Add to ORKGWe introduce a tool for simulation and optimization of gas pipeline networks coupled to power grids by gas-to-power plants. The model under consideration consists of the isentropic Euler equations to describe the gas flow coupled to the AC powerflow equations. A compressor station is installed to control the gas pressure such that certain bounds are satisfied. A numerical case study is presented that showcases effects of fast changes in power demand on gas pipelines and necessary operator actions
In this thesis the development of a compressor for a gas network simulation will be discussed. The m...
Abstract — In this paper, the combined natural gas and electric optimal power flow (GEOPF) is presen...
As gas pipeline systems become larger and more complex, the importance of optimally operating and pl...
We introduce a tool for simulation and optimization of gas pipeline networks coupled to power grids ...
In this thesis, the coupling of gas and power networks is examined. The isentropic Euler equations a...
Compressor stations play a crucial role in natural gas networks to maintain required pressure levels...
In this paper, a mathematical framework for the coupling of gas networks to electric grids is presen...
Nowadays, natural gas is one of the primary energy resources employed in many sectors, and it can be...
Natural gas passing through pipelines is transported via compressor stations. These stations are usu...
The optimal operation of gas-driven compressors (GDCs) and electric-driven compressors (EDCs) was in...
With the growth of electricity generation from gas energy gas pipeline reliability can substantially...
We introduce a stationary model for gas flow based on simplified isothermal Euler equations in a non...
Abstract A unified optimal power flow (OPF) model for AC/DC grids integrated with natural gas system...
AbstractManaging a gas transport network is a complex problem because of the number of possibilities...
Abstract—Natural gas transmission pipelines are complex sys-tems whose flow characteristics are gove...
In this thesis the development of a compressor for a gas network simulation will be discussed. The m...
Abstract — In this paper, the combined natural gas and electric optimal power flow (GEOPF) is presen...
As gas pipeline systems become larger and more complex, the importance of optimally operating and pl...
We introduce a tool for simulation and optimization of gas pipeline networks coupled to power grids ...
In this thesis, the coupling of gas and power networks is examined. The isentropic Euler equations a...
Compressor stations play a crucial role in natural gas networks to maintain required pressure levels...
In this paper, a mathematical framework for the coupling of gas networks to electric grids is presen...
Nowadays, natural gas is one of the primary energy resources employed in many sectors, and it can be...
Natural gas passing through pipelines is transported via compressor stations. These stations are usu...
The optimal operation of gas-driven compressors (GDCs) and electric-driven compressors (EDCs) was in...
With the growth of electricity generation from gas energy gas pipeline reliability can substantially...
We introduce a stationary model for gas flow based on simplified isothermal Euler equations in a non...
Abstract A unified optimal power flow (OPF) model for AC/DC grids integrated with natural gas system...
AbstractManaging a gas transport network is a complex problem because of the number of possibilities...
Abstract—Natural gas transmission pipelines are complex sys-tems whose flow characteristics are gove...
In this thesis the development of a compressor for a gas network simulation will be discussed. The m...
Abstract — In this paper, the combined natural gas and electric optimal power flow (GEOPF) is presen...
As gas pipeline systems become larger and more complex, the importance of optimally operating and pl...