Analysis of efficiency of phosphates sorption by different granulation of selected reactive material

In the light of the need to find an effective way to remove phosphorus from wastewater, studies on the suitability of sorption materials in this process should be conducted. The aim of the study was to examine the potential benefits of using selected adsorbents to reduce orthophosphates from the model solution under steady conditions. The study was conducted on a laboratory scale using synthetic wastewater with concentration of P-PO4 in the range of 5-100 mg/dm3. Experiment has shown that fine-grained material M1 (0-2 mm) is highly effective at removal of phosphorus compounds at the level of 97.8% at the highest concentration of P-PO4. The sorption capacity achieved during the investigation was 9.6 mg/g, while the maximum sorption capacity from the Langmuir model could reach up to 256 mg/g. Material M2 (2-8 mm) did not show satisfactory sorption capacity (maximum calculated sorption capacity: 0.36 mg/g) and the effectiveness of phosphate reduction did not exceeded 6% at the lowest concentration of P-PO4.

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THE INFLUENCE OF CHITOSAN FLAKE DEACETYLATION DEGREE ON ORTHOPHOSPHATE SORPTION EFFICIENCY FROM AQUEOUS SOLUTIONS

Progress on Chemistry and application of Chitin and its Derivatives ◽

10.15259/pcacd.23.003 ◽

2018 ◽

Vol XXIII ◽

pp. 33-44 ◽

Cited By ~ 1

Author(s):

Paula Bugajska ◽

Urszula Filipkowska ◽

Tomasz Jóźwiak ◽

Małgorzata Kuczajowska-Zadrożna

Keyword(s):

Aqueous Solutions ◽

Sorption Capacity ◽

Ph Value ◽

Sorption Process ◽

Phosphorus Compounds ◽

Desorption Process ◽

Maximum Sorption Capacity ◽

Deacetylation Degree ◽

Maximum Sorption ◽

Sorption From Aqueous Solutions

The article presents the effectiveness of orthophosphate sorption from aqueous solutions depending on the deacetylation degree of chitosan flakes. The first stage of the research was to determine the pH value at which the sorption process was the most effective (from the pH range 2–11). In the second stage, research was carried out to determine the maximum sorption capacities of chitosan with deacetylation degrees of 75%, 85% and 90% in relation to PO43-. The highest effectiveness of orthophosphate removal on chitosan, regardless of its deacetylation degree, was obtained at pH 4. At pH 2 and 3, the chitosan flakes dissolved. This study showed that the sorption effectiveness of phosphorus compounds depends on the deacetylation degree of chitosan. Along with the increase in deacetylation degree, the sorption capacity of chitosan also increases in relation to orthophosphates. It is related to the higher number of amino groups in the structure of chitosan, which are responsible for the sorption of pollutants in the form of anions. The maximum sorption capacity of chitosan-DD = 75% in relation to biogen was 5.13 mg/g, chitosan-DD = 85% was 5.65 mg/g, and chitosan-DD = 90% was 5.91 mg/g. After 60 minutes, the desorption process had begun and was most likely caused by an increase in the pH of the solution. Due to chitosan's ability to neutralise the sample and the associated risk of desorption, the time of sorbent contact with sewage cannot be longer than 60 minutes.

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Природные материалы для сорбционной очистки хром- и кадмийсодержащих инфильтратов полигонов ТБО

Vodosnabzhenie i sanitarnaia tehnika ◽

10.35776/mnp.2019.12.02 ◽

2019 ◽

pp. 13-19

Author(s):

A. Safonov ◽

N. Andriushchenko ◽

N. Popova ◽

K. Boldyrev

Keyword(s):

Sorption Capacity ◽

Electron Acceptors ◽

Bacterial Cells ◽

Maximum Sorption Capacity ◽

Sorption Material ◽

Maximum Sorption ◽

Properties Of Materials ◽

Solid Waste Landfills ◽

Sorption Characteristics

Проведен анализ сорбционных характеристик природных материалов (вермикулит, керамзит, перлит, цеолит Трейд ) при очистке кадмий- и хромсодержащих сточных вод с высокой нагрузкой по ХПК. Установлено, что цеолит обладает максимальными сорбционными характеристиками для Cd и Cr и наименьшим биологическим обрастанием. При использовании вермикулита и керамзита или смесей на их основе можно ожидать увеличения сорбционной емкости для Cd и Сr при микробном обрастании, неизбежно происходящем в условиях контакта с водами, загрязненными органическими соединениями и биогенами. При этом биообрастание может повысить иммобилизационную способность материалов для редоксзависимых металлов за счет ферментативных ресурсов бактериальных клеток, использующих их в качестве акцепторов электронов. Эффект микробного обрастания разнонаправленно изменял параметры материалов: для Cr в большинстве случаев уменьшение и для Cd значительное увеличение. При этом дополнительным эффектом иммобилизации Cr является его биологическое восстановление биопленками. Варьируя состав сорбционного материала, можно подбирать смеси, оптимально подходящие для очистки вод инфильтратов с полигонов твердых бытовых отходов с высокой нагрузкой по ХПК и биогенным элементам как при использовании in situ, так и в системах на поверхности.The analysis of the sorption characteristics of natural materials (vermiculite, expanded clay, perlite, Trade zeolite) during the purification of cadmium and chromium-containing leachate with a high COD load was carried out. It was determined that zeolite had the maximum sorption capacity for Cd and Cr and the lowest biological fouling. When using vermiculite and expanded clay or mixtures on their basis, one can expect an increase in the sorption capacity for Cd and Cr during microbial fouling that inevitably occurs during contacting with water polluted with organic compounds and nutrients. In this case biofouling can increase the immobilization properties of materials for redox-dependent metals due to the enzymatic resources of bacterial cells that use them as electron acceptors. The effect of microbial fouling changed the parameters of materials in different directions: for Cr, in most cases, downward, and for Cd, significantly upward. Moreover, chromium biological recovery by biofilms is an additional effect of immobilization. Varying the composition of the sorption material provides for selecting mixtures that are optimally suitable for the purification of leachates from solid waste landfills with high COD and nutrients load, both when used in situ and in surface systems.

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Phosphate Removal Using Polyethylenimine Functionalized Silica-Based Materials

Sustainability ◽

10.3390/su13031502 ◽

2021 ◽

Vol 13 (3) ◽

pp. 1502

Author(s):

Maria Xanthopoulou ◽

Dimitrios Giliopoulos ◽

Nikolaos Tzollas ◽

Konstantinos S. Triantafyllidis ◽

Margaritis Kostoglou ◽

...

Keyword(s):

Sorption Capacity ◽

Removal Rate ◽

Phosphate Concentration ◽

Phosphate Removal ◽

Equilibrium Studies ◽

Maximum Sorption Capacity ◽

Algae Blooms ◽

Maximum Sorption ◽

Phosphate Anions ◽

Adsorbent Dose

In water and wastewater, phosphate anions are considered critical contaminants because they cause algae blooms and eutrophication. The present work aims at studying the removal of phosphate anions from aqueous solutions using silica particles functionalized with polyethylenimine. The parameters affecting the adsorption process such as pH, initial concentration, adsorbent dose, and the presence of competitive anions, such as carbonate, nitrate, sulfate and chromate ions, were studied. Equilibrium studies were carried out to determine their sorption capacity and the rate of phosphate ions uptake. The adsorption isotherm data fitted well with the Langmuir and Sips model. The maximum sorption capacity was 41.1 mg/g at pH 5, which decreased slightly at pH 7. The efficiency of phosphate removal adsorption increased at lower pH values and by increasing the adsorbent dose. The maximum phosphate removal was 80% for pH 5 and decreased to 75% for pH 6, to 73% for pH 7 and to 70% for pH 8, for initial phosphate concentration at about 1 mg/L and for a dose of adsorbent 100 mg/L. The removal rate was increased with the increase of the adsorbent dose. For example, for initial phosphate concentration of 4 mg/L the removal rate increased from 40% to 80% by increasing the dose from 0.1 to 2.0 g/L at pH 7. The competitive anions adversely affected phosphate removal. Though they were also found to be removed to a certain extent. Their co-removal provided an adsorbent which might be very useful for treating waters with low-level multiple contaminant occurrence in natural or engineered aquatic systems.

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Use of bentonite to control the release of copper from contaminated soils

Soil Research ◽

10.1071/sr07079 ◽

2007 ◽

Vol 45 (8) ◽

pp. 618 ◽

Cited By ~ 45

Author(s):

Wanting Ling ◽

Qing Shen ◽

Yanzheng Gao ◽

Xiaohong Gu ◽

Zhipeng Yang

Keyword(s):

Heavy Metals ◽

Sorption Capacity ◽

Contaminated Soils ◽

Montmorillonite Clay ◽

Maximum Sorption Capacity ◽

Maximum Sorption ◽

Wide Ph Range ◽

Ph Dependent ◽

Ph Range ◽

Soil Ageing

A decrease in release and availability of heavy metals in soil has been of worldwide interest in recent years. Bentonite is a type of expandable montmorillonite clay, and has strong sorption for heavy metals. In this work, the control of amended bentonite on the release of copper (Cu2+) from spiked soils was investigated using a batch equilibrium technique. Sorption of Cu by bentonite was pH-dependent, and could be well described using the Langmiur model. Maximum sorption capacity of the bentonite used in this study was 5.4 mg/g, which was much greater than soils reported in the literature. The extent of Cu2+ release from spiked soils was correlated with slurry concentrations, pH, and soil ageing process. In all cases, the amendment of bentonite was observed to effectively decrease the release of Cu2+ from soils. The apparent aqueous concentrations of Cu2+ released from soils devoid of bentonite treatment were 113–1160% higher than those from the soils amended with bentonite. Moreover, the magnitude of Cu2+ release decreased with increasing amount of bentonite added to soils. The bentonite added was more effective in retaining Cu2+ in sorbents for aged contaminated soils. Such enhanced retention resulting from the presence of bentonite was observed within a wide pH range from 2.5 to 7.0. Bentonite, as one of the most abundant minerals in soils, is regarded to improve the soil overall quality. The results obtained from this work provide useful information on utilisation of bentonite to control the release of heavy metals from contaminated soils.

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CuO nanorods: a potential and efficient adsorbent in water purification

RSC Advances ◽

10.1039/c4ra04619f ◽

2014 ◽

Vol 4 (76) ◽

pp. 40580-40587 ◽

Cited By ~ 50

Author(s):

Prasanta Kumar Raul ◽

Samarpita Senapati ◽

Ashish K. Sahoo ◽

Iohborlang M. Umlong ◽

Rashmi R. Devi ◽

...

Keyword(s):

Aqueous Solution ◽

Sorption Capacity ◽

Water Purification ◽

Maximum Sorption Capacity ◽

Maximum Sorption ◽

Efficient Adsorbent ◽

Cuo Nanorods

CuO nanorods can remove Pb(ii) from aqueous solution with a maximum sorption capacity of 3.31 mg g−1at 298 K.

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Use of aminated hulls of sunflower seeds for the removal of anionic dyes from aqueous solutions

International Journal of Environmental Science and Technology ◽

10.1007/s13762-019-02536-8 ◽

2019 ◽

Vol 17 (3) ◽

pp. 1211-1224 ◽

Cited By ~ 4

Author(s):

T. Jóźwiak ◽

U. Filipkowska ◽

S. Brym ◽

L. Kopeć

Keyword(s):

Sorption Capacity ◽

Textile Industry ◽

Sunflower Seed ◽

Freundlich Isotherm ◽

Sorption Kinetics ◽

Reactive Black 5 ◽

Anionic Dyes ◽

Maximum Sorption Capacity ◽

Maximum Sorption

Abstract In this study, we analyzed the effectiveness of sorption of dyes popular in the textile industry (Reactive Black 5, Reactive Yellow 84, Acid Yellow 23, and Acid Red 18) on aminated and non-aminated seed hulls of common sunflower (Helianthus annuus L.). The scope of the study included: determination of the effect of pH on dye sorption effectiveness, sorption kinetics analyses (sorption equilibrium time, pseudo-first-order/pseudo-second-order model, intramolecular diffusion model), and determination of the maximum sorption capacity against dyes (Langmuir/Freundlich isotherm). The sorbent was subjected to the FTIR analysis. The sorption capacity of the aminated sunflower seed hulls against reactive dyes RB5 and RY84 accounted for 51.02 mg/g and 63.27 mg/g, respectively, and was higher by 1665% (17.6 times higher) and 1425% (15.3 times higher) compared to that of non-modified hulls. In the case of acidic dyes, Acid Yellow 23 and Acid Red 18, the sorption capacity of the aminated sunflower seed hulls reached 44.78 mg/g and 42.19 mg/g, respectively, and was higher by 1881% (19.8 times higher) and 2284% (23.8 times higher), respectively, compared to the non-modified hulls.

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Effect of Doped Iron on Fluoride Sorption by Calcined MgAlFe-CO3 Layered Double Hydroxides

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.681.21 ◽

2013 ◽

Vol 681 ◽

pp. 21-25

Author(s):

Yu Bing Pu ◽

Jia Rui Wang ◽

Hong Zheng ◽

Peng Cai ◽

Si Yuan Wu

Keyword(s):

Layered Double Hydroxides ◽

Synthetic Wastewater ◽

Precipitation Method ◽

Molar Ratio ◽

Fluoride Removal ◽

Maximum Sorption Capacity ◽

Fluoride Adsorption ◽

Maximum Sorption ◽

Co Precipitation ◽

Double Hydroxides

A series of MgAlFe-CO3 layered double hydroxides (LDHs) were successfully prepared by co-precipitation method. With synthetic wastewater, the effect of doped iron on fluoride sorption by calcined MgAlFe-CO3 layered double hydroxides (CLDH) under different pH and contact time conditions was investigated. The sorption isotherm data were fitted well to Langmuir isotherm at 25 °C. The maximum sorption capacity of fluoride on CLDH increases first and then decreases with the increase of Fe/Al molar ratio and attains maximum of 71.94 mg/g when Fe/Al molar ratio is 1:2, although doped iron is unfavorable to the regeneration of original layered structure for CLDH after fluoride adsorption. No aluminium in the solution after fluoride adsorption was detected when Fe/Al molar ratio is equal to or larger than 1:2. The results indicate that CLDH with proper Fe/Al molar ratio is a promising candidate as an adsorbent material for fluoride removal from aqueous solutions.

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Effective uranium(vi) sorption from alkaline media using bi-functionalized silica-coated magnetic nanoparticles

RSC Advances ◽

10.1039/c5ra07436c ◽

2015 ◽

Vol 5 (70) ◽

pp. 56658-56665 ◽

Cited By ~ 9

Author(s):

X. T. Chen ◽

L. F. He ◽

R. Z. Liu ◽

C. Zhang ◽

B. Liu ◽

...

Keyword(s):

Iron Oxide ◽

Magnetic Nanoparticles ◽

Sorption Capacity ◽

Alkaline Media ◽

Functionalized Silica ◽

Magnetic Iron Oxide ◽

Maximum Sorption Capacity ◽

Oxide Composite ◽

Maximum Sorption

A bi-functionalized magnetic iron oxide composite has been employed for uranium(vi) sorption from alkaline media. The maximum sorption capacity was observed at pH 9.0 with a capacity of 70.7 mg g−1atcU(vi)initial= 21.7 mg L−1.

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Adsorption of CuCl2 on Mg-Al HTlc: Effect of EDTA and Addition Sequences

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.573-574.150 ◽

2012 ◽

Vol 573-574 ◽

pp. 150-154

Author(s):

Yun Bo Zang ◽

Nai Ying Wu

Keyword(s):

Aqueous Solutions ◽

Sorption Capacity ◽

Contact Time ◽

Room Temperature ◽

Copper Ions ◽

Sorption Process ◽

Langmuir Model ◽

Maximum Sorption Capacity ◽

Maximum Sorption ◽

Pseudo Second Order

In this study, removal of copper ions from aqueous solutions by synthetic Mg-Al-HTlc was investigated as a function of contact time, EDTA and addition sequences at room temperature. It is found that HTlc could reduced copper ions concentration effectively. The kinetics closely fit pseudo-second order kinetics with necessary time 9 h to reach equilibrium. The sorption process followed langmuir model. The maximum sorption capacity calculated was found to be 39.4 mg/g. The presence of EDTA and addition sequences could affect sorption of Cu(II) onto HTlc.

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Cucumis melo Rind as Biosorbent to Remove Fe(II) and Mn(II) from Synthetic Groundwater Solution

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.795.266 ◽

2013 ◽

Vol 795 ◽

pp. 266-271 ◽

Cited By ~ 9

Author(s):

Norzila Othman ◽

Syazwani Mohd Asharuddin

Keyword(s):

Aqueous Solution ◽

Metal Ions ◽

Metal Concentration ◽

Sorption Capacity ◽

Cucumis Melo ◽

Carboxyl Groups ◽

Maximum Sorption Capacity ◽

Maximum Sorption ◽

Synthetic Groundwater ◽

Effective Sorbent

Cucumis melo rind was evaluated as a new biosorbent for the removal of Fe (II) and Mn (II) from synthetic groundwater solution. The maximum sorption capacity of Fe (II) and Mn (II) was found to be 4.98 mg/g and 1.37 mg/g respectively. Sorption was most efficient at pH 7 and 6.5 for Fe (II) and Mn (II) respectively. The biosorption of both metals increased as the quantity of biosorbent increased. The increase in initial metal concentration was associated with steep increase in biosorption at lower concentrations and progressively reaching towards plateau at higher metal concentration. FTIR demonstrated that hydroxyl and carboxyl groups were involved in the biosorption of the metal ions. The study points to the potential of new use of Cucumis melo rind as an effective sorbent for the removal of Fe (II) and Mn (II) from aqueous solution.

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