Grass Biomethane for Agriculture and Energy

N.E. Korres, T. Thamsiriroj, B. Smith, A.S. Nizami, Anoop Singh, J.D. Murphy

    Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

    Abstract

    Many factors enforce the intensification of grassland utilization which is associated with significant environmental impacts subjected to various legislative constraints. Nevertheless, the need for diversification in agricultural production and the sustainability in energy within the European Union have advanced the role of grassland as a renewable source of energy in grass biomethane production with various environmental and socio-economic benefits. It is underlined that the essential question whether the gaseous biofuel meets the EU sustainability criteria of 60% greenhouse gas emission savings by 2020 can be met since savings up to 89.4% under various scenarios can be achieved. Grass biomethane production compared to other liquid biofuels either when these are produced by indigenous of imported feedstocks is very promising. Grass biomethane, given the mature and well known technology in agronomy and anaerobic digestion sectors and the need for rural development and sustainable energy production, is an attractive solution that fulfils many legislative, agronomic and environmental requirements.
    Original languageEnglish
    Title of host publicationGenetics, Biofuels and Local Farming Systems
    EditorsE. Lichtfouse
    Number of pages426
    PublisherSpringer Science+Business Media
    Publication date2011
    Pages5-49
    Publication statusPublished - 2011
    SeriesSustainable Agriculture Reviews
    Number1, 7

    Keywords

    • Life cycle assessment
    • Pasture management
    • Grass silage
    • Grass
    • Anaerobic digestion
    • Legislation
    • Biomethane
    • Biofuels

    Cite this

    Korres, N. E., Thamsiriroj, T., Smith, B., Nizami, A. S., Singh, A., & Murphy, J. D. (2011). Grass Biomethane for Agriculture and Energy. In E. Lichtfouse (Ed.), Genetics, Biofuels and Local Farming Systems (pp. 5-49). Springer Science+Business Media. Sustainable Agriculture Reviews, No. 1, 7
    Korres, N.E. ; Thamsiriroj, T. ; Smith, B. ; Nizami, A.S. ; Singh, Anoop ; Murphy, J.D. / Grass Biomethane for Agriculture and Energy. Genetics, Biofuels and Local Farming Systems. editor / E. Lichtfouse. Springer Science+Business Media, 2011. pp. 5-49 (Sustainable Agriculture Reviews; No. 1, 7).
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    Korres, NE, Thamsiriroj, T, Smith, B, Nizami, AS, Singh, A & Murphy, JD 2011, Grass Biomethane for Agriculture and Energy. in E Lichtfouse (ed.), Genetics, Biofuels and Local Farming Systems. Springer Science+Business Media, Sustainable Agriculture Reviews, no. 1, 7, pp. 5-49.

    Grass Biomethane for Agriculture and Energy. / Korres, N.E.; Thamsiriroj, T.; Smith, B.; Nizami, A.S.; Singh, Anoop; Murphy, J.D.

    Genetics, Biofuels and Local Farming Systems. ed. / E. Lichtfouse. Springer Science+Business Media, 2011. p. 5-49 (Sustainable Agriculture Reviews; No. 1, 7).

    Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

    TY - CHAP

    T1 - Grass Biomethane for Agriculture and Energy

    AU - Korres, N.E.

    AU - Thamsiriroj, T.

    AU - Smith, B.

    AU - Nizami, A.S.

    AU - Singh, Anoop

    AU - Murphy, J.D.

    PY - 2011

    Y1 - 2011

    N2 - Many factors enforce the intensification of grassland utilization which is associated with significant environmental impacts subjected to various legislative constraints. Nevertheless, the need for diversification in agricultural production and the sustainability in energy within the European Union have advanced the role of grassland as a renewable source of energy in grass biomethane production with various environmental and socio-economic benefits. It is underlined that the essential question whether the gaseous biofuel meets the EU sustainability criteria of 60% greenhouse gas emission savings by 2020 can be met since savings up to 89.4% under various scenarios can be achieved. Grass biomethane production compared to other liquid biofuels either when these are produced by indigenous of imported feedstocks is very promising. Grass biomethane, given the mature and well known technology in agronomy and anaerobic digestion sectors and the need for rural development and sustainable energy production, is an attractive solution that fulfils many legislative, agronomic and environmental requirements.

    AB - Many factors enforce the intensification of grassland utilization which is associated with significant environmental impacts subjected to various legislative constraints. Nevertheless, the need for diversification in agricultural production and the sustainability in energy within the European Union have advanced the role of grassland as a renewable source of energy in grass biomethane production with various environmental and socio-economic benefits. It is underlined that the essential question whether the gaseous biofuel meets the EU sustainability criteria of 60% greenhouse gas emission savings by 2020 can be met since savings up to 89.4% under various scenarios can be achieved. Grass biomethane production compared to other liquid biofuels either when these are produced by indigenous of imported feedstocks is very promising. Grass biomethane, given the mature and well known technology in agronomy and anaerobic digestion sectors and the need for rural development and sustainable energy production, is an attractive solution that fulfils many legislative, agronomic and environmental requirements.

    KW - Life cycle assessment

    KW - Pasture management

    KW - Grass silage

    KW - Grass

    KW - Anaerobic digestion

    KW - Legislation

    KW - Biomethane

    KW - Biofuels

    M3 - Book chapter

    SP - 5

    EP - 49

    BT - Genetics, Biofuels and Local Farming Systems

    A2 - Lichtfouse, E.

    PB - Springer Science+Business Media

    ER -

    Korres NE, Thamsiriroj T, Smith B, Nizami AS, Singh A, Murphy JD. Grass Biomethane for Agriculture and Energy. In Lichtfouse E, editor, Genetics, Biofuels and Local Farming Systems. Springer Science+Business Media. 2011. p. 5-49. (Sustainable Agriculture Reviews; No. 1, 7).