SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017444328> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W2017444328 endingPage "616" @default.
W2017444328 startingPage "609" @default.
W2017444328 abstract "Abstract Access to safe drinkable water is a basic human right and an international development goal. AQUAPOT international project, created by Chemical and Nuclear Engineering Department of the Polytechnic University of Valencia, has been focused on research and development of low-cost and effective water treatment technologies based on membrane technology able to be used in developing countries. After several years of intensive laboratory and field research, Aquapot’s ultrafiltration (UF) plants have been settled in different locations of Ecuador (province of Azuay) and Mozambique (province of Maputo). At present, most of the installed plants work successfully, producing drinking water suitable for human consumption and even for industrial use. However, installation of the designed UF-drinking water treatment facilities has shown that cleaning standard protocol of ultrafiltration membranes is not effective. This fact could affect microbiological quality and volume of the pure water produced and also life of the membrane and the UF-plant. In order to develop optimized cleaning protocols based on the use of common and accessible chemicals, Aquapot started an applied research studying several cleaning methods. Previous studies have been focused in applying different types of cleaning: chemical cleaning (by means of static tests and dynamic tests) and physico-chemical cleaning (combining chemical reagents with the hydrodynamic action of air bubbles). This work describes the experimental procedure performed in static–dynamic cleaning test, which combines soaking with dynamic circulation of cleaning solutions. Sodium hypochlorite and hydrogen peroxide at 25°C performed the best results, recovering permeate flux from 10 to 12 times, respectively, compared with fouled membranes. Main results obtained for the different chemical solutions tested at 25 and 40°C were also compared with previous chemical (static and dynamic test) and physico-chemical cleaning. Results showed that the tested cleaning protocol improves the effectiveness of the cleaning and recovers UF membrane performance even until 30 times, when sequence of cleaning is done by sodium hypochlorite followed by hydrogen peroxide." @default.
W2017444328 created "2016-06-24" @default.
W2017444328 creator A5064885130 @default.
W2017444328 creator A5073928186 @default.
W2017444328 creator A5079709030 @default.
W2017444328 date "2012-07-06" @default.
W2017444328 modified "2023-10-05" @default.
W2017444328 title "Cleaning of ultrafiltration membranes after the treatment of surface water: static–dynamic test" @default.
W2017444328 cites W1964626794 @default.
W2017444328 cites W1967560959 @default.
W2017444328 cites W1971880104 @default.
W2017444328 cites W1974888232 @default.
W2017444328 cites W1989797423 @default.
W2017444328 cites W1993434731 @default.
W2017444328 cites W1997155867 @default.
W2017444328 cites W2003438093 @default.
W2017444328 cites W2011028482 @default.
W2017444328 cites W2018114077 @default.
W2017444328 cites W2018835692 @default.
W2017444328 cites W2025981133 @default.
W2017444328 cites W2027732613 @default.
W2017444328 cites W2027983841 @default.
W2017444328 cites W2032992471 @default.
W2017444328 cites W2051216879 @default.
W2017444328 cites W2062147882 @default.
W2017444328 cites W2068336031 @default.
W2017444328 cites W2069782119 @default.
W2017444328 cites W2069877188 @default.
W2017444328 cites W2071051020 @default.
W2017444328 cites W2080120829 @default.
W2017444328 cites W2082002733 @default.
W2017444328 cites W2083794988 @default.
W2017444328 cites W2087824358 @default.
W2017444328 cites W2088300183 @default.
W2017444328 cites W2094216004 @default.
W2017444328 cites W2094420182 @default.
W2017444328 cites W2097043351 @default.
W2017444328 cites W2112184527 @default.
W2017444328 cites W2120724516 @default.
W2017444328 cites W2166527695 @default.
W2017444328 cites W2166774751 @default.
W2017444328 cites W2261497384 @default.
W2017444328 cites W2475557720 @default.
W2017444328 cites W4239561736 @default.
W2017444328 doi "https://doi.org/10.1080/19443994.2012.704687" @default.
W2017444328 hasPublicationYear "2012" @default.
W2017444328 type Work @default.
W2017444328 sameAs 2017444328 @default.
W2017444328 citedByCount "0" @default.
W2017444328 crossrefType "journal-article" @default.
W2017444328 hasAuthorship W2017444328A5064885130 @default.
W2017444328 hasAuthorship W2017444328A5073928186 @default.
W2017444328 hasAuthorship W2017444328A5079709030 @default.
W2017444328 hasBestOaLocation W20174443282 @default.
W2017444328 hasConcept C115792997 @default.
W2017444328 hasConcept C127413603 @default.
W2017444328 hasConcept C165460524 @default.
W2017444328 hasConcept C178790620 @default.
W2017444328 hasConcept C185592680 @default.
W2017444328 hasConcept C190960625 @default.
W2017444328 hasConcept C21880701 @default.
W2017444328 hasConcept C2776776456 @default.
W2017444328 hasConcept C39432304 @default.
W2017444328 hasConcept C41625074 @default.
W2017444328 hasConcept C43617362 @default.
W2017444328 hasConcept C50817676 @default.
W2017444328 hasConcept C528095902 @default.
W2017444328 hasConcept C548081761 @default.
W2017444328 hasConcept C55493867 @default.
W2017444328 hasConcept C87717796 @default.
W2017444328 hasConceptScore W2017444328C115792997 @default.
W2017444328 hasConceptScore W2017444328C127413603 @default.
W2017444328 hasConceptScore W2017444328C165460524 @default.
W2017444328 hasConceptScore W2017444328C178790620 @default.
W2017444328 hasConceptScore W2017444328C185592680 @default.
W2017444328 hasConceptScore W2017444328C190960625 @default.
W2017444328 hasConceptScore W2017444328C21880701 @default.
W2017444328 hasConceptScore W2017444328C2776776456 @default.
W2017444328 hasConceptScore W2017444328C39432304 @default.
W2017444328 hasConceptScore W2017444328C41625074 @default.
W2017444328 hasConceptScore W2017444328C43617362 @default.
W2017444328 hasConceptScore W2017444328C50817676 @default.
W2017444328 hasConceptScore W2017444328C528095902 @default.
W2017444328 hasConceptScore W2017444328C548081761 @default.
W2017444328 hasConceptScore W2017444328C55493867 @default.
W2017444328 hasConceptScore W2017444328C87717796 @default.
W2017444328 hasIssue "1-3" @default.
W2017444328 hasLocation W20174443281 @default.
W2017444328 hasLocation W20174443282 @default.
W2017444328 hasOpenAccess W2017444328 @default.
W2017444328 hasPrimaryLocation W20174443281 @default.
W2017444328 hasRelatedWork W1967157902 @default.
W2017444328 hasRelatedWork W1988918683 @default.
W2017444328 hasRelatedWork W1988991590 @default.
W2017444328 hasRelatedWork W2032461909 @default.
W2017444328 hasRelatedWork W2061422904 @default.
W2017444328 hasRelatedWork W2071403531 @default.
W2017444328 hasRelatedWork W2345086504 @default.