Utilization of surplus electricity from wind power for dynamic biogas upgrading: Northern Germany case study

Lars Jurgensen; Ehiazesebhor Augustine Ehimen; Jens  Born; Jens Bo Holm-Nielsen

doi:10.1016/j.biombioe.2014.02.032

Utilization of surplus electricity from wind power for dynamic biogas upgrading: Northern Germany case study

Lars Jurgensen, Ehiazesebhor Augustine Ehimen, Jens Born, Jens Bo Holm-Nielsen

AAU Energy

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Abstract

The methanation of CO2 has been increasingly discussed for the potential long term storage of electricity and for facilitating grid load management. Using the regions of northern Germany as a case study, the feasibility of CO2 conversion from biogas plants and its integration in existing natural gas grid was examined in this study. Furthermore the material and energy flows of in the methanation process, were evaluated to provide expression for the quantities of excess electrical energy which could be potentially stored using the biogas integrated systems. The study results showed that with 480 biogas plants in the region would be able to utilize up to 0.7 TWh surplus electricity could be used to produce 100 106 m3 at standard temperature and pressure of upgraded methane per year.

Original language	English
Journal	Biomass & Bioenergy
Volume	66
Pages (from-to)	126-132
Number of pages	7
ISSN	0961-9534
DOIs	https://doi.org/10.1016/j.biombioe.2014.02.032
Publication status	Published - Jul 2014

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title = "Utilization of surplus electricity from wind power for dynamic biogas upgrading: Northern Germany case study",

abstract = "The methanation of CO2 has been increasingly discussed for the potential long term storage of electricity and for facilitating grid load management. Using the regions of northern Germany as a case study, the feasibility of CO2 conversion from biogas plants and its integration in existing natural gas grid was examined in this study. Furthermore the material and energy flows of in the methanation process, were evaluated to provide expression for the quantities of excess electrical energy which could be potentially stored using the biogas integrated systems. The study results showed that with 480 biogas plants in the region would be able to utilize up to 0.7 TWh surplus electricity could be used to produce 100 106 m3 at standard temperature and pressure of upgraded methane per year.",

author = "Lars Jurgensen and Ehimen, {Ehiazesebhor Augustine} and Jens Born and Holm-Nielsen, {Jens Bo}",

year = "2014",

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doi = "10.1016/j.biombioe.2014.02.032",

language = "English",

volume = "66",

pages = "126--132",

journal = "Biomass & Bioenergy",

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T1 - Utilization of surplus electricity from wind power for dynamic biogas upgrading

T2 - Northern Germany case study

AU - Jurgensen, Lars

AU - Ehimen, Ehiazesebhor Augustine

AU - Born, Jens

AU - Holm-Nielsen, Jens Bo

PY - 2014/7

Y1 - 2014/7

N2 - The methanation of CO2 has been increasingly discussed for the potential long term storage of electricity and for facilitating grid load management. Using the regions of northern Germany as a case study, the feasibility of CO2 conversion from biogas plants and its integration in existing natural gas grid was examined in this study. Furthermore the material and energy flows of in the methanation process, were evaluated to provide expression for the quantities of excess electrical energy which could be potentially stored using the biogas integrated systems. The study results showed that with 480 biogas plants in the region would be able to utilize up to 0.7 TWh surplus electricity could be used to produce 100 106 m3 at standard temperature and pressure of upgraded methane per year.

AB - The methanation of CO2 has been increasingly discussed for the potential long term storage of electricity and for facilitating grid load management. Using the regions of northern Germany as a case study, the feasibility of CO2 conversion from biogas plants and its integration in existing natural gas grid was examined in this study. Furthermore the material and energy flows of in the methanation process, were evaluated to provide expression for the quantities of excess electrical energy which could be potentially stored using the biogas integrated systems. The study results showed that with 480 biogas plants in the region would be able to utilize up to 0.7 TWh surplus electricity could be used to produce 100 106 m3 at standard temperature and pressure of upgraded methane per year.

U2 - 10.1016/j.biombioe.2014.02.032

DO - 10.1016/j.biombioe.2014.02.032

M3 - Journal article

SN - 0961-9534

VL - 66

SP - 126

EP - 132

JO - Biomass & Bioenergy

JF - Biomass & Bioenergy

ER -

Utilization of surplus electricity from wind power for dynamic biogas upgrading: Northern Germany case study

Abstract

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