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Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01J3Z7596RHF1WVC93MQ8DG8J8> ?p ?o. }

• 01J3Z7596RHF1WVC93MQ8DG8J8 classification A1.
• 01J3Z7596RHF1WVC93MQ8DG8J8 date "2024".
• 01J3Z7596RHF1WVC93MQ8DG8J8 language "eng".
• 01J3Z7596RHF1WVC93MQ8DG8J8 type journalArticle.
• 01J3Z7596RHF1WVC93MQ8DG8J8 hasPart 01J3Z7841YMDB0YKJCBDPHSSK4.docx.
• 01J3Z7596RHF1WVC93MQ8DG8J8 hasPart 01J4HGSC1CDX63ZCYMR4PB12ZW.pdf.
• 01J3Z7596RHF1WVC93MQ8DG8J8 subject "Chemistry".
• 01J3Z7596RHF1WVC93MQ8DG8J8 subject "Technology and Engineering".
• 01J3Z7596RHF1WVC93MQ8DG8J8 doi "10.1016/j.wasman.2024.04.018".
• 01J3Z7596RHF1WVC93MQ8DG8J8 issn "0956-053X".
• 01J3Z7596RHF1WVC93MQ8DG8J8 issn "1879-2456".
• 01J3Z7596RHF1WVC93MQ8DG8J8 volume "182".
• 01J3Z7596RHF1WVC93MQ8DG8J8 abstract "Roadside grass clippings hold potential as a sustainable source of bioenergy as they do not compete with crops for land use, and are only partially utilized for low-value applications. In this study, we proposed using roadside grass as a sole feedstock for anaerobic digestion (AD) in three different settings, and assessed the potential of producing biomaterials and fertilizers from grass-based digestate. Wet continuous digestion at pilot scale and dry batch digestion at pilot and large scales resulted in biogas yields up to 700 Nm(3).t(-1) DOM with a methane content of 49-55 %. Despite promising results, wet AD had operational problems such as clogging and poor mixing; once upscaled, the dry digestion initially also presented an operational problem with acidification, which was overcome by the second trial. Digested grass fibers from the pilot dry AD were processed into biomaterials and performed similarly or better than the undigested fibers, while around 20 % performance reduction was observed when compared to reference wood fibers. A mass balance indicated reduced fiber recovery when higher biogas production was obtained. The liquid fraction from the pilot dry AD was characterized for its nutrient content and used as a biofertilizer in another study. In contrast, the leachate collected from the large-scale dry AD had a low nitrogen content and high chloride content that could hinder its further use. Finally, a regional market analysis was conducted showing that the biocomposites produced with the available grass fibers could substitute at least half of the current European market based on our results.".
• 01J3Z7596RHF1WVC93MQ8DG8J8 author 1C034D30-F0EE-11E1-A9DE-61C894A0A6B4.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author 2852caa6-cd5c-11eb-91af-ac5d88a30af0.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author A262133C-D190-11E8-AF5A-942C5707D3EF.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author F61906FA-F0ED-11E1-A9DE-61C894A0A6B4.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author urn:uuid:15d35a3a-d1d7-4a7d-9752-3067e9cdd197.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author urn:uuid:21d2d413-d548-48eb-98e4-cdad19eb3ec3.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author urn:uuid:2cf15c56-3868-40dd-8c3f-4693f3f53fdc.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author urn:uuid:4648103e-285b-4c14-8f06-4fa1a1eed67b.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author urn:uuid:7e1325fb-4dd2-4a03-bdd1-56105d59ca93.
• 01J3Z7596RHF1WVC93MQ8DG8J8 author urn:uuid:f98fe9a7-19bf-4112-b8a1-50fe22abc2ca.
• 01J3Z7596RHF1WVC93MQ8DG8J8 dateCreated "2024-07-29T12:24:04Z".
• 01J3Z7596RHF1WVC93MQ8DG8J8 dateModified "2024-12-12T21:04:08Z".
• 01J3Z7596RHF1WVC93MQ8DG8J8 name "From grass to gas and beyond : anaerobic digestion as a key enabling technology for a residual grass biorefinery".
• 01J3Z7596RHF1WVC93MQ8DG8J8 pagination urn:uuid:57e38291-8709-4e8d-8fe4-1f50007b909e.
• 01J3Z7596RHF1WVC93MQ8DG8J8 sameAs LU-01J3Z7596RHF1WVC93MQ8DG8J8.
• 01J3Z7596RHF1WVC93MQ8DG8J8 sourceOrganization urn:uuid:496a7047-e9bb-47ec-8821-a6582385be07.
• 01J3Z7596RHF1WVC93MQ8DG8J8 type A1.