Rovira y Virgili
School of Chemical Engineering
|Energy Conversion Systems and Technologies (2019)|
|POLYGENERATION OF ENERGY AND ENERGY INTEGRATION|
|Subject||POLYGENERATION OF ENERGY AND ENERGY INTEGRATION||Code||20755106|
|Assessment||Sources of information||Recommendations|
|1. Introduction: Definitions, basic concepts and technologies.
||1.1. Definitions on energy, cogeneration, trigeneration and polygeneration
1.2. Description of technologies for cogeneration, trigeneration and polygeneration.
1.3. Configurations of energy polygeneration systems
|2. Energy, economic and environmental analysis of polygeneration systems||2.1. Definition and calculation of energy indicators.
2.2. Definition and calculation of economic indicators.
2.3. Definition and calculation of environmental indicators.
|3. Sizing of polygeneration systems.||3.1. Characterization and analysis of energy demands.
3.2. Sizing and analysis of energy supply systems using polygeneration.
|4. Recovery of waste heat and integration of renewables.||4.1. Description and calculation of systems for the recovery of waste heat.
4.2. Integration of renewables.
|5. Heat and cold storage systems.||5.1. Description and classification of heat storage technologies
5.2. Dsign of heat and cold storage systems
|6. Polygeneration systems based on biomass||6.1. Biogas and biogas generation technologies
6.2. Description and analysis of polygeneration systems based on biogas
6.3. Biomass gasification
6.4. Description and analysis of polygeneration systems based on biomass gasification
|7. Production of desalinated water||7.1. Technologies for water desalination
7.2. Description and analysis of polygeneration configurations for water desalination
|8. Energy management and optimization of polygeneration systems||8.1. Energy optimization methods
8.2. Study of cases