DELIVERABLES

Note that deliverable PDFs are not available due to copyright reasons.  If you want to obtain any of the deliverables presented below,  contact with beren@ual.es.

D 1.1 Development of prediction models for environmental variables, disturbances, sources and loads


In this deriverable you can find:

  • D1.1.1 Report on requirements, methodologies, paradigms and tools for the modeling and simulation of the systems treated in the Project.
  • D1.1.2 Report on models and predictors of water and energy (electricity and process heat) production and demand in CIESOL building and the electric car powered by renewable energy.
  • D1.1.3  Report on models and predictors of water, energy (electricity and process heat) and CO2 production and demand in greenhouses powered by renewable energy.
  • D1.1.4 Report on models and predictors of water and energy (electricity and process heat) production and demand in solar desalination plants.

D 1.2 Extension of climate models to the management of air quality and lighting


In this deriverable you can find:

  •  D1.2.1 Report on modeling approaches for air quality.
  • D1.2.2 Report on modeling approaches for lighting.
  • D1.2.3 Report on the integration of air quality and lighting in a general model of an enclosure. Application to buildings and greenhouses.

D 1.3 Modeling of auxiliary equipment for energy cost reduction


In this deriverable you can find:

  • D1.3.1 Report on static and dynamic models of auxiliary equipment.

D 1.4 Modeling of storage systems


In this deriverable you can find:

  • D1.4.1 Report on models of thermal storage systems.
  • D1.4.2 Report on models of CO2 storage systems.
  • D1.4.3 Report on models of electricity storage systems.

D 1.5 Dynamic modeling of solar‐gas hybrid desalination plants


In this deriverable you can find:

  • D1.5.1 Report of modeling approaches of solar desalination plants.

D 1.6 Adaptation of the developed models for control purposes


In this deriverable you can find:

  • D1.6.1 Report on the adaptation of building subsystems models into models for control.
  • D1.6.2 Report on the adaptation of greenhouse subsystems models into models for control.
  • D1.6.3 Report on the adaptation of electric vehicles models into models for control.
  • D1.6.4 Report on the adaptation of solar desalination plant models into models for control.

D 1.7 Integration and scaling of the developed models


In this deriverable you can find:

  • D1.7.1 Report of the integration of models implemented in different tools.
  • D1.7.2 Report of the analysis of other paradigms for scaling the developed models to industrial clusters.

D 2.1 Design of hierarchical multiobjective controllers of climate, air quality and lighting


In this deriverable you can find:

  • D2.1.1 Report on hierarchical multiobjective controllers.

D 2.2 Design of centralized and distributed MPC controllers


In this deriverable you can find:

  • D2.2.1 Report on centralized and distributed MPC and economic optimal controller.

D 2.3 Other control strategies


In this deriverable you can find:

  • D2.3.1 Report on rule-based controllers and potentials applications.
  • D2.3.2 Report on repetitive controllers and potential applications.

D 2.4 Control of the electric vehicle


In this deriverable you can find:

  • D2.4.1 Report on the energy control and navigation of electrical vehicles.

D 3.1 Validation of the methodologies for modeling, identification and prediction


In this deriverable you can find:

  • D3.1.1 Report on conditioning, validation and analysis of results.