FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2014764788> ?p ?o ?g. }

• W2014764788 endingPage "35" @default.
• W2014764788 startingPage "25" @default.
• W2014764788 abstract "This paper describes the thermophilic anaerobic biodegradation of wine distillery wastewater (vinasses) in a laboratory fluidised bed reactor (AFB) with a porous support medium. The experimental protocol was defined to examine the effect of increasing organic loading rate on the efficiency of AFB and to report on its steady-state performance. Moreover, in order to evaluate treatment efficiency and to investigate fermentation kinetics in an AFB reactor, experimental data were used to estimate the ‘active biomass’ concentration using an autocatalytic kinetic model proposed in this paper, since viable biomass in AFB reactors is very difficult to measure experimentally. The AFB reactor was subjected to a program of steady-state operation over a range of hydraulic retention time (HRTs) of 2.5–0.37 days and organic loading rate (OLRs) up to 5.88 kgCOD/m3/day in order to evaluate its treatment capacity. The AFB reactor was initially operated with organic loading rate of 5.88 kgCOD/m3/day and HRT of 2.5 days. The chemical oxygen demand (COD) removal efficiency was found to be 96.5% in the reactor while the methane content of biogas produced in the digester reached 1.08 m3/m3digester/day. Over 94 days operating period, an OLR of 32 kgCOD/m3/day at a food-to-micro-organisms (F:M) ratio of 0.55 kgCOD/kgVSatt/day was achieved with 81.5% COD removal efficiency in the experimental AFB reactor. At this moment, the methane content of biogas produced in the digester reached 9.0 m3/m3digester/day. The proposed kinetic model is able to estimate kinetic constants of the biodegradation process: non-biodegradable substrate (Snb) and active adhered biomass concentration (Xa). The parameters of the model were obtained by the curve-fitting method to the proposed kinetic model using the COD as substrate of the anaerobic process and assuming a maximum specific μmax: 0.72 per day. The comparison of the measured concentration of volatile attached solids (VSatt) with the estimated ‘active’ biomass concentration indicated that extremely high ‘active biomass’ concentrations can be maintained in the system because biofilm thickness is limited by the liquid flow rate applied. This is due to the fact that the anaerobic fluidised bed system retains the growth support medium in suspension by drag forces exerted by upflowing wastewater, and the distribution of biomass holdup (in the form of a biofilm) is thus relatively uniform." @default.
• W2014764788 created "2016-06-24" @default.
• W2014764788 creator A5027624975 @default.
• W2014764788 creator A5028187641 @default.
• W2014764788 creator A5043042300 @default.
• W2014764788 date "2001-02-01" @default.
• W2014764788 modified "2023-10-16" @default.
• W2014764788 title "Organic Matter Degradation Kinetics in an Anaerobic Thermophilic Fluidised Bed Bioreactor" @default.
• W2014764788 cites W1981557918 @default.
• W2014764788 cites W1991470647 @default.
• W2014764788 cites W1993095389 @default.
• W2014764788 cites W2012845901 @default.
• W2014764788 cites W2024596897 @default.
• W2014764788 cites W2027930269 @default.
• W2014764788 cites W2050358610 @default.
• W2014764788 cites W2051865466 @default.
• W2014764788 cites W2058536396 @default.
• W2014764788 cites W2076969592 @default.
• W2014764788 cites W2083273908 @default.
• W2014764788 cites W2086606964 @default.
• W2014764788 cites W2087070363 @default.
• W2014764788 cites W2095996208 @default.
• W2014764788 cites W2105812976 @default.
• W2014764788 cites W2149971838 @default.
• W2014764788 cites W2152107523 @default.
• W2014764788 cites W2167547526 @default.
• W2014764788 cites W2262777621 @default.
• W2014764788 cites W4253814517 @default.
• W2014764788 doi "https://doi.org/10.1006/anae.2000.0362" @default.
• W2014764788 hasPublicationYear "2001" @default.
• W2014764788 type Work @default.
• W2014764788 sameAs 2014764788 @default.
• W2014764788 citedByCount "60" @default.
• W2014764788 countsByYear W20147647882012 @default.
• W2014764788 countsByYear W20147647882013 @default.
• W2014764788 countsByYear W20147647882014 @default.
• W2014764788 countsByYear W20147647882015 @default.
• W2014764788 countsByYear W20147647882016 @default.
• W2014764788 countsByYear W20147647882018 @default.
• W2014764788 countsByYear W20147647882019 @default.
• W2014764788 countsByYear W20147647882020 @default.
• W2014764788 countsByYear W20147647882021 @default.
• W2014764788 crossrefType "journal-article" @default.
• W2014764788 hasAuthorship W2014764788A5027624975 @default.
• W2014764788 hasAuthorship W2014764788A5028187641 @default.
• W2014764788 hasAuthorship W2014764788A5043042300 @default.
• W2014764788 hasConcept C115540264 @default.
• W2014764788 hasConcept C127413603 @default.
• W2014764788 hasConcept C157021035 @default.
• W2014764788 hasConcept C168170006 @default.
• W2014764788 hasConcept C178790620 @default.
• W2014764788 hasConcept C185592680 @default.
• W2014764788 hasConcept C188287460 @default.
• W2014764788 hasConcept C2778589620 @default.
• W2014764788 hasConcept C39432304 @default.
• W2014764788 hasConcept C48743137 @default.
• W2014764788 hasConcept C516920438 @default.
• W2014764788 hasConcept C528095902 @default.
• W2014764788 hasConcept C548081761 @default.
• W2014764788 hasConcept C6557445 @default.
• W2014764788 hasConcept C75212476 @default.
• W2014764788 hasConcept C84250820 @default.
• W2014764788 hasConcept C86803240 @default.
• W2014764788 hasConcept C87717796 @default.
• W2014764788 hasConcept C94061648 @default.
• W2014764788 hasConceptScore W2014764788C115540264 @default.
• W2014764788 hasConceptScore W2014764788C127413603 @default.
• W2014764788 hasConceptScore W2014764788C157021035 @default.
• W2014764788 hasConceptScore W2014764788C168170006 @default.
• W2014764788 hasConceptScore W2014764788C178790620 @default.
• W2014764788 hasConceptScore W2014764788C185592680 @default.
• W2014764788 hasConceptScore W2014764788C188287460 @default.
• W2014764788 hasConceptScore W2014764788C2778589620 @default.
• W2014764788 hasConceptScore W2014764788C39432304 @default.
• W2014764788 hasConceptScore W2014764788C48743137 @default.
• W2014764788 hasConceptScore W2014764788C516920438 @default.
• W2014764788 hasConceptScore W2014764788C528095902 @default.
• W2014764788 hasConceptScore W2014764788C548081761 @default.
• W2014764788 hasConceptScore W2014764788C6557445 @default.
• W2014764788 hasConceptScore W2014764788C75212476 @default.
• W2014764788 hasConceptScore W2014764788C84250820 @default.
• W2014764788 hasConceptScore W2014764788C86803240 @default.
• W2014764788 hasConceptScore W2014764788C87717796 @default.
• W2014764788 hasConceptScore W2014764788C94061648 @default.
• W2014764788 hasIssue "1" @default.
• W2014764788 hasLocation W20147647881 @default.
• W2014764788 hasOpenAccess W2014764788 @default.
• W2014764788 hasPrimaryLocation W20147647881 @default.
• W2014764788 hasRelatedWork W2034221291 @default.
• W2014764788 hasRelatedWork W2067188436 @default.
• W2014764788 hasRelatedWork W2137956566 @default.
• W2014764788 hasRelatedWork W2142774170 @default.
• W2014764788 hasRelatedWork W2616435292 @default.
• W2014764788 hasRelatedWork W2766914211 @default.
• W2014764788 hasRelatedWork W2793222216 @default.
• W2014764788 hasRelatedWork W2882657462 @default.
• W2014764788 hasRelatedWork W3021898914 @default.
• W2014764788 hasRelatedWork W4214604727 @default.

• next