Abstract:Tartrazine yellow is a dye commonly used in the food, textile, cosmetic and pharmaceutical industries. The effluents generated containing this contaminant must be treated since it presents potential carcinogenicity to the cells. The adsorption stands out among the other techniques used to remove dye from wastewater due to its ease of operation and implementation, and high removal rate. However, the production of effective and low-cost adsorbents is a constant challenge. Gelatin is a promising compound for the … Show more
“…The adsorption capacity in the first cycle was 6.81 mg/g and increased in the range 7.61 mg/g to 8.84 mg/g from the second to the fifth cycle. Previous researchers 65 , 67 reported an increase in the adsorption capacity of other adsorbents relative to that of the first cycle. Figure 5 Adsorption/regeneration cycles of Oxi-CC for BTR adsorption.…”
Section: Resultsmentioning
confidence: 80%
“…The reusability is one of the critical features that determine the feasibility of practical application of an adsorbent 64 . A reusable adsorbent reduces both the cost of the adsorption process and the generated solid waste 65 . The primary requirement of a reusable adsorbent is regenerability.…”
A commercial carbon cloth (CC) was oxidized by HNO3 acid and the features of the plain and oxidized CC were evaluated. The results of characterization illustrated that HNO3 oxidization duplicated the oxygen-containing functional groups and the surface area of the CC. The adsorption performance of the plain and oxidized CC (Oxi-CC) toward benzotriazole (BTR) was compared. The results disclosed that the uptake of BTR by oxidized CC was greater than the plain CC. Thence, the affinity of oxidized CC toward BTR was assessed at different conditions. It was found that the adsorption was quick, occurred at pH 9 and improved by adding NaCl or CaCl2 to the BTR solution. The kinetic and isotherm studies revealed that the surface of Oxi-CC is heterogeneous and the adsorption of BTR follows a physical process and forms multilayer over the Oxi-CC surface. The regenerability and reusability study illustrated that only deionized water can completely regenerate the Oxi-CC and that the Oxi-CC can be reused for five cycles without any loss of performance. The high maximum adsorption capacity of Dubinin–Radushkevich isotherm model (252 mg/g), ease of separation and regeneration, and maintaining the adsorption capacity for several cycles revealed the high efficiency and economical and environmental feasibility of Oxi-CC as an adsorbent for BTR.
“…The adsorption capacity in the first cycle was 6.81 mg/g and increased in the range 7.61 mg/g to 8.84 mg/g from the second to the fifth cycle. Previous researchers 65 , 67 reported an increase in the adsorption capacity of other adsorbents relative to that of the first cycle. Figure 5 Adsorption/regeneration cycles of Oxi-CC for BTR adsorption.…”
Section: Resultsmentioning
confidence: 80%
“…The reusability is one of the critical features that determine the feasibility of practical application of an adsorbent 64 . A reusable adsorbent reduces both the cost of the adsorption process and the generated solid waste 65 . The primary requirement of a reusable adsorbent is regenerability.…”
A commercial carbon cloth (CC) was oxidized by HNO3 acid and the features of the plain and oxidized CC were evaluated. The results of characterization illustrated that HNO3 oxidization duplicated the oxygen-containing functional groups and the surface area of the CC. The adsorption performance of the plain and oxidized CC (Oxi-CC) toward benzotriazole (BTR) was compared. The results disclosed that the uptake of BTR by oxidized CC was greater than the plain CC. Thence, the affinity of oxidized CC toward BTR was assessed at different conditions. It was found that the adsorption was quick, occurred at pH 9 and improved by adding NaCl or CaCl2 to the BTR solution. The kinetic and isotherm studies revealed that the surface of Oxi-CC is heterogeneous and the adsorption of BTR follows a physical process and forms multilayer over the Oxi-CC surface. The regenerability and reusability study illustrated that only deionized water can completely regenerate the Oxi-CC and that the Oxi-CC can be reused for five cycles without any loss of performance. The high maximum adsorption capacity of Dubinin–Radushkevich isotherm model (252 mg/g), ease of separation and regeneration, and maintaining the adsorption capacity for several cycles revealed the high efficiency and economical and environmental feasibility of Oxi-CC as an adsorbent for BTR.
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