The increasing penetration of renewable energy and the growing frequency and severity of extreme weather events pose a significant challenge to the secure and economic operation of local energy systems. This paper presents a risk-averse scheduling model of the integrated electricity and heat system (IEHS) for resilience enhancement against contingencies. A tri-level formulation is proposed to formulate the worst line outage events and identify the optimal resilience enhancement strategies. The main idea is to find the least-cost scheduling solution that meets the predefined resilience requirements. The model incorporates multi-energy network operations that integrate network reconfiguration in the PDN and mass flow rate control in the DHN. ...
Recent challenges from severe weather events call for an adaptation in power systems planning method...
In this paper, the applicability of Microgrids (MGs) is reviewed for power system resilience against...
Generation and transmission expansion increase the flexibility of power systems and hence their abil...
The increasing penetration of renewable energy and the growing frequency and severity of extreme wea...
As renewable energy increasingly penetrates into electricity-heat integrated energy system (IES), th...
Abstract The integration of natural gas in electricity network requires a more reliable operating pl...
Integrated power and heat system (IPHS) is a typical multi-energy system which involves power system...
Integrated energy system (IES) is an effective way to realize the efficient utilization of energy. U...
Local energy communities (LECs) facilitate energy distribution, supply, consumption, storage, and tr...
The integrated energy system (IES) has bright prospects in engineering applications for its excellen...
Operational flexibility is an important attribute for the design of sustainable power systems with a...
As the frequency of extreme weather events rises, the resilience of power systems is becoming increa...
In recent years, it has become crucial to improve the resilience of electricity distribution network...
Recent challenges from severe weather events call for an adaptation in power systems planning method...
In this paper, the applicability of Microgrids (MGs) is reviewed for power system resilience against...
Generation and transmission expansion increase the flexibility of power systems and hence their abil...
The increasing penetration of renewable energy and the growing frequency and severity of extreme wea...
As renewable energy increasingly penetrates into electricity-heat integrated energy system (IES), th...
Abstract The integration of natural gas in electricity network requires a more reliable operating pl...
Integrated power and heat system (IPHS) is a typical multi-energy system which involves power system...
Integrated energy system (IES) is an effective way to realize the efficient utilization of energy. U...
Local energy communities (LECs) facilitate energy distribution, supply, consumption, storage, and tr...
The integrated energy system (IES) has bright prospects in engineering applications for its excellen...
Operational flexibility is an important attribute for the design of sustainable power systems with a...
As the frequency of extreme weather events rises, the resilience of power systems is becoming increa...
In recent years, it has become crucial to improve the resilience of electricity distribution network...
Recent challenges from severe weather events call for an adaptation in power systems planning method...
In this paper, the applicability of Microgrids (MGs) is reviewed for power system resilience against...
Generation and transmission expansion increase the flexibility of power systems and hence their abil...