Giuliana D'Imporzano

TL;DR: The results showed that digestates differed from ingestates and also from compost, although the starting organic mix influenced the digestate final characteristics, and appears to be a very good candidate to replace inorganic fertilizers, also contributing, to the short-term soil organic matter turnover.

TL;DR: The transformation of organic matter during anaerobic digestion of mixtures of energetic crops, cow slurry, agro-industrial waste and organic fraction of municipal solid waste was studied by analysing different samples at diverse points during the anaer aerobic digestion process in a full-scale plant.

TL;DR: The aim of this work was to develop simple and fast tests to predict anaerobic biogasification potential (ABP) of ingestates and digestates from aBiogas plant by considering both quantitative and qualitative aspects of organic matter (OM).

TL;DR: It is evident that the biogas plants at farm level are good candidates for treating organic residues of both municipalities and the agro-industrial sector in a cost-effective way, and in providing territorially diffused electric and thermal power.

TL;DR: The limits for the conversion of this substrate into biogas were investigated and solutions/proposals for getting higher straw biog as well as energetic balances for untreated and pre-treated substrates are reported, giving indicative evaluations of the sustainability of straw and corn stover use forBiogas production.