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Gas Turbines Modeling, Simulation, and Control: Using Artificial Neural Networks

Contemporary Asymmetrical Wood Floor Mirror

$ 78.40

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DescriptionGas Turbines Modeling, Simulation, and Control: Using Artificial Neural Networks provides new approaches and novel solutions to the modeling, simulation, and control of gas turbines (GTs) using artificial neural networks (ANNs). After delivering a brief introduction to GT performance and classification, the book:Outlines important criteria to consider at the beginning of the GT modeling process, such as GT types and configurations, control system types and configurations, and modeling methods and objectivesHighlights research in the fields of white-box and black-box modeling, simulation, and control of GTs, exploring models of low-power GTs, industrial power plant gas turbines (IPGTs), and aero GTsDiscusses the structure of ANNs and the ANN-based model-building process, including system analysis, data acquisition and preparation, network architecture, and network training and validationPresents a noteworthy ANN-based methodology for offline system identification of GTs, complete with validated models using both simulated and real operational dataCovers the modeling of GT transient behavior and start-up operation, and the design of proportional-integral-derivative (PID) and neural network-based controllersGas Turbines Modeling, Simulation, and Control: Using Artificial Neural Networks not only offers a comprehensive review of the state of the art of gas turbine modeling and intelligent techniques, but also demonstrates how artificial intelligence can be used to solve complicated industrial problems, specifically in the area of GTs.Table of ContentsIntroduction to Modeling of Gas TurbinesGT PerformanceGT ClassificationConsiderations in GT ModelingProblems and LimitationsObjectives and ScopeSummaryWhite-Box Modeling, Simulation, and Control of GTsWhite-Box Modeling and Simulation of GTsWhite-Box Approach in Control System DesignFinal StatementSummaryBlack-Box Modeling, Simulation, and Control of GTsBlack-Box Modeling and Simulation of GTsBlack-Box Approach in Control System DesignFinal StatementSummaryANN-Based System Identification for Industrial SystemsArtificial Neural Network (ANN)The Model of an Artificial NeuronANN-Based Model Building ProcedureANN Applications to Industrial SystemsANN LimitationsSummaryModeling and Simulation of a Single-Shaft GTGT Simulink ModelANN-Based System IdentificationModel Selection ProcessSummaryModeling and Simulation of Dynamic Behavior of an IPGTGT SpecificationsData Acquisition and PreparationPhysics-Based Model of IPGT by Using Simulink: MATLABNARX Model of IPGTComparison of Physics-Based and NARX ModelsSummaryModeling and Simulation of the Start-Up Operation of an IPGT by Using NARX ModelsGT Start-UpData Acquisition and PreparationGT Start-Up Modeling by Using NARX ModelsSummaryDesign of Neural Network-Based Controllers for GTsGT Control SystemModel Predictive ControllerFeedback Linearization Controller (NARMA-L2)PID ControllerComparison of Controllers PerformanceNMP SystemsSummaryAuthor(s) DescriptionHamid Asgari received his Ph.D in mechanical engineering from the University of Canterbury, Christchurch, New Zealand in 2014. He obtained his ME in aerospace engineering from Tarbiat Modares University, Tehran, Iran, and his BE in mechanical engineering from Iran University of Science and Technology, Tehran. He has worked more than 15 years in his professional field as a lead mechanical engineer and project coordinator in highly prestigious industrial companies. During his professional experience, he has been a key member of engineering teams in design, research and development, and maintenance planning departments.XiaoQi Chen is a professor in the Department of Mechanical Engineering at the University of Canterbury, Christchurch, New Zealand. After obtaining his BE in 1984 from South China University of Technology, Guangzhou, he received the China-UK Technical Co-Operation Award for his MS study in the Department of Materials Technology at Brunel University, London, UK (1985–1986) and his Ph.D study in the Department of Electrical Engineering and Electronics at the University of Liverpool, UK (1986–1989). He has been a senior scientist at the Singapore Institute of Manufacturing Technology (1992–2006) and a recipient of the Singapore National Technology Award (1999). His research interests include mechatronic systems, mobile robotics, assistive devices, and manufacturing automation.

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Asymmetrical Wood Floor Mirror

Bring warmth and sculptural elegance to your interior with this asymmetrical wood floor mirror. Featuring a distinctive curved silhouette framed in beautifully finished wood, it creates a bold design statement while offering a full-length reflection. Perfect for bedrooms, dressing rooms, fitness studios, entryways, and contemporary living spaces, its artistic profile softens clean architectural lines and enhances the sense of openness in any room.

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Crafted from premium HD mirror glass and a finely constructed solid wood frame, this floor mirror is designed for exceptional clarity, stability, and long-lasting durability. Available in custom sizes, wood species, and finish options, it can be tailored to complement both residential and commercial interiors. Whether leaned against a wall or securely mounted, this handcrafted mirror delivers timeless style with superior performance.

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