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Solid support in the form of solid resin particles, useful for selective extraction of aluminum and ferric cations from drinking water to make potable water, comprises crosslinked benzene polymer poly(styrene-divinylbenzene)
Solid support in the form of solid resin particles, useful for selective extraction of aluminum and ferric cations from drinking water to make potable water, comprises crosslinked benzene polymer poly(styrene-divinylbenzene)
Solid support in the form of solid resin particles, preferably in the form of balls, useful for selective extraction of aluminum and ferric cations, comprises a crosslinked benzene polymer. The polymer (A) is present at the surface of the particles comprising a salicylic acid radical grafted on the benzene ring of the polymer through a bridging ketone. Solid support in the form of solid resin particles, preferably in the form of balls, useful for selective extraction of aluminum and ferric cations, comprises a crosslinked benzene polymer. The polymer of formula (A) is present at the surface of the particles comprising a salicylic acid radical grafted on the benzene ring of the polymer through a bridging ketone. Independent claims are included for: (1) preparation of the modified solid support comprising fixing an acetyl radical on benzene rings of the polymer by a Friedel-Crafts acylation reaction, oxidizing the acetyl radical to a carboxylic acid radical, followed by converting the acid radical into an acid chloride radical, converting the acid chloride radical into a 2-methylanisole radical by a Friedel-Crafts reaction, oxidizing the methyl group of the 2-methylanisole radical in to a carboxylic acid group and hydrolyzing the methoxy group of the 2-methylanisole radical in to a hydroxyl group; (2) a process of measuring aluminum and ferric ions in an aqueous solution using the solid support solution comprising taking a sample of the aqueous medium of known volume, adjusting the pH of the sample to a value of the pH of 2-3.5 to measure the ferric ions or a pH value of 1.6-3.5 to measure aluminum ions, percolating the sample through a column containing the solid support, eluting the column with an acid solution of pH less than 2, preferably 0.1-1, mixing the eluate with a detecting composition having a complexing agent to detect the detectable cations, which are in the form of complex, preferably by spectrophotometry or spectrofluorometry method and measuring the cations by quantifying the ionic complexes using spectrophotometry or spectrofluorometry method; and (3) an in-situ analytical device by injection in flow used for the measurement process comprising an assembly having automatically operating burettes or syringes and electrically operating valves to control the entry and flow of the samples, the complexing agents and water, a micro column containing the solid support, an assembly containing the complexing agents and water to adjust the pH of the sample and to perform the elution and complexing steps, spectrophotometric-/spectrofluorimetric apparatus for the quantification of aluminum and iron by measuring the intensity of the signal by absorbance, transmittance or intensity of fluorescence associated with the presence of the obtained aluminum and iron complexes, and pipes, preferably Teflon (RTM: PTFE) tubes to connect the above defined device components, where the tubes are coiled or laid out in the form of snake to form storage loops or mixing loops. [Image].
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机译: (54)标题:具有硅酸盐涂层的固体颗粒(54):FESTKoRPERPARTKEL MIT SILKATBESCHICHTUNG(57)摘要:本发明涉及一种具有二氧化硅涂层的固体颗粒的生产方法,其包括以下步骤:将固体颗粒分散为将其涂覆在水性介质中以产生固体颗粒分散体,通过缓冲系统调节固体颗粒分散体的pH以产生缓冲的固体颗粒分散体,并向缓冲的固体颗粒分散体中添加碱性硅酸盐溶液以形成二氧化硅在涂覆期间将其涂覆在固体颗粒上,其中选择缓冲体系和碱性硅酸盐溶液的量,使得在添加碱性硅酸盐溶液之前和在添加完成之后,缓冲的固体颗粒分散体的pH至少为7.0。碱性硅酸盐溶液的最大含量为11.0。固体颗粒优选是无机固体,特别是