Research Article
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Utilization potential of poultry litter ash as phosphorus-based fertilizer

Year 2023, Volume: 6 Issue: 2, 102 - 107, 30.06.2023
https://doi.org/10.35208/ert.1243895

Abstract

A large quantity of poultry litter is globally generated as a result of expanding poultry industry. From several alternative technologies, one of the most feasible management for this waste is com-bustion, which exhausts poultry litter ash (PLA) as the main by-product. In this study, a PLA sample was examined for its utilization potential as a raw material for phosphorus-based fertilizer. According to the experimental results, Ca, P and K were determined as the major elements in the PLA sample with 29.54, 6.13 and 4.96%, respectively. Although the sample contains 2472 ppm Zn and 922 ppm Cu, their solubility determined by the leaching test is below the toxicity limit for haz-ardous waste. In terms of the major elements, about 290 mg/l Ca was detected in the leachate, re-sulting in a pH value higher than 13, whereas P concentration was found only 0.0092 mg/l. These two crucial results constitute the major difficulties for direct use of the PLA as a fertilizer. On the other hand, a usable P-rich product with low heavy metal contents and neutral pH can be obtained through acidification, heavy metal removal and neutralization processes. However, in this case, the feasibility of processes to be used should be carefully considered in economic point of view. In conclusion, direct application of the PLA sample examined as P-based fertilizer is not possible without any pre-treatments mainly due to its very high alkalinity and the low water solubility of P.

Supporting Institution

There is no supporting institution.

Project Number

There is no project related to this manuscript.

Thanks

The technical support by East Anatolia High Technology Application and Research Center (DAYTAM) is gratefully acknowledged.

References

  • I. Rech, M. Y. Kamogawa, D. L. Jones, and P. S. Pavinato, “Synthesis and characterization of struvite derived from poultry manure as a mineral fertilizer,” Journal of Environmental Management, Vol. 272, Article 111072, 2020. [CrossRef]
  • H. Kominko, K. Gorazda, and Z. Wzorek, “Formulation and evaluation of organo-mineral fertilizers based on sewage sludge optimized for maize and sunflower crops,” Waste Management, Vol. 136, pp. 57–66, 2021. [CrossRef]
  • G. Izydorczyk, A. Saeid, M. Mironiuk, A. Witek-Krowiak, K. Koziol, R. Grzesik, and K. Chojnacka, “Sustainable method of phosphorus biowaste management to innovative biofertilizers: A solution for circular economy of the future,” Sustainable Chemistry and Pharmacy, Vol. 27, Article 100634, 2022. [CrossRef]
  • H. Kominko, K. Gorazda, and Z. Wzorek, “Potentiality of sewage sludge-based organo-mineral fertilizer production in Poland considering nutrient value, heavy metal content and phytotoxicity for rapeseed crops,” Journal of Environmental Management, Vol. 248, p. 109283, 2019. [CrossRef]
  • D. S. Pandey, E. Yazhenskikh, M. Müller, M. Ziegner, A. Trubetskaya, J. J. Leahy, M. Kwapinska, “Transformation of inorganic matter in poultry litter during fluidised bed gasification,” Fuel Processing Technology, Vol. 221, Article 106918, 2021. [CrossRef]
  • F. Santos Dalólio, J. N. da Silva, A. C. Carneiro de Oliveira, I. de Fátima Ferreira Tinôco, R. C. Barbosa, M. de Oliveira Resende, L. F. Teixeira Albino, and S. T. Coelho, “Poultry litter as biomass energy: A review and future perspectives,” Renewable and Sustainable Energy Reviews, Vol. 76, pp. 941–949, 2017. [CrossRef]
  • A. A. Szogi, and M. B. Vanotti, “Prospects for phosphorus recovery from poultry litter,” Bioresource Technology, Vol. 100(22), pp. 5461–5465, 2009. [CrossRef]
  • M. S. Hussein, K. G. Burra, R. S. Amano, and A. K. Gupta, “Temperature and gasifying media effects on chicken manure pyrolysis and gasification,” Fuel, Vol. 202, pp. 36–45, 2017. [CrossRef]
  • N. Bhatnagar, D. Ryan, R. Murphy, and A. M. Enright, “A comprehensive review of green policy, anaerobic digestion of animal manure and chicken litter feedstock potential – Global and Irish perspective,” Renewable and Sustainable Energy Reviews, Vol. 154, Article 111884, 2022. [CrossRef]
  • S. Nusselder, L. G. de Graaff, I. Y. R. Odegard, C. Vandecasteele, and H. J. Croezen, “Life cycle assessment and nutrient balance for five different treatment methods for poultry litter,” Journal of Cleaner Production, Vol. 267, Article 121862, 2020. [CrossRef]
  • D. Castillo, J. C. Cruz, D. L. Trejo-Arroyo, E. M. Muzquiz, Z. Zarhri, M. P. Gurrola, and R. E. Vega-Azamar, “Characterization of poultry litter ashes as a supplementary cementitious material,” Case Studies in Construction Materials, Vol. 17, Article e01278, 2022. [CrossRef]
  • Y. Wang, Y. Lin, P. C. Chiu, P. T. Imhoff, and M. Guo, “Phosphorus release behaviors of poultry litter biochar as a soil amendment,” Science of the Total Environment, Vol. 512–513, pp. 454–463, 2015. [CrossRef]
  • J. P. Blake, and J. B. Hess, “Poultry litter ash as a replacement for dicalcium phosphate in broiler diets,” Journal of Applied Poultry Research, Vol. 23(1), pp. 101–107, 2014. [CrossRef]
  • M. Cempa, P. Olszewski, K. Wierzchowski, P. Kucharski, and B. Bialecka, “Ash from poultry manure ıncineration as a substitute for phosphorus fertiliser,” Materials (Basel), Vol. 15(9), Article 3023, 2022. [CrossRef]
  • A. Fahimi, F. Bilo, A. Assi, R. Dalipi, S. Federici, A. Guedes, B. Valentim, H. Olgun, G. Ye, B. Bialecka, L. Fiameni, L. Borgese, M. Cathelineau, M.-C. Boiron, G. Predeanu, and E. Bontempi, “Poultry litter ash characterisation and recovery,” Waste Management, Vol. 111, pp. 10–21, 2020. [CrossRef]
  • L. Luyckx, G. H. J. De Leeuw, and J. Van Caneghem, “Characterization of Poultry Litter Ash in View of Its Valorization,” Waste and Biomass Valorization, Vol. 11, pp. 5333–5348, 2020.
  • I. Acar, and M. U. Atalay, “Characterization of sintered class F fly ashes,” Fuel, Vol. 106, pp. 195–203, 2013. [CrossRef]
  • R. M. Rivera, A. Chagnes, M. Cathelineau, and M. C. Boiron, “Conditioning of poultry manure ash for subsequent phosphorous separation and assessment for a process design,” Sustainable Materials and Technologies, Vol. 31, Article e00377, 2022. [CrossRef]
  • İ. Acar, “Investigation of Ferrochromium Wastes for their Hazardous Hexavalent Chromium Content,” European Journal of Science and Technology, (27), pp. 204–209, 2021. [CrossRef]
  • Faridullah, M. Irshad, S. Yamamoto, T. Honna, and A. E. Eneji, “Characterization of trace elements in chicken and duck litter ash,” Waste Management, Vol. 29(1), pp. 265–271, 2009. [CrossRef]
  • K. Kuligowski, T. G. Poulsen, G. H. Rubæk, and P. Sørensen, “Plant-availability to barley of phosphorus in ash from thermally treated animal manure in comparison to other manure based materials and commercial fertilizer,” European Journal of Agronomy, Vol. 33(4), pp. 293–303, 2010. [CrossRef]
  • K. Kuligowski, and T. G. Poulsen, “Phosphorus and zinc dissolution from thermally gasified piggery waste ash using sulphuric acid,” Bioresource Technology, Vol. 101(14), pp. 5123–5130, 2010. [CrossRef]
  • D. S. Pandey, M. Kwapinska, J. J. Leahy, and W. Kwapinski, “Fly ash from poultry litter gasification – can it be utilised in agriculture systems as a fertiliser?,” Energy Procedia, Vol. 161, pp. 38–46, 2019. [CrossRef]
Year 2023, Volume: 6 Issue: 2, 102 - 107, 30.06.2023
https://doi.org/10.35208/ert.1243895

Abstract

Project Number

There is no project related to this manuscript.

References

  • I. Rech, M. Y. Kamogawa, D. L. Jones, and P. S. Pavinato, “Synthesis and characterization of struvite derived from poultry manure as a mineral fertilizer,” Journal of Environmental Management, Vol. 272, Article 111072, 2020. [CrossRef]
  • H. Kominko, K. Gorazda, and Z. Wzorek, “Formulation and evaluation of organo-mineral fertilizers based on sewage sludge optimized for maize and sunflower crops,” Waste Management, Vol. 136, pp. 57–66, 2021. [CrossRef]
  • G. Izydorczyk, A. Saeid, M. Mironiuk, A. Witek-Krowiak, K. Koziol, R. Grzesik, and K. Chojnacka, “Sustainable method of phosphorus biowaste management to innovative biofertilizers: A solution for circular economy of the future,” Sustainable Chemistry and Pharmacy, Vol. 27, Article 100634, 2022. [CrossRef]
  • H. Kominko, K. Gorazda, and Z. Wzorek, “Potentiality of sewage sludge-based organo-mineral fertilizer production in Poland considering nutrient value, heavy metal content and phytotoxicity for rapeseed crops,” Journal of Environmental Management, Vol. 248, p. 109283, 2019. [CrossRef]
  • D. S. Pandey, E. Yazhenskikh, M. Müller, M. Ziegner, A. Trubetskaya, J. J. Leahy, M. Kwapinska, “Transformation of inorganic matter in poultry litter during fluidised bed gasification,” Fuel Processing Technology, Vol. 221, Article 106918, 2021. [CrossRef]
  • F. Santos Dalólio, J. N. da Silva, A. C. Carneiro de Oliveira, I. de Fátima Ferreira Tinôco, R. C. Barbosa, M. de Oliveira Resende, L. F. Teixeira Albino, and S. T. Coelho, “Poultry litter as biomass energy: A review and future perspectives,” Renewable and Sustainable Energy Reviews, Vol. 76, pp. 941–949, 2017. [CrossRef]
  • A. A. Szogi, and M. B. Vanotti, “Prospects for phosphorus recovery from poultry litter,” Bioresource Technology, Vol. 100(22), pp. 5461–5465, 2009. [CrossRef]
  • M. S. Hussein, K. G. Burra, R. S. Amano, and A. K. Gupta, “Temperature and gasifying media effects on chicken manure pyrolysis and gasification,” Fuel, Vol. 202, pp. 36–45, 2017. [CrossRef]
  • N. Bhatnagar, D. Ryan, R. Murphy, and A. M. Enright, “A comprehensive review of green policy, anaerobic digestion of animal manure and chicken litter feedstock potential – Global and Irish perspective,” Renewable and Sustainable Energy Reviews, Vol. 154, Article 111884, 2022. [CrossRef]
  • S. Nusselder, L. G. de Graaff, I. Y. R. Odegard, C. Vandecasteele, and H. J. Croezen, “Life cycle assessment and nutrient balance for five different treatment methods for poultry litter,” Journal of Cleaner Production, Vol. 267, Article 121862, 2020. [CrossRef]
  • D. Castillo, J. C. Cruz, D. L. Trejo-Arroyo, E. M. Muzquiz, Z. Zarhri, M. P. Gurrola, and R. E. Vega-Azamar, “Characterization of poultry litter ashes as a supplementary cementitious material,” Case Studies in Construction Materials, Vol. 17, Article e01278, 2022. [CrossRef]
  • Y. Wang, Y. Lin, P. C. Chiu, P. T. Imhoff, and M. Guo, “Phosphorus release behaviors of poultry litter biochar as a soil amendment,” Science of the Total Environment, Vol. 512–513, pp. 454–463, 2015. [CrossRef]
  • J. P. Blake, and J. B. Hess, “Poultry litter ash as a replacement for dicalcium phosphate in broiler diets,” Journal of Applied Poultry Research, Vol. 23(1), pp. 101–107, 2014. [CrossRef]
  • M. Cempa, P. Olszewski, K. Wierzchowski, P. Kucharski, and B. Bialecka, “Ash from poultry manure ıncineration as a substitute for phosphorus fertiliser,” Materials (Basel), Vol. 15(9), Article 3023, 2022. [CrossRef]
  • A. Fahimi, F. Bilo, A. Assi, R. Dalipi, S. Federici, A. Guedes, B. Valentim, H. Olgun, G. Ye, B. Bialecka, L. Fiameni, L. Borgese, M. Cathelineau, M.-C. Boiron, G. Predeanu, and E. Bontempi, “Poultry litter ash characterisation and recovery,” Waste Management, Vol. 111, pp. 10–21, 2020. [CrossRef]
  • L. Luyckx, G. H. J. De Leeuw, and J. Van Caneghem, “Characterization of Poultry Litter Ash in View of Its Valorization,” Waste and Biomass Valorization, Vol. 11, pp. 5333–5348, 2020.
  • I. Acar, and M. U. Atalay, “Characterization of sintered class F fly ashes,” Fuel, Vol. 106, pp. 195–203, 2013. [CrossRef]
  • R. M. Rivera, A. Chagnes, M. Cathelineau, and M. C. Boiron, “Conditioning of poultry manure ash for subsequent phosphorous separation and assessment for a process design,” Sustainable Materials and Technologies, Vol. 31, Article e00377, 2022. [CrossRef]
  • İ. Acar, “Investigation of Ferrochromium Wastes for their Hazardous Hexavalent Chromium Content,” European Journal of Science and Technology, (27), pp. 204–209, 2021. [CrossRef]
  • Faridullah, M. Irshad, S. Yamamoto, T. Honna, and A. E. Eneji, “Characterization of trace elements in chicken and duck litter ash,” Waste Management, Vol. 29(1), pp. 265–271, 2009. [CrossRef]
  • K. Kuligowski, T. G. Poulsen, G. H. Rubæk, and P. Sørensen, “Plant-availability to barley of phosphorus in ash from thermally treated animal manure in comparison to other manure based materials and commercial fertilizer,” European Journal of Agronomy, Vol. 33(4), pp. 293–303, 2010. [CrossRef]
  • K. Kuligowski, and T. G. Poulsen, “Phosphorus and zinc dissolution from thermally gasified piggery waste ash using sulphuric acid,” Bioresource Technology, Vol. 101(14), pp. 5123–5130, 2010. [CrossRef]
  • D. S. Pandey, M. Kwapinska, J. J. Leahy, and W. Kwapinski, “Fly ash from poultry litter gasification – can it be utilised in agriculture systems as a fertiliser?,” Energy Procedia, Vol. 161, pp. 38–46, 2019. [CrossRef]
There are 23 citations in total.

Details

Primary Language English
Subjects Environmental Engineering
Journal Section Research Articles
Authors

İlker Acar 0000-0001-9439-1580

Project Number There is no project related to this manuscript.
Publication Date June 30, 2023
Submission Date February 1, 2023
Acceptance Date May 9, 2023
Published in Issue Year 2023 Volume: 6 Issue: 2

Cite

APA Acar, İ. (2023). Utilization potential of poultry litter ash as phosphorus-based fertilizer. Environmental Research and Technology, 6(2), 102-107. https://doi.org/10.35208/ert.1243895
AMA Acar İ. Utilization potential of poultry litter ash as phosphorus-based fertilizer. ERT. June 2023;6(2):102-107. doi:10.35208/ert.1243895
Chicago Acar, İlker. “Utilization Potential of Poultry Litter Ash As Phosphorus-Based Fertilizer”. Environmental Research and Technology 6, no. 2 (June 2023): 102-7. https://doi.org/10.35208/ert.1243895.
EndNote Acar İ (June 1, 2023) Utilization potential of poultry litter ash as phosphorus-based fertilizer. Environmental Research and Technology 6 2 102–107.
IEEE İ. Acar, “Utilization potential of poultry litter ash as phosphorus-based fertilizer”, ERT, vol. 6, no. 2, pp. 102–107, 2023, doi: 10.35208/ert.1243895.
ISNAD Acar, İlker. “Utilization Potential of Poultry Litter Ash As Phosphorus-Based Fertilizer”. Environmental Research and Technology 6/2 (June 2023), 102-107. https://doi.org/10.35208/ert.1243895.
JAMA Acar İ. Utilization potential of poultry litter ash as phosphorus-based fertilizer. ERT. 2023;6:102–107.
MLA Acar, İlker. “Utilization Potential of Poultry Litter Ash As Phosphorus-Based Fertilizer”. Environmental Research and Technology, vol. 6, no. 2, 2023, pp. 102-7, doi:10.35208/ert.1243895.
Vancouver Acar İ. Utilization potential of poultry litter ash as phosphorus-based fertilizer. ERT. 2023;6(2):102-7.