|
|
Line 6: |
Line 6: |
| |contact_persons=Arthur Rinaldi | | |contact_persons=Arthur Rinaldi |
| |contact_email=arthur.rinaldi@unige.ch | | |contact_email=arthur.rinaldi@unige.ch |
| + | |source_download=https://github.com/arthurrinaldi/grimsel |
| |open_source_licensed=Yes | | |open_source_licensed=Yes |
| |license=BSD 2-Clause "Simplified" or "FreeBSD" License (BSD-2-Clause) | | |license=BSD 2-Clause "Simplified" or "FreeBSD" License (BSD-2-Clause) |
Line 36: |
Line 37: |
| |Additional dimensions (Economical)=Shadow prices of each energy carriers | | |Additional dimensions (Economical)=Shadow prices of each energy carriers |
| |math_modeltype=Optimization | | |math_modeltype=Optimization |
| + | |math_modeltype_shortdesc=Quadratic dipatch sector-coupling model |
| |math_objective=Minimization of total system costs | | |math_objective=Minimization of total system costs |
| |deterministic=Perfect foresight, Sensitivity analisys, Scenarios | | |deterministic=Perfect foresight, Sensitivity analisys, Scenarios |
Model Scope |
Model type and solution approach |
Model class
|
Energy System Model, Optimization, Social Planner
|
Sectors
|
Electricity, Heat, Hydrogen, Buildings, Transport
|
Technologies
|
Renewables, Conventional Generation
|
Decisions
|
dispatch
|
Regions
|
Switzerland, Austria, Italy, France, Germany
|
Geographic Resolution
|
Consumer types and Urban settings
|
Time resolution
|
Hour
|
Network coverage
|
transmission, net transfer capacities
|
|
Model type
|
Optimization
|
|
Quadratic dipatch sector-coupling model
|
Variables
|
|
Computation time
|
minutes
|
Objective
|
Minimization of total system costs
|
Uncertainty modeling
|
Perfect foresight, Sensitivity analisys, Scenarios
|
Suited for many scenarios / monte-carlo
|
No
|
|