Frequency Containment Control of Hydropower Plants Using Different Adaptive Methods

Gezer, Doğan; Taşcıoğlu, Yiğit; Çelebioğlu, Kutay

doi:10.3390/en14082082

Cited by 10 publications

(12 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The MIT rule describes the relationship between the change in theta and the cost function [56], [57]. To determine how to update the parameter theta, an equation for the change in theta must be created [58].…”

Section: Stability Analysis Of the Proposed Control Scheme And Time D...mentioning

confidence: 99%

Design and Cascade PI Controller-Based Robust Model Reference Adaptive Control of DC-DC Boost Converter

Yanarateş

Zhou

2022

IEEE Access

View full text Add to dashboard Cite

In this paper, Cascade PI Controller-Based Robust Model Reference Adaptive Control (MRAC) of a DC-DC boost converter is presented. Non-minimum phase behaviour of the boost converter due to right half plane zero constitutes a challenge and its non-linear dynamics complicate the control process while operating in continuous conduction mode (CCM). The proposed control scheme efficiently resolved complications and challenges by using features of cascade PI control loop in combination with properties of MRAC. The accuracy of the proposed control system's ability to track the desired signals and regulate the plant process variables in the most beneficial and optimised way without delay and overshoot is verified using MATLAB/Simulink by applying comparative analysis with single PI and cascade PI controllers. Moreover, performance of the proposed control scheme is validated experimentally with the implementation of MATLAB/Simulink/Stateflow on dSPACE Real-time-interface (RTI) 1007 processor, DS2004 High-Speed A/D and CP4002 Timing and Digital I/O boards. The experimental results and analysis reveal that the proposed control strategy enhanced the tracking speed two times with considerably improved disturbance rejection.INDEX TERMS Cascade PI controller, control systems mathematical models, model reference adaptive control, state-space averaging method, time and frequency domain analysis.ZHONGFU ZHOU received the Ph.D. degree from the

show abstract

Section: Stability Analysis Of the Proposed Control Scheme And Time D...mentioning

confidence: 99%

Design and Cascade PI Controller-Based Robust Model Reference Adaptive Control of DC-DC Boost Converter

Yanarateş

Zhou

2022

IEEE Access

View full text Add to dashboard Cite

show abstract

“…The thermodynamic process of the gas and steam turbine is modelled by algebraic equations (Spalding and Cole, 1973), consistent on the adiabatic compression and expansion, as well as to the heat exchange in the HRSG [14,15]. It is assumed that the mixture of air and gas is almost equal to air flow.…”

Section: A Mathematical Modeling Of the Ccgt Plantmentioning

confidence: 99%

“…It is assumed that the mixture of air and gas is almost equal to air flow. The ratio of input-output temperatures for isentropic compression is given as follows [14,15].…”

Section: A Mathematical Modeling Of the Ccgt Plantmentioning

confidence: 99%

Improvement of Governing Control System Using Fuzzy Logic Controller in a CCGT Plant

Tala

2022

etj

View full text Add to dashboard Cite

In recent decades, there are considerable progressions research in modelling, simulation and control strategies. The advanced technologies in the combined cycle power plants offers more effectiveness and lower environmental effect compared to the conventional systems. Fuzzy logic control is one of the frequently advanced controllers may well improve the performance of the control system in the power plant. This study focuses on the improvement of governing control system by using fuzzy logic controller. Thus, a combined cycle gas turbine plant has been modelled and simulated on MATLAB/Simulink, and a fuzzy logic controller was implemented. The simulation results are compared with that of conventional PID controller tuned by Ziegler Nichols method.

show abstract

“…Besides the PI, PID, fuzzy logic, and NN, there are present adaptive methods whose purpose is to achieve stability and flexibility of the power system [24] no matter the conditions or the disturbances influencing the system. This paper has represented neural network (NN) based control as the latest approach in the control theory [25].…”

mentioning

confidence: 99%

New Approach in Hydropower Plant Control Based on Neural Networks

Koleva¹,

Babunski²,

Zaev³

et al. 2022

EEE

View full text Add to dashboard Cite

A new approach to efficient, faster, and intelligent hydropower plant (HPP) control, where constituent equipment is described with highly non-linear mathematical models based on the recommendation from the working group of IEEE on prime movers, is represented in this paper. HPP stability and high efficiency are important factors dependent on the dynamic changes in the energy system demands and the starting time of the plant because the obtained energy is very flexible to those changes in the energy system. This paper is shown and analysed the implementation of the artificial neural network-based controller with PID as an auxiliary controller which helped achieve better behaviour, faster plant stabilization, and operation. The benefits of new technologies and possibilities led to improvements in HPP control and faster system operation. This is achieved by using MATLAB® – Deep Learning Toolbox whereas the simulations are prepared in Simulink. Artificial Neural Networks (ANN) as a technique used in the HPP control systems have advantages in getting a stable and faster response but the complexity of the structure behind the neural networks (NN), meaning algorithms, number of hidden layers, training function, activation function can complicate and destabilize the process. In this paper, the focus is put on the mechanical power responses improvement and the advantages of implementing new technologies contrary to the problems that can occur by using them such as plant destabilization by implementing minor changes, fitting parameters, learning, and training processes, number of hidden layers/neurons, number of epochs, etc.

show abstract

Frequency Containment Control of Hydropower Plants Using Different Adaptive Methods

Cited by 10 publications

References 34 publications

Design and Cascade PI Controller-Based Robust Model Reference Adaptive Control of DC-DC Boost Converter

Design and Cascade PI Controller-Based Robust Model Reference Adaptive Control of DC-DC Boost Converter

Improvement of Governing Control System Using Fuzzy Logic Controller in a CCGT Plant

New Approach in Hydropower Plant Control Based on Neural Networks

Contact Info

Product

Resources

About