachuk, R., Calculation of the nitrogen-to-protein conversion factor (1997) Nutritional Standards and Methods of Evaluation for Food Legume Breeders, pp. 78-82. , J.H. Hulse, K.O. Rachie, L.W. Billingsley, Bernan Associates Lanham
Lam, H.Q., Le Bigot, Y., Delmas, M., Avignon, G., (2001) Industrial Crops and Products, 4, pp. 139-144
Hames, B.R., Biomass compositional analysis for energy applications (2009) Biofuels, Methods in Molecular Biology, 581, pp. 145-167. , J.R. Mielenz, Humana Press/Springer New York
Zhao, X., Cheng, K., Liu, D., (2009) Applied Microbiology and Biotechnology, 82, pp. 815-827
Richel, A., Laurent, P., Wathelet, B., Wathelet, J.-P., Paquot, M., (2011) Comptes Rendus Chimie, 14, pp. 224-234
El Hage, R., Brosse, N., Sannigrahi, P., Ragauskas, A., (2010) Polymer Degradation and Stability, 95 (6), pp. 997-1003
Villaverde, J.J., Li, J., Ek, M., Ligero, P., De Vega, A., (2009) Journal of Agricultural and Food Chemistry, 57, pp. 6262-6270
Serrano, L., Egües, I., Alriols, M.G., Llano-Ponter, R., Labidi, J., (2010) Chemical Engineering Journal, 156 (1), pp. 49-55
Sun, R.C., Tomkinson, J., Bolton, J., (1999) Polymer Degradation and Stability, 63 (2), pp. 195-200
Sakakibara, A., Sano, Y., Chemistry of lignin (2001) Wood and Cellulosic Chemistry, pp. 109-173. , D.N.-S. Hon, S. Nobuo, Marcel Dekker Inc New York, Basel
Gupta, R., Lee, Y.Y., (2010) Bioresource Technology, 101, pp. 8185-8191
Liu, Q., Wang, S., Zheng, Y., Luo, Z., Cen, K., (2008) Journal of Analytical and Applied Pyrolysis, 82, pp. 170-177
Pasquali, C.E.L., Herrera, H., (1997) Thermochimica Acta, 293, pp. 39-46
Damartzis, T., Zabaniotou, A., (2011) Renewable and Sustainable Energy Reviews, 15 (1), pp. 366-378
Damartzis, Th., Vamvuka, D., Sfakiotakis, S., Zabaniotou, A., (2011) Bioresource Technology, 102 (10), pp. 6230-6238
Zabaniotou, A., Ioannidou, O., Antonakou, E., Lappas, A., (2008) International Journal of Hydrogen Energy, 33, pp. 2433-2444
Abdullah, S.S., Yusup, S., Ahmad, M.M., Ramli, A., Ismail, L., (2010) International Journal of Chemical and Biological Engineering, 3 (3), pp. 14-37
Yang, H.P., Yan, R., Chen, H.P., Lee, D.H., Zheng, C.G., (2007) Fuel, 86, pp. 1781-1788
Wu, Y., Zhao, Z., Li, H., He, F., (2009) Journal of Fuel Chemistry and Technology, 37 (4), pp. 427-432
Uslu, A., Faaij, A.P.C., Bergman, P.C.A., (2008) Energy, 33 (1), pp. 1206-1223
Kebelmann, K., Hornung, A., Karsten, U., Grifïths, G., (2013) Biomass and Bioenergy, 49, pp. 38-48
Huber, G.W., Iborraand, S., Corma, A., (2006) Chemical Reviews, 106, pp. 4044-4098
Jae, J., Tompsett, G.A., Lin, Y.-C., Carlson, T.R., Shen, J., Zhang, T., Yang, B., Huber, G.W., (2010) Energy and Environmental Science, 3, pp. 358-365
