Development of a production chain from vegetable biowaste to platform chemicals

Schmidt, Annemarie; Sturm, Gunnar; Lapp, Christian Jonas; Siebert, Daniel; Saravia, Florencia; Horn, Harald; Ravi, Padma Priya; Lemmer, Andreas; Gescher, Johannes

doi:10.1186/s12934-018-0937-4

Cited by 16 publications

(7 citation statements)

References 60 publications

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“…The cyclic voltammogram (CV) for the bulk solution shows one oxidation and two reduction peaks under non-turnover conditions, similar to all anaerobic reactors (Figure a). The redox peaks of the CV indicate electrochemically active substances that include biotic and abiotic redox substances. ,,, EEB and EMA belong to the biotic redox substances, and there are several types of abiotic substances, including flavins, quinones, and humic substances. , The redox peak potentials for EEB and EMA are known to be in the range −0.20 to 0.41 V versus Ag/AgCl and −0.07 to −0.41 V versus Ag/AgCl, respectively. ,, For AC, the oxidation peak was 0.01 V versus Ag/AgCl, and there were two reduction peaks at 0.17 and −0.38 V versus Ag/AgCl. The oxidation peak and the second reduction peak appeared to be the activities of EEB and EMA, based on their reported potential ranges (Figure a).…”

Section: Results and Discussionmentioning

confidence: 99%

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Electrostatic Fields Promote Methanogenesis More than Polarized Bioelectrodes in Anaerobic Reactors with Conductive Materials

Song

Bae

et al. 2021

ACS Omega

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Direct interspecies electron transfer (DIET) is a breakthrough that can surpass the limitations of anaerobic digestion. Conductive materials and polarized bioelectrodes are known to induce DIET for methane production but are still challenging to apply at a field scale. Herein, compared to polarized bioelectrodes, electrostatic fields that promote DIET were investigated in an anaerobic reactor with conductive materials. As a conductive material, activated carbon enriched its surface with electroactive microorganisms to induce DIET (cDIET). cDIET improved the methane yield to 254.6 mL/g CODr, compared to the control. However, polarized bioelectrodes induced electrode-mediated DIET and biological DIET (bDIET), in addition to cDIET, improving the methane yield to 310.7 mL/g CODr. Electrostatic fields selectively promoted bDIET and cDIET for further methane production compared to the polarized bioelectrodes. As the contribution of DIET increased, the methane yield increased, and the substrate residue decreased, resulting in a significant improvement in methane production.

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Section: Results and Discussionmentioning

confidence: 99%

“…However, Porphyromonadaceae_uc and Cloacamonas acidaminovorans were more abundant bacterial species in AC, ACPB, and ACEF than control. The family Porphyromonadaceae is an obligately anaerobic fermenter producing acetate C.…”

Section: Results and Discussionmentioning

confidence: 99%

Electrostatic Fields Promote Methanogenesis More than Polarized Bioelectrodes in Anaerobic Reactors with Conductive Materials

Song

Bae

et al. 2021

ACS Omega

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“…Propionic acid (PA) and its salts are widely used in industries including agricultural, pharmaceutical and food as antifungal agents 1, 2 . It also can be employed as precursor for the biotechnological production of value‐added compounds, such as acetoin 3 and, thus, has been listed as an important platform chemical since the early 2000s 4 . Currently, most of the PA production around the world is by chemical synthesis through the oxidation of petrochemical raw materials such as propane or propionaldehyde 5 .…”

Section: Introductionmentioning

confidence: 99%

“…Acidic hydrolysis is an alternative method that has gained greater attention for PA production from available renewable sources, such as organic waste. It is increasingly being applied with a focus on biohydrogen production, a process known as dark fermentation, in which organic waste is utilized to generate renewable energy 3 . However, the separation of single volatile fatty acids (VFA) from complex effluents such as the fermentation broth remains a challenge, owing to the complex nature and the presence of various organics 6 .…”

Section: Introductionmentioning

confidence: 99%

“…It is increasingly being applied with a focus on biohydrogen production, a process known as dark fermentation, in which organic waste is utilized to generate renewable energy. 3 However, the separation of single volatile fatty acids (VFA) from complex effluents such as the fermentation broth remains a challenge, owing to the complex nature and the presence of various organics. 6 Techniques such as electrodialysis, 7 reactive extraction, 8 reverse osmosis, 9 nanofiltration 10 and adsorption 11 have been investigated to separate and concentrate these acids from aqueous solution and fermentation broth.…”

Section: Introductionmentioning

confidence: 99%

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Enhanced production of propionic acid through acidic hydrolysis by choice of inoculum

Ali

Saravia

Hille-Reichel

et al. 2020

J of Chemical Tech & Biotech

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BACKGROUND: In this study, the enhancement of propionic acid production from a model feedstock mimicking kitchen waste was investigated. For that purpose, two operational runs of a semicontinuous anaerobic hydrolysis reactor were carried out at pH 6.0 ± 0.1 and mesophilic (30°C) temperature. Two different types of inocula, a mixed microbial culture selected over 24 months for growth on cellulose and a culture contained in goat cheese were compared. RESULTS: The results show that the goat cheese inoculum was significantly more efficient for propionic acid (PA) production. The highest propionic acid concentration achieved amounted to 139 mmol L −1 at a yield of 23.3 mg g −1 volatile solids (VS), which was 55% greater than what was achieved with the mixed culture. Furthermore, it was observed that propionic acid production was enhanced by a combination of high hydraulic retention time (HRT) with low organic loading rate (OLR), ensuring sufficient time for complete processing of the complex organic substrates. The fermentation could be kept in a stable process of propionic acid production at HRT of 20 days and a rather low OLR of 11.1 g L −1 day −1 VS. CONCLUSION: Our results give a better understanding of PA production in semicontinuous mode, applying optimized process parameters and selecting the adequate microbial community for inoculation. This study provides important information for the improvement of PA production from complex substrates for future industrial application.

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