A state space model for transient flow simulation in natural gas pipelines

With the boost of natural gas consumption, an automatic gas pipeline scheduling method is required to replace the dispatchers in decision making. Since the state space model is the fundamental work of modern control theory, it is possible that the classical controller synthesis method can be used for the complicated gas pipeline controller design. In this paper, a cascade control algorithm is proposed based on the state space model that is used for the transient flow simulation of the natural gas pipelines. A linear quadratic regulator is designed following the classical optimal control theory. Finally, the transient process with different control methods shows the effectiveness of the cascade control using information of the entire pipeline. According to the hardware configuration of natural gas pipelines, automatic scheduling process is ready to deploy as one step to the intelligent natural gas pipelines.

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Transient Flow Simulation in Natural Gas Pipelines Using the State Space Model

ASME 2010 10th Biennial Conference on Engineering Systems Design and Analysis, Volume 3 ◽

10.1115/esda2010-24433 ◽

2010 ◽

Author(s):

M. Behbahani-Nejad ◽

A. Ghanbarzadeh ◽

R. Alamian

Keyword(s):

Finite Difference ◽

State Space ◽

Transient Flow ◽

Transfer Functions ◽

State Space Model ◽

Method Of Lines ◽

Flow Simulation ◽

The State ◽

Finite Difference Schemes ◽

Gas Pipelines

A transient flow simulation for gas pipelines and networks is proposed. The proposed transient flow simulation is based on the state space equations. The equivalent transfer functions of the nonlinear governing equations are derived for different boundary conditions types. Next, the state space equations are derived from the transfer functions. To verify the accuracy of the proposed simulation, the results obtained are compared with those of the conventional finite difference schemes (such as total variation diminishing algorithms, method of lines, and other finite difference implicit and explicit schemes). The effect of the flow inertia is incorporated in this simulation. The accuracy and computational efficiency of the proposed method are discussed for a single gas pipeline and a sample gas network.

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A modeling and analytical solution for transient flow in natural gas pipelines with extended partial blockage

Journal of Natural Gas Science and Engineering ◽

10.1016/j.jngse.2014.11.029 ◽

2015 ◽

Vol 22 ◽

pp. 141-149 ◽

Cited By ~ 7

Author(s):

Zongming Yuan ◽

Zhibin Deng ◽

Maoze Jiang ◽

Ying Xie ◽

Yue Wu

Keyword(s):

Natural Gas ◽

Analytical Solution ◽

Transient Flow ◽

Gas Pipelines ◽

Natural Gas Pipelines

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Price Convergence and Information Efficiency in German Natural Gas Markets

German Economic Review ◽

10.1111/geer.12034 ◽

2015 ◽

Vol 16 (1) ◽

pp. 87-103 ◽

Cited By ~ 13

Author(s):

Christian Growitsch ◽

Rabindra Nepal ◽

Marcus Stronzik

Keyword(s):

Natural Gas ◽

The Netherlands ◽

State Space ◽

State Space Model ◽

Spot Market ◽

Cointegration Analysis ◽

Price Convergence ◽

Information Efficiency ◽

Space Model ◽

Varying Coefficients

Abstract In 2007, Germany changed network access regulation in the natural gas sector and introduced a so-called entry-exit system. The spot market effects of the reregulation remain to be examined. We use cointegration analysis and a state space model with time-varying coefficients to study the development of natural gas spot prices in the two major trading hubs in Germany and the interlinked spot market in the Netherlands. To analyse information efficiency in more detail, the state space model is extended to an error correction model. Overall, our results suggest a reasonable degree of price convergence between the corresponding hubs. Market efficiency in terms of information processing has increased considerably among Germany and the Netherlands.

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Study on Effect of Valve Operation on Transient Flow in Natural Gas Pipelines

2010 International Conference on Digital Manufacturing & Automation ◽

10.1109/icdma.2010.359 ◽

2010 ◽

Cited By ~ 2

Author(s):

Yanpeng Ding ◽

Yuxing Li

Keyword(s):

Natural Gas ◽

Transient Flow ◽

Gas Pipelines ◽

Natural Gas Pipelines ◽

Valve Operation

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A New Lumped Parameter Model for Natural Gas Pipelines in State Space

Energies ◽

10.3390/en11081971 ◽

2018 ◽

Vol 11 (8) ◽

pp. 1971 ◽

Cited By ~ 8

Author(s):

Kai Wen ◽

Zijie Xia ◽

Weichao Yu ◽

Jing Gong

Keyword(s):

Natural Gas ◽

State Space ◽

Transient Flow ◽

Transfer Functions ◽

The State ◽

Lumped Parameter Model ◽

Actual Behavior ◽

Gas Pipelines ◽

Computational Point ◽

Lumped Parameter

Many algorithms and numerical methods, such as implicit and explicit finite differences and the method of characteristics, have been applied for transient flow in gas pipelines. From a computational point of view, the state space model is an effective method for solving complex transient problems in pipelines. However, the impulse output of the existing models is not the actual behavior of the pipeline. In this paper, a new lumped parameter model is proposed to describe the inertial nature of pipelines with inlet/outlet pressure and flow rate as outer variables in the state space. Starting from the basic mechanistic partial differential equations of the general one-dimensional compressible gas flow dynamics under isothermal conditions, the transfer functions are first acquired as the fundamental work. With Taylor-expansion and a transformation procedure, the inertia state space models are derived with proper simplification. Finally, three examples are used to illustrate the effectiveness of the proposed model. With the model, a real-time automatic scheduling scheme of the natural gas pipeline could be possible in the future.

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