bodies. As individual household in

bodies. As individual household in developing like India and Jordan discharge greywater into soil and water
bodies untreated, probably contaminates the water bodies with nitrates, microbes and heavy metals [1], [2].
To evade this problem an alternative water resource plan is advocated, amid these impending alternative
sources of supply is greywater [3]. Wastewater from a household is divided into greywater and blackwater
components. Greywater is wastewater drained from showers, bathtubs, washing machines, and kitchen sinks
not used for the disposal of hazardous or toxic ingredients not black water [4]. Household greywater from the
kitchen can contain food contaminants, heavy loads of organic material, fats and caustic additives, if treated
appropriately can be considered beneficial source of irrigation water in a yard, toilet flushing, washing
machines and other outdoor uses [5], [6].
In order to ensure safety use, there is need for quality treated greywater to meet certain limits. In some
countries there exist quality safety plan, as progress and realization of alternative system of supply is
emerging. Environmental Engineering Research Institute in India come up with a plan about greywater
systems in which treated greywater must achieve. As it gives comprehensive management of the greywater
system, its risk point from tap to toilet and recommend on alternative system based on quantitative microbial
risk assessment. Therefore, water safety plans have four main steps. First, thorough description of greywater
system developed. Identify the main hazards in the system such as heavy metals due to their toxicity.
Detailing of who, what, how and where hazards will be observed and as well suggest corrective action or
maintenance. Finally, monitoring and maintenance that is limits for physio-chemical monitoring and
maintenance of greywater system [7].
Today, a wide range of greywater treatment technologies have been investigated to restore and maintain
the physical, chemical and biological integrity of greywater pollution. Various forms of treatment systems
such as ponds, a membrane bioreactor, land treatment and wetland system were studied [8]. One of the most
promising ways is to encourage future development and large scale integration of greywater reuse in urban
and village dwellings. Previous studies carried out in this field; there is significant need for simple and easy to
maintain system with a low cost of construction and maintenance. In conventional system power is an
important issue; cost of maintenance is also a concern in countries such as India. The cost of wetland system
is less, because water flows naturally from beginning to the end of the system, less cost of construction and
maintenance, easy operation and hence no skilled personnel is required [2].
Wetlands commonly used sand, gravel media and aquatic plants mainly for the purpose of pollutant
reduction from greywater. Moreover, wetlands have definite ability to take up and retain nutrients, particulate
matter and other pollutants being discharge from greywater with the plants root. However, most research
carried out explore the use of different aquatic plant like hyacinths or duckweed but little data on Lepironia
Articulata for greywater treatment using constructed wetland [9]. Therefore, in the present study the
reduction efficiency of pollutants using Lepironia Articulata in greywater were determined.
The main objectives of this study is to characterize the greywater collected and assess the loadings using
the potential of filter media and the mini constructed wetland treatment system to reduce the pollutants. The
overall aim is to evaluate the efficiency of the mini constructed wetland in treating small-scale greywater.
This study intend to ascertain the potential for treated greywater to reduce pollutant load for irrigation and
other non-portable uses, which can represent a significant reduction of portable water consumption in
buildings, gaining environmental benefit, economic benefits and water saving can be promoted.