Abstract:
In this study a low cost and simple type ceramic membrane was innovated for concurrent
wastewater treatment and reuse. As the MBR processes are still costly in terms of price of
membrane, maintenance cost and energy consumption. Therefore, a low cost and simple
MIBR will be ideal in the case of its application in developing countries. In this study, a
simple Ceramic Membrane Bio-reactor was introduced to reduce the membrane cost,
maintenance cost and operation costs for its application. This technology can be used in treatment of septic tank effluent as well as other purpose for
recycling of wastewater. Especially in urban areas where the soak well effluent cannot
infiltrate into the ground as the infiltration rate is limited for a particular soil at particular
place. This technology can also be very effective for recycling of wastewater. As most of the
septic tank effluent in residential area is directly disposed into the storm water drain, this
technology can be used for reducing pollution of that effluents. Therefore, an attempt was
taken to study the performance of CMBR for its potential application in recycling and
treatment of wastewater. Because the general increase of the fresh water demand, water
shortages and environment protection, this technology can be useful to treat and recycling of
wastewater as a sustainable solution of these problems. It is now also established that
wastewater recycling is feasible and can contribute to sustainable water management. Besides
groundwater recharge by infiltration, other applications of non-potable purposes, for example
irrigation of parks, schools yards, cemeteries and golf courses, vehicle washing, fire
protection, boiler feed water, air conditioning and concrete production and preservation of
wetlands, recycled water can be used. Locally available and cheap materials (clay soil and
rice bran) were used as ingredients to decline the membrane cost in this study. The ceramic
membrane was submerged inside reactor to formulate as ceramic membrane bioreactor
(CMBR). Gravitational-filtration system was induced for collecting the effluent to reduce the
operational cost, and the applicability of this low cost CMBR technology was checked in
laboratory scale.
The average Turbidity Removal efficiency of all Reactors was 95.34%. The result shows that
about 88.45% Color removal was achieved by the system. Turbidity and Color removal
efficiency was excellent that's why the filtered water is more acceptable by the people as the
aesthetic appearance of the water is good. The average SS removal efficiency was 95.25% by
all Reactors which demonstrates that the removal of SS was very efficient by CMBR. About
81.55% COD removal was achieved by Ceramic Membrane Bio-reactor. From the results, it
can be concluded that the CMBR has great potential in removing biodegrading organic
pollutants from wastewater. The run time of CMBR was very good. The run time of CMBR
was 242 days. The quality of effluent water was excellent as the effluent water was clear
colored and odor- free. It was found that high removal efficiency of organic content was
obtained that could be made it suitable for wastewater reuse. As the Ceramic Membrane was
made by locally available materials the technology was inexpensive. Therefore, the
technology is suitable and can be adapted in developing countries for wastewater treatment
and reuse.
Description:
This thesis is submitted to the Department of Civil Engineering, Khulna University of Engineering & Technology in partial fulfillment of the requirements for the degree of Master of Science in Civil Engineering, October 2011.
Cataloged from PDF Version of Thesis.
Includes bibliographical references (pages 110-112).