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Multi-energy systems and risk issues
A Framework for Risk Modeling of Integrated Electricity and Gas Systems Utilizing Universal Generating Function Techniques
Short-Term Risk Evaluation of Integrated Electricity and Gas Systems Considering Dynamics of Gas Flow
Risk Evaluation of Integrated Electricity and Gas Systems Considering Cascading Effects
Definitions and Risk Modelling of Two-Interdependent-Performance Multi-State System and its Application for CHP units
Operational Risk Assessment of Integrated Electricity and Heating Systems with CHP units
Operational Risk of Multi-Energy Customers Considering Service-Based Self-Scheduling
Multi-phase Risk Modelling and Evaluation of Multi-energy Systems under Windstorms
Long-term Reserve Expansion of Integrated Electricity and Gas Systems for Risk Mitigation
Operational Risk Assessment of Integrated Electricity and Heating Systems with CHP units.
A Framework for Risk Modeling of Integrated Electricity and Gas Systems Utilizing Universal Generating Function Techniques
Short-Term Risk Evaluation of Integrated Electricity and Gas Systems Considering Dynamics of Gas Flow
Risk Evaluation of Integrated Electricity and Gas Systems Considering Cascading Effects
Definitions and Risk Modelling of Two-Interdependent-Performance Multi-State System and its Application for CHP units
Operational Risk Assessment of Integrated Electricity and Heating Systems with CHP units
Operational Risk of Multi-Energy Customers Considering Service-Based Self-Scheduling
Multi-phase Risk Modelling and Evaluation of Multi-energy Systems under Windstorms
Long-term Reserve Expansion of Integrated Electricity and Gas Systems for Risk Mitigation
Operational Risk Assessment of Integrated Electricity and Heating Systems with CHP units.