Course Objective(s) :
This course will enable the students to –
acquire the knowledge of the chemical and photochemical reactions essential for the emergence and existence of the cycling and accumulation of pollutants in the environment, to understand the chemistry of elements and compounds in the atmosphere and water, and know about the processes that define the connections and the dependence between individual segments of environment and sustainability.
Course Outcomes (COs):
Course Outcomes |
Teaching Learning Strategies |
Assessment Strategies |
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On completion of this course, students will be able to- CO98:discuss the concept of structure and function of different compartments of the environment. CO99:analyse the national and global environmental issues relating to atmosphere, water and natural resources CO100:criticize the range and extent of the water pollution problem with an understanding of some of the treatment procedures available CO101:identify relationships between chemical exposure and effects on physiological system CO102:demonstrate different ways of conservation of the natural resources and their management |
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Atmosphere and its interaction with hydrosphere, lithosphere and biosphere, composition of air, water, soil.
Atmospheric layers, vertical temperature profile, heat radiation budget of the earth atmosphere system. Properties of troposphere, thermodynamic derivation of lapse rate. Temperature inversion, pressure variation in atmosphere and scale height.
Biogeochemical cycles of nitrogen and sulphur.
Earth’s carbon cycle, carbon emitters, carbon sequestration, carbon footprint and carbon trading.
Formation and reactions of O3, O2, NOx, SO2, hydroxyl radical, hydroperoxyl radical, organic radicals, etc.
Photochemical smog, green-house effect, ozone depletion and acid rain, effects and control of air pollutants-gaseous, particulates.
Chemical reactions in aquatic environment, concept of oxygen demand -DO, BOD, COD, TDS, pH, conductivity, colloids, salinity. Aquatic pollution- sources (inorganic and organic pollutants, pesticides, industrial effluents, sewage, detergents and oil spills), effect of pollutants on aquatic life (flora and fauna), purification and treatment of water.
Toxicology: Threshold limiting value (TLV), LD50, toxicity and control of toxicants- nonmetallic compounds, asbestos, organic compounds (POP’s, phthalate, dioxins, PCB’s), pesticides, VOCs, endocrine disrupters.
Introduction, applications, merits and demerits of solar energy, biomass energy, hydrothermal energy, wind energy, geothermal energy and hydrogen fuel cells.
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