Model Factsheet

Overview / Model for Analysis of Energy Demand (MAED)

Model Model for Analysis of Energy Demand (MAED)

General Information
Name Model for Analysis of Energy Demand
Acronym MAED
Methodical Focus Energy Demands , Simulation
Institution(s) IAEA
Author(s) (institution, working field, active time period)
Current contact person -
Contact (e-mail) sales.publications@iaea.org
Website https://www.iaea.org/publications/7430/model-for-analysis-of-energy-demand-maed-2
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Primary Purpose The Model for the Analysis of Energy Demand (MAED) was developed by the International Atomic Energy Agency (IAEA) and evaluates future energy demands (final and useful) based on medium to long term scenarios of socioeconomic, technological, and demographic development. Energy demand is disaggregated into a large number of end-use categories corresponding to different goods and services. MAED can be configured to reflect the economic structure of the sub-national or national case study in question. This repository contains the code used to run the model.
Primary Outputs
Support / Community / Forum
Framework
Link to User Documentation -
Link to Developer/Code Documentation -
Documentation quality expandable
Source of funding -
Number of developers -
Number of users -
Openness
Open Source
Planned to open up in the future
Costs -
Software
Modelling software
Internal data processing software
External optimizer
Additional software
GUI
Coverage
Modeled energy sectors (final energy) -
Modeled demand sectors -
Modeled technologies: components for power generation or conversion
Renewables -
Conventional -
Modeled technologies: components for transfer, infrastructure or grid
Electricity -
Gas -
Heat -
Properties electrical grid -
Modeled technologies: components for storage -
User behaviour and demand side management
Changes in efficiency
Market models -
Geographical coverage
Geographic (spatial) resolution -
Time resolution -
Comment on geographic (spatial) resolution
Observation period -
Additional dimensions (sector) -
Mathematical Properties
Model class (optimisation) -
Model class (simulation) -
Other
Short description of mathematical model class
Mathematical objective -
Approach to uncertainty -
Suited for many scenarios / monte-carlo
typical computation time -
Typical computation hardware -
Technical data anchored in the model -
Model Integration
Interfaces
Model file format .exe
Input data file format .csv
Output data file format .csv
Integration with other models
Integration of other models
References
Citation reference -
Citation DOI -
Reference Studies/Models -
Example research questions -
Model usage -
Model validation -
Example research questions -
further properties
Model specific properties -

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