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Co-Combustion of Animal Waste in a Commercial Waste-to-Energy BFB Boiler

Author

Listed:
  • Farzad Moradian

    (School of Engineering, University of Borås, Allégatan 1, 50190 Borås, Sweden)

  • Anita Pettersson

    (School of Engineering, University of Borås, Allégatan 1, 50190 Borås, Sweden)

  • Solvie Herstad Svärd

    (Scandinavian Energy Project AB, Rullagergatan 4, 41526 Göteborg, Sweden)

  • Tobias Richards

    (School of Engineering, University of Borås, Allégatan 1, 50190 Borås, Sweden)

Abstract

Co-combustion of animal waste, in waste-to-energy boilers, is considered a method to produce both heat and power and to dispose of possibly infected animal wastes. This research conducted full-scale combustion tests to identify the impact of changed fuel composition on a fluidized-bed boiler. The impact was characterized by analyzing the deposit formation rate, deposit composition, ash composition, and emissions. Two combustion tests, denoted the reference case and animal waste case, were performed based on different fuel mixes. In the reference case, a normal solid waste fuel mix was combusted in the boiler, containing sorted industry and household waste. In the animal waste case, 20 wt% animal waste was added to the reference fuel mix. The collected samples, comprising sampling probe deposits, fuel mixes, bed ash, return sand, boiler ash, cyclone ash and filter ash, were analyzed using chemical fractionation, SEM-EDX and XRD. The results indicate decreased deposit formation due to animal waste co-combustion. SEM-EDX and chemical fractionation identified higher concentrations of P, Ca, S, and Cl in the bed materials in the animal waste case. Moreover, the risk of bed agglomeration was lower in the animal waste case and also a decreased rate of NO x and SO 2 emissions were observed.

Suggested Citation

  • Farzad Moradian & Anita Pettersson & Solvie Herstad Svärd & Tobias Richards, 2013. "Co-Combustion of Animal Waste in a Commercial Waste-to-Energy BFB Boiler," Energies, MDPI, vol. 6(12), pages 1-18, November.
    • Handle: RePEc:gam:jeners:v:6:y:2013:i:12:p:6170-6187:d:30823
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    Citations

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    Cited by:

    1. Radovan Nosek & Maw Maw Tun & Dagmar Juchelkova, 2020. "Energy Utilization of Spent Coffee Grounds in the Form of Pellets," Energies, MDPI, vol. 13(5), pages 1-8, March.
    2. Sae Byul Kang & Bong Suk Sim & Jong Jin Kim, 2017. "Volume and Mass Measurement of a Burning Wood Pellet by Image Processing," Energies, MDPI, vol. 10(5), pages 1-13, May.
    3. Khoshnevisan, Benyamin & Duan, Na & Tsapekos, Panagiotis & Awasthi, Mukesh Kumar & Liu, Zhidan & Mohammadi, Ali & Angelidaki, Irini & Tsang, Daniel CW. & Zhang, Zengqiang & Pan, Junting & Ma, Lin & Ag, 2021. "A critical review on livestock manure biorefinery technologies: Sustainability, challenges, and future perspectives," Renewable and Sustainable Energy Reviews, Elsevier, vol. 135(C).
    4. Kang, Sae Byul & Oh, Hong Young & Kim, Jong Jin & Choi, Kyu Sung, 2017. "Characteristics of spent coffee ground as a fuel and combustion test in a small boiler (6.5 kW)," Renewable Energy, Elsevier, vol. 113(C), pages 1208-1214.
    5. Wendi Chen & Fei Wang & Altaf Hussain Kanhar, 2017. "Sludge Acts as a Catalyst for Coal during the Co-Combustion Process Investigated by Thermogravimetric Analysis," Energies, MDPI, vol. 10(12), pages 1-11, December.

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