Research on Fast Decoupled Load Flow Method of Power System

The power flow calculation is study the steady-state operation of the power system as basic electrical calculations. It is given the power system network topology, device parameters and determines system health boundary conditions, draw a detailed operating status of the power system through numerical simulation methods, such as voltage amplitude and phase angle on the bus system the power distribution and the power loss. Flow calculation is the power system operation, planning and safety, reliability analysis, is fundamental to the system voltage regulation, network reconfiguration and reactive power optimization must call the function, so the trend has very important significance to calculate the power system.

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Performance Analysis on Transmission Line for Improvement of Load Flow

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.433-440.7208 ◽

2012 ◽

Vol 433-440 ◽

pp. 7208-7212

Author(s):

Ya Min Su Hlaing ◽

Ze Ya Aung

Keyword(s):

Steady State ◽

Power System ◽

Transmission Line ◽

Power Flow ◽

Reactive Power ◽

Load Flow ◽

Electric Power System ◽

Steady State Condition ◽

Newton Raphson ◽

Raphson Method

This thesis implements power flow application, Newton-Raphson method. The Newton-Raphson method is mainly employed in the solution of power flow problems. The network of Myanma electric power system is used as the reference case. The system network contains 90 buses and 106 brunches. The weak points are found in the network by using Newton-Raphson method. Bus 16, 17, 85 and 86 have the most weak bus voltages. The medium transmission line between bus 87 and bus 17 is compensated by using MATLAB program software. The transmission line is compensated with shunt reactors, series and shunt capacitors to improve transient and steady-state stability, more economical loading, and minimum voltage dip on load buses and to supply the requisite reactive power to maintain the receiving end voltage at a satisfactory level. The system performance is tested under steady-state condition. This paper investigates and improves the steady–state operation of Myanma Power System Network.

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Study of Shunt FACTS-Based Controllers Effectiveness on Multi Machine Power System Steady State Operation

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.403-408.4926 ◽

2011 ◽

Vol 403-408 ◽

pp. 4926-4933

Author(s):

Laxmidhar Sahu ◽

Jose. P. Therattil ◽

P. C. Panda

Keyword(s):

Power System ◽

Power Flow ◽

Load Flow ◽

Continuous Change ◽

Flow Models ◽

Flexible Ac Transmission ◽

Steady State Operation ◽

Facts Controllers ◽

Ac Transmission ◽

Matlab Programming

The continuous change in power demand and supply altered the power flow patterns in transmission networks in such a way that some of the corridors are lightly loaded and some of the corridors get over loaded. This raises serious challenge in operating the power system in secure and reliable manner. To cope with this problem Flexible AC Transmission Systems (FACTS) is used. It plays a very important role in improving the power system operating performance. In this paper load flow models for STATCOM and SVC have been developed. Power flow study of a five bus system is carried out with and without FACTS controllers. Results of the power flow studies are obtained with MATLAB programming.

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Improvement of bus voltage profiles of Nigerian power network in the presence of Static Synchronous Compensator (STATCOM) and Doubly Fed Induction Generator (DFIG)

Nigerian Journal of Technology ◽

10.4314/njt.v39i1.26 ◽

2020 ◽

Vol 39 (1) ◽

pp. 228-237

Author(s):

I.B. Anichebe ◽

A.O. Ekwue

Keyword(s):

Renewable Energy ◽

Stability Analysis ◽

Power System ◽

Power Flow ◽

Voltage Stability ◽

Reactive Power ◽

Renewable Energy Sources ◽

Load Flow ◽

Energy Sources ◽

Power Network

Frequent blackouts and unstable supply of electricity show that the voltage instability problem has been one of the major challenges facing the power system network in Nigeria. This study investigates the voltage stability analysis of the Nigerian power network in the presence of renewable energy sources; FACTS device is used as a voltage controller. A 330kV, 28-bus power system network was studied using the PSS/E software-based Newton-Raphson load-flow technique. The results show that 10 out of the 28 buses had voltages lying below the statutory limit of 0.95 ≤ 1.05 p.u. The application of STATCOM and DFIG devices on two of the weakest buses restored the voltages to acceptable statutory limits. The total active and reactive power losses were reduced to 18.76% and 18.82% respectively. Keywords: Voltage stability analysis; Integration of renewable energy sources; FACTS controllers, Reactive Power, Power Flow.

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Load Flow Analysis in Hybrid AC-DC Transmission Network

International Journal of Advanced Research in Science, Communication and Technology ◽

10.48175/ijarsct-1445 ◽

2021 ◽

pp. 617-624

Author(s):

Ajith M ◽

Dr. R. Rajeswari

Keyword(s):

Power Systems ◽

Power System ◽

Transmission Lines ◽

Power Flow ◽

Reactive Power ◽

Short Circuit ◽

Flow Analysis ◽

Load Flow ◽

System Stability ◽

And Control

Power-flow studies are of great significance in planning and designing the future expansion of power systems as well as in determining the best operation of existing systems. Technologies such as renewables and power electronics are aiding in power conversion and control, thus making the power system massive, complex, and dynamic. HVDC is being preferred due to limitations in HVAC such as reactive power loss, stability, current carrying capacity, operation and control. The HVDC system is being used for bulk power transmission over long distances with minimum losses using overhead transmission lines or submarine cable crossings. Recent years have witnessed an unprecedented growth in the number of the HVDC projects. Due to the vast size and inaccessibility of transmission systems, real time testing can prove to be difficult. Thus analyzing power system stability through computer modeling and simulation proves to be a viable solution in this case. The motivation of this project is to construct and analyze the load flow and short circuit behavior in an IEEE 14 bus power system with DC link using MATLAB software. This involves determining the parameters for converter transformer, rectifier, inverter and DC cable for modelling the DC link. The line chosen for incorporation of DC link is a weak bus. This project gives the results of load flow and along with comparison of reactive power flow, system losses, voltage in an AC and an AC-DC system.

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The Effect of the Accuracy of Reactive Power Measurement on Transmission Node Cost

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.816-817.598 ◽

2013 ◽

Vol 816-817 ◽

pp. 598-601

Author(s):

Hai Bao ◽

Xiang Yu Zhang ◽

Gang Liu ◽

Ling Wang

Keyword(s):

Cost Analysis ◽

Power Distribution ◽

Power Flow ◽

Reactive Power ◽

Power Measurement ◽

Power Flow Calculation ◽

Flow Calculation ◽

Data Measurement ◽

The Cost ◽

Do So

Power flow calculation is the fundamental of cost analysis of transmission node. In traditional methods, the rationality of the cost analysis is of more concern than the accuracy of the power flow calculation’s results. This paper starts from the reactive data that being used for power flow calculation, expatiate that the method of present reactive power data measurement is inaccurate and explains why it is inaccurate. What reactive power would do to node cost analysis and why it could do so are analyzed considering cost analysis of transmission node. At last, an example of IEEE 9 is used. And it is proved that the fluctuation of reactive power will affect the power distribution of the whole network, as a result affect the generators’ sale of electricity income to loads greatly.

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Probabilistic Load Flow Based on Cumulant Method Considering Multi-Slack Balance

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1070-1072.943 ◽

2014 ◽

Vol 1070-1072 ◽

pp. 943-951 ◽

Cited By ~ 1

Author(s):

Fei Shi ◽

Yi Jun Yu ◽

Shu Hai Feng ◽

Jin Zhou ◽

Peng Xu ◽

...

Keyword(s):

Power System ◽

Power Flow ◽

Load Flow ◽

Sensitivity Matrix ◽

Online Application ◽

Flow Calculation ◽

Probabilistic Load Flow ◽

Time Operation ◽

Cumulant Method ◽

Probabilistic Load

With constant improvement of intermittent energy source, its agglomeration effect and stochastic volatility will greatly influence the power system operation. It’s an inexorable trend that probabilistic power flow calculation shifts from offline analysis to real-time operation online. Among all probabilistic trend algorithms, probability flow calculation based on cumulant method is the fastest one; it has better prospect of online application. However, it requires random variables independent to each other, so the single slack bus always undertakes all unbalance power in conventional cumulant methods. When the fluctuation of system power injection becomes larger and larger, this calculation model will hardly adapted to the actual demand of the grid in the future. To improve the practicability, a improvement of probabilistic load flow based on cumulant method is proposed in this paper. By modify the calculation of the sensitivity matrix, the distribution of system unbalance power can be considered. The accuracy of this method is verified by the simulated analysis of the standard examples and actual power system model.

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Study on Power Flow Calculation Using PSASP

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.672-674.1081 ◽

2014 ◽

Vol 672-674 ◽

pp. 1081-1084

Author(s):

Xin Rui Zhang ◽

Li Zhi

Keyword(s):

Power System ◽

Power Flow ◽

Fault Analysis ◽

Operating Conditions ◽

Power Flow Calculation ◽

Stability Calculation ◽

Flow Calculation ◽

Steady State Operation ◽

The Stability ◽

The Given

The power flow calculation is a basic electrical calculation which is to study the steady state operation of power system. Its task is to decide the whole system running state according to the given operating conditions and the network structure. The power flow calculation is the basis of the stability calculation and fault analysis of power system. In this paper, through a four machine 11 node example, we shows that the influence of generator node type on power flow calculation.

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IMPACT OF STATIC VAR COMPENSATORS ON POWER SYSTEM: A CASE STUDY

International Journal of Power System Operation and Energy Management ◽

10.47893/ijpsoem.2014.1110 ◽

2014 ◽

pp. 4-8

Author(s):

GUNEET KOUR ◽

G.S. BRAR ◽

JASWANTI JASWANTI

Keyword(s):

Power System ◽

Power Electronics ◽

Power Flow ◽

Reactive Power ◽

Flow Analysis ◽

Load Flow ◽

Voltage Profile ◽

Flexible Control ◽

Load Flow Analysis ◽

Reactive Power Flow

With increase in load, any transmission, distribution and generating model suffers from disturbances. These disturbances effect the overall stability of the system. Criterias like voltage profile, power flows, losses tell us about the state of the system under study. Load flow analysis of the system under study is capable of providing the insight of the system. The Emergence of FACTS device is really a step forward for the flexible control or Power System Operations. FACTS is the name given to the application of the power electronics devices to control power flows and other quantities in the power system. But when it comes to implementation stage, optimizing the location becomes a great concern because of the high cost involved with FACTS devices especially converter like SVC, STATCOM etc. Static Var Compensator (SVC) is a power quality device, which employs power electronics to control the reactive power flow of the system where it is connected. It is able to provide fast-acting reactive power compensation on electrical systems. SVC is one of the methods and can be applied to obtain a system with least losses, increased power flow and healthy voltage profile. Number, location and size of SVC are the main concerns and they can be optimized to a great extent by Genetic Algorithm (GA) or any other method. Use of SVC in a system has shown considerable increase in voltage profile and power flows while decrease in losses.

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A New Format Power Flow Computation Software Analysis and Design Based on MATLAB

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.383-390.2346 ◽

2011 ◽

Vol 383-390 ◽

pp. 2346-2349

Author(s):

Jie Luo ◽

Wen Hui Wu

Keyword(s):

Power System ◽

Power Flow ◽

Reactive Power ◽

Flow Analysis ◽

Load Flow ◽

Analysis And Design ◽

Software Analysis ◽

Load Flow Analysis ◽

System Data ◽

Load Flow Calculation

Power flow analysis plays a significant role in both design and operational stage. The purpose of any load flow analysis is to compute accurate steady state voltages and voltage angles of all buses in a network, the real and reactive power flows into every line and transformer, under the assumption of known generation and load. This paper focus on fast decoupled flow, a practical power system has been used as an example to introduce its application in actual calculation, what’s more, develops a fast decoupled load flow calculation program for n-node system by taking advantage of MATLAB. A visual GUI interface is also established with MATLAB. In addition, the paper proposes a new simple power system data format, different from the IEEE standard one. The correctness and simplicity of the proposed format is verified through IEEE-5bus,-9bus,-11bus,-39bus systems.

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Study of power flow in electricity system using extreme learning machine

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/926/1/012028 ◽

2021 ◽

Vol 926 (1) ◽

pp. 012028

Author(s):

M Darwis ◽

I C Gunadin ◽

S M Said

Keyword(s):

Power System ◽

Extreme Learning Machine ◽

Power Flow ◽

Reactive Power ◽

Flow Analysis ◽

Load Flow ◽

Machine Method ◽

Fast Processing ◽

Learning Machine ◽

Hidden Layer

Abstract Load Flow or Power Flow Analysis in the power system in used to determine the power system parameters such as voltage, current, active power, and reactive power contained in the power grid. The method that has long been used in the calculation of load flow or power flow is the Newton-Raphson iteration method. As for its development, to complete the power flow study, it is carried out by implementing the Artificial Intelligence method, one of which is the Extreme Learning Machine method. This method is used in the simulation of the simple 39 Bus system calculation from IEEE. In this Extreme Learning Machine, the testing analysis is carried out with 2 inputs, 1 hidden layer, 5 neurons, and 2 outputs and the number of datasets is 39 to produce MAE and MAPE respectively 2.02 and 0.76% and with a very fast processing time of 0.010s

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