METHANE FERMENTATION OF POMACE WASTES GENERATED IN CEREAL COFFEE PRODUCTION

Authors

  • J. BOHDZIEWICZ Silesian University of Technology in Gliwice ,
  • J. CEBULA The University of Bielsko-Biała
  • K. PIOTROWSKI Silesian University of Technology in Gliwice
  • P. SAKIEWICZ Silesian University of Technology in Gliwice
  • L. PRZYWARA The University of Bielsko-Biała
  • T. PIMONENKO Sumy State University image/svg+xml

Abstract

Batch methane fermentation of pomace wastes from cereal coffee production was experimentally studied. Data were elaborated with modified Gompertz kinetic model. The 10-time increase in reactor load 5-50 g/dm3 corresponds to proportional growth of maximal biogas yield Hmax from 421.94 to 4119.37 cm3 and growth of maximum process rate Rmax from 1.0745 to 10.7379 cm3/h. Unit reactor yield (for 1 g of raw mass, dry mass and dry organic mass) decreases, however, with increase in reactor load within 5-30 g/dm3 range while unit maximum process rate turned out to be  practically load-independent.

Author Biographies

  • J. BOHDZIEWICZ, Silesian University of Technology in Gliwice,
    Ph.D., D.Sc. (Eng.), Professor
  • J. CEBULA, The University of Bielsko-Biała
    Ph.D., D.Sc. (Eng.), Associate Professor
  • K. PIOTROWSKI, Silesian University of Technology in Gliwice
    Ph.D., D.Sc. (Eng.), Assistant Professor
  • P. SAKIEWICZ, Silesian University of Technology in Gliwice
    Ph.D. (Eng.)
  • L. PRZYWARA, The University of Bielsko-Biała
    Ph.D. (Eng.)
  • T. PIMONENKO, Sumy State University
    Ph.D (Econ.)

References

Kiran E. U. Bioconversion of food waste to energy / Trzcinski A. P., Ng W. J., Liu Y. // : A review. - Fuel 134 2014 -P. 389–399.

Corro G. Generation of biogas from coffee-pulp and cow-dung co-digestion: Infrared studies of postcombustion emissions / L. Paniagua, U. Pal,

F. Banuelos, M. Rosas // Energy Conversion and Management. − 2013−P. 471–481.

Murthy P. S. Sustainable management of coffee industry by-products and value addition / Murthy P. S., Naidu M. M. // Resources, Conversion and Recycling. – 2012. – P.45–58.

Kyung-Won J. Two-stage UASB reactor converting coffee drink manufacturing wastewater to hydrogen and methane. / K. Dong-Hoon,

L. Myung-Yeol, S. Hang-Sik // Int. J. Hydr. Energy. – 2012. – P. 7473–7481.

Bonilla−Hermosa V. A. Utilization of coffee by-products obtained from semi-washed process for production of valuable-added compounds. / W. F. Duarte, R. F. Schwan // Bioresource Technolog. − 2014. – P. 142–150.

Orozco A. L. Biotechnological enhancement of coffee pulp residues by solid-state fermentation with Streptomyces. / M. I. Pérez, O. Guevara, J. Rodríguez, M. Hernández, F. J. González−Vila, O. Polvillo, M. E. Arias // Py−GC/MS analysis, J. Anal. Appl. Pyrolysis – 2008 – р. 247–252.

Worobiej E. Kawy zbożowe – charakterystyka i właściwości przeciwutleniające / K. Relidzyńska // Bromat. Chem. Toksykol., − 2011 – XLIV(3) –P. 625–629.

Lasteur M. Alternative methods for determining anaerobic biodegradability: A review. / V. Bellon-Maurel, C. Gonzalez //Process Biochemistry – 2010. – 45. –P. 431–440.

Biernat K., Technologie energetycznego wykorzystania odpadów /

P. L. I. Dziołak, Samson-Bręk // Studia Ecologiae et Bioethicae UKSW. − 2011. – 9(2) – P. 103–129.

Rajczyk K. Wpływ zwiększonej ilości biomasy w paliwie na jakość powstających popiołów lotnych / E. Giergiczny, A. Jarocka // Scientific Works of Institute of Ceramics and Building Materials − 2012 − 5(11). – P. 88–100.

Ściążko M. Zalety i wady współspalania biomasy w kotłach energetycznych na tle doświadczeń eksploatacyjnych pierwszego roku współspalania biomasy na skalę przemysłową / J. Zuwała, M. Pronobis // Energetyka i Ekologia. 2006. – P. 207–220.

Bohdziewicz J. Kinetyka chemiczna fermentacji metanowej makuchu rzepakowego. / K. Piotrowski, J. Cebula // Ekoenergetyka – Biogaz. Wyniki badań, technologie, prawo i ekonomika w rejonie Morza Bałtyckiego, edited by: A. Cenian, J. Gołaszewski, T. Noch, Wydawnictwo Gdańskiej Szkoły Wyższej. Gdańsk, 2012. – P. 24–27.

Wang J. Kinetic models for fermentative hydrogen production: / W. Wan //A review, Int. J. Hydr. Energy. − 2009 – 34. –P. 3313 – 3323.

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No. 214 (2015): (англ)

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