IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS

IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS

<p>Lignocellulosic biomass particles in biogas fermenter batch either sediment towards vessel bottom or rise towards batch surface, where they float and form a compact thick scum. These processes have primarily the negative influence on batch homogeneity, on evenness of batch temperature field...

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Main Authors: Lukas Kratky, Tomáš Jirout
Format: Article
Language:English
Published: CTU Central Library 2014-10-01
Series:Acta Polytechnica
Online Access:https://ojs.cvut.cz/ojs/index.php/ap/article/view/2067
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spelling doaj-079a146f3d70412f820696c0f8dc2f7a2020-11-25T02:41:40ZengCTU Central LibraryActa Polytechnica1210-27091805-23632014-10-0154532533210.14311/AP.2014.54.03252123IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASSLukas Kratky0Tomáš Jirout1Czech Technical University in Prague Faculty of Mechanical Engineering Department of Process Engineering Technicka 4, 166 07 Prague 6Czech Technical University in Prague Faculty of Mechanical Engineering Department of Process Engineering Technicka 4, 166 07 Prague 6<p>Lignocellulosic biomass particles in biogas fermenter batch either sediment towards vessel bottom or rise towards batch surface, where they float and form a compact thick scum. These processes have primarily the negative influence on batch homogeneity, on evenness of batch temperature field, on removal of produced biogas bubbles out of liquid batch and also on mass transfer among microorganisms. These facts result in non-effective usage of biomass energy-potential that entails in low biogas yields. Therefore, good mixing of bioreactor batch is very important in order to stabilize anaerobic digestion process. The aims of the present study were to evaluate the impact of wheat straw disintegration and its hydration on hydrodynamic behaviour and on specific power consumption for mechanical mixing of wheat straw-water suspension. Based on experimental results, it was concluded that both hydration and mechanical disintegration of lignocellulosic biomass significantly improve homogeneity and pump-ability of biomass-water batches. Wheat straw hydration itself decreases specific power consumption for batch mixing by 60 % towards untreated straw. Moreover, mechanical disintegration itself decreases specific power consumption by 50 % at least towards untreated hydrated straw.</p>https://ojs.cvut.cz/ojs/index.php/ap/article/view/2067
collection DOAJ
language English
format Article
sources DOAJ
author Lukas Kratky
Tomáš Jirout
spellingShingle Lukas Kratky
Tomáš Jirout
IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS
Acta Polytechnica
author_facet Lukas Kratky
Tomáš Jirout
author_sort Lukas Kratky
title IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS
title_short IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS
title_full IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS
title_fullStr IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS
title_full_unstemmed IMPROVING SPECIFIC POWER CONSUMPTION FOR MECHANICAL MIXING OF THE FEEDSTOCK IN A BIOGAS FERMENTER BY MECHANICAL DISINTEGRATION OF LIGNOCELLULOSE BIOMASS
title_sort improving specific power consumption for mechanical mixing of the feedstock in a biogas fermenter by mechanical disintegration of lignocellulose biomass
publisher CTU Central Library
series Acta Polytechnica
issn 1210-2709
1805-2363
publishDate 2014-10-01
description <p>Lignocellulosic biomass particles in biogas fermenter batch either sediment towards vessel bottom or rise towards batch surface, where they float and form a compact thick scum. These processes have primarily the negative influence on batch homogeneity, on evenness of batch temperature field, on removal of produced biogas bubbles out of liquid batch and also on mass transfer among microorganisms. These facts result in non-effective usage of biomass energy-potential that entails in low biogas yields. Therefore, good mixing of bioreactor batch is very important in order to stabilize anaerobic digestion process. The aims of the present study were to evaluate the impact of wheat straw disintegration and its hydration on hydrodynamic behaviour and on specific power consumption for mechanical mixing of wheat straw-water suspension. Based on experimental results, it was concluded that both hydration and mechanical disintegration of lignocellulosic biomass significantly improve homogeneity and pump-ability of biomass-water batches. Wheat straw hydration itself decreases specific power consumption for batch mixing by 60 % towards untreated straw. Moreover, mechanical disintegration itself decreases specific power consumption by 50 % at least towards untreated hydrated straw.</p>
url https://ojs.cvut.cz/ojs/index.php/ap/article/view/2067
work_keys_str_mv AT lukaskratky improvingspecificpowerconsumptionformechanicalmixingofthefeedstockinabiogasfermenterbymechanicaldisintegrationoflignocellulosebiomass
AT tomasjirout improvingspecificpowerconsumptionformechanicalmixingofthefeedstockinabiogasfermenterbymechanicaldisintegrationoflignocellulosebiomass
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