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SCOPING WORKSHOP AND
NATIONAL CONFERENCE KARUNYA UNIVERSITY CAMPUS
(19—20 SEPTEMBER 2017)
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7077 ANY STREET SOUTH LAS VEGAS, STATE 12345 USA (702) 545-5577 (800) 500-5577 FAX YOURWEBSITEHERE.COM
Organised by Karunya University, Coimbatore
In Collaboration with
Devi Thread Processors Pvt. Ltd. Coimbatore &
International Journal of Engineering Research and Technology
Awards Best Innovative concept/Project award Best Paper award Best Poster Award Winners of Quiz competition CHALLENGES AND OPPORTUNITIES IN TEXTILE
WASTEWATER MANAGEMENT
Events Paper presentation Poster presentation Innovative Project / concept Quiz
CONTACT
Dr.P Jegathambal, Dr. K. Parameswari and Dr. M.S.P Subathra
Coordinators Mobile :09940384846: Email: [email protected]
Ms.M. Devakirubai, Mr. Gafoor & Ms.Sapna
Co-Coordinators Mobile: 09585068822, 7845486467
Water Institute
Karunya University, Coimbatore 641114 TamilNadu
Supported by Ministry of Environment , Forests and
Climate Change (MoEF & CC)
HIGHLIGHTS OF EVENTS
The industrialists, scientists, faculty members from leading aca-
demic institutions, officials from Government/ public sector organ-
izations will share their experience in the field of textile
wastewater management during the Scoping Workshop. The
academicians, students and research scholars are encouraged to
send paper and poster in the template (4-5 pages) attached and
participate in the event.
Registration Fee: Rs. 250 Important dates: Last date for paper submission: 05.09.2017 Date of intimation of selected papers:08.09.2017
THEMES • Waste management in small scale industries
• Advanced technologies for industrial wastewater treatment including nanotechnology applications
• Recycle, reuse of treated industrial wastewater
• Waste Volume reduction techniques
• Process modification and design
• Environmental performance indicators in wastewater management
• Economic factors in industrial wastewater management
• Skill challenges and demands in wastewater management
• Sustainable water management in small scale industrial clusters
• In-situ bio and nano remediation of contaminated site
• Realtime monitoring and control of treatment units in industries
• Modeling and simulation of unit operations and water quality analysis
ABOUT WATER INSTITUTE OF KARUNYA UNIVERSITY
The Water Institute - a Centre of Excellence of Karunya University came into
existence in August 2008. There are 15 scholars pursuing Ph.D. programme
at the Institute in the areas of hydrology, hydrogeology, mathematical model-
ing, water treatment, water resources engineering, coastal dynamics, climate
change, aquatic ecosystems and isotope hydrology. The Water Institute in
collaboration with the School of Civil Engineering is involved in R&D projects
funded by Ministry of Environment and Forests and Climate Change (MoEF)
&& CC) and Department of Science and Technology (DST), GoI, in the are-
as of wetland management, application of isotopes in groundwater recharge
studies, textile wastewater treatment and nanoparticle transport investiga-
tions. The Water Institute is functioning within the School of Agriculture and
Biosciences.
ABOUT KARUNYA UNIVERSITY
The Karunya University is the accomplishment of the Vision of its Found-
ers, Dr. D G S Dhinakaran of revered memory and Dr Paul Dhinakaran,
the present Chancellor. Started as an Engineering College in 1986, it at-
tained autonomous status in 2000 and became a Deemed University in
2004. The technical programmes of the University conform to AICTE
norms and it was accredited by NAAC. The University has around 8000
students residing in the campus and around 400 well qualified teaching
faculty. The University offers undergraduate, graduate and doctoral pro-
grammes in almost all branches of engineering including biotechnology
and food processing and agricultural engineering. Apart from this, MBA,
MCA and other programmes in arts & science and commerce are also of-
fered. The campus of the university with about 300 ha is a bowl—like for-
mation with the Western Ghats overlooking it on all sides.
BACKGROUND, ISSUES AND CHALLENGES
Textile industries are rapidly increasing by numbers in most of the countries around the world in the recent years. There are about 9000 knitting, 736 dyeing and bleaching, 300 printing units, 100 embroidery units apart from 200 units catering to compacting, raising and calendaring in and around Kongu region. A large quantity of effluent is discharged by the units leading to the pollution of both surface and groundwater resources. The physico- chemical and biological methods of treatment consume considerable quantity of chemicals, concentrated energy intensive. These methods are not suffi-cient to break down azo double bonds of reactive dyes. Also the secondary products or sludge produced becomes more difficult to be disposed off. Huge amount of reject from Reverse Osmosis is another major problem. Viable techno-economic options available for treating the effluents containing dyes from small units. So an efficient and cost effective treatment method for tex-tile industrial effluent is required to treat the dyeing effluent coming out of the small scale industries. Main challenges existing in the treatment of textile in-dustrial effluent are: • Recycling and reuse of wastewater. • Removal of colour and reduction of total dissolved solids in the treated
effluent • Techno -economic viability in terms of capital investment and operating
costs in line with the current costs of fresh water and disposal mecha-nisms.