ESL352: Difference between revisions
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| credit_structure = 3-0-0 | | credit_structure = 3-0-0 | ||
| pre_requisites = | | pre_requisites = | ||
| overlaps = Some overlap with CLL723, ESL746 | | overlaps = Some overlap with [[CLL723]], [[ESL746]] | ||
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== ESL352 : Hydrogen Economy == | == ESL352 : Hydrogen Economy == | ||
Hydrogen potential and role in decarbonizing the global Energy System; Hydrogen Characteristics, Forecast / Resource Assessment of Hydrogen demand and supply; Impact of Hydrogen on economy and environment, Different Pathways for Implementation of Hydrogen economy; Grey, blue and green hydrogen; Aggregated and Disaggregated models for GDP with Hydrogen and GHG Emissions. Technology for Hydrogen production from Conventional and Renewable Energy Re-sources (Coal, Natural Gas, Biomass, Solar energy, Wind Energy, Nuclear energy); Hydrogen Storage (Gaseous, Cryogenic, Slush, Metal hydrides); Hydrogen Transportation (Gas grid (Pipeline network), gas tubular, liquid containers and hydrides); Application of Hydrogen in Fuel Cells and IC Engines for Transportation sectors (Automotive vehicles, Passenger Trains, Locomotives, Flights, Ships) and Industrial sectors (Ammonia industry, Fertilizer industry, Oil Refineries etc.); Role of Carbon Capture Storage/Sequestration in Hydro-gen production from fossil fuels Life Cycle Assessment of Hydrogen energy (Production to Utilization and Disposal); Analysis of Specific Energy Input to Hydrogen production from different feed-stock/resources, Well to wheel efficiency; Techno-Economic Analysis, Levelized Cost of Energy (LCOE), Average Transportation Cost Hydrogen safety- Codes and Standards, Hydrogen fuel quality norms, Emission Norms; Infrastructure development for supply-chain Hydrogen systems; Hydrogen Energy Policy and Programs. | Hydrogen potential and role in decarbonizing the global Energy System; Hydrogen Characteristics, Forecast / Resource Assessment of Hydrogen demand and supply; Impact of Hydrogen on economy and environment, Different Pathways for Implementation of Hydrogen economy; Grey, blue and green hydrogen; Aggregated and Disaggregated models for GDP with Hydrogen and GHG Emissions. Technology for Hydrogen production from Conventional and Renewable Energy Re-sources (Coal, Natural Gas, Biomass, Solar energy, Wind Energy, Nuclear energy); Hydrogen Storage (Gaseous, Cryogenic, Slush, Metal hydrides); Hydrogen Transportation (Gas grid (Pipeline network), gas tubular, liquid containers and hydrides); Application of Hydrogen in Fuel Cells and IC Engines for Transportation sectors (Automotive vehicles, Passenger Trains, Locomotives, Flights, Ships) and Industrial sectors (Ammonia industry, Fertilizer industry, Oil Refineries etc.); Role of Carbon Capture Storage/Sequestration in Hydro-gen production from fossil fuels Life Cycle Assessment of Hydrogen energy (Production to Utilization and Disposal); Analysis of Specific Energy Input to Hydrogen production from different feed-stock/resources, Well to wheel efficiency; Techno-Economic Analysis, Levelized Cost of Energy (LCOE), Average Transportation Cost Hydrogen safety- Codes and Standards, Hydrogen fuel quality norms, Emission Norms; Infrastructure development for supply-chain Hydrogen systems; Hydrogen Energy Policy and Programs. | ||
Latest revision as of 16:33, 14 April 2026
| ESL352 | |
|---|---|
| Hydrogen Economy | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | |
| Overlaps | Some overlap with CLL723, ESL746 |
ESL352 : Hydrogen Economy
Hydrogen potential and role in decarbonizing the global Energy System; Hydrogen Characteristics, Forecast / Resource Assessment of Hydrogen demand and supply; Impact of Hydrogen on economy and environment, Different Pathways for Implementation of Hydrogen economy; Grey, blue and green hydrogen; Aggregated and Disaggregated models for GDP with Hydrogen and GHG Emissions. Technology for Hydrogen production from Conventional and Renewable Energy Re-sources (Coal, Natural Gas, Biomass, Solar energy, Wind Energy, Nuclear energy); Hydrogen Storage (Gaseous, Cryogenic, Slush, Metal hydrides); Hydrogen Transportation (Gas grid (Pipeline network), gas tubular, liquid containers and hydrides); Application of Hydrogen in Fuel Cells and IC Engines for Transportation sectors (Automotive vehicles, Passenger Trains, Locomotives, Flights, Ships) and Industrial sectors (Ammonia industry, Fertilizer industry, Oil Refineries etc.); Role of Carbon Capture Storage/Sequestration in Hydro-gen production from fossil fuels Life Cycle Assessment of Hydrogen energy (Production to Utilization and Disposal); Analysis of Specific Energy Input to Hydrogen production from different feed-stock/resources, Well to wheel efficiency; Techno-Economic Analysis, Levelized Cost of Energy (LCOE), Average Transportation Cost Hydrogen safety- Codes and Standards, Hydrogen fuel quality norms, Emission Norms; Infrastructure development for supply-chain Hydrogen systems; Hydrogen Energy Policy and Programs.