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Rotor Systems: Analysis and Identification by Rajiv Tiwari Book Details
| Book Name | Rotor Systems: Analysis and Identification |
| Author | Rajiv Tiwari |
| Category | Aeronautical Engineering Books, Education Books |
| Book Language | English |
| Publisher | Taylor & Francis Group |
| Pages | 1091 |
| ISBN | 9781138036284 |
| Country | India |
| Book Size | 33 MB |
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About Rotor Systems: Analysis and Identification by Rajiv Tiwari Book
Rotor Systems: Analysis and Identification is a specialized area of study within the field of mechanical engineering and dynamics. It focuses on the analysis, modeling, and identification of dynamic behavior in rotor systems, which are found in various applications, including helicopters, turbines, motors, and other rotating machinery. Here's an overview of the key concepts and aspects of rotor systems analysis and identification:
1. Rotor Dynamics Basics:
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Rotor System Definition: A rotor system consists of a rotating shaft and attached components, such as blades, disks, and bearings.
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Dynamic Behavior: Rotor systems exhibit complex dynamic behavior, including vibration, resonance, and stability issues.
2. Analysis of Rotor Systems:
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Vibration Analysis: Studying the vibration characteristics of rotor systems, including natural frequencies, mode shapes, and forced responses.
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Stability Analysis: Determining the stability of rotor systems to avoid dangerous and damaging resonances.
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Modal Analysis: Identifying the mode shapes and natural frequencies of the rotor system for various operational conditions.
3. Modeling and Simulation:
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Mathematical Modeling: Developing mathematical models that describe the dynamic behavior of rotor systems under various loads and conditions.
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Finite Element Analysis (FEA): Using FEA to model and analyze the structural dynamics of rotor components.
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Multi-Body Dynamics: Employing multi-body simulation tools to analyze the interactions between various components in a rotor system.
4. Rotor Identification:
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System Identification: Extracting dynamic parameters from experimental data to build accurate mathematical models of rotor systems.
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Experimental Testing: Conducting physical tests and measurements on rotor systems to gather data for identification.
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Frequency Response Analysis: Analyzing the system's response to various frequency inputs to determine its dynamic properties.
5. Applications:
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Helicopter Rotors: Analyzing and identifying the dynamic behavior of helicopter rotor systems to ensure stability and performance.
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Gas Turbines: Evaluating the dynamics of gas turbine rotors to prevent resonance and fatigue issues.
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Electric Motors and Generators: Analyzing rotor dynamics in electrical machines to optimize their efficiency and performance.
6. Rotor Balancing:
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Static Balancing: Distributing mass to minimize unbalance forces during rotation.
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Dynamic Balancing: Adjusting mass distribution to minimize vibrations caused by rotor imbalances.
7. Control and Mitigation:
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Active Control: Implementing active control strategies to dampen vibrations and improve stability.
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Passive Damping: Incorporating passive damping mechanisms to reduce vibrations and improve performance.
8. Health Monitoring:
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Condition Monitoring: Using sensors and monitoring systems to track the health and performance of rotor systems.
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Fault Detection: Identifying anomalies or faults in rotor systems to prevent catastrophic failures.
The study of rotor systems analysis and identification is crucial for ensuring the safe and efficient operation of rotating machinery in various industries. It involves a combination of theoretical analysis, computational modeling, experimental testing, and practical applications to understand and control the dynamic behavior of rotor systems.
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