Comparison of Several Domestic Products of Activated Carbon in Virus Adsorption in Water
- VernacularTitle:三种国产活性炭吸附去除水中病毒能力的比较
- Author:
Hua WANG
;
Hai HUANG
;
Yueli HAO
- Publication Type:Journal Article
- Keywords:
Water;
Activated carbon;
Virus;
Escherichia coli;
Phage;
Drinking water;
Water treatment
- From:
Journal of Environment and Health
2007;0(07):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective For drinking water deep treatment,this study compared the abilities of several common domestic products of activated carbon in virus removal from water through adsorption. Methods This study compared the abilities in virus removal of two types of granular activated carbon (GAC) materials (domestic product made of coconut shell) and one type of activated carbon fiber (ACF) material (domestic product made of mucilage glue-based ACF felt) under a fixed condition (phosphate buffered saline-PBS solution,pH =7.3,25 ℃) and the abilities of one of the above two GAC types under various conditions (before and after pretreatment,15-35 ℃,pH= 6.0-8.4,concentration of Ca2+ 0-500 mg/L,ionic strength 0-0.1 mol/L). The tested virus was the indicator phages obtained from sewage with an enterobacterium (Escherichia coli 285). Results The removal process with the GACs followed the first order kinetic model (R2: 0.83-0.99),whereas that of the ACF did not (R2: 0.44-0.64),with the rate constants of 0.505 3-2.606 8 (GACs) and 0.219 2-0.413 8 (ACF). Pretreatment (boiling for 2 h and then washing in deionized water) could both increase and decrease the removal effects,depending on the GAC sources. Different abilities in virus removal were found between the two GACs with their comparative outcomes depending on if they were subject to the pretreatment; higher levels of temperature,Ca2+ concentration,and ionic strength,and slight acidic and alkaline conditions favored virus removal. Calculation from the first order kinetic simulation showed that: the removal percentage within 15 min was around 30% with the highest 40% and the lowest 5%; and the maximum removal during the experimental period of 5 h reached 5-log. Although the amount (1 g) of the GACs used was ten times of that of the ACF (0.1 g),the measured values showed that the latter had faster initial removal rates than the former. Conclusion The three domestic products of activated carbon showed a large difference in their abilities to remove the viruses from water through adsorption with their comparative outcomes depending on the experimental conditions. If the short duration (about 15 min) currently employed in activated carbon treatment process is considered,it will be necessary to study the ways in promoting virus removal through adsorption onto the activated carbon materials of domestic products used in this experiment.
