Domestic wastewater treatment in ur

Domestic wastewater treatment in urban areas is one of the
crucial elements to be considered in the development of a country
in order to sustain individual’s health and welfare. Untreated
wastewater can lead to spreading of disease in the form of several
types of endemic and epidemic illnesses (Ahmad et al., 2008).
There are various kind of wastewater treatment applications
nowadays ranging from modest, low priced, and less efficient processes
to very advanced, highly efficient and pricey operations. The
selection among these processes should acknowledge local area
circumstances such as climate and weather, social attributes, economy,
availability of enforceable standards, availability of land and
power, demanded operation skills and its availability, monitoring
actions, effluent discharge options as well as effluent reuse applications
and conditions (Ahmad et al., 2008). Currently, several types
of the widely-used wastewater treatment technologies include
activated sludge process (ASP), sequencing batch reactor (SBR),
up-flow anaerobic sludge blanket reactors associated with facultative
aerobic lagoon (UASB–FAL) and constructed wetlands
(CWs) (Kalbar et al., 2012).
Aerobic granular sludge (AGS) has been widely studied in recent
years (de Kreuk et al., 2005a). AGS is made up of a dense cluster of
symbiotic organisms, with good biological activity performance
and excellent mass transfer efficiency. Aerobic granular sludgebased
reactors represent an appealing option over conventional
activated sludge systems due to their small footprint and low
excess sludge production (de Bruin et al., 2004). The sludge