Energy flexibility features¶
To summarise the flexibility capabilities of Energy Units in OMEGAlpes:
- You can directly use the following parameters when creating an Energy Unit:
- min_time_on / min_time_off: to define the minimum time the unit must be operating / not operating once started up / once switched off.
- availability_hours: to define the number of hours the energy unit is available on the whole time horizon.
- e_min: to set the minimal energy the unit must consume during the time horizon
- e_max: to set the maximal energy the unit can consume during the time horizon
- The ramp rates min_ramp_up, max_ramp_up, min_ramp_down, max_ramp_down
- As a user you can also define a Shiftable Energy unit, you need to choose a power profile that can be shifted in time (so shorter in time than your time horizon, for instance a 2 hours power profile of a washing machine cycle compared to a 24 hours time horizon) and to define if the operation of the energy unit is mandatory or not.
- Finally, you can use the functions:
- add_operating_time_range to define a range of hours during which the energy unit can be operated every day.
- add_energy_limits_on_time_period to define a minimal or maximal energy limit on a given time period of the studied horizon.
Some key articles in open access regarding OMEGAlpes and its use for flexibility studies:
- Residential energy flexibility in districts:
- An Approach to Study District Thermal Flexibility Using Generative Modeling from Existing Data, Pajot et al.
- Impact of Heat Pump Flexibility in a French Residential Eco-District, Pajot et al.
- Building Reduced Model for MILP Optimization, Application to Demand Response of Residential Buildings, Pajot et al.
- Industrial energy flexibility in districts: