Comparison of the Oxidation of Phenol with Iron and Copper Supported on Activated Carbon from Coconut Shells

The activated carbon loaded copper oxide catalyst was prepared from Hainan abandoned coconut shells using chemical activation method and applied in treatment of acid bright red GR simulation dyeing wastewater. The effects of phosphoric acid concentration, ratio of liquid to solid, activation time and activation temperature on the COD and color removal rates were investigated by orthogonal experiment. The results showed that the optimal values of the parameters above were 65% (in mass), 3:1, 2.5h and 500°C under the designed copper oxide loading conditions of calcining temperature 300°C,calcining time 3.0 h and use level of copper nitrate 15 mL. Using the prepared sample for the treatment of the wastewater, the COD and color removal rates reached 94.384% and 99.840%, respectively.

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INVESTIGATION OF THE SORPTION CHARACTERISTICS OF ACTIVATED CARBONS

SERIES CHEMISTRY AND TECHNOLOGY ◽

10.32014/2021.2518-1491.34 ◽

2021 ◽

Vol 2 (446) ◽

pp. 105-109

Author(s):

A.E. Ilyassov ◽

A.О. Baikonurova ◽

B.N. Surimbayev

Keyword(s):

Activated Carbon ◽

Activated Carbons ◽

Raw Materials ◽

Reference Sample ◽

Heap Leaching ◽

Gold Content ◽

Coking Coal ◽

Industrial Facilities ◽

Coconut Shells ◽

Sorption Characteristics

The article presents the results of a comparison of the sorption characteristics for gold of crushed activated carbon of the foreign Haycarb brand, obtained from expensive raw materials - coconut shells, and crushed activated carbon of the domestic Shubarkol brand, obtained from relatively cheap raw materials - low-ash coking coal. The activated carbon Shubarkol crushed to a class of -3.6+1.0 mm, was produced in Kazakhstan from coking coal by Shubarkolkomir JSC. To test the crushed coal Shubarkol, industrial crushed coal Haycarb, made from coconut shells, was used as a reference sample. This coal is widely used in gold mining enterprises for the sorption of dissolved gold from cyanide solutions and pulps. For research, a productive solution of the process of heap leaching of gold from oxidized ore of one of the deposits of Kazakhstan was used with the composition, mg/L: gold 0.82; silver 0.44; copper 8.34; pH 11.05. Determination of the sorption characteristics of coals was carried out by the method of saturation with gold when changing solutions. The results of changes in the gold content in the mother solution, its extraction and saturation of coals with precious metal after each sorption cycle from the productive heap leaching solution using crushed coals of the Shubarkol and Haycarb brands are presented. It follows from the obtained data that Shubarkol activated carbon has similar sorption characteristics compared to Haycarb activated carbon. The working capacity for gold of Shubarkol coal was 2.28 kg/ton of sorbent, and of Haycarb coal - 2.57 kg/ton. Thus, crushed coal Shubarkol, obtained from relatively cheap raw materials, can be successfully used at industrial facilities instead of foreign sorbent.

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Continuous Electrochemical Oxidation of Phenol Using a Three-Dimensional Electrode Reactor

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.71-78.2169 ◽

2011 ◽

Vol 71-78 ◽

pp. 2169-2172 ◽

Cited By ~ 1

Author(s):

Zhi Gang Liu ◽

Wei Shi ◽

Yan Sheng Li ◽

Shao Min Zhu

Keyword(s):

Activated Carbon ◽

Electric Current ◽

Residence Time ◽

Electrochemical Cell ◽

Three Dimensional ◽

Phenol Removal ◽

Electrode Arrays ◽

Initial Concentration ◽

Oxidation Of Phenol ◽

Phenol Wastewater

The removal of phenol wastewater was experimentally investigated using a three-dimensional electrode reactor with granular activated carbon and titanium filter electrode arrays. The effects of the electric current, the residence time and the initial concentration on the phenol removal were evaluated. For the initial concentration of 490 mg/L, the phenol removal was obtained as 90% under the conditions of electric current 2 A, residence time 40 min. The effluent path of the electrochemical cell was optimized, using the anode effluent instead of the top effluent, where the phenol and COD removal was both increased to 95% and the corresponding energy consumption was decreased from 9.66 to 7.63 kWh/kg COD.

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Performance and Isotherm Studies in Phenol Adsorption From Wastewater Using Low Cost Biomass Derived From Coconut Shells

International Journal of Chemoinformatics and Chemical Engineering ◽

10.4018/ijcce.2019070103 ◽

2019 ◽

Vol 8 (2) ◽

pp. 23-37

Author(s):

Mohan Rao T. ◽

K. Rajesh Kumar ◽

G. Shyamala ◽

R. Gobinath

Keyword(s):

Activated Carbon ◽

Large Scale ◽

Low Cost ◽

Batch Adsorption ◽

Phenol Removal ◽

Waste Biomass ◽

Textile Processing ◽

Leather Processing ◽

Coconut Shells ◽

The Cost

With the growth of urbanization and industrialization, water bodies are getting polluted. Among various pollutants, phenol-based pollutants are common water pollutions which originate from wastewater discharged from processing manufacturing industries like petrochemical refineries, ceramic plants, textile processing, leather processing, synthetic rubbers, etc. These pollutants are toxic and have long-term ill effects on both humans and aquatic animals. Adsorption is well proven technique which is widely used for removal of pollutions from aqueous environments. But this process, is hindered due to the cost of adsorbents especially for large scale continuous processes. In this regard, adsorbents derived from waste biomass can be a great asset to reduce the cost of wastewater treatment. To meet this objective, coconut shells are chosen as biomass which is abundantly available from south east Asia. This biomass is converted into activated carbon and hence used to remove phenol from wastewater. Batch adsorption experiments were performed with different initial concentration, carbon dosage, pH and contact time. At a lower concentration of 50 mg/L of initial feed (phenol) concentration resulted in around 90% phenol removal and henceforth optimum results in phenol removal obtained in only 64%. Experimental results are in good agreement with Langmuir adsorption isotherm model and have shown a better fitting to the experimental data. These studies confirm that the coconut shell-based activated carbon could be used to effectively adsorb phenol from aqueous solutions.

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Effects of Maturity of Coconut Shells on Gold Adsorption Efficiencies of Derived Activated Carbons

Ghana Mining Journal ◽

10.4314/gm.v19i2.7 ◽

2019 ◽

Vol 19 (2) ◽

pp. 50-54

Author(s):

W. K. Buah ◽

J. Darmey ◽

F. Osei

Keyword(s):

Activated Carbon ◽

Activated Carbons ◽

Cyanide Solution ◽

Adsorption Capacities ◽

Relative Hardness ◽

Coconut Shells ◽

Activation Times ◽

Adsorption Rates

AbstractCoconut shells are used as precursors for preparation of activated carbons. The shells could vary in terms of their maturity. The influence of the maturity of the shells on gold adsorption efficiencies of derived activated carbons (ACs) from gold di-cyanide solution was investigated. The shells were pyrolysed at 900 ºC and the resulting chars were activated in steam at the same temperature for different durations. Assessment of the properties of the derived ACs revealed that; the hardness, gold adsorption capacities and rates of gold adsorption of the ACs depended on the maturity of the shells. The more matured the shells the harder the AC. The relative hardness and gold adsorption rates of the mature coconut shells activated carbons, HMand RM, respectively and those of the less mature shells, HLand RL, respectively were in the order of HM >HL and RM >RL. The relative hardness of the ACs derived from the more mature and less mature shells after 3 hrs activation were 99.3% and 94.0%, respectively and the gold adsorption rates were 5.78 mg Au/hr/gand 4.95 mg Au/hr/g, respectively. The adsorption rates and relative hardness depended on the duration of activation, where longer activation times resulted in increase in the adsorption rates and a decrease in relative hardness of the derived ACs. Keywords: Adsorption, Activated Carbon, Coconut Shells, Maturity, Relative Hardness

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