2024-03-28T18:56:10Z
https://dbc.wroc.pl/oai-pmh-repository.xml
oai:dbc.wroc.pl:72314
2019-08-01T08:52:45Z
DBC:dbc:fieldsOfScience DBC:dbc:DolnoslaskaDigitalLibrary:PWR:journal:journalsWUoT DBC:dbc:resources DBC:dbc DBC:dbc:DolnoslaskaDigitalLibrary:PWR:journal:journalsWUoT:EPE DBC:dbc:DolnoslaskaDigitalLibrary:PWR DBC:dbc:DolnoslaskaDigitalLibrary DBC DBC:dbc:DolnoslaskaDigitalLibrary:PWR:journal DBC:dbc:fieldsOfScience:technicalSciences DBC:dbc:resources:magazines:modernMagazines DBC:dbc:resources:magazines
0.965). The adsorption kinetics was studied by fitting the experimental data to both first-order and second-order models. The maximum adsorption capacity of arsenic(V) on GEH was 2.701 mg·g–1, which is higher than the adsorption capacities of other adsorbents reported. The kinetics of arsenic(V) adsorption was well defined by the second-order model, with the correlation coefficients in the range of 0.960–0.987. This study shows that due to its properties, GEH is a good candidate for removal of arsenic(V) from groundwater.]]>
]]>