4.2. Filter mediaThe filter media c

4.2. Filter media

The filter media can provide a suitable growing medium for earthworms and microbes and also allow successful movement of sewage. Thus, the filter media is a critical design parameter in MEEs (Yang et al., 2001). In addition, filter media may play the most important part in adsorption of various pollutants such as phosphorus (Nie et al., 2015). The selection of an appropriate filter media in MEEs has become an important issue.

The selection of filter media is determined by the hydraulic permeability and the adsorption capacity for pollutants. Poor hydraulic conductivity would result in clogging of systems, and severely decreasing the effectiveness. It has been reported that the porosity of filter media in MEEs had a positive correlation with flow rate, and high flow rate might prevent MEEs from clogging (Jian et al., 2009). In addition, filter media could change the external survival environment of earthworms, and the changes of the external environment played an important part in the structure and function of the earthworm’s body wall which is closely relative with the activity and respiratory metabolism of earthworm. For example, some researches indicated that earthworm in ceramsite media presented less injured than in quartz sand media. Therefore, the ceramsite was a more suitable choice as the media in MEEs compared with the quartz sand (Xing et al., 2011). Moreover, low adsorption by filter media could also affect the long-term removal performance of MEEs. The previous studies were mainly carried out on evaluating the effect of different filter media as a vermifilter bed on the performance of MEEs, especially for sustainable phosphorus and pathogen removal from wastewater. For this purpose, the filter media previously utilized for MEEs mainly is easily available and cost effective natural ingredients, such as river bed material, wood coal, glass balls, mud balls, slag-coal cinder ceramsite and quartz sand (Wang et al., 2010a, Wang et al., 2010b, Xing et al., 2011 and Kumar et al., 2015). Wang et al., 2010a and Wang et al., 2010b investigated the treatment performance of converter slag-coal cinder. The results indicated that the average treatment efficiency of COD, BOD5, NH4+-N and phosphorus removal by the MEEs were 78.0%, 98.4%, 90.3%, and 62.4%, respectively. The converter slag-coal cinder filter played a major role in phosphorus removal. However, this study was restricted to the analysis of nutrients removal like organic contaminants, ammonia nitrogen and phosphorous. The mechanisms for phosphorous removal by converter slag-coal cinder filter should be further explored. In addition, Kumar et al. (2015) evaluated the effect of different natural ingredients, such as river bed material, wood coal, glass balls, and mud balls, as a vermifilter bed on the performance of MEEs. As can be observed from Table 3, the river bed material could maximally reduce the COD, BOD5 and TSS. What’s more, the river bed material showed maximum removal of pathogen such as total coliform, fecal coliform, fecal streptococci and Escherichia coli. Besides, Arora et al. (2014b) also found that the river bed material was the most excellent media for removal of the above pathogen.