Steam Turbine Rotor Stress Control through Nonlinear Model Predictive Control

Dettori, Stefano; Maddaloni, Alessandro; Galli, Filippo; Colla, Valentina; Bucciarelli, Federico; Checcacci, Damaso; Signorini, Annamaria

doi:10.3390/en14133998

Cited by 6 publications

(4 citation statements)

References 59 publications

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“…Since the optimization performed by the BSA is focused on longterm, it is necessary to adopt a control strategy in the shortterm to make reactors, power plant and equipment operating in safe and non-discontinuous conditions, while reacting to disturbances typical of process off-gases network distribution in terms of discontinuous production and internal consumptions. For this purpose, the DCA implements a Model Predictive Control (MPC) approach [41] based on the solution of a MILP where the prediction/ control horizon is set to 2 h. The cost function used for the optimization is the following:…”

Section: Off-gases Management and Valorisation Through Hydrogen Enric...mentioning

confidence: 99%

Multi-agent systems to improve efficiency in steelworks

Iannino

Colla

Mocci

et al. 2021

Matériaux & Techniques

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A multi-agent system consists of several computational entities capable of autonomous actions, called agents, which communicate with each other, and have the ability to coordinate their actions and to cooperate. Multi-agent systems received a great interest and attention over time, as they can be seen as a key enabling technology for complex applications, where distributed and processing of data, autonomy, and high degree of interactions in dynamic environments are required at the same time. Therefore, in view of current and future developments of the digitalization of industrial production cycles promoted by Industry 4.0, multi-agent systems are foreseen to play an increasing role for industrial production management and optimization. Because of barriers represented by large presence of legacy systems, in the steel sector agent-based technology is not widely applied yet, and multi-agent systems applications are very few. On the other hand, steel manufacturing industries are complex and dynamic systems whose production processes held a strategic role in the global economy. During last decades, the steel sector has undergone relevant transformations, especially through the massive digitalization and the innovation introduced by Industry 4.0. A further evolution is foreseen in the incoming years to improve the sustainability of the production cycle by improving energy and resource efficiency. Therefore, steel industries must face several challenges on the path toward the factory of the future. In such context multi-agent systems, through their intrinsic properties, such as autonomy, social abilities, reactivity, proactivity, and mobility, can overcome existing drawbacks and barriers, by increasing flexibility, improving resources efficiency, handling production operations, reacting to unpredicted events, optimizing production processes, and supporting legacy systems. In this paper, some applications of multi-agent systems in steel sector are presented to show the advantages and opportunities of agent-based technology.

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Section: Off-gases Management and Valorisation Through Hydrogen Enric...mentioning

confidence: 99%

Multi-agent systems to improve efficiency in steelworks

Iannino

Colla

Mocci

et al. 2021

Matériaux & Techniques

Self Cite

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“…It is advisable to use simplified identification models, which, however, should adequately reproduce the energy transients and the nonlinearity of the characteristics of GTU for the study of them as part of a complex model. The GTU interacts with the SG mechanically; thus, bringing the models of GTUs to a single generalized form (1) is not required [16,17].…”

Section: Mathematical Description Of the Power Supply Systemmentioning

confidence: 99%

“…The importance of taking into account the nonlinearity of the GTU model due to the presence of a system of several rotating masses is noted by many authors [16][17][18][19][20]. A nonlinear model of a GTU that takes into account the energy accumulation in the rotating masses of a two-shaft GTU [21,22] is presented as:…”

Section: Mathematical Description Of the Power Supply Systemmentioning

confidence: 99%

Investigation of the Influence of Gas Turbine Power Stations on the Quality of Electric Energy in the Associated Petroleum Gas Utilization

et al. 2021

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The problem of the quality of electric energy in the utilization of petroleum gas is considered. The article presents the results of the development of a mathematical description of power supply systems with gas turbine power stations based on two-shaft gas turbine units. The typical power distribution scheme of a gas turbine power station is given. The joint analysis of the generation modes of the gas turbine power station and the detected deviations of the power quality indicators values was carried out. The influence of the used mode on the power quality indicators is determined. As a result, the factors of operation of a gas turbine power station that affects power quality are identified, and recommendations for their elimination are given.

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“…Dettori et al [6] proposed Nonlinear Model Predictive Control (NMPC) technique to improve the sped of steam turbine start-up and increases the energy production with maintaining the stress of steam turbines.…”

Section: Introductionmentioning

confidence: 99%

Performance Improvement in Steam Turbine in Thermal Power Plants Using Artificial Neural Network

Abdullah¹,

Hamoodi²,

Mohammed³

2021

JESA

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Artificial intelligence has proven its effectiveness in many industrial fields to enhance the existing functionality. Artificial intelligence and machine learning algorithms integrated with turbines can be useful in controlling important variables such as pressure, temperature, speed, and humidity. In this research, the Simulink library from MATLAB is used to build an artificial neural network. The NARMA L2 neural controller is used to generate data and for training networks. To obtain the result and compare it with the real-time power plant, data is collected. The input variables provided to the neural network have a large effect on the hidden layer and the output of the neural network. The circuit board used in this research has a DC bridge, a transformer and voltage regulators. The result comparison shows that the integration of artificial neural networks and electric circuits shows enhanced performance with high accuracy of prediction. It was observed that the ANN integration system and electric circuit design have a result deviation of less than 1%. This shows that the integration of ANN improves the performance of turbines.

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Steam Turbine Rotor Stress Control through Nonlinear Model Predictive Control

Cited by 6 publications

References 59 publications

Multi-agent systems to improve efficiency in steelworks

Multi-agent systems to improve efficiency in steelworks

Investigation of the Influence of Gas Turbine Power Stations on the Quality of Electric Energy in the Associated Petroleum Gas Utilization

Performance Improvement in Steam Turbine in Thermal Power Plants Using Artificial Neural Network

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