FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382021642> ?p ?o ?g. }

• W4382021642 endingPage "10371" @default.
• W4382021642 startingPage "10358" @default.
• W4382021642 abstract "This study successfully utilized the banana pseudostem (BPS) to remove heavy metals (HMs) from nickel electroplating wastewater (Ni-EPW) while generating H2-rich gaseous fuel and synthesizing a valuable nanometal carbon matrix (NCM). This study highlights the synergetic effect of HMs promoting the decomposition of lignocellulosic biomass into H2-rich gaseous fuel, with simultaneous recovery of HMs from the metal effluent in the form of NCM and reduction of formed metal oxide to lower valence metal oxides or metals with an increase in the temperature (300–600 °C). This study also examined how the crucial parameters, like temperature, time, and biomass-to-Ni-EPW ratio, impact the process performance. The maximum H2 yield (6.8 ± 0.20 mmol·g–1), total gas yield (TGY) (17.3 ± 0.51 mmol·g–1), and carbon gasification efficiency (CGE) (36%) were determined at 600 °C and a biomass-to-Ni-EPW ratio of 1:10 for a retention time of 60 min. The use of nickel electroplating wastewater with the banana pseudostem catalyzes the degradation of biomass reaction rate and water gas shift reaction. It improves the TGY, H2 gas yield, and CGE to 2.2, 1.7, and 2.6 times, respectively, compared with Millipore water (without any metal). The NCM obtained at 600 °C has quasi-spherical morphology with a larger surface area of 146.2 m2·g–1 and exhibits magnetic saturation (Ms) of ∼3.42 emu·g–1, which also finds its application in the fabrication of sensors and supercapacitors." @default.
• W4382021642 created "2023-06-27" @default.
• W4382021642 creator A5030734766 @default.
• W4382021642 creator A5057282358 @default.
• W4382021642 date "2023-06-26" @default.
• W4382021642 modified "2023-10-17" @default.
• W4382021642 title "In Situ Encapsulation of Nanometals in Carbon Matrix from Hazardous Wastewater with Cogeneration of H₂ Using Banana Pseudostem" @default.
• W4382021642 cites W1978094764 @default.
• W4382021642 cites W1982887046 @default.
• W4382021642 cites W1991525772 @default.
• W4382021642 cites W2007910963 @default.
• W4382021642 cites W2008737335 @default.
• W4382021642 cites W2011980125 @default.
• W4382021642 cites W2014509434 @default.
• W4382021642 cites W2018663698 @default.
• W4382021642 cites W2020977193 @default.
• W4382021642 cites W2021446119 @default.
• W4382021642 cites W2023401040 @default.
• W4382021642 cites W2037389145 @default.
• W4382021642 cites W2055539717 @default.
• W4382021642 cites W2058355308 @default.
• W4382021642 cites W2073795184 @default.
• W4382021642 cites W2094456151 @default.
• W4382021642 cites W2129990921 @default.
• W4382021642 cites W2149071166 @default.
• W4382021642 cites W2218425170 @default.
• W4382021642 cites W2270856792 @default.
• W4382021642 cites W2315823427 @default.
• W4382021642 cites W2596593997 @default.
• W4382021642 cites W2668074103 @default.
• W4382021642 cites W2765173637 @default.
• W4382021642 cites W2896172736 @default.
• W4382021642 cites W2905307436 @default.
• W4382021642 cites W2914804755 @default.
• W4382021642 cites W2928732236 @default.
• W4382021642 cites W2944653122 @default.
• W4382021642 cites W2965138042 @default.
• W4382021642 cites W2970263228 @default.
• W4382021642 cites W2971204050 @default.
• W4382021642 cites W2987646035 @default.
• W4382021642 cites W2987845918 @default.
• W4382021642 cites W3008687425 @default.
• W4382021642 cites W3018032399 @default.
• W4382021642 cites W3018839774 @default.
• W4382021642 cites W3038496720 @default.
• W4382021642 cites W3044088655 @default.
• W4382021642 cites W3133816424 @default.
• W4382021642 cites W3159957448 @default.
• W4382021642 cites W3170906168 @default.
• W4382021642 cites W3210709753 @default.
• W4382021642 cites W3212725268 @default.
• W4382021642 cites W3214421789 @default.
• W4382021642 cites W3217363308 @default.
• W4382021642 cites W4205183853 @default.
• W4382021642 cites W4205520008 @default.
• W4382021642 cites W4206194383 @default.
• W4382021642 cites W4210249604 @default.
• W4382021642 cites W4220961964 @default.
• W4382021642 cites W4221041296 @default.
• W4382021642 cites W4223582740 @default.
• W4382021642 cites W4225379311 @default.
• W4382021642 cites W4280534239 @default.
• W4382021642 cites W4282959121 @default.
• W4382021642 cites W4283263769 @default.
• W4382021642 cites W4283780356 @default.
• W4382021642 cites W4286213206 @default.
• W4382021642 cites W4292730704 @default.
• W4382021642 cites W4294572720 @default.
• W4382021642 cites W4294631264 @default.
• W4382021642 cites W4296771864 @default.
• W4382021642 cites W4297107635 @default.
• W4382021642 cites W4301395554 @default.
• W4382021642 cites W4306678271 @default.
• W4382021642 cites W4311089489 @default.
• W4382021642 doi "https://doi.org/10.1021/acs.iecr.3c00820" @default.
• W4382021642 hasPublicationYear "2023" @default.
• W4382021642 type Work @default.
• W4382021642 citedByCount "0" @default.
• W4382021642 crossrefType "journal-article" @default.
• W4382021642 hasAuthorship W4382021642A5030734766 @default.
• W4382021642 hasAuthorship W4382021642A5057282358 @default.
• W4382021642 hasConcept C127413603 @default.
• W4382021642 hasConcept C13965031 @default.
• W4382021642 hasConcept C185592680 @default.
• W4382021642 hasConcept C191897082 @default.
• W4382021642 hasConcept C192562407 @default.
• W4382021642 hasConcept C39432304 @default.
• W4382021642 hasConcept C42360764 @default.
• W4382021642 hasConcept C504270822 @default.
• W4382021642 hasConcept C528095902 @default.
• W4382021642 hasConcept C544153396 @default.
• W4382021642 hasConcept C87717796 @default.
• W4382021642 hasConcept C94061648 @default.
• W4382021642 hasConceptScore W4382021642C127413603 @default.
• W4382021642 hasConceptScore W4382021642C13965031 @default.
• W4382021642 hasConceptScore W4382021642C185592680 @default.
• W4382021642 hasConceptScore W4382021642C191897082 @default.
• W4382021642 hasConceptScore W4382021642C192562407 @default.

• next