Understanding Steam Turbine Instability: In-Depth Analysis and Findings

08-09-2024
Ian Mckenzie
10 comments
4315
121

Question:

Seeking scholarly articles or research papers specifically addressing Steam Turbine Instability, as opposed to oil instability. Explore in-depth analysis and findings on the topic to gain a comprehensive understanding of steam turbine performance issues.

Top Replies

Can you explain steam instability in relation to pressure or moisture levels?

09-09-2024
Simon Ward

The issue of steam instability is linked to higher steam flow rates, despite consistent pressure levels. This phenomenon is a common concern in steam systems and can impact operational efficiency.

09-09-2024
Uma Fisher

Where does the increased steam flow occur in a steam turbine: at the inlet, outlet, or as it flows across the rotor?

09-09-2024
Jack Parker

passing through the turbine

09-09-2024
Cameron Price

Can you explain the issues around steam instability and why it is causing problems?

09-09-2024
Kyle Russell

You may want to check out the article "Stability Analysis of Steam Turbine Power Generating Units" published in the Journal of Energy Resources Technology. It provides detailed insights on the issues surrounding steam turbine instability including factors like steam flow, turbine speed, and pressure changes. The authors present a mathematical model to analyze these performance issues. Also, grasping the basic working principles of a steam turbine might provide valuable context. Remember, multiple factors like control system faults, manufacturing deviations, or operational irregularities can contribute to steam turbine instability, so a comprehensive understanding can be quite complex.

07-01-2025
Abigail Morris

You might want to look into the works of Bakhtar, F., et al. Their study on "On the Stability of Steam-Injected Gas Turbine Power Augmentation Systems" provides an in-depth analysis of steam turbine instability. They delve into performance issues, discussing the relationship between steam injection rate and the power and efficiency of the system. Additionally, the "IEEJ Transactions on Power and Energy" also published some interesting papers concerning the steam turbine instability. Remember, academic databases such as JSTOR or SpringerLink can be your best friends when researching such topics. Hope this helps!

25-02-2025
Chloe Rivera

In my research, I found a particularly insightful article titled "Understanding Steam Turbine Steady and Transient Operation Using Linear Parameter Varying Model". It explains the dynamic behavior of steam turbines under both stable and unstable conditions. The article features some in-depth analyses and findings which you might find valuable. It's available on the Journal of Physics: Conference Series. Don't overlook the references section as it can often lead to other useful sources.

25-02-2025
Paul Martinez

More Replies →

Sub-synchronous vibration occurs at 65% of operating speed, becoming more prominent at loads exceeding 90%. Irregular behavior is observed at lower loads and intensifies at higher loads, causing the 364 MW turbo-generator to trip (at levels exceeding 175 micro m pp). Measurements taken from both bearings of the HIP rotor reveal that the IP side (BRG 2) experiences the most significant vibrations. Orbits exhibit erratic patterns and the keyphasor mark is unstable, with forward orbit precession. The steam pressure remains constant at 171 bar.

09-09-2024
Vanessa Carter

It appears that the Turbine at Vibramac is possibly facing flow-induced rotor instability, leading to sub-synchronous vibrations and potential stalling that could result in a trip. It might be beneficial to compare the turbine's operation to its performance curve for further insight. Best of luck with resolving this issue. - Rajan Muthukrishnan

09-09-2024
Helen Diaz

I appreciate the advice and will definitely explore your suggestion. However, I am still facing an issue as no one has responded to my initial request for papers on steam instability.

09-09-2024
Elliot Barnes

Could you please explain your interest in steam instability? By conducting a search using the keyword "steam instability" on the internet, you may come across relevant information. I have also looked into it, but I am unsure if I found the specific information you are seeking.

09-09-2024
Xander Cooper

Greetings, Vibrmac! Based on your description, it is possible that your turbine is experiencing rotor instability. Various factors, such as labyrinth seals, aerodynamic effects, fixed geometry bearings, and internal friction at shrink fits, can generate destabilizing forces within the turbine. If you are facing rotor instability issues with your steam turbine, you may find the following references helpful: 1. "Unstable Oscillations of Turbine Rotors due to Steam Leakage in the Clearances of the Sealing Glands and the Buckets" by H. Thomas (1958). Published in the Bull de L'AIM, volume 71, pages 1039-1063. 2. "Turbine Rotor Vibrations Excited by Steam Forces (Steam Whirl)" by E. Pollman and H. Termuehlen (1975). ASME Paper 75-WA/Pwr-11. 3. "Application of Recent Rotor Dynamics Developments to Mechanical Drive Steam Turbines" by W. J. Caruso, B. E. Gans, and W. G. Catlow (1982). Presented in the Proceedings of the Eleventh Turbomachinery Symposium at Texas A&M University, pages 1-18. To analyze stability, Alford's equation (as per API) is commonly used to estimate the destabilizing effects of labyrinth seals and turbine blades. While this equation provides a decent estimate, more advanced analyses of labyrinth seals can offer a more precise quantification. The original paper by J. S. Alford, titled "Protecting Turbomachinery From Self-Excited Rotor Whirl" (1965), published in the ASME Journal of Engineering for Power, volume 87, number 4, pages 333-344, can be referenced for further study. If your machine is new or has recently been modified, please let me know if you require assistance in diagnosing or resolving any issues. Feel free to reach out to me for support. Best regards, Hunter www.BRGmachinery.com

09-09-2024
Hannah Stone

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Frequently Asked Questions (FAQ)

FAQ: 1. What is Steam Turbine Instability and why is it important?

Answer: - Steam Turbine Instability refers to the phenomenon where a steam turbine experiences fluctuations or disruptions in performance, which can lead to operational issues and reduced efficiency. It is important to address this issue as it can impact the overall functioning and reliability of power generation systems.

FAQ: 2. How does Steam Turbine Instability differ from oil instability?

Answer: - Steam Turbine Instability specifically relates to the operational challenges faced by steam turbines, whereas oil instability pertains to issues related to the lubricating oil used in machinery. Understanding the distinction between the two is crucial for addressing the root causes of performance issues in steam turbines.

FAQ: 3. What are some key research findings on Steam Turbine Instability?

Answer: - Research findings on Steam Turbine Instability may include identifying the factors contributing to instability, such as flow disturbances, vibration patterns, or thermal effects. Additionally, studies may offer insights into mitigation strategies and predictive maintenance techniques to enhance turbine performance and reliability.

FAQ: 4. Where can I find scholarly articles or research papers on Steam Turbine Instability?

Answer: - Scholarly articles and research papers on Steam Turbine Instability can be found in reputable academic journals, conference proceedings, or online databases specializing in engineering and power generation. It is recommended to search for keywords like "steam turbine instability analysis" or "performance issues in steam turbines" to access relevant literature on the subject.

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