Abstract
The standard groundwater treatment technology is a simple, non-chemical reagent technology based on aeration and filtration processes. This treatment technology is resulted in the formation of groundwater treatment sludge (GWTS). Because one of the elements of sustainable development is the possibility of their reuse, that water treatment plant operators are looking for new ways of managing these sludges. At present, not all factors determining the adsorptive capacity of water treatment sludge are known. The explanation why the adsorption capacity of sludge with a similar structure and chemical composition may differ significantly will allow for their wider use as adsorbents. The information which must be known to ensure proper sludge management are the quality, chemical composition and texture characteristics of the GWTS. The sludges were characterized by X-ray diffraction, X-ray fluorescence, Fourier transform infrared spectroscopy and N2 adsorption/desorption isotherms. The results showed that the composition and properties of the GWTS depend primarily on the quality parameters of the raw water and the processes and reagents used in its treatment technology. GWTS contains mainly amorphous iron oxides. Sludges are characterized by a large specific surface area (145 m2/g). Due to composition and textural parameters, GWTS demonstrates good adsorption properties toward different compounds such as heavy metals and metalloids. In this article, the authors describe the relationship between properties of resulting sludge and the properties of groundwater, the treatment technology and backwash water treatment from rapid filters.
Highlights
The safety of drinking water is a significant issue all over the world
The groundwater is contaminated by iron, manganese, ammonium, nitrate compounds as well as heavy metals and organic matter; mainly groundwater is contaminated by iron and manganese compounds [1]
Non-reagent technology of groundwater treatment is used, sludge is formed which, according to the principles of sustainable development, should be processed in order to be suitable for reuse
Summary
The safety of drinking water is a significant issue all over the world. The groundwater is contaminated by iron, manganese, ammonium, nitrate compounds as well as heavy metals and organic matter; mainly groundwater is contaminated by iron and manganese compounds [1].The standard treatment technology for this kind of water is based on aeration and filtration processes [2]. The safety of drinking water is a significant issue all over the world. The groundwater is contaminated by iron, manganese, ammonium, nitrate compounds as well as heavy metals and organic matter; mainly groundwater is contaminated by iron and manganese compounds [1]. The standard treatment technology for this kind of water is based on aeration and filtration processes [2]. It is a simple, non-chemical reagent technology. If the groundwater quality is poor, additional treatment processes may be required, including the use of chemical reagents.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
