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Journal ArticleDOI

Bioreactor Performance in Anaerobic Digestion of Fruit and Vegetable Wastes

H. Bouallagui1, H. Bouallagui2, Youssef Touhami2, R. Ben Cheikh1, Moktar Hamdi2 
École Normale Supérieure1, Institut national des sciences appliquées2
10 May 2005-ChemInform (WILEY‐VCH Verlag)-Vol. 36, Iss: 19
TL;DR: In this article, the potential of anaerobic digestion for material recovery and energy production from fruit and vegetable wastes (FVW) was studied under different operating conditions using different types of bioreactors.
Abstract: This work reviews the potential of anaerobic digestion for material recovery and energy production from fruit and vegetable wastes (FVW). These wastes contain 8–18% total solids (TS), with a total volatile solids (VS) content of 86–92%. The organic fraction includes about 75% easy biodegradable matter (sugars and hemicellulose), 9% cellulose and 5% lignin. Anaerobic digestion of FVW was studied under different operating conditions using different types of bioreactors. It permits the conversion of 70–95% of organic matter to methane, with a volumetric organic loading rate (OLR) o f 1–6.8 g versatile solids (VS)/l day. A major limitation of anaerobic digestion of FVW is a rapid acidification of these wastes decreasing the pH in the reactor, and a larger volatile fatty acids production (VFA), which stress and inhibit the activity of methanogenic bacteria. Continuous two-phase systems appear as more highly efficient technologies for anaerobic digestion of FVW. Their greatest advantage lies in the buffering of the organic loading rate taking place in the first stage, allowing a more constant feeding rate of the methanogenic second stage. Using a two-stage system involving a thermophilic liquefaction reactor and a mesophilic anaerobic filter, over 95% volatile solids were converted to methane at a volumetric loading rate of 5.65 g VS/l d. The average methane production yield was about 420 l/kg added VS.
Citations
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Journal ArticleDOI
The anaerobic digestion of solid organic waste

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Azeem Khalid1, Muhammad Arshad2, Muzammil Anjum1, Tariq Mahmood1, Lorna Dawson3 
Pir Mehr Ali Shah Arid Agriculture University1, University of Agriculture, Faisalabad2, James Hutton Institute3
01 Aug 2011-Waste Management
TL;DR: This manuscript provides a broad overview of the digestibility and energy production (biogas) yield of a range of substrates and the digester configurations that achieve these yields.

856 citations

Cites background or methods from "Bioreactor Performance in Anaerobic..."

  • ...…of bioreactors, along with a variety of methanizers such as continuously stirred tank bioreactor, tubular bioreactor, anaerobic sequencing batch bioreactor, up flow anaerobic sludge blanket and anaerobic filters are applied for the treatment of different types of waste (Bouallagui et al., 2005)....

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  • ...All the above three types of bioreactors, along with a variety of methanizers such as continuously stirred tank bioreactor, tubular bioreactor, anaerobic sequencing batch bioreactor, up flow anaerobic sludge blanket and anaerobic filters are applied for the treatment of different types of waste (Bouallagui et al., 2005)....

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  • ...The production of fruit and vegetable waste is also very high and becoming a source of concern in municipal landfills because of its high biodegradability (Bouallagui et al., 2005)....

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Journal ArticleDOI
Food waste-to-energy conversion technologies: Current status and future directions

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Thi Phuong Thuy Pham1, Rajni Kaushik1, Ganesh K. Parshetti1, Russell Mahmood1, Rajasekhar Balasubramanian1 
National University of Singapore1
01 Apr 2015-Waste Management
TL;DR: The present review synthesizes the current knowledge available in the use of technologies for food-waste-to-energy conversion involving biological, thermal and thermochemical technologies and proposes future directions for more effective utilization of food waste for renewable energy generation from an interdisciplinary perspective.

485 citations

Journal ArticleDOI
Investigation into the effect of high concentrations of volatile fatty acids in anaerobic digestion on methanogenic communities.

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Ingrid H. Franke-Whittle1, Andreas Walter1, Christian Ebner, Heribert Insam1
University of Innsbruck1
01 Nov 2014-Waste Management
TL;DR: Different methanogenic communities in mesophilic and thermophilic reactors do not cause major changes in archaeal communities, and real-time PCR indicated greater diversity than ANAEROCHIP microarray.

400 citations

Cites background from "Bioreactor Performance in Anaerobic..."

  • ...The reduction in pH can inhibit the growth of methanogens (Bouallagui et al., 2005; Ye et al., 2013)....

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Journal ArticleDOI
Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review.

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Obuli P. Karthikeyan1, Chettiyappan Visvanathan2
National University of Singapore1, Asian Institute of Technology2
01 Sep 2013-Reviews in Environmental Science and Bio\/technology
TL;DR: In this article, the authors provide existing knowledge and research advances in D-AnBioC systems to treat high-solid organic substrates (OS), identify major issues involved in bioreactor designing, present factors influencing the bio-conversion efficiency, and discuss the microbiology of system operation.
Abstract: Dry anaerobic bio-conversion (D-AnBioC) of high-solid organic substrates (OS) is considered as a sustainable option for waste management practices in different parts of the world. The basic technology is well implemented, but the improvements are still under way in terms of optimization and pre- and post-treatments of the feed and end-products, respectively. The purpose of this review is mainly to: (1) provide existing knowledge and research advances in D-AnBioC systems to treat high-solid OS; (2) identify major issues involved in bioreactor designing; (3) present factors influencing the bio-conversion efficiency; (4) discuss the microbiology of system operation; (5) provide examples of existing commercial-scale plants; (6) discuss energy and economics requirements. From the detailed literature review, it is clear that the characteristics of OS are the major factors governing the overall process and economics. It shows that not all OS are profitably recycled using D-AnBioC systems. Compared to single-stage continuous systems, batch systems under a multi-stage configuration appears to be economically feasible, however, it must be noted that the available data sets are still inconclusive. Also, limited information is available on green house gas mitigation and restoration of nutrients from the digested residue during post-treatment schemes. A summary at the end presents important research gaps of D-AnBioC system to direct future research.

313 citations

Cites background from "Bioreactor Performance in Anaerobic..."

  • ...The production of fruit and vegetable waste is also considered as an important matter with regard to existing disposal practices (Bouallagui et al. 2005)....

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Journal ArticleDOI
Influence of total solid and inoculum contents on performance of anaerobic reactors treating food waste

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Tânia Forster-Carneiro1, Montserrat Pérez1, L.I. Romero1
University of Cádiz1
01 Oct 2008-Bioresource Technology
TL;DR: The best performance for food waste biodegradation and methane generation was the reactor with 20% of total solid and 30% of inoculum: give rise to an acclimation stage with acidogenic/acetogenic activity between 20 and 60 days and methane yield of 0.49L CH4/g VS.

269 citations

Cites result from "Bioreactor Performance in Anaerobic..."

  • ...These results are similar to others studies of anaerobic digestion of fruit and vegetable wastes, that showed COD:N ratio around 100:4 (Bouallagui et al., 2005)....

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References
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Journal ArticleDOI
Bioreactor performance in anaerobic digestion of fruit and vegetable wastes

[...]

H. Bouallagui1, H. Bouallagui2, Youssef Touhami2, R. Ben Cheikh1, Moktar Hamdi2 
École Normale Supérieure1, Institut national des sciences appliquées2
01 Mar 2005-Process Biochemistry
TL;DR: Continuous two-phase systems appear as more highly efficient technologies for anaerobic digestion of FVW, their greatest advantage lies in the buffering of the organic loading rate taking place in the first stage, allowing a more constant feeding rate of the methanogenic second stage.

558 citations

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Trending Questions (1)
What is the estimated decrease in volatile solids of jackfruit waste after anaerobic digestion?

Approximately 95% of volatile solids in fruit and vegetable wastes, like jackfruit waste, can be converted to methane through anaerobic digestion, with a methane production yield of 420 l/kg VS.

See answers from 5 other papers