Energy management of renewable energy-based combined heat and power systems: A review
The studies regarding renewable energy application for power generation systems have
increased yearly due to its environmental friendliness, never running out, and bright …
increased yearly due to its environmental friendliness, never running out, and bright …
Distributed energy management of multi-entity integrated electricity and heat systems: A review of architectures, optimization algorithms, and prospects
Synergies among multiple energy sectors in an integrated electricity and heat system (IEHS)
improve energy efficiency, economic operation and renewable energy utilization, thus …
improve energy efficiency, economic operation and renewable energy utilization, thus …
A two-stage approach for combined heat and power economic emission dispatch: Combining multi-objective optimization with integrated decision making
To address the problem of combined heat and power economic emission dispatch
(CHPEED), a two-stage approach is proposed by combining multi-objective optimization …
(CHPEED), a two-stage approach is proposed by combining multi-objective optimization …
A comprehensive review of heuristic optimization algorithms for optimal combined heat and power dispatch from economic and environmental perspectives
Combined heat and power economic dispatch (CHPED) aims to minimize the operational
cost of heat and power units satisfying several equality and inequality operational and …
cost of heat and power units satisfying several equality and inequality operational and …
Economic-environmental analysis of combined heat and power-based reconfigurable microgrid integrated with multiple energy storage and demand response …
Microgrids (MGs) are solutions to integrate high shares of variable renewable energy which
can contribute to more economical and environmental benefits, as well as improving the …
can contribute to more economical and environmental benefits, as well as improving the …
Decentralized solution for combined heat and power dispatch through benders decomposition
The operational flexibility of electric power systems (EPS) is restricted by combined heat and
power (CHP) units that act to maintain sufficient heating supply. By exploiting the pipeline …
power (CHP) units that act to maintain sufficient heating supply. By exploiting the pipeline …
Stochastic optimal operation model for a distributed integrated energy system based on multiple-scenario simulations
F Mei, J Zhang, J Lu, J Lu, Y Jiang, J Gu, K Yu, L Gan - Energy, 2021 - Elsevier
Problems related to the uncertainties of the sources and loads in integrated energy systems
(IESs) are becoming more prominent with the interconnection of large-scale renewable …
(IESs) are becoming more prominent with the interconnection of large-scale renewable …
Profit-based unit commitment problem: A review of models, methods, challenges, and future directions
H Abdi - Renewable and Sustainable Energy Reviews, 2021 - Elsevier
The unit commitment problem is one of the most significant and basic issues in the monitor,
control, and operation of modern power systems, which has always been a subject of great …
control, and operation of modern power systems, which has always been a subject of great …
A dynamic equivalent model for district heating networks: formulation, existence and application in distributed electricity-heat operation
Coordination efficiency between different energy sectors with privacy preservation has
become a technical bottleneck in distributed operation of the integrated electricity and heat …
become a technical bottleneck in distributed operation of the integrated electricity and heat …
Distributed dispatch of integrated electricity-heat systems with variable mass flow
The constant mass flow assumption has dominated distributed dispatch of integrated
electricity-heat systems (IEHSs), which ensures the simplicity of decomposition while …
electricity-heat systems (IEHSs), which ensures the simplicity of decomposition while …