MG University B.Tech Syllabus S8 Civil
Module 1
Introduction: Environmental pollution – Magnitude of the industrial waste problem in India – damage caused by industrial waste pollution. Effect of industrial wastes on streams and sewerage systems: Computation of organic waste loads on streams – Streeter phelps, Churchill and Thomas methods.
Introduction: Environmental pollution – Magnitude of the industrial waste problem in India – damage caused by industrial waste pollution. Effect of industrial wastes on streams and sewerage systems: Computation of organic waste loads on streams – Streeter phelps, Churchill and Thomas methods.
Module 2
Stream sampling: stream protection measures – effluent and stream standards.
Characteristics of industrial wastes: physical, chemical and biological. retreatment of industrial wastes: waste volume reduction, waste strength reduction – neutralization, equalization and proportioning.
Stream sampling: stream protection measures – effluent and stream standards.
Characteristics of industrial wastes: physical, chemical and biological. retreatment of industrial wastes: waste volume reduction, waste strength reduction – neutralization, equalization and proportioning.
Module 3
Theories of treatments processes: removal of suspended solids by sedimentation and flotation, removal of colloidal solids by coagulation – removal of inorganic solids by evaporation & ion exchange. Removal of organic solids: lagooning, activated sludge treatment – extended aeration, step aeration, trickling filters. High rate anaerobic treatment – up flow and down flow filters; up flow anaerobic sludge blanket reactor – Disposal of sludge solids. Joint treatment of treated and untreated wastes with domestic sewage – discharge of raw and treated wastes to streams.
Theories of treatments processes: removal of suspended solids by sedimentation and flotation, removal of colloidal solids by coagulation – removal of inorganic solids by evaporation & ion exchange. Removal of organic solids: lagooning, activated sludge treatment – extended aeration, step aeration, trickling filters. High rate anaerobic treatment – up flow and down flow filters; up flow anaerobic sludge blanket reactor – Disposal of sludge solids. Joint treatment of treated and untreated wastes with domestic sewage – discharge of raw and treated wastes to streams.
Module 4
Major industrial Wastes and their treatment: pulp and paper industry – oil refinery – textile industry – tannery.
Major industrial Wastes and their treatment: pulp and paper industry – oil refinery – textile industry – tannery.
Module 5
Treatment of industrial waste: canning – dairy – sugar – distillery.
Treatment of industrial waste: canning – dairy – sugar – distillery.
References
M Narayana Rao, Waste water treatment, Rational methods of design and Industrial practice, Oxford & IBH Publishing Co. Pvt. Ltd, Bombay.
2. Nelson Leonard Nemerow, Theories and practices of industrial waste treatment, Addison-Wesley Publishing Co., Inc.
C Fred Gurnham, Principles of industrial waste treatment, John Wiley & Sons, Inc., New York.
W Wesley Eckenfelder Jr., Industrial water pollution control, International Edition, Mc Graw Hill Inc, New Delhi.
Hardam Singh, Industrial Waste water management Hand Book, Mc Graw Hill, NewDelhi.
2. Nelson Leonard Nemerow, Theories and practices of industrial waste treatment, Addison-Wesley Publishing Co., Inc.
C Fred Gurnham, Principles of industrial waste treatment, John Wiley & Sons, Inc., New York.
W Wesley Eckenfelder Jr., Industrial water pollution control, International Edition, Mc Graw Hill Inc, New Delhi.
Hardam Singh, Industrial Waste water management Hand Book, Mc Graw Hill, NewDelhi.