Digital Twins of the Water Cooling System in a Power Plant Based on Fuzzy Logic

Araújo, C.A.A.; Villanueva, Juan Moisés Maurício; Almeida, Rodrigo José Silva de; Medeiros, Isaac Emmanuel Azevedo de

doi:10.3390/s21206737

Cited by 22 publications

(9 citation statements)

References 24 publications

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“…Aiming at this problem, Alves de Araujo Junior et al (2021) developed a DTT-based water-cooling system with auxiliary equipment. They determined the number of correct fans according to the operator’s decision [ 78 ]. In terms of wind power, with the progress of intelligent technology and accelerated wind power industrialization, China has formed an industrial basis for large-scale wind power development and application.…”

Section: Methodsmentioning

confidence: 99%

Application of Digital Twins and Metaverse in the Field of Fluid Machinery Pumps and Fans: A Review

Yang

et al. 2022

Sensors

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Digital twins technology (DTT) is an application framework with breakthrough rules. With the deep integration of the virtual information world and physical space, it becomes the basis for realizing intelligent machining production lines, which is of great significance to intelligent processing in industrial manufacturing. This review aims to study the application of DTT and the Metaverse in fluid machinery in the past 5 years by summarizing the application status of pumps and fans in fluid machinery from the perspective of DTT and the Metaverse through the collection, classification, and summary of relevant literature in the past 5 years. The research found that in addition to relatively mature applications in intelligent manufacturing, DTT and Metaverse technologies play a critical role in the development of new pump products and technologies and are widely used in numerical simulation and fault detection in fluid machinery for various pumps and other fields. Among fan-type fluid machinery, twin fans can comprehensively use technologies, such as perception, calculation, modeling, and deep learning, to provide efficient smart solutions for fan operation detection, power generation visualization, production monitoring, and operation monitoring. Still, there are some limitations. For example, real-time and accuracy cannot fully meet the requirements in the mechanical environment with high-precision requirements. However, there are also some solutions that have achieved good results. For instance, it is possible to achieve significant noise reduction and better aerodynamic performance of the axial fan by improving the sawtooth parameters of the fan and rearranging the sawtooth area. However, there are few application cases of the Metaverse in fluid machinery. The cases are limited to operating real equipment from a virtual environment and require the combination of virtual reality and DTT. The application effect still needs further verification.

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Section: Methodsmentioning

confidence: 99%

Application of Digital Twins and Metaverse in the Field of Fluid Machinery Pumps and Fans: A Review

Yang

et al. 2022

Sensors

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“…It is reasonable to use them for control systems with incomplete or rapidly changing information on the object and with high complexity of the object in the presence of significant multi-variable, nonlinearity, and non-stationarity of its properties and characteristics, which cannot be compensated by the introduction of corrective links and feedback. There are many publications where this approach has been implemented for a variety of objects, for example, in control systems of an aircraft [33], a wind generator [34], a gas turbine engine [35], in a hydrogen vehicle power system [36], in the control system of the tension of an insulating tape in a machine for winding a transformer [37], while controlling the speed of a DC motor [38], in a digital twins of the water cooling system [39], and in a standalone electric vehicle charging station [40].…”

Section: Methodsmentioning

confidence: 99%

The Fuzzy Logic in the Problems of Test Control of a Bypass Turbojet Engine Gas Generator

et al. 2022

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Continuous improvement in the operational characteristics of gas turbine equipment and a significant reduction in the time of its creation have led to the development and application of new technologies for conducting research tests of a gas generator—the basic section of a bypass turbojet engine. Carrying out such tests requires the reproduction of the thermo gas dynamic parameters of the working fluid at the gas generator inlet to ensure maximum similarity to the processes occurring in the engine being designed. Obtaining a working fluid with the required thermo gas dynamic parameters such as temperature, pressure, and air flow rate is carried out on the basis of a test complex. The test complex, as a control object, is a non-linear, non-stationary, multi-variable system, where each controlled variable substantially depends on other control actions. The article presents the main aspects of the behavior of the object under consideration, which are the basis for the development of an automated test system and, in particular, the principles of forming control algorithms based on the theory of fuzzy logic. The graphs of the state and control of the main elements of the test complex are presented. Special attention is given to the analysis of the proposed control algorithms.

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“…Im Bereich Controlling von Anlagen werden DZ bereits genutzt, um bspw. Kühlkreisläufe zu steuern [7] oder defekte Komponenten zu identifizieren [8]. Darüber hinaus ermöglichen DZ für Gasturbinen einen physikbasierten Simulationsworkflow, der aero-thermisch-mechanische Simulationen sowie Fertigung, Erosion und Korrosion, Verschleiß und Degradation, Kosten und Lebensdauer berücksichtigt [9].…”

Section: Anwendung Digitaler Zwillinge Im Anlagenbauunclassified

Digitale Abbilder als Basis Digitaler Zwillinge im Anlagenbau: Besonderheiten, Herausforderungen und Lösungsansätze

Saske¹,

Schwoch²,

Paetzold³

et al. 2022

I40M

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Die Nutzung Digitaler Zwillinge birgt vielfältige Anwendungsfälle und Chancen zur Optimierung von Prozessen entlang des gesamten Lebenszyklus technischer Systeme. Jedoch trifft das Konzept im Anlagenbau auf spezifische Besonderheiten innerhalb der Entwicklung, der Errichtung sowie dem Betrieb der Anlagen. Dieser Beitrag erläutert diese Besonderheit und die daraus folgenden Herausforderungen für die Erstellung und die Anwendung Digitaler Zwillinge im Anlagenbau. Als Lösungsansatz wird das Digitale Abbild als Grundlage Digitaler Zwillinge sowie dessen Konzept, Voraussetzungen und Potenziale vorgestellt.

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Digital Twins of the Water Cooling System in a Power Plant Based on Fuzzy Logic

Cited by 22 publications

References 24 publications

Application of Digital Twins and Metaverse in the Field of Fluid Machinery Pumps and Fans: A Review

Application of Digital Twins and Metaverse in the Field of Fluid Machinery Pumps and Fans: A Review

The Fuzzy Logic in the Problems of Test Control of a Bypass Turbojet Engine Gas Generator

Digitale Abbilder als Basis Digitaler Zwillinge im Anlagenbau: Besonderheiten, Herausforderungen und Lösungsansätze

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