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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68482
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100   $a20202105d2021      |y         0
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aCurrent Advances in Anaerobic Digestion Technology
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 online resource (230 p.)
311 08$a3-0365-0222-X 
311 08$a3-0365-0223-8 
330   $aAnaerobic digestion (AD) is one of the oldest biotechnological processes and originally referred to biomass degradation under anoxic conditions in both natural and engineered systems. It has been used for decades to treat various waste streams and to produce methane-rich biogas as an important energy carrier, and it has become a major player in electrical power production. AD is a popular, mature technology, and our knowledge about the influencing process parameters as well as about the diverse microbial communities involved in the process has increased dramatically over the last few decades. To avoid competition with food and feed production, the AD feedstock spectrum has constantly been extended to waste products either rich in recalcitrant lignocellulose or containing inhibitory substances such as ammonia, which requires application of various pre-treatments or specific management of the microbial resources. Extending the definition of AD, it can also convert gases rich in hydrogen and carbon dioxide into methane that can substitute natural gas, which opens new opportunities by a direct link to traditional petrochemistry. Furthermore, AD can be coupled with emerging biotechnological applications, such as microbial electrochemical technologies or the production of medium-chain fatty acids by anaerobic fermentation. Ultimately, because of the wide range of applications, AD is still a very vital field in science. This Special Issue highlights some key topics of this research field.
606   $aBiology, life sciences$2bicssc
606   $aResearch and information: general$2bicssc
610   $aacetate
610   $aammonia inhibition
610   $aanaerobic digester
610   $aanaerobic digestion
610   $aAnammox
610   $aantibiotics removal
610   $aantimicrobial
610   $aaquaculture
610   $abio-succinic acid
610   $abioenergy
610   $abioethanol production
610   $abiogas
610   $abiogas upgrading
610   $abiomethane
610   $acattle manure
610   $achicken manure
610   $achlortetracycline
610   $aClostridium spp.
610   $aco-digestion
610   $aCO2 utilization
610   $adairy cow manure
610   $adecentralized wastewater treatment
610   $adigestate
610   $adrum sieve
610   $adry batch anaerobic digestion
610   $aenergy balances
610   $aenergy recovery
610   $aEnterococcus faecalis
610   $aenzyme application
610   $aEscherichia coli O157
610   $afeasibility assessment
610   $afood waste
610   $agranular sludge
610   $ahigh-rate anaerobic digestion
610   $ahigh-solids anaerobic digestion
610   $ainoculum
610   $ainoculum adaptation
610   $alactate
610   $alactic acid bacteria
610   $aListeria monocytogenes
610   $amethane
610   $amicrofiltration
610   $amilling process
610   $an/a
610   $apathogens
610   $apercolation
610   $apermeability
610   $apre-treatment
610   $arenewable energy
610   $arheology of digestate
610   $aSalmonella spp.
610   $asettling
610   $asewage sludge
610   $asludge
610   $asolid digestate
610   $asteam explosion
610   $asugars recovery
610   $asustainable farming
610   $atechno-economic analysis
610   $atrout
610   $atwo-stage anaerobic digestion
610   $aTylosin
610   $aUASB
610   $avolatile fatty acids
610   $awaste-to-energy
610   $awastewater
610   $awet waste
615  7$aBiology, life sciences
615  7$aResearch and information: general
700   $aNikolausz$b Marcell$4edt$01314015
702   $aKretzschmar$b Jo?rg$4edt
702   $aNikolausz$b Marcell$4oth
702   $aKretzschmar$b Jo?rg$4oth
906   $aBOOK
912   $a9910557463903321
996   $aCurrent Advances in Anaerobic Digestion Technology$93031581
997   $aUNINA