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A critical review of the applicability of biodiesel and grass biomethane as biofuels to satisfy both biofuel targets and sustainability criteria

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  • Thamsiriroj, Thanasit
  • Murphy, Jerry D.

Abstract

There are numerous ways to assess and compare biofuels. Gross energy per hectare reflects the quantity of product produced per unit of land. Net energy per hectare reflects the parasitic demand associated with the product per hectare. Gross and net energy per hectare are far superior for grass biomethane than rape seed biodiesel. For a biofuel made from residues the descriptor (MJ of biofuel produced per GJ of fossil fuel displaced) is more instructive; this reflects the relative efficiency of the biofuel. Of issue in the assessment is how to deal with co-products, by-products and residues. The allocation methodology allows for a variety of answers to be generated. UCO biodiesel has a good energy balance for any allocation approach; tallow biodiesel has a poor net energy unless credit is given for the co-production of meat and bone meal as a substitute fuel. To be deemed sustainable by the EU Renewable Energy Directive a value of 60% GHG savings is required for facilities built post 2017. A further crucial consideration is: how much fuel can be produced? This study shows that indigenous biodiesel produced in Ireland and grass biomethane may be deemed sustainable but only grass biomethane may produce a significant quantity, potentially satisfying the 10% renewable energy in transport target for 2020 as opposed to only 1.23% in total from all indigenous biodiesel systems.

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  • Thamsiriroj, Thanasit & Murphy, Jerry D., 2011. "A critical review of the applicability of biodiesel and grass biomethane as biofuels to satisfy both biofuel targets and sustainability criteria," Applied Energy, Elsevier, vol. 88(4), pages 1008-1019, April.
    • Handle: RePEc:eee:appene:v:88:y:2011:i:4:p:1008-1019
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    References listed on IDEAS

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    2. Hosseinzadeh-Bandbafha, Homa & Nizami, Abdul-Sattar & Kalogirou, Soteris A. & Gupta, Vijai Kumar & Park, Young-Kwon & Fallahi, Alireza & Sulaiman, Alawi & Ranjbari, Meisam & Rahnama, Hassan & Aghbashl, 2022. "Environmental life cycle assessment of biodiesel production from waste cooking oil: A systematic review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 161(C).
    3. Vo, Truc T.Q. & Xia, Ao & Wall, David M. & Murphy, Jerry D., 2017. "Use of surplus wind electricity in Ireland to produce compressed renewable gaseous transport fuel through biological power to gas systems," Renewable Energy, Elsevier, vol. 105(C), pages 495-504.
    4. Santori, Giulio & Di Nicola, Giovanni & Moglie, Matteo & Polonara, Fabio, 2012. "A review analyzing the industrial biodiesel production practice starting from vegetable oil refining," Applied Energy, Elsevier, vol. 92(C), pages 109-132.
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    6. Koponen, Kati & Soimakallio, Sampo & Tsupari, Eemeli & Thun, Rabbe & Antikainen, Riina, 2013. "GHG emission performance of various liquid transportation biofuels in Finland in accordance with the EU sustainability criteria," Applied Energy, Elsevier, vol. 102(C), pages 440-448.
    7. Thamsiriroj, T. & Smyth, H. & Murphy, J.D., 2011. "A roadmap for the introduction of gaseous transport fuel: A case study for renewable natural gas in Ireland," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(9), pages 4642-4651.
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    9. Czyrnek-Delêtre, Magdalena M. & Smyth, Beatrice M. & Murphy, Jerry D., 2017. "Beyond carbon and energy: The challenge in setting guidelines for life cycle assessment of biofuel systems," Renewable Energy, Elsevier, vol. 105(C), pages 436-448.
    10. Hong, Jin Gi & Zhang, Wen & Luo, Jian & Chen, Yongsheng, 2013. "Modeling of power generation from the mixing of simulated saline and freshwater with a reverse electrodialysis system: The effect of monovalent and multivalent ions," Applied Energy, Elsevier, vol. 110(C), pages 244-251.
    11. Moretti, Christian & Moro, Alberto & Edwards, Robert & Rocco, Matteo Vincenzo & Colombo, Emanuela, 2017. "Analysis of standard and innovative methods for allocating upstream and refinery GHG emissions to oil products," Applied Energy, Elsevier, vol. 206(C), pages 372-381.
    12. Browne, James & Nizami, Abdul-Sattar & Thamsiriroj, T & Murphy, Jerry D., 2011. "Assessing the cost of biofuel production with increasing penetration of the transport fuel market: A case study of gaseous biomethane in Ireland," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(9), pages 4537-4547.
    13. Kwon, Eilhann E. & Jeon, Eui-Chan & Yi, Haakrho & Kim, Sungpyo, 2014. "Transforming duck tallow into biodiesel via noncatalytic transesterification," Applied Energy, Elsevier, vol. 116(C), pages 20-25.
    14. Buratti, C. & Barbanera, M. & Fantozzi, F., 2013. "Assessment of GHG emissions of biomethane from energy cereal crops in Umbria, Italy," Applied Energy, Elsevier, vol. 108(C), pages 128-136.
    15. Manninen, Kaisa & Koskela, Sirkka & Nuppunen, Anni & Sorvari, Jaana & Nevalainen, Olli & Siitonen, Sari, 2013. "The applicability of the renewable energy directive calculation to assess the sustainability of biogas production," Energy Policy, Elsevier, vol. 56(C), pages 549-557.
    16. Gray, Nathan & O'Shea, Richard & Smyth, Beatrice & Lens, Piet N.L. & Murphy, Jerry D., 2022. "What is the energy balance of electrofuels produced through power-to-fuel integration with biogas facilities?," Renewable and Sustainable Energy Reviews, Elsevier, vol. 155(C).

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