Adsorption equilibrium isotherms of benzene in the concentrationrange of 500-4000 mg·m^-3 on two commercial activated carbons wereobtained using long-column method under 30 deg. C and differenthumidity condi- tio...Adsorption equilibrium isotherms of benzene in the concentrationrange of 500-4000 mg·m^-3 on two commercial activated carbons wereobtained using long-column method under 30 deg. C and differenthumidity condi- tions. Results show that the benzene and water vaporshave depression effects upon the adsorption of each other and thatthe unfavorable effect of water vapor resembles its single-componentisotherm on activated carbon. A com- petitive adsorption model wasproposed to explore the depression mechanisms of the non-ideal,non-similar binary adsorption systems.展开更多
A simplified model was developed to describe the water vapor adsorption on activated carbon. The development of the simplified model was started from the original model proposed by DO and his co-workers. Two different...A simplified model was developed to describe the water vapor adsorption on activated carbon. The development of the simplified model was started from the original model proposed by DO and his co-workers. Two different kinds of carbon materials were prepared for water vapor adsorption, and the adsorption experiments were conducted at different temperatures(20-50 °C) and relative humidities(5%-99%) to test the model. It is shown that the amount of adsorbed water vapor in micropore decreases with the temperature increasing, and the water molecules form larger water clusters around the functional group as the temperature is up to a higher value. The simplified model describes reasonably well for all the experimental data. According to the fitted values, the parameters of simplified model were represented by the temperature and then the model was used to calculate the water vapor adsorption amount at 25 °C and 35 °C. The results show that the model can get relatively accurate values to calculate the water vapor adsorption on activated carbon.展开更多
The purpose of this study is to develop low cost adsorbing materials to remove the heavy metals from waste waters. The outer covering of coconut, coconut shell, is the most abundant in the countries of its plantation ...The purpose of this study is to develop low cost adsorbing materials to remove the heavy metals from waste waters. The outer covering of coconut, coconut shell, is the most abundant in the countries of its plantation and enormous use. Utilization of agricultural waste (coconut shell) in the production of activated carbon potentially leads to produce a highly effective adsorbent generated from low cost raw materials that are available in huge quantity as renewable resources. At present coconut shell is not in use as valuable entity due to which disposal and ultimate environmental problems are faced. In this study coconut shells were impregnated with phosphoric acid and chemically activated at 450 C. The potential to remove chromium (VI) from aqueous solution by using activated coconut shells was investigated by batch experiment. The various sorption parameters i.e pH, sorbent dose, sorbate concentration, agitation time and agitation speed were optimized. The sorption of Cr (VI) onto activated carbon, developed from coconut shell, at pH 2 was achieved 81.25%. The best optimum conditions were obtained when 0.75 gm of sorbent was agitated at 150 rpm with 60 mg/L of sorbate for 40 min. Activated coconut shells has potential to be a good resource material for effective removal of chromium (VI) of low concentration from wastewater.展开更多
文摘Adsorption equilibrium isotherms of benzene in the concentrationrange of 500-4000 mg·m^-3 on two commercial activated carbons wereobtained using long-column method under 30 deg. C and differenthumidity condi- tions. Results show that the benzene and water vaporshave depression effects upon the adsorption of each other and thatthe unfavorable effect of water vapor resembles its single-componentisotherm on activated carbon. A com- petitive adsorption model wasproposed to explore the depression mechanisms of the non-ideal,non-similar binary adsorption systems.
基金Projects(21376274,51206192)supported by the National Natural Science Foundation of China
文摘A simplified model was developed to describe the water vapor adsorption on activated carbon. The development of the simplified model was started from the original model proposed by DO and his co-workers. Two different kinds of carbon materials were prepared for water vapor adsorption, and the adsorption experiments were conducted at different temperatures(20-50 °C) and relative humidities(5%-99%) to test the model. It is shown that the amount of adsorbed water vapor in micropore decreases with the temperature increasing, and the water molecules form larger water clusters around the functional group as the temperature is up to a higher value. The simplified model describes reasonably well for all the experimental data. According to the fitted values, the parameters of simplified model were represented by the temperature and then the model was used to calculate the water vapor adsorption amount at 25 °C and 35 °C. The results show that the model can get relatively accurate values to calculate the water vapor adsorption on activated carbon.
文摘The purpose of this study is to develop low cost adsorbing materials to remove the heavy metals from waste waters. The outer covering of coconut, coconut shell, is the most abundant in the countries of its plantation and enormous use. Utilization of agricultural waste (coconut shell) in the production of activated carbon potentially leads to produce a highly effective adsorbent generated from low cost raw materials that are available in huge quantity as renewable resources. At present coconut shell is not in use as valuable entity due to which disposal and ultimate environmental problems are faced. In this study coconut shells were impregnated with phosphoric acid and chemically activated at 450 C. The potential to remove chromium (VI) from aqueous solution by using activated coconut shells was investigated by batch experiment. The various sorption parameters i.e pH, sorbent dose, sorbate concentration, agitation time and agitation speed were optimized. The sorption of Cr (VI) onto activated carbon, developed from coconut shell, at pH 2 was achieved 81.25%. The best optimum conditions were obtained when 0.75 gm of sorbent was agitated at 150 rpm with 60 mg/L of sorbate for 40 min. Activated coconut shells has potential to be a good resource material for effective removal of chromium (VI) of low concentration from wastewater.
