Welcome to Multi-Vector Simulator (MVS)’s documentation!¶
- About the Project
- MVS - Multi-Vector Simulator of the E-Land toolbox
- Simulating with the MVS
- Modeling Assumptions of the MVS
- Cost calculations
- Component models
- Constraints
- Weighting of energy carriers
- Emission factors
- Limitations
- Infeasible bi-directional flow in one timestep
- Simplified linear component models
- No degradation of efficiencies over a component lifetime
- Perfect foresight
- Optimization precision
- Extension of KPIs necessary
- Random excess energy distribution
- Renewable energy share defintion relative to energy carriers
- Energy carrier weighting
- Events of energy shortage or grid interruption can not be modelled
- Need of two transformer assets for of one technical unit
- Input verification
- Validation Methodology
- Set of Model Equations
- Parameters and Definitions in CSVs/JSON
- List of parameters
- age_installed
- c-rate
- country
- currency
- development_costs
- discount_factor
- dispatch_price
- dsm
- efficiency
- emission_factor
- energy_price
- energyVector
- evaluated_period
- feedin_tariff
- file_name
- fixed_thermal_losses_absolute
- fixed_thermal_losses_relative
- inflow_direction
- installedCap
- label
- latitude
- lifetime
- longitude
- maximum_emissions
- maximumCap
- minimal_degree_of_autonomy
- minimal_renewable_factor
- net_zero_energy
- optimizeCap
- outflow_direction
- output_lp_file
- peak_demand_pricing
- Peak_demand_pricing_period
- Project_duration
- Project_id
- Project_name
- renewable_share
- renewableAsset
- scenario_description
- scenario_id
- scenario_name
- soc_initial
- soc_max
- soc_min
- specific_costs
- specific_costs_om
- start_date
- storage_filename
- tax
- timestep
- type_asset
- type_oemof
- unit
- Parameters in each CSV file
- List of parameters
- Outputs of the MVS simulation
- E-Land requirements of the MVS
- Functional Requirements
- FUN-MVS-01 - Solving an energy system optimization model
- FUN-MVS-02 - Automatic setting up of an energy system optimization model
- FUN-MVS-03 - Manual setting up an energy system optimization model
- FUN-MVS-04 - Optimisation Results
- FUN-MVS-05 - Production Assets
- FUN-MVS-06 - Assets of Energy Conversion
- FUN-MVS-07 - Optimisation goal
- FUN-MVS-08 - Electricity cost model
- FUN-MVS-09 - Load profiles
- FUN-MVS-10 - DH cost model
- FUN-MVS-11 - PV data
- FUN-MVS-12 - Battery data
- FUN-MVS-13 - CHP data
- FUN-MVS-14 - Thermal storage data
- FUN-MVS-15 - Autonomous operation data
- FUN-MVS-16 - Economic data
- FUN-MVS-17 - Constraints
- Non-Functional Requirements
- NF-MVS-01 - MVS pre-processing tools for LES optimization model input
- NF-MVS-02 - MVS post-processing tools for LES optimization model output/results
- NF-MVS-03 - Communication interface between MVS and ESB
- NF-MVS-04 - Unit commitment time step restriction
- NF-MVS-05 - Interface for technical parameters and model
- NF-MVS-06 - Interface for economic parameters and model
- Functional Requirements
- Code documentation
- References of the MVS
- Contributing to MVS
- Troubleshooting