Effect of salt and sodium concentration on the anaerobic methanisation of the halophyte Tripolium pannonicum

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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OriginalspracheEnglisch
Seiten (von - bis)69-77
Seitenumfang9
FachzeitschriftBiomass and bioenergy
Jahrgang87
PublikationsstatusVeröffentlicht - 1 Apr. 2016

Abstract

The halophyte species Sea Aster (Tripolium pannonicum) was grown with different concentrations of artificial seawater. In a second experiment, T. pannonicum was cultivated with a nutrient solution containing different concentrations of NaCl. This halophyte biomass was used to determine the biogas production potential. According to the findings, it is possible to produce high yields of methane using biomass from halophytes cultivated in the presence of salt. Biogas and methane yield are influenced by the salt content of the plant tissue, however, high concentrations of salt in the anaerobic reactors itself inhibit the biogas and methane production. The highest methane yield is obtained using plant substrates grown at 22.5 g L-1 sea-salt with a value of 313 cm3 g-1 of VS. When treating T. pannonicum with different concentrations of NaCl, biogas and methane yields are highest when using plant substrates grown at 30 g L-1 to produce values of 554 cm3 g-1 of VS and 447 cm3 g-1 of VS, respectively. Other research was carried out to study the effect of sodium on the biogas and methane yields using substrate from T. pannonicum cultured under non-saline conditions and adding different amounts of NaCl to the anaerobic reactors. Adding NaCl to the reactors decreases the biogas and methane production but using a salt-adapted inoculum increases the biogas yield in comparison to the non-adapted inoculum.

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Effect of salt and sodium concentration on the anaerobic methanisation of the halophyte Tripolium pannonicum. / Turcios, Ariel E.; Weichgrebe, Dirk; Papenbrock, Jutta.
in: Biomass and bioenergy, Jahrgang 87, 01.04.2016, S. 69-77.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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title = "Effect of salt and sodium concentration on the anaerobic methanisation of the halophyte Tripolium pannonicum",
abstract = "The halophyte species Sea Aster (Tripolium pannonicum) was grown with different concentrations of artificial seawater. In a second experiment, T. pannonicum was cultivated with a nutrient solution containing different concentrations of NaCl. This halophyte biomass was used to determine the biogas production potential. According to the findings, it is possible to produce high yields of methane using biomass from halophytes cultivated in the presence of salt. Biogas and methane yield are influenced by the salt content of the plant tissue, however, high concentrations of salt in the anaerobic reactors itself inhibit the biogas and methane production. The highest methane yield is obtained using plant substrates grown at 22.5 g L-1 sea-salt with a value of 313 cm3 g-1 of VS. When treating T. pannonicum with different concentrations of NaCl, biogas and methane yields are highest when using plant substrates grown at 30 g L-1 to produce values of 554 cm3 g-1 of VS and 447 cm3 g-1 of VS, respectively. Other research was carried out to study the effect of sodium on the biogas and methane yields using substrate from T. pannonicum cultured under non-saline conditions and adding different amounts of NaCl to the anaerobic reactors. Adding NaCl to the reactors decreases the biogas and methane production but using a salt-adapted inoculum increases the biogas yield in comparison to the non-adapted inoculum.",
keywords = "Anaerobic digestion, Halophyte plants, Microbial adaptation, Renewable energy, Sodium inhibition, Tripolium pannonicum",
author = "Turcios, {Ariel E.} and Dirk Weichgrebe and Jutta Papenbrock",
note = "Funding information: Financial support of Ariel Turcios by the DAAD and the Universidad de San Carlos de Guatemala (Personal identification number: 91548278 funding programme: ALEGUA ( 57049520 )) is gratefully acknowledged. We would like to thank Paul Stopp for his valuable assistance, Dr. Corinna Lorey, for her help with the gas chromatography analysis, the Institute for Sanitary Engineering and Waste Management, Leibniz University Hannover, the gardeners Yvonne Leye and Lutz Kr{\"u}ger, for taking care of the plants, and Hillary Cirka for correcting the English language.",
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TY - JOUR

T1 - Effect of salt and sodium concentration on the anaerobic methanisation of the halophyte Tripolium pannonicum

AU - Turcios, Ariel E.

AU - Weichgrebe, Dirk

AU - Papenbrock, Jutta

N1 - Funding information: Financial support of Ariel Turcios by the DAAD and the Universidad de San Carlos de Guatemala (Personal identification number: 91548278 funding programme: ALEGUA ( 57049520 )) is gratefully acknowledged. We would like to thank Paul Stopp for his valuable assistance, Dr. Corinna Lorey, for her help with the gas chromatography analysis, the Institute for Sanitary Engineering and Waste Management, Leibniz University Hannover, the gardeners Yvonne Leye and Lutz Krüger, for taking care of the plants, and Hillary Cirka for correcting the English language.

PY - 2016/4/1

Y1 - 2016/4/1

N2 - The halophyte species Sea Aster (Tripolium pannonicum) was grown with different concentrations of artificial seawater. In a second experiment, T. pannonicum was cultivated with a nutrient solution containing different concentrations of NaCl. This halophyte biomass was used to determine the biogas production potential. According to the findings, it is possible to produce high yields of methane using biomass from halophytes cultivated in the presence of salt. Biogas and methane yield are influenced by the salt content of the plant tissue, however, high concentrations of salt in the anaerobic reactors itself inhibit the biogas and methane production. The highest methane yield is obtained using plant substrates grown at 22.5 g L-1 sea-salt with a value of 313 cm3 g-1 of VS. When treating T. pannonicum with different concentrations of NaCl, biogas and methane yields are highest when using plant substrates grown at 30 g L-1 to produce values of 554 cm3 g-1 of VS and 447 cm3 g-1 of VS, respectively. Other research was carried out to study the effect of sodium on the biogas and methane yields using substrate from T. pannonicum cultured under non-saline conditions and adding different amounts of NaCl to the anaerobic reactors. Adding NaCl to the reactors decreases the biogas and methane production but using a salt-adapted inoculum increases the biogas yield in comparison to the non-adapted inoculum.

AB - The halophyte species Sea Aster (Tripolium pannonicum) was grown with different concentrations of artificial seawater. In a second experiment, T. pannonicum was cultivated with a nutrient solution containing different concentrations of NaCl. This halophyte biomass was used to determine the biogas production potential. According to the findings, it is possible to produce high yields of methane using biomass from halophytes cultivated in the presence of salt. Biogas and methane yield are influenced by the salt content of the plant tissue, however, high concentrations of salt in the anaerobic reactors itself inhibit the biogas and methane production. The highest methane yield is obtained using plant substrates grown at 22.5 g L-1 sea-salt with a value of 313 cm3 g-1 of VS. When treating T. pannonicum with different concentrations of NaCl, biogas and methane yields are highest when using plant substrates grown at 30 g L-1 to produce values of 554 cm3 g-1 of VS and 447 cm3 g-1 of VS, respectively. Other research was carried out to study the effect of sodium on the biogas and methane yields using substrate from T. pannonicum cultured under non-saline conditions and adding different amounts of NaCl to the anaerobic reactors. Adding NaCl to the reactors decreases the biogas and methane production but using a salt-adapted inoculum increases the biogas yield in comparison to the non-adapted inoculum.

KW - Anaerobic digestion

KW - Halophyte plants

KW - Microbial adaptation

KW - Renewable energy

KW - Sodium inhibition

KW - Tripolium pannonicum

UR - http://www.scopus.com/inward/record.url?scp=84959275749&partnerID=8YFLogxK

U2 - 10.1016/j.biombioe.2016.01.013

DO - 10.1016/j.biombioe.2016.01.013

M3 - Article

AN - SCOPUS:84959275749

VL - 87

SP - 69

EP - 77

JO - Biomass and bioenergy

JF - Biomass and bioenergy

SN - 0961-9534

ER -

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