An Equivalent Model of Gas Networks for Dynamic Analysis of Gas-Electricity Systems

The increasing coupling between natural gas and electricity systems by gas-fired generation units brings new challenges to system analysis, such as pressure variations due to consumption perturbations of generation units. The emerging issues require revolutionary modeling and analysis techniques. This paper proposes a novel model to quantify gas pressure variations due to gas-fired power unit ramping and the impact of constraints from natural gas pressure change on ramp rates of gas-fired plants. By utilizing Laplace transform to resolve the governing equations of gas networks, the proposed model can significantly reduce modeling complexity and computational burden. The dynamic behaviors in time scale in s-domain and spatial partial differential equations are transformed into finite difference equations. By introducing the concept of transfer matrices, the relation between states at each node of gas systems can be expressed by transfer parameter matrices. Additionally, a simplified model is introduced to simply the analysis. The explicit expressions of nodal pressure variations in response to demand change are very convenient for analyzing system dynamic performance under disturbances, identifying the most influential factors. The new models are extensively demonstrated on three natural gas networks and benchmarked with traditional simulation approaches. Results illustrate that they produce very close results with the simulation approach, particularly when gas pipelines are long and enter steady states.

[1]  Hongjie Jia,et al.  Dynamic Modeling and Interaction of Hybrid Natural Gas and Electricity Supply System in Microgrid , 2015, IEEE Transactions on Power Systems.

[3]  Abdullah Abusorrah,et al.  Coordination of Interdependent Natural Gas and Electricity Infrastructures for Firming the Variability of Wind Energy in Stochastic Day-Ahead Scheduling , 2015, IEEE Transactions on Sustainable Energy.

[4]  Mohammad Shahidehpour,et al.  Coordinated scheduling of electricity and natural gas infrastructures with a transient model for natural gas flow. , 2011, Chaos.

[5]  Russell Bent,et al.  Pressure Fluctuations in Natural Gas Networks Caused by Gas-Electric Coupling , 2015, 2015 48th Hawaii International Conference on System Sciences.

[6]  Tatsuhiko Kiuchi,et al.  An implicit method for transient gas flows in pipe networks , 1994 .

[7]  M. Shahidehpour,et al.  Interdependency of Natural Gas Network and Power System Security , 2008, IEEE Transactions on Power Systems.

[8]  E. Benjamin Wylie,et al.  Network: System Transient Calculations by Implicit Method , 1971 .

[9]  Mohd Amin Abd Majid,et al.  Simulation model for natural gas transmission pipeline network system , 2011, Simul. Model. Pract. Theory.

[10]  Carlos M. Correa-Posada,et al.  Integrated Power and Natural Gas Model for Energy Adequacy in Short-Term Operation , 2015, IEEE Transactions on Power Systems.

[11]  S. Skogestad Simple analytic rules for model reduction and PID controller tuning , 2004 .

[12]  C. H. Tiley,et al.  Unsteady and transient flow of compressible fluids in pipelines—a review of theoretical and some experimental studies , 1987 .

[13]  Carmen Borges,et al.  A simplified operation planning model considering natural gas network and reservoir constraints , 2010, IEEE PES T&D 2010.

[14]  Morteza Behbahani-Nejad,et al.  The accuracy and efficiency of a MATLAB-Simulink library for transient flow simulation of gas pipelines and networks , 2010 .

[15]  David Vernon Widder,et al.  Laplace Transform (Pms-6) , 1942 .

[16]  Sara Grundel,et al.  Computing Surrogates for Gas Network Simulation Using Model Order Reduction , 2013 .

[17]  Michael Chertkov,et al.  Optimal control of transient flow in natural gas networks , 2015, 2015 54th IEEE Conference on Decision and Control (CDC).

[18]  J. McCalley,et al.  A Multiperiod Generalized Network Flow Model of the U.S. Integrated Energy System: Part I—Model Description , 2007, IEEE Transactions on Power Systems.

[19]  Mohammad Shahidehpour,et al.  Impact of Natural Gas Infrastructure on Electric Power Systems , 2005, Proceedings of the IEEE.

[20]  James P. Peerenboom,et al.  Identifying, understanding, and analyzing critical infrastructure interdependencies , 2001 .

[21]  R. Whalley,et al.  The computation of torsional, dynamic stresses , 2009 .

[22]  Javier Reneses,et al.  Gas–Electricity Coordination in Competitive Markets Under Renewable Energy Uncertainty , 2015 .

[23]  Bernhard Müller,et al.  Transient Flow in Natural Gas Pipelines Using Implicit Finite Difference Schemes , 2014 .