EOLES elec

Latest revision as of 10:54, 31 December 2020

Energy Optimization for Low Emission Systems - electricity

Authors:
Behrang Shirizadeh, Philippe Quirion

Contact:
Behrang Shirizadeh

The EOLES family of models optimizes the investment and operation of an energy system in order to minimize the total cost while satisfying energy demand. EOLES_elec is the electricity version of this family of models. It minimizes the annualized power generation and storage costs, including the cost of connection to the grid. It includes eight power generation technologies: offshore and onshore wind power, solar photovoltaics (PV), runof-river and lake-generated hydro-electricity, nuclear power (EPR, i.e. third generation European pressurized water reactors), open-cycle gas turbines and combined-cycle gas turbines equipped with post-combustion carbon capture and storage. The latter two generation technologies burn methane which can come from three sources: fossil natural gas, biogas from anaerobic digestion and renewable gas from power-to-gas technology (methanation). EOLES_elec also includes four energy storage technologies: pumped hydro storage (PHS), Li-Ion batteries and two types of methanation (with and without CCS).

Based on GAMS. Using for data processing.

Website / Documentation

Open Source
Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0)

Directly downloadable

Input data shipped

Model Scope

Model type and solution approach

Model class	Electricity System Model
Sectors	Electricity Sector, Carbon Market
Technologies	Renewables, Conventional Generation
Decisions	dispatch, investment
Regions
Geographic Resolution	Country level
Time resolution	Hour
Network coverage	transmission

Model type	Optimization, Simulation
	Simultaneous optimization of dispatch and investment (linear programming), solved in CPLEX solver of GAMS
Variables
Computation time	minutes
Objective	investment cost and operational costs (fixed and variable) minimization
Uncertainty modeling	Deterministic; Perfect foresight; Sensitivity analysis ;
Suited for many scenarios / monte-carlo	No

References

Scientific references

Shirizadeh, B. & Quirion, P. (2020). Low-carbon options for French power sector: What role for renewables, nuclear energy and carbon capture and storage? Energy Economics, 105004.
https://dx.doi.org/10.1016/j.eneco.2020.105004

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@@ Line 6: / Line 6: @@
 |contact_persons=Behrang Shirizadeh
 |contact_email=mailto:shirizadeh@centre-cired.fr
+|website=http://www.centre-cired.fr/fr/behrang-shirizadeh/
 |text_description=The EOLES family of models optimizes the investment and operation of an energy system
 in order to minimize the total cost while satisfying energy demand. EOLES_elec is the
@@ Line 15: / Line 16: @@
 generation technologies burn methane which can come from three sources: fossil natural
 gas, biogas from anaerobic digestion and renewable gas from power-to-gas technology
-(methanation). EOLES_elec also includes four energy storage technologies: pumpedhydro storage (PHS), Li-Ion batteries and two types of methanation.
+(methanation). EOLES_elec also includes four energy storage technologies: pumped hydro storage (PHS), Li-Ion batteries and two types of methanation (with and without CCS).
 |Primary outputs=Annualized cost, Installed capacities and generation and storage profiles
 |User documentation=http://www2.centre-cired.fr/IMG/pdf/cired_wp_2020_79_shirizadeh_quirion.pdf
 |Code documentation=https://github.com/BehrangShirizadeh/EOLES_elec
-|open_source_licensed=No
+|open_source_licensed=Yes
+|license=Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0)
 |model_source_public=Yes
 |Link to source=https://github.com/BehrangShirizadeh/EOLES_elec
 |data_availability=all
-|open_future=Yes
+|open_future=No
 |modelling_software=GAMS
 |GUI=No
@@ Line 38: / Line 40: @@
 |Storage (Gas)=Yes
 |Storage (Heat)=No
+|User behaviour=Inelastic demand
 |Market models=Electricity and carbon markets
 |decisions=dispatch, investment
+|Changes in efficiency=fixed
+|georesolution=Country level
 |timeresolution=Hour
 |network_coverage=transmission
 |Observation period=More than one year
 |Additional dimensions (Ecological)=CO2 emissions, CO2 storage need
-|Additional dimensions (Economical)=system-wide LCOE, technology specific LCOE, hourly spot price and carbon and energy market revenues
+|Additional dimensions (Economical)=system-wide LCOE, technology specific LCOE, hourly spot price, Social cost, Technical cost and Carbon and Energy market revenues
+|Additional dimensions (Social)=Social cost of Carbon, Social cost of System
 |Additional dimensions (Other)=load curtailment, storage loss and etc.
 |math_modeltype=Optimization, Simulation
-|math_modeltype_shortdesc=linear optimization of dispatch and investment, solved in CPLEX solver of GAMS
+|math_modeltype_shortdesc=Simultaneous optimization of dispatch and investment (linear programming), solved in CPLEX solver of GAMS
 |math_objective=investment cost and operational costs (fixed and variable) minimization
 |deterministic=Deterministic; Perfect foresight; Sensitivity analysis ;
 |is_suited_for_many_scenarios=No
 |montecarlo=No
+|citation_references=Shirizadeh, B. & Quirion, P. (2020). Low-carbon options for French power sector: What role for renewables, nuclear energy and carbon capture and storage? Energy Economics, 105004.
+|citation_doi=10.1016/j.eneco.2020.105004
 |Model input file format=No
 |Model file format=No
 |Model output file format=No
 }}

Author institution	CIRED +
Authors	Behrang Shirizadeh, Philippe Quirion +
Citation doi	10.1016/j.eneco.2020.105004 +
Citation references	Shirizadeh, B. & Quirion, P. (2020). Low-carbon options for French power sector: What role for renewables, nuclear energy and carbon capture and storage? Energy Economics, 105004.
Contact email	shirizadeh@centre-cired.fr +
Contact persons	Behrang Shirizadeh +
Data availability	all +
Decisions	dispatch + and investment +
Deterministic	Deterministic; Perfect foresight; Sensitivity analysis ; +
Full Model Name	Energy Optimization for Low Emission Systems - electricity +
Georesolution	Country level +
Is suited for many scenarios	false +
License	Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0) +
Math modeltype	Optimization + and Simulation +
Math modeltype shortdesc	Simultaneous optimization of dispatch and investment (linear programming), solved in CPLEX solver of GAMS +
Math objective	investment cost and operational costs (fixed and variable) minimization +
Model class	Electricity System Model +
Model source public	true +
Modelling software	GAMS +
Network coverage	transmission +
Open future	false +
Open source licensed	true +
Sectors	Electricity Sector + and Carbon Market +
Source download
Technologies	Renewables + and Conventional Generation +
Text description	The EOLES family of models optimizes the i … The EOLES family of models optimizes the investment and operation of an energy system in order to minimize the total cost while satisfying energy demand. EOLES_elec is the electricity version of this family of models. It minimizes the annualized power generation and storage costs, including the cost of connection to the grid. It includes eight power generation technologies: offshore and onshore wind power, solar photovoltaics (PV), runof-river and lake-generated hydro-electricity, nuclear power (EPR, i.e. third generation European pressurized water reactors), open-cycle gas turbines and combined-cycle gas turbines equipped with post-combustion carbon capture and storage. The latter two generation technologies burn methane which can come from three sources: fossil natural gas, biogas from anaerobic digestion and renewable gas from power-to-gas technology (methanation). EOLES_elec also includes four energy storage technologies: pumped hydro storage (PHS), Li-Ion batteries and two types of methanation (with and without CCS).pes of methanation (with and without CCS).
Timeresolution	Hour +
Website	http://www.centre-cired.fr/fr/behrang-shirizadeh/ +

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EOLES elec

Latest revision as of 10:54, 31 December 2020

References

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