Impact of Miscanthus x giganteus senescence times on fast pyrolysis bio-oil quality

M. Mos; Scott W. Banks; Daniel J. Nowakowski; P.R.H. Robson; A.V. Bridgwater; Iain S. Donnison

doi:10.1016/j.biortech.2012.11.069

Impact of Miscanthus x giganteus senescence times on fast pyrolysis bio-oil quality

M. Mos, Scott W. Banks, Daniel J. Nowakowski, P.R.H. Robson, A.V. Bridgwater, Iain S. Donnison

Research output: Contribution to journal › Article › peer-review

Abstract

In this study the impact of senescence and harvest time in Miscanthus on the quality of fast pyrolysis liquid (bio-oil) was investigated. Bio-oil was produced using a 1kgh fast pyrolysis reactor to obtain a quantity of bio-oil comparable with existing industrial reactors. Bio-oil stability was measured using viscosity, water content, pH and heating value changes under specific conditions. Plant developmental characteristics were significantly different (P=0.05) between all harvest points. The stage of crop senescence was correlated with nutrient remobilisation (N, P, K; r=0.9043, r=0.9920, r=0.9977 respectively) and affected bio-oil quality. Harvest time and senescence impacted bio-oil quality and stability. For fast pyrolysis processing of Miscanthus, the harvest time of Miscanthus can be extended to cover a wider harvest window whilst still maintaining bio-oil quality but this may impact mineral depletion in, and long term sustainability of, the crop unless these minerals can be recycled.

Original language	English
Pages (from-to)	335-342
Number of pages	8
Journal	Bioresource Technology
Volume	129
Early online date	29 Nov 2012
DOIs	https://doi.org/10.1016/j.biortech.2012.11.069
Publication status	Published - 1 Feb 2013

Bibliographical note

Funding: SUPERGEN Bioenergy II Consortium under Engineering and Physical Sciences Research Council, UK (EPSRC) [EP/E039995/1]; Engineering and Physical Sciences Research Council - EPSRC [GR/S28204]; EPSRC DTA award; Biotechnology and Biological Sciences Research Council (BBSRC) Institute Strategic Programme grant [BBSEG00003134]

Keywords

miscanthus x giganteus
senescence
nitrogen remobilisation
fast pyrolysis
bio-oil stability

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10.1016/j.biortech.2012.11.069

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title = "Impact of Miscanthus x giganteus senescence times on fast pyrolysis bio-oil quality",

abstract = "In this study the impact of senescence and harvest time in Miscanthus on the quality of fast pyrolysis liquid (bio-oil) was investigated. Bio-oil was produced using a 1kgh fast pyrolysis reactor to obtain a quantity of bio-oil comparable with existing industrial reactors. Bio-oil stability was measured using viscosity, water content, pH and heating value changes under specific conditions. Plant developmental characteristics were significantly different (P=0.05) between all harvest points. The stage of crop senescence was correlated with nutrient remobilisation (N, P, K; r=0.9043, r=0.9920, r=0.9977 respectively) and affected bio-oil quality. Harvest time and senescence impacted bio-oil quality and stability. For fast pyrolysis processing of Miscanthus, the harvest time of Miscanthus can be extended to cover a wider harvest window whilst still maintaining bio-oil quality but this may impact mineral depletion in, and long term sustainability of, the crop unless these minerals can be recycled.",

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note = "Funding: SUPERGEN Bioenergy II Consortium under Engineering and Physical Sciences Research Council, UK (EPSRC) [EP/E039995/1]; Engineering and Physical Sciences Research Council - EPSRC [GR/S28204]; EPSRC DTA award; Biotechnology and Biological Sciences Research Council (BBSRC) Institute Strategic Programme grant [BBSEG00003134]",

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AU - Banks, Scott W.

AU - Nowakowski, Daniel J.

AU - Robson, P.R.H.

AU - Bridgwater, A.V.

AU - Donnison, Iain S.

N1 - Funding: SUPERGEN Bioenergy II Consortium under Engineering and Physical Sciences Research Council, UK (EPSRC) [EP/E039995/1]; Engineering and Physical Sciences Research Council - EPSRC [GR/S28204]; EPSRC DTA award; Biotechnology and Biological Sciences Research Council (BBSRC) Institute Strategic Programme grant [BBSEG00003134]

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N2 - In this study the impact of senescence and harvest time in Miscanthus on the quality of fast pyrolysis liquid (bio-oil) was investigated. Bio-oil was produced using a 1kgh fast pyrolysis reactor to obtain a quantity of bio-oil comparable with existing industrial reactors. Bio-oil stability was measured using viscosity, water content, pH and heating value changes under specific conditions. Plant developmental characteristics were significantly different (P=0.05) between all harvest points. The stage of crop senescence was correlated with nutrient remobilisation (N, P, K; r=0.9043, r=0.9920, r=0.9977 respectively) and affected bio-oil quality. Harvest time and senescence impacted bio-oil quality and stability. For fast pyrolysis processing of Miscanthus, the harvest time of Miscanthus can be extended to cover a wider harvest window whilst still maintaining bio-oil quality but this may impact mineral depletion in, and long term sustainability of, the crop unless these minerals can be recycled.

AB - In this study the impact of senescence and harvest time in Miscanthus on the quality of fast pyrolysis liquid (bio-oil) was investigated. Bio-oil was produced using a 1kgh fast pyrolysis reactor to obtain a quantity of bio-oil comparable with existing industrial reactors. Bio-oil stability was measured using viscosity, water content, pH and heating value changes under specific conditions. Plant developmental characteristics were significantly different (P=0.05) between all harvest points. The stage of crop senescence was correlated with nutrient remobilisation (N, P, K; r=0.9043, r=0.9920, r=0.9977 respectively) and affected bio-oil quality. Harvest time and senescence impacted bio-oil quality and stability. For fast pyrolysis processing of Miscanthus, the harvest time of Miscanthus can be extended to cover a wider harvest window whilst still maintaining bio-oil quality but this may impact mineral depletion in, and long term sustainability of, the crop unless these minerals can be recycled.

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Impact of Miscanthus x giganteus senescence times on fast pyrolysis bio-oil quality

Abstract

Bibliographical note

Keywords

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