In this paper, a mathematical framework for the coupling of gas networks to electric grids is presented to describe in particular the transition from gas to power. The dynamics of the gas flow are given by the isentropic Euler equations, while the power flow equations are used to model the power grid. We derive pressure laws for the gas flow that allow for the well-posedness of the coupling and a rigorous treatment of solutions. For simulation purposes, we apply appropriate numerical methods and show in a experimental study how gas-to-power might influence the dynamics of the gas and power network, respectively
The focus of this chapter is on methods for the analysis of parameter variations of energy networks ...
The integration of variable renewable energy sources into existing energy supply systems has increas...
Supplied with electricity and natural gas, local energy systems (LESs) with gas-fired generations in...
In this paper, a mathematical framework for the coupling of gas networks to electric grids is presen...
In this thesis, the coupling of gas and power networks is examined. The isentropic Euler equations a...
We introduce a tool for simulation and optimization of gas pipeline networks coupled to power grids ...
An increasing part of European electricity is provided by renewable sources, whose output varies con...
Reliance on natural gas for power generation has increased the coupling between gas and power networ...
Abstract A unified optimal power flow (OPF) model for AC/DC grids integrated with natural gas system...
The continuous uninterrupted supply of Natural Gas (NG) is crucial to today's economy, with issues i...
Gas and power networks are tightly coupled and interact with each other due to physically interconne...
In recent years the simulation of gas flow on networks attracts increasing interest. Since natural s...
The continuous uninterrupted supply of Natural Gas (NG) is crucial to today’s economy, with is...
Abstract — In this paper, the combined natural gas and electric optimal power flow (GEOPF) is presen...
This work is concerned with the simulation of gas networks using a hybrid modeling approach where di...
The focus of this chapter is on methods for the analysis of parameter variations of energy networks ...
The integration of variable renewable energy sources into existing energy supply systems has increas...
Supplied with electricity and natural gas, local energy systems (LESs) with gas-fired generations in...
In this paper, a mathematical framework for the coupling of gas networks to electric grids is presen...
In this thesis, the coupling of gas and power networks is examined. The isentropic Euler equations a...
We introduce a tool for simulation and optimization of gas pipeline networks coupled to power grids ...
An increasing part of European electricity is provided by renewable sources, whose output varies con...
Reliance on natural gas for power generation has increased the coupling between gas and power networ...
Abstract A unified optimal power flow (OPF) model for AC/DC grids integrated with natural gas system...
The continuous uninterrupted supply of Natural Gas (NG) is crucial to today's economy, with issues i...
Gas and power networks are tightly coupled and interact with each other due to physically interconne...
In recent years the simulation of gas flow on networks attracts increasing interest. Since natural s...
The continuous uninterrupted supply of Natural Gas (NG) is crucial to today’s economy, with is...
Abstract — In this paper, the combined natural gas and electric optimal power flow (GEOPF) is presen...
This work is concerned with the simulation of gas networks using a hybrid modeling approach where di...
The focus of this chapter is on methods for the analysis of parameter variations of energy networks ...
The integration of variable renewable energy sources into existing energy supply systems has increas...
Supplied with electricity and natural gas, local energy systems (LESs) with gas-fired generations in...
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