SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220793423> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4220793423 endingPage "120914" @default.
W4220793423 startingPage "120914" @default.
W4220793423 abstract "The more stringent regulations related to the reduction of residual phosphorous concentration in treated wastewater and the consideration of phosphorous as a critical raw material are boosting new technologies towards its recovery from waste effluents. The concentration of phosphate in these effluents can be easily increased using nanofiltration (NF) due to its high phosphate rejections (>99%) in order to recover it as a raw material for the fertilizer industry. In this work, different model solutions were used to characterise the transport of phosphate species across a semi-aromatic polyamide membrane (NF270) using the Solution-Electro-Diffusion-Film coupled with reactive transport (SEDFRT) model. Experiments were carried out with waters containing one dominant salt (NaCl or Na2SO4) and one trace salt (dihydrogen or hydrogen phosphate salts) to easily determine membrane permeances to species without simulating the complexity of real solutions. Besides, for the first time the transport of H+ and OH– was also modelled. Results showed a high performance of NF270 when separating phosphate (rejections higher than 90%). Finally, the obtained permeances were used to evaluate the recovery capacity of phosphate as struvite from a model secondary treatment effluent through the SEDFRT model. Results demonstrate the potential of NF as a step forward towards closing the urban phosphorus cycle." @default.
W4220793423 created "2022-04-03" @default.
W4220793423 creator A5016340674 @default.
W4220793423 creator A5033798799 @default.
W4220793423 creator A5036671074 @default.
W4220793423 creator A5043208083 @default.
W4220793423 creator A5074358941 @default.
W4220793423 creator A5081780878 @default.
W4220793423 date "2022-06-01" @default.
W4220793423 modified "2023-10-13" @default.
W4220793423 title "Evaluating the integration of nanofiltration membranes in advanced water reclamation schemes using synthetic solutions: From phosphorous removal to phosphorous circularity" @default.
W4220793423 cites W1236365063 @default.
W4220793423 cites W1414743693 @default.
W4220793423 cites W1769061909 @default.
W4220793423 cites W1969231771 @default.
W4220793423 cites W1969311762 @default.
W4220793423 cites W1971520596 @default.
W4220793423 cites W1973626449 @default.
W4220793423 cites W1987482579 @default.
W4220793423 cites W1989200028 @default.
W4220793423 cites W1993542569 @default.
W4220793423 cites W1993700017 @default.
W4220793423 cites W1996284485 @default.
W4220793423 cites W1998714055 @default.
W4220793423 cites W2000756297 @default.
W4220793423 cites W2001821214 @default.
W4220793423 cites W2002211205 @default.
W4220793423 cites W2007830826 @default.
W4220793423 cites W2016696855 @default.
W4220793423 cites W2020929534 @default.
W4220793423 cites W2022462993 @default.
W4220793423 cites W2028230166 @default.
W4220793423 cites W2040391838 @default.
W4220793423 cites W2043328327 @default.
W4220793423 cites W2046024650 @default.
W4220793423 cites W2049096303 @default.
W4220793423 cites W2051202779 @default.
W4220793423 cites W2052356798 @default.
W4220793423 cites W2058999822 @default.
W4220793423 cites W2060782422 @default.
W4220793423 cites W2066761228 @default.
W4220793423 cites W2072955934 @default.
W4220793423 cites W2079332701 @default.
W4220793423 cites W2080240977 @default.
W4220793423 cites W2086156773 @default.
W4220793423 cites W2092429417 @default.
W4220793423 cites W2100210496 @default.
W4220793423 cites W2113906755 @default.
W4220793423 cites W2115845490 @default.
W4220793423 cites W2116761112 @default.
W4220793423 cites W2150594280 @default.
W4220793423 cites W2237167488 @default.
W4220793423 cites W2334074116 @default.
W4220793423 cites W2345967221 @default.
W4220793423 cites W2419510454 @default.
W4220793423 cites W2520703446 @default.
W4220793423 cites W2549248152 @default.
W4220793423 cites W2753095721 @default.
W4220793423 cites W2781955008 @default.
W4220793423 cites W2790576386 @default.
W4220793423 cites W2796923232 @default.
W4220793423 cites W2888920721 @default.
W4220793423 cites W2922224757 @default.
W4220793423 cites W2949486304 @default.
W4220793423 cites W2957237997 @default.
W4220793423 cites W3016355794 @default.
W4220793423 cites W3031532939 @default.
W4220793423 cites W3032656692 @default.
W4220793423 cites W3036083534 @default.
W4220793423 cites W3083258372 @default.
W4220793423 cites W3130969760 @default.
W4220793423 cites W3138885544 @default.
W4220793423 cites W3153772597 @default.
W4220793423 cites W2327606994 @default.
W4220793423 doi "https://doi.org/10.1016/j.seppur.2022.120914" @default.
W4220793423 hasPublicationYear "2022" @default.
W4220793423 type Work @default.
W4220793423 citedByCount "6" @default.
W4220793423 countsByYear W42207934232022 @default.
W4220793423 countsByYear W42207934232023 @default.
W4220793423 crossrefType "journal-article" @default.
W4220793423 hasAuthorship W4220793423A5016340674 @default.
W4220793423 hasAuthorship W4220793423A5033798799 @default.
W4220793423 hasAuthorship W4220793423A5036671074 @default.
W4220793423 hasAuthorship W4220793423A5043208083 @default.
W4220793423 hasAuthorship W4220793423A5074358941 @default.
W4220793423 hasAuthorship W4220793423A5081780878 @default.
W4220793423 hasConcept C127413603 @default.
W4220793423 hasConcept C146763847 @default.
W4220793423 hasConcept C147455438 @default.
W4220793423 hasConcept C178790620 @default.
W4220793423 hasConcept C184651966 @default.
W4220793423 hasConcept C185592680 @default.
W4220793423 hasConcept C2776371256 @default.
W4220793423 hasConcept C2777132085 @default.
W4220793423 hasConcept C2778999818 @default.
W4220793423 hasConcept C39432304 @default.
W4220793423 hasConcept C41625074 @default.