Experimental Study of the Pressure Agglomeration Process of Coal and Plant-Based Waste

[1] Obidziński S., Joka M., Bieńczak A., Jadwisieńczak K. (2017). Tests of the process of post-production onion waste pelleting. Journal of Research and Applications in Agricultural Engineering, 62(2), 89–92. Obidziński S. Joka M. Bieńczak A. Jadwisieńczak K. 2017 Tests of the process of post-production onion waste pelleting Journal of Research and Applications in Agricultural Engineering 62 2 89 92 Search in Google Scholar

[2] Official Journal EU L 312, 22.11.2008. Official Journal EU L 312 22.11.2008 10.1080/02668730802102724 Search in Google Scholar

[3] Obidziński S. (2009). Badania procesu zagęszczania wycierki ziemniaczanej (Research of the process of thickening potato pulp). Acta Agrophysica, 14(2), 383–392. Obidziński S. 2009 Badania procesu zagęszczania wycierki ziemniaczanej (Research of the process of thickening potato pulp) Acta Agrophysica 14 2 383 392 Search in Google Scholar

[4] Nielsen N.P.K., Holm J.K., Felby C. (2009). Effect of fiber orientation on compression and frictional properties of sawdust particles in fuel pellet production. Energ & Fuel, 23(6), 3211–3216. Nielsen N.P.K. Holm J.K. Felby C. 2009 Effect of fiber orientation on compression and frictional properties of sawdust particles in fuel pellet production Energ & Fuel 23 6 3211 3216 10.1021/ef800923v Search in Google Scholar

[5] Kulig R., Laskowski J. (2008). Energy requirements for pelleting of chosen feed materials with relation to the material coarseness. TEKA Kom. Mot. Energ. Roln., 8, 115–120. Kulig R. Laskowski J. 2008 Energy requirements for pelleting of chosen feed materials with relation to the material coarseness TEKA Kom. Mot. Energ. Roln. 8 115 120 Search in Google Scholar

[6] Mani, S., Tabil L.G., Sokhansanj S. (2006). Specific energy requirement for compacting corn stover. Bioresource Technology, 97, 1420–1426. Mani S. Tabil L.G. Sokhansanj S. 2006 Specific energy requirement for compacting corn stover Bioresource Technology 97 1420 1426 10.1016/j.biortech.2005.06.019 Search in Google Scholar

[7] Larsson S.H., Thyrel M., Geladi P., Lestander T. A. (2008). High quality biofuel pellet production from pre-compacted low density raw material. Bioresource Technology, 99, 7176–7182. Larsson S.H. Thyrel M. Geladi P. Lestander T. A. 2008 High quality biofuel pellet production from pre-compacted low density raw material Bioresource Technology 99 7176 7182 10.1016/j.biortech.2007.12.065 Search in Google Scholar

[8] Shaw M.D., Tabil L.G. (2007). Compression and relaxation characteristics of selected biomass grinds. Presented at the ASAE Annual International Meeting, June 17–20, 2007, Inneapolis, MN. ASAE, 2950 Niles Road, St. Joseph, MI 49085-9659, USA. ASAE Paper No. 076183. Shaw M.D. Tabil L.G. 2007 Compression and relaxation characteristics of selected biomass grinds Presented at the ASAE Annual International Meeting, June 17–20, 2007, Inneapolis, MN ASAE, 2950 Niles Road, St. Joseph, MI 49085-9659, USA ASAE Paper No. 076183 Search in Google Scholar

[9] Sokhansanj, S., Mani S., Bi X., Zaini P., Tabil L., (2005). Binderless pelletization of biomass. Presented at the ASAE Annual International Meeting, July 17–20, 2005, Tampa, FL. ASAE Paper No. 056061. ASAE, 2950 Niles Road, St. Joseph, MI 49085-9659 USA. Sokhansanj S. Mani S. Bi X. Zaini P. Tabil L. 2005 Binderless pelletization of biomass Presented at the ASAE Annual International Meeting, July 17–20, 2005, Tampa, FL ASAE Paper No. 056061 ASAE, 2950 Niles Road, St. Joseph, MI 49085-9659 USA 10.13031/2013.19922 Search in Google Scholar

[10] Mediavilla I., Fernández M.J., Esteban L.S. (2009). Optimization of pelletisation and combustion in a boiler of 17.5 kWth for vine shoots and industrial cork residue. Fuel Process. Technol. 90, 621–628. Mediavilla I. Fernández M.J. Esteban L.S. 2009 Optimization of pelletisation and combustion in a boiler of 17.5 kWth for vine shoots and industrial cork residue Fuel Process. Technol. 90 621 628 10.1016/j.fuproc.2008.12.009 Search in Google Scholar

[11] O’Dogherty M.J, Wheeler J.A. (1984). Compression of straw to high densities in closed cylindrical dies. J, Agric. Eng. Res. 29(1), 61–72. O’Dogherty M.J Wheeler J.A. 1984 Compression of straw to high densities in closed cylindrical dies J, Agric. Eng. Res. 29 1 61 72 10.1016/0021-8634(84)90061-1 Search in Google Scholar

[12] Finney K.N., Sharifi V.N., Swithenbank J. (2009). Fuel pelletisation with a binder: Part I – Identification of a suitable binder for spent mushroom compost – coal tailing pellets. Energy & Fuels 23, 3195–3202. Finney K.N. Sharifi V.N. Swithenbank J. 2009 Fuel pelletisation with a binder: Part I – Identification of a suitable binder for spent mushroom compost – coal tailing pellets Energy & Fuels 23 3195 3202 10.1021/ef900020k Search in Google Scholar

[13] Gilbert P., Ryu C., Sharifi V., Swithenbank J. (2009). Effect of process parameters on pelletisation of herbaceous crops. Fuel 88, 1491–1497. Gilbert P. Ryu C. Sharifi V. Swithenbank J. 2009 Effect of process parameters on pelletisation of herbaceous crops Fuel 88 1491 1497 10.1016/j.fuel.2009.03.015 Search in Google Scholar

[14] Chou C.S., Lin S.H., Lu W.C. (2009). Preparation and characterization of solid biomass fuel made from rice straw and rice bran. Fuel Processing Technology, 90, 980–987. Chou C.S. Lin S.H. Lu W.C. 2009 Preparation and characterization of solid biomass fuel made from rice straw and rice bran Fuel Processing Technology 90 980 987 10.1016/j.fuproc.2009.04.012 Search in Google Scholar

[15] Chou C.S., Lin S.H., Peng C. C., Lu W.C. (2009). The optimum conditions for preparing solid fuel briquette of rice straw by a piston-mold process using the Taguchi method. Fuel Processing Technology 90, 1041–1046. Chou C.S. Lin S.H. Peng C. C. Lu W.C. 2009 The optimum conditions for preparing solid fuel briquette of rice straw by a piston-mold process using the Taguchi method Fuel Processing Technology 90 1041 1046 10.1016/j.fuproc.2009.04.007 Search in Google Scholar

[16] Obidziński S., Joka M., Luto E., Bieńczak A. (2017). Research of the densification process of post-harvest tobacco waste. Journal of Research and Applications in Agricultural Engineering 62(1), 149–154. Obidziński S. Joka M. Luto E. Bieńczak A. 2017 Research of the densification process of post-harvest tobacco waste Journal of Research and Applications in Agricultural Engineering 62 1 149 154 Search in Google Scholar

[17] Razuan R., Finney K.N., Chen Q., Sharifi V.N., Swithenbank J. (2011). Pelletised fuel production from palm kernel cake. Fuel Processing Technology 92, 609–615. Razuan R. Finney K.N. Chen Q. Sharifi V.N. Swithenbank J. 2011 Pelletised fuel production from palm kernel cake Fuel Processing Technology 92 609 615 10.1016/j.fuproc.2010.11.018 Search in Google Scholar

[18] Obidziński S. (2011). Badania procesu zagęszczania odpadów tytoniowych (Research on the process of compacting tobacco waste). Inż. Ap. Chem., 50(1), 29–30. Obidziński S. 2011 Badania procesu zagęszczania odpadów tytoniowych (Research on the process of compacting tobacco waste) Inż. Ap. Chem. 50 1 29 30 Search in Google Scholar

[19] Polish Norm PN-ISO 6496: 2002. Polish Norm PN-ISO 6496 2002 Search in Google Scholar