Improper or inadequate treatment, h

Improper or inadequate treatment, handling, and disposal of sanitary wastewater can have far reaching
impacts on the environment. These impacts are the reasons for management and regulation of South
Pars Gas processing plants. Foaming, high suspended solids, high biodegradable material and low pH are
the main causes of pollution problems in the sanitary wastewater treatment (activated sludge process) of
a gas processing plant. Recent inspection of the sanitary treatment package showed that significant
foaming has occurred in inlet Sump and aeration Tank of the unit as well as increasing BOD (biochemical
oxygen demand) of effluent stream. The object of the present investigation is (a) to focus on the performance
assessment of activated sludge process and potential reasons of pollution that have been
gained from observations and laboratory results in South Pars Gas processing plant (b) to discuss the
effects of these reasons on the specification of effluent wastewater, (c) to analyze operational management
and modification of current activated sludge system and (d) from the results suggest some techniques
for pollution control in the plant.


1. Introduction
Water pollution issues now dominate public concerns about
national water quality and maintaining healthy ecosystems.
Although a large investment in water pollution control has helped
reduce the problem, many miles of streams are still impacted by a
variety of different pollutants. This, in turn, affects the ability of
people to use the water for beneficial purposes (Neff, 2002). Good
quality water is often required in order to comply with environmental
standards and regulations. Additionally, in areas of limited
water resources, water economics may dictate the possible reuse of
wastewater effluent. Such requirements and considerations
necessitate the efficient treatment of the wastewater for the
removal of hazardous contaminants (USEPA; Tellez et al., 2002).
In South Pars Gas process plant, sanitary wastewater is treated
by activated sludge process. Sanitary wastewater is a mixture of
used water and wastes which are gathered from residential, commercial
and official buildings. It also sometimes mixed with underground
and surface water. The treated water can be used for
irrigation or discharged directly to the sea. Gas process wastewater
is not routed to sanitary wastewater treatment (Davoudi et al.,
2014). Activated sludge is a biological process that utilizes microorganisms
to convert organic components from wastewater into
cell mass. The activated sludge is then separated from the liquid by
clarification. The settled sludge is either returned or wasted. The
activated sludge is commonly used as a wastewater treatment
process because it is an effective and versatile treatment process
and capable of a high degree of treatment (Martin, 1927; Richard,
1989).
The basic principle behind all activated sludge processes is that
as microorganisms grow, they form particles that clump together.
These particles (floc) are allowed to settle to the bottom of the tank,
leaving a relatively clear liquid free of organic material and suspended
solids. Described simply, screened wastewater is mixed
with varying amounts of recycled liquid containing a high proportion
of organisms taken from a clarifying tank, and it becomes a
product called mixed liquor. This mixture is stirred and injected
with large quantities of air, to provide oxygen and keep solids in
suspension. After a period of time, mixed liquor flows to a clarifier
where it is allowed to settle. A portion of the bacteria is removed as
it settles, and the partially cleaned water flows on for further
treatment (Andreadakis, 1993; Palm et al., 1980; Walker and
Davis, 1977).
Many problems can develop in activated sludge operation that
adversely affect effluent quality. The real heart of the activated
sludge system is the development and maintenance of activatedsludge that treats wastewater and which can be managed
(Schuyler, 1995; Dal Ferro and Smith, 2007; Khatib and Verbeek,
2002).
Review of the literature shows that the activated sludge process
has experienced operational problems since its beginning. Ardem
and Lockett (1914a) did note increased turbidity and reduced
nitrification with reduced temperatures. By the early 1920s
continuous flow systems had to deal with the scourge of activated
sludge, bulking and effluent suspended solids problems (Ardem
and Lockett, 1914b). Also, Martin (1927) describes effluent quality
problems due to toxic and/or high organic strength industrial
wastes. Oxygen demanding materials would bleed through the
process. More recently, Jenkins et al. (1993) discussed severe
foaming problems in activated sludge systems.
Many researchers have shown biological treatment of petroleum
refinery or some its compounds wastewater to be effective
and efficient methods (Hansen and Davies, 1994; Bostick et al.,
2002; Li et al., 2002; Faksness et al., 2004). Improved water management
in a refinery can potentially reduce the volume and cost of
raw water used in refinery operations. Furthermore, improved
water management may result in reductions in wastewater flow or
contaminant load or both. Lower flow and contaminant load may
result in lower wastewater treatment operating and maintenance
costs. Optimized water management may also reduce the mass of
contaminants in the treated effluent, thus improving the quality of
awastewater discharge and ultimately the environmental impact of
refinery’s discharge. These practices are a collection of operational
and procedural actions related to water management in a refinery
(Jacobs et al., 1992; Pitre, 1984; Fillo et al., 1992; Utvik, 2003).
Since each refinery is uniquely configured, some of these practices
may or may not be applicable based on the complexity of the
wastewater treatment operations available at a particular site,
availability of raw water sources, discharge configuration and type
of receiving water body. This manual will enable a refiner to
compare their operations with typical industry practices and
develop a plan for optimizing water management in the refinery.
The purpose of this study is to identify the various problems of
sanitary wastewater treatment system in the South Pars Gas processing
plant from both quantitative and qualitative viewpoint.
Moreover, some operational management and process modifications
made in the system were mentioned and relevant effectiveness
was discussed. Also, some techniques for pollution control are
recommended in the sanitary package.