ASD882: Difference between revisions
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| credits = 12 | | credits = 12 | ||
| credit_structure = 0-0-24 | | credit_structure = 0-0-24 | ||
| pre_requisites = ASD881 | | pre_requisites = [[ASD881]] | ||
| overlaps = ASL760 | | overlaps = [[ASL760]] | ||
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== ASD882 : project-II (Not allowed for : Any program other == | == ASD882 : project-II (Not allowed for : Any program other == | ||
ASV892 An Introduction to Renewable Energy Meteorology 1 Credit (1-0-0) Fundamentals of weather, climate, and air pollution: forces, scales of atmospheric motion Atmospheric Boundary Layer: Turbulence, stability, log and power law profiles of wind over land and oceans, nocturnal low-level jet; Atmospheric radiative transfer: Solar irradiance, clouds, aerosols, dust storms; Introduction to Atmospheric Models: Modeling approaches-numerical models, empirical models, wake and wind farm models, solar PV models, Atmospheric data: Accuracy vs precision, station surface and tower observations, reanalysis data, satellite data, public domain data repositories; Resource assessment and Forecasting: Fundamentals, Feedbacks in resource assessment, forecast time scales, chaos theory, uncertainty, and predictability. 328CTp702 Electric Vehicle Laboratory I 3 credits (1 0 4) Charging infrastructure and notion of battery swapping; Charging interfaces; Battery testing; Single cell performance; charge-discharge tests; capacity retention test; electrochemical testing; EIS; etc. Battery management system (BMS) testing; Over protection; Over current; Short circuit tests; Over voltage tests; Module design and testing; electromechanical assembly of cells; welding of cells; BMS design and integration in Module; Power train architecture. DC-DC converters; Isolated gate driving techniques; Winding diagram and development of induction machine; PWM techniques; Charge balancing circuits; Power train testing; Converter testing; Control of drives. | [[ASV892]] An Introduction to Renewable Energy Meteorology 1 Credit (1-0-0) Fundamentals of weather, climate, and air pollution: forces, scales of atmospheric motion Atmospheric Boundary Layer: Turbulence, stability, log and power law profiles of wind over land and oceans, nocturnal low-level jet; Atmospheric radiative transfer: Solar irradiance, clouds, aerosols, dust storms; Introduction to Atmospheric Models: Modeling approaches-numerical models, empirical models, wake and wind farm models, solar PV models, Atmospheric data: Accuracy vs precision, station surface and tower observations, reanalysis data, satellite data, public domain data repositories; Resource assessment and Forecasting: Fundamentals, Feedbacks in resource assessment, forecast time scales, chaos theory, uncertainty, and predictability. 328CTp702 Electric Vehicle Laboratory I 3 credits (1 0 4) Charging infrastructure and notion of battery swapping; Charging interfaces; Battery testing; Single cell performance; charge-discharge tests; capacity retention test; electrochemical testing; EIS; etc. Battery management system (BMS) testing; Over protection; Over current; Short circuit tests; Over voltage tests; Module design and testing; electromechanical assembly of cells; welding of cells; BMS design and integration in Module; Power train architecture. DC-DC converters; Isolated gate driving techniques; Winding diagram and development of induction machine; PWM techniques; Charge balancing circuits; Power train testing; Converter testing; Control of drives. | ||
Latest revision as of 16:21, 14 April 2026
| ASD882 | |
|---|---|
| project-II (Not allowed for : Any program other | |
| Credits | 12 |
| Structure | 0-0-24 |
| Pre-requisites | ASD881 |
| Overlaps | ASL760 |
ASD882 : project-II (Not allowed for : Any program other
ASV892 An Introduction to Renewable Energy Meteorology 1 Credit (1-0-0) Fundamentals of weather, climate, and air pollution: forces, scales of atmospheric motion Atmospheric Boundary Layer: Turbulence, stability, log and power law profiles of wind over land and oceans, nocturnal low-level jet; Atmospheric radiative transfer: Solar irradiance, clouds, aerosols, dust storms; Introduction to Atmospheric Models: Modeling approaches-numerical models, empirical models, wake and wind farm models, solar PV models, Atmospheric data: Accuracy vs precision, station surface and tower observations, reanalysis data, satellite data, public domain data repositories; Resource assessment and Forecasting: Fundamentals, Feedbacks in resource assessment, forecast time scales, chaos theory, uncertainty, and predictability. 328CTp702 Electric Vehicle Laboratory I 3 credits (1 0 4) Charging infrastructure and notion of battery swapping; Charging interfaces; Battery testing; Single cell performance; charge-discharge tests; capacity retention test; electrochemical testing; EIS; etc. Battery management system (BMS) testing; Over protection; Over current; Short circuit tests; Over voltage tests; Module design and testing; electromechanical assembly of cells; welding of cells; BMS design and integration in Module; Power train architecture. DC-DC converters; Isolated gate driving techniques; Winding diagram and development of induction machine; PWM techniques; Charge balancing circuits; Power train testing; Converter testing; Control of drives.