Environmental Economic Dispatch Strategy for Power-Gas Interconnection System Considering Spatiotemporal Diffusion of Air Pollutant and P2G in Coastal Areas

Li, Zhuohuan; Yu, Zhuowei; Lin, Dan; Wu, Weiping; Zhu, Hanxin; Yu, Tao; Li, Haofei

doi:10.1109/access.2020.3006025

Cited by 5 publications

(4 citation statements)

References 17 publications

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“…The balance of active and reactive power produced in the distribution network must always be equal to the load in each bus, which is modeled in Equations ( 14) and (15). The balance of active and reactive power produced in the distribution network must always be equal to the load in each bus, which is modeled in Equations ( 14) and (15).…”

Section: Modelingmentioning

confidence: 99%

“…There is a problem in assessing the acceptability of wind production in gas systems. Integrated electric-based approximation based on mixed integer linear programming (MILP) to minimize wind generation losses for integrated electric gas systems is reviewed [15,16]. An integrated method for optimizing the smart management of integrated energy systems was defined [17,18].…”

Section: Introductionmentioning

confidence: 99%

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Modeling and Optimization of Combined Heating, Power, and Gas Production System Based on Renewable Energies

et al. 2023

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Electrical energy and gas fuel are two types of energy needed that increase environmental pollution by burning fossil fuels in power plants to produce electrical energy and direct combustion of gas fuel. In this research, an attempt has been made to model the electrical energy network in the presence of renewable energy sources and gas production systems. The advantage of this model compared to other models of similar studies can be found in providing a mixed integer linear optimization model of distributed generation sources with gas fuel, energy storage systems, and gas power systems, along with electric vehicles in an integrated electricity and gas system. In addition to the energy consumption of buildings, an electric vehicle is also considered a base load, which is one of the limitations in optimizing the maximum charging of an electric vehicle. Among the important results of this research, it can be mentioned that the investment cost of USD 879,340 in the first scenario, in which 37,374 kW of electric energy was purchased from the network to supply the electric load, and 556,233 m3 was purchased from the gas network to supply the required gas.

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Section: Modelingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Modeling and Optimization of Combined Heating, Power, and Gas Production System Based on Renewable Energies

et al. 2023

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“…Battery storage is unlikely to be viable in longer term (e.g., seasonal) operations [18]. Hydrogen tanks can be a good alternative for seasonal storage [19], although power-to-gas technologies remain very costly, particularly when operating in the classical electricity-in/electricity-out modes; however, the costs are decreasing. Thermal energy storage also can meet longer-term storage needs [20].…”

Section: Technologies Of Interestmentioning

confidence: 99%

Research Needs for Realization of Zero-Carbon Power Grids with Selected Case Studies

et al. 2022

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The attainment of carbon neutrality requires a research agenda that addresses the technical and economic challenges that will be encountered as we progress toward 100% renewable electricity generation. Increasing proportions of variable renewable energy (VRE) sources (such as wind turbines and photovoltaic systems) render the supply-and-demand balance of VRE-dominated power grids difficult. The operational characteristics and effects of VRE inverters also require attention. Here, we examine the implications of the paradigm shift to carbon neutrality and summarize the associated research challenges in terms of system planning, operation, and stability, and the need for energy storage integration, demand-side participation, distributed control and estimation, and energy sector coupling. We also highlight the existing literature gaps, and our recent studies that can fill in the gaps, thereby facilitating the improvement of grid operation and estimation. The numerical results of comparative case studies are also provided on the operational stability and economics of power grids with a high level of VRE sources, assisting stakeholders in establishing specific roadmaps and making relevant decisions.

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“…It proves that after the coupling of P2G technology and carbon capture power plant, most of the CO2 emitted by the system can be captured and sent to P2G facilities to synthesize natural gas. Z. Li et al 21 proposed a multiobjective environmental economic dispatch model in view of the serious air pollution in coastal areas in recent years, which incorporated air pollutants into the dispatch model of the power–gas interconnected system. On the basis of minimizing system economic costs and carbon emissions, the contribution of pollutant concentration is used as one of the optimization goals.…”

Section: Introductionmentioning

confidence: 99%

Internal benefit optimization model of gas‐thermal power virtual power plant under china's carbon neutral target

Guo

Mao

Yin

2022

Energy Science & Engineering

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Environmental Economic Dispatch Strategy for Power-Gas Interconnection System Considering Spatiotemporal Diffusion of Air Pollutant and P2G in Coastal Areas

Cited by 5 publications

References 17 publications

Modeling and Optimization of Combined Heating, Power, and Gas Production System Based on Renewable Energies

Modeling and Optimization of Combined Heating, Power, and Gas Production System Based on Renewable Energies

Research Needs for Realization of Zero-Carbon Power Grids with Selected Case Studies

Internal benefit optimization model of gas‐thermal power virtual power plant under china's carbon neutral target

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