publication . Article . 2018

The opportunities for obtaining of the biogas on methane fermentation from marine algae biomass and water plant biomass

Ewa Jachniak; Joanna Chmura; Mariusz Kuglarz; Józef Wiktor;
Open Access
  • Published: 01 Jan 2018 Journal: BIO Web of Conferences, volume 10, page 1,007 (eissn: 2117-4458, Copyright policy)
  • Publisher: EDP Sciences
Abstract
<jats:p>The aim of the research was to try to obtain of the biogas on a laboratory scale from marine algae biomass and water plant biomass. The research was conducted in 2016 year and samples were taken from the Polish coast of the Baltic Sea. In laboratory work, algae and plant species were first identified. The next, in order to subject them to methane fermentation processes and to obtain biogas,partial mechanical treatment of the biomass was conducted. Dry matter content and dry organic matter content were also determined. The research has shown different production of the biogas depending on the various species of the algae and plants. The percentage composi...
Persistent Identifiers
Subjects
free text keywords: Aquatic plant, Agronomy, Biogas, Carbon dioxide, chemistry.chemical_compound, chemistry, Fucus vesiculosus, biology.organism_classification, biology, Cladophora, Organic matter, chemistry.chemical_classification, Biomass, Algae, lcsh:Microbiology, lcsh:QR1-502, lcsh:Physiology, lcsh:QP1-981, lcsh:Zoology, lcsh:QL1-991
Related Organizations
25 references, page 1 of 2

1. A. Hossain, A. Salleh, Am. J. Biochem. Biotech. 4, (3) (2008)

2. M. Frąc, S. Jezierska-Tys, J. Tys, Ac. Agroph. 13, (3) (2009)

3. J. Bień, M. Zabochnicka-Świątek, L. Sławik, Inż. i Ochr. Środ. 13, (3) (2010)

4. G. Jard, C. Dumas, J.P. Delgenes, H. Marfaing, B. Sialve, J.P. Steyer, H. Carrčre, Biochem. Eng. Jour. 79 (2013)

5. Y. N. Barbot, H. M. Falk, R. Benz, J. Appl. Phycol. 27 (2015)

6. Y. N. Barbot, L. Thomsen, R. Benz, Mar. Drugs 13 (2015)

7. M. Dębowski, A. Grala, M. Zieliński, M. Dudek, Archiv. of Environmental Protection 38, (4) (2012)

8. T. Kobayashi, Y.-P. Wu, Z.-J. Lu, K.-Q. Xu, Energies 8 (2015)

9. W. W. Carmichael, Świat Nauki 3 (1994)

10. B. Rakowska, M. Sitkowska, E. Szczepocka, B. Szulc, Ocean. and Hydrobiol. Stud. 34, (1) (2005)

11. H. Bucka, E. Wilk-Woźniak,Glony pro- i eukariotyczne zbiorowisk fitoplanktonu w zbiornikach wodnych Polski Południowej (Instytut Ochrony Przyrody - PAN, Kraków, 2007)

12. I. Michalak, R. Wilk, K. Chojnacka, Waste Biom. Valor. 8 (2017)

13. I. Sanseverino, D. Conduto, L. Pozzoli, S. Dobricic, T. Lettieri, Algal bloom and its economic impact (JRC Technical Reports, 2016)

14. N. Wasmund, Harmful algal blooms in coastal waters of the south-eastern Baltic Sea. In: G. Schernewski et al., Baltic Coastal Ecosystems (Springer-Verlag Berlin Heidelberg, 2002) [OpenAIRE]

15. M. Koyama, S. Yamamoto, K. Ishikawa, S. Ban, T. Toda, Ecol. Eng. 69 (2014)

25 references, page 1 of 2
Abstract
<jats:p>The aim of the research was to try to obtain of the biogas on a laboratory scale from marine algae biomass and water plant biomass. The research was conducted in 2016 year and samples were taken from the Polish coast of the Baltic Sea. In laboratory work, algae and plant species were first identified. The next, in order to subject them to methane fermentation processes and to obtain biogas,partial mechanical treatment of the biomass was conducted. Dry matter content and dry organic matter content were also determined. The research has shown different production of the biogas depending on the various species of the algae and plants. The percentage composi...
Persistent Identifiers
Subjects
free text keywords: Aquatic plant, Agronomy, Biogas, Carbon dioxide, chemistry.chemical_compound, chemistry, Fucus vesiculosus, biology.organism_classification, biology, Cladophora, Organic matter, chemistry.chemical_classification, Biomass, Algae, lcsh:Microbiology, lcsh:QR1-502, lcsh:Physiology, lcsh:QP1-981, lcsh:Zoology, lcsh:QL1-991
Related Organizations
25 references, page 1 of 2

1. A. Hossain, A. Salleh, Am. J. Biochem. Biotech. 4, (3) (2008)

2. M. Frąc, S. Jezierska-Tys, J. Tys, Ac. Agroph. 13, (3) (2009)

3. J. Bień, M. Zabochnicka-Świątek, L. Sławik, Inż. i Ochr. Środ. 13, (3) (2010)

4. G. Jard, C. Dumas, J.P. Delgenes, H. Marfaing, B. Sialve, J.P. Steyer, H. Carrčre, Biochem. Eng. Jour. 79 (2013)

5. Y. N. Barbot, H. M. Falk, R. Benz, J. Appl. Phycol. 27 (2015)

6. Y. N. Barbot, L. Thomsen, R. Benz, Mar. Drugs 13 (2015)

7. M. Dębowski, A. Grala, M. Zieliński, M. Dudek, Archiv. of Environmental Protection 38, (4) (2012)

8. T. Kobayashi, Y.-P. Wu, Z.-J. Lu, K.-Q. Xu, Energies 8 (2015)

9. W. W. Carmichael, Świat Nauki 3 (1994)

10. B. Rakowska, M. Sitkowska, E. Szczepocka, B. Szulc, Ocean. and Hydrobiol. Stud. 34, (1) (2005)

11. H. Bucka, E. Wilk-Woźniak,Glony pro- i eukariotyczne zbiorowisk fitoplanktonu w zbiornikach wodnych Polski Południowej (Instytut Ochrony Przyrody - PAN, Kraków, 2007)

12. I. Michalak, R. Wilk, K. Chojnacka, Waste Biom. Valor. 8 (2017)

13. I. Sanseverino, D. Conduto, L. Pozzoli, S. Dobricic, T. Lettieri, Algal bloom and its economic impact (JRC Technical Reports, 2016)

14. N. Wasmund, Harmful algal blooms in coastal waters of the south-eastern Baltic Sea. In: G. Schernewski et al., Baltic Coastal Ecosystems (Springer-Verlag Berlin Heidelberg, 2002) [OpenAIRE]

15. M. Koyama, S. Yamamoto, K. Ishikawa, S. Ban, T. Toda, Ecol. Eng. 69 (2014)

25 references, page 1 of 2
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