Patrick Beuel scite author profile

Patrick Beuel

5Publications

1Citation Statement Received

74Citation Statements Given

How they've been cited

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118

Affiliations

TH Köln - University of Applied Sciences

Publications

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Anaerobic Co-Digestion of Fish Processing Waste with Cow Manure and Waste of Market (Rests of Fruits and Vegetables): A Lab Scale Batch Test

Kébé¹,

Rieker²,

Fall³

et al. 2021

JSBS

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The aim of this work was to use fish processing waste (FW) as main substrate for anaerobic digestion. To enhance the biogas production of FW, co-digestion was done with two other substrates: cow dung (CD) and waste of market (MW). Batch test was carried out in an 1 L glass digester in a temperature controlled chamber at 38˚C. The following mixtures were carried out: FW with CD respectively at different ratios 100:0% (A), 80:20% (B) and 60:40% (C); FW with MW at the following ratio 80:20% (D); FW with CD and MW respectively at these ratios 80:10:10% (F) and 60:20:20% (G). The biogas produced was measured using a milligas counter ® and the volume of gas was recorded. The gas composition was determined using gas chromatography. With a pH stable for raw substrates and mixtures, TS and VS (%TS) contents for FW were respectively 31.01% and 91.55%. Between 3 to 13 days of experimentation, the highest flow rate was observed. The percentage of methane was more important for mixtures B and D, 61% and 59% respectively. pH and VOA/TIC were stable at the end of the batch test for all mixtures, meaning that the organic matter was already well digested. The highest values of Volatile Solid Removal (VSR) were found for mixtures C, D, F and G. Therefore, the promising mixtures for next experimentations in large scale are B and D.

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Comparative Life-Cycle-Assessment of pretreatment processes for the production of biofuels from lignocellulosic residues

Beuel

Rieker

Bursche

2019

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Lignocellulosic Biorefineries: Adding compost improves the biogenic catalysis of wheat straw

Bursche

Rieker

Beuel

2019

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Biogenic Catalysis by Adding Compost when Using Wheat Straw in a Biorefinery Concept

2020

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The high content of lignocellulose limits the biodegradability of wheat straw for bioenergy production. To counteract this fact, a thermobiological pretreatment was applied to improve the utilization of lignocellulose biomasses for a biorefinery concept. The use of compost assured the growth of cellulose-degrading anaerobic microorganisms under thermophilic conditions. Results revealed a lignocellulose material degradation in all samples. Moreover, the combination of a thermobiological pretreatment under thermophilic conditions created a synergistic effect that accelerated the biomethanization of wheat straw due to the sugar compounds released during the biogenic catalysis.

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Effects of thermo-biological pretreatments on the combustion properties of wheat straw in a cascaded biorefinery concept

Beuel

Torres

Rieker

et al. 2023

Fuel

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Patrick Beuel

Anaerobic Co-Digestion of Fish Processing Waste with Cow Manure and Waste of Market (Rests of Fruits and Vegetables): A Lab Scale Batch Test

Comparative Life-Cycle-Assessment of pretreatment processes for the production of biofuels from lignocellulosic residues

Lignocellulosic Biorefineries: Adding compost improves the biogenic catalysis of wheat straw

Biogenic Catalysis by Adding Compost when Using Wheat Straw in a Biorefinery Concept

Effects of thermo-biological pretreatments on the combustion properties of wheat straw in a cascaded biorefinery concept

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