High efficacy on diclofenac removal by activated carbon produced from potato peel waste

Bernardo, María; Rodrigues, S. Sofia M.; Lapa, Nuno; Matos, Inês; Lemos, F.; Batista, Mary; Carvalho, Ana P.; Fonseca, Isabel

doi:10.1007/s13762-016-1030-3

Cited by 72 publications

(20 citation statements)

References 52 publications

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“…The calculated S BET values were relatively high, they were as following: 389.0 m 2 g −1 , 282.6 m 2 g −1 , 237.6 m 2 g −1 , and 217.3 m 2 g −1 for ACSB, ACPP, AlBWS and AlTFC, respectively. The surface areas of test samples exceed the values of a number of commercially available activated carbons [52] as well as other adsorbents reported by other [23,[58][59][60]. Thus, it can be reasoned that the selected adsorbents have highly porous structure and are of large specific surface areas, which are fundamental requirements for an efficient adsorbent.…”

Section: Surface Area and Pore Volume Measurementsmentioning

confidence: 90%

“…Based on methodologies described by [2,[51][52][53][54] with some modification, five bottles, each one contains 50 ml of an aqueous solution of NaCl (0.01 M), and fixed sorbent loading (2.0 g L −1 in case of AlTFC and AlBWS and 3.0 g L −1 in case of ACPP and ACSB), were prepared then the starting pH of the solution (pH i ) in each bottle was adjusted by using NaOH (0.5 M) or HCl (0.5 M) solutions at pH range (2-10) in case of AlTFC and AlBWS and (2-12) in case of ACPP and ACSB. The final pH of the solutions (pH f ) was measured after 48 h of agitation with the sorbent (long enough time is allowed for diffusive mixing).…”

Section: Point Of Zero Charge (Pzc)-surface Propertiesmentioning

confidence: 99%

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Aluminum Building Scrap Wire, Take-Out Food Container, Potato Peels and Bagasse as Valueless Waste Materials for Nitrate Removal from Water supplies

2018

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Purpose Two types of active acidic alumina derived from aluminum building wire scraps (AlBWS) and aluminum takeout food container waste (AlTFC), as well, two effective types of activated carbon prepared from potato peels (ACPP) and sugarcane bagasse (ACSB) for removal of nitrate ions were utilized in this study. Methods Adsorbent samples were prepared with highly porous structure and large specific surface area above 200 m 2 g −1. Also, low calcinations temperatures and low-priced chemicals were used. Results The results showed that the adsorption of nitrates were rapid. The q max were found to be 12.4, 8.8, 7.1 and 3.9 (mg g −1) for AlTFC, AlBWS, ACPP and ACSB samples, respectively. The thermodynamic parameters showed the endothermic nature and adsorption of nitrate ions and are considered chemisorption. The total cost of the samples production were 13 USD kg −1 for acidic alumina and 6 USD kg −1 for active carbon. Conclusion The adsorption of nitrates were utilized in real and synthetic samples which give an excellent removing capability for nitrate pollution from groundwater samples.

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Section: Surface Area and Pore Volume Measurementsmentioning

confidence: 90%

Section: Point Of Zero Charge (Pzc)-surface Propertiesmentioning

confidence: 99%

Aluminum Building Scrap Wire, Take-Out Food Container, Potato Peels and Bagasse as Valueless Waste Materials for Nitrate Removal from Water supplies

2018

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“…Bernardo et al, [34] used an activated carbon with K 2 CO 3 from potato shell as adsorbent in liquid phase of sodium diclofenac in parallel with a commercial activated carbon. Biomass activated carbon had an apparent surface area of 866 m 2 g -1 and a well-developed microporous structure with a large quantity of ultramicropores; in addition, it has leaching and ecotoxicological properties compatible with its safe application to the aqueous environment.…”

Section: Figure 6 Comparison Of Ibuprofen Removal Rate From the Use mentioning

confidence: 99%

“…Activated carbons from biomass from agro-industrial waste provide the products obtained with a high affinity for the removal of substances that wish to be removed from an effluent due to the inherent characteristics of the precursor material and the chemical agent used, This is how activated carbons have multiple applications such as the synthesis of activated carbon from cocoa shells chemically impregnated with (20% lime + 40% FeCl3 + 40% ZnCl 2 ), for the efficient removal of two anti-inflammatory agents, diclofenac sodium (DFC) and nimesulide (NM), from aqueous solutions [11,12]. Impregnation with chemical dehydrating agents has become increasingly common in the use of agroindustrial waste as precursors for the production of activated carbon, among the most commonly used chemicals are found: ZnCl2, H 3 PO4 [15,31,32], H 2 SO 4 , K 2 S, KCNS [33], HNO 3 , H 2 O 2 , KMnO 4 , (NH 4 ) 2 S 2 O 8 [34], NaOH, KOH [31,35], and K 2 CO 3 [36], These are used in order to reduce the production cost of activated carbons because they need activation temperatures lower than 600°C in contrast to the physical activation by means of water vapor and CO2, also improves their adsorption capacity, obtaining an absorbent with good mechanical and physical-chemical properties of low cost [11].…”

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confidence: 99%

Kinetics and Modelling of Drug Adsorption using Activated Carbon Derived from Cocoa Cob Waste

2018

IJCTR

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Residual cocoa biomass was used for the generation of low temperature activated carbon, which was prepared and characterized by scanning electron microscopy (SEM) to determine the chemical composition of cocoa, and thus evaluate its use as an adsorbent to remove amoxicillin and ibuprofen, taking as a hypothesis that activated charcoal prepared from cocoa cob waste (shell, pulp and mucilage) is a good adsorber for removing ibuprofen and amoxicillin in aqueous solution. The removal averages were compared following an experimental design 2 2 , by applying a two-way ANOVA for each contaminant. The biomass was thermally pre-treated at low temperature and impregnated with a solution of ZnCl 2 at different concentrations (50,33.33 and 25% v ZnCl 2 /v H 2 O). The adsorption kinetics of the batch system were determined and modeled, establishing that the best conditions of amoxicillin adsorption were given at pH 6 and impregnation of 50% v v -1 , reaching a removal rate of 77.4% and that the kinetic model that best fitted the experimental removal data was Elovich with an R 2 between 0.9886 and 0.9949; while for ibuprofen taking into account the impregnation of activated carbon and the initial drug concentration (20,30 and 40 ppm), it was obtained that the higher the drug concentration, the higher the removal percentage giving a maximum result of 68% removal at 40 ppm and impregnation 50% v v -1 , while for activated carbon with impregnation 25% v v -1 and 20 ppm a removal rate of 29.15% was obtained and the experimental data of adsorption kinetics at optimum conditions according to the surface response method had a good fit to the pseudo-first order model with an R 2 between 0.779 and 0.9164.

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“…Potato is the most produced and consumed carbohydrate worldwide. During 2013, the world production was around 376 million tons of this crop (Bernardo et al, 2016). Potato residue mainly consists of cellulose, starch and hemicelluloses .…”

Section: Introductionmentioning

confidence: 99%

Optimization of Arsenic Adsorption onto Cativated Carbon Dreived from Potato Peel Using Response Surfase Methodology

Haji

Mohammed

2019

SJUOZ

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The present study was designed to optimizing the adsorption of As (V) onto potato peel derived activated carbon (MPP-AC) by employing response surface method and central composite design. Adsorbent of cheap and locally available potato residue was produced based on chemical activation with H3PO4 subsequently carbonization to produce the porous activated carbon. The individual and interactive effects of five variables including initial arsenic concentration, temperature, time, dosage amount and pH of the medium were investigated. Based on the statistic analysis (ANOVA), the quadratic model was developed associating the adsorption capacity (qe). The optimum conditions were obtained of 9.98 mg L-1 of initial As (V) concentration, 28 °C of temperature, 39.7 min of time, 0.97 g of adsorbent dose and 7.3 of pH. The maximum adsorption capacity was 0.27 mg g-1 and 76.5% removal efficiency. The equilibrium isotherms and kinetic studies for estimating the mechanism of process demonstrated a good fit to Langmuir model and the pseudo-second order, respectively. The results of this study showed that the feasibility of central composite design for control adsorption process and indicated the use of activated carbon of potato residue have important implications for As (V) removal.

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High efficacy on diclofenac removal by activated carbon produced from potato peel waste

Cited by 72 publications

References 52 publications

Aluminum Building Scrap Wire, Take-Out Food Container, Potato Peels and Bagasse as Valueless Waste Materials for Nitrate Removal from Water supplies

Aluminum Building Scrap Wire, Take-Out Food Container, Potato Peels and Bagasse as Valueless Waste Materials for Nitrate Removal from Water supplies

Kinetics and Modelling of Drug Adsorption using Activated Carbon Derived from Cocoa Cob Waste

Optimization of Arsenic Adsorption onto Cativated Carbon Dreived from Potato Peel Using Response Surfase Methodology

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