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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/27171
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100   $a20240109d2018      uy         0
101 0 $aeng
135   $auuuuu---auuuu
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aTrace Element Supplementation As a Management Tool for Anaerobic Digester Operation $eBenefits and Risks
205   $a1st ed.
210   $cIWA Publishing$d2018
210  1$aLondon :$cIWA Publishing,$d2018.
210  4$dİ2018.
215   $a1 online resource
311 08$a1-78040-949-4 
311 08$a1-78040-942-7 
327   $aCover -- Introduction -- How to (choose to read) -- Do I need to add trace elements to my digester? -- What are the benefits of adding trace elements to a digester? -- Which trace elements do I need to add to my digester? -- Strategy for trace elements supplementation -- Risks linked with TE supplementation -- COST action ES 1302 -- References -- Credits.
330   $a" This guide is intended for use by industry stakeholders, decision-makers and digester operators in navigating the topic of trace element (TE) supplementation as a management tool for anaerobic digester operation.
The subject is the application of TE, and supplementation regimes in anaerobic waste-conversion biotechnologies, such as biogas digesters. TE is a term used to include a wide range of micronutrients essential for the microbial community underpinning AD. TE mostly includes elements from the metal groups (e.g. cobalt, nickel, zinc and tungsten) but also other elemental groups, such as metalloids (e.g. selenium). TE are dosed to anaerobic digesters to boost biological activity and to increase biogas production rates. Little is understood about the concentrations and dosing strategies best suited to sustained supplementation and stable performance in anaerobic biotechnologies.
A range of companies offer proprietary blends of trace elements for supplementation of anaerobic digesters. Very little joined-up information is available on the concentrations of individual TE best suited to improved digester performance. Moreover, typically no attention whatsoever is paid to the bioavailability of TE dosed to digesters i.e. despite high concentrations, TE may not be available for uptake by the microorganisms underpinning the digestion process.
Based on extensive engagement with a range of stakeholders throughout the course of the recent EU COST Action on ?The ecological roles of trace metals in anaerobic biotechnologies?, and particularly on feedback from industrial partners, it is clear that such a guide is needed by industry stakeholders, decision-makers and operators of anaerobic digesters."
517   $aTrace element supplementation as a management tool for anaerobic digester operation
606   $aWater supply & treatment$2bicssc
610   $aanaerobic digester
610   $awastewater
610   $atrace elements
610   $awater
610   $aBioavailability
610   $aBiogas
610   $aCobalt
610   $aCopper
610   $aIron
610   $aMicroorganism
610   $aMineral (nutrient)
610   $aNickel
610   $aZinc
615  7$aWater supply & treatment
676   $a628.354
700   $aRoussel$b Jimmy$0952372
701   $aFermoso$b Fernando G$01460699
701   $aCollins$b Gavin$01460700
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910263752803321
996   $aTrace Element Supplementation As a Management Tool for Anaerobic Digester Operation$93660670
997   $aUNINA