Mark S. Darlow

Balancing of High-Speed Machinery

• Broschiertes Buch

Produktbeschreibung

Modern rotating machinery, particularly turbomachinery, is frequently being designed to operate at higher speeds than in the past. Consequently, there is an increased need to balance high-speed rotors. The purpose of this book is to provide the engineering student or practicing engineer with a single, complete reference on high-speed rotor balancing. To this end, a detailed analytical background and practical application procedures are presented for each of the principal high-speed rotor balancing methods, i.e. modal balancing, influence coefficient balancing and the Unified Balancing Approach. This information is supplemented and supported through a presentation of the theoretical development of synchronous rotor vibration and a brief overview of rigid rotor balancing techniques and machines. This is the first time this material is available in a single, concise volume, together with detailed descriptions of application procedures.

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Produktdetails

• Mechanical Engineering Series
• Verlag: Springer / Springer New York / Springer, Berlin
• Artikelnr. des Verlages: 978-1-4612-8194-8
• Softcover reprint of the original 1st ed. 1989
• Seitenzahl: 208
• Erscheinungstermin: 17. September 2011
• Englisch
• Abmessung: 235mm x 155mm x 12mm
• Gewicht: 338g
• ISBN-13: 9781461281948
• ISBN-10: 1461281946
• Artikelnr.: 36118190

Inhaltsangabe

1 Introduction.- 2 Theoretical Background.- Basic Vibration Theory.- Undamped Free Vibration Model.- Damped Free Vibration Model.- Undamped Forced Vibration Model.- Damped Forced Vibration Model.- Basic Theory of Lateral Rotor Vibrations.- Conical Jeffcott Analysis.- Combined Jeffcott Analysis.- Synchronous Rotor Response Notation.- Elliptical Orbit Response.- 3 Review of Literature on Rotor Balancing.- General and Rigid Rotor Balancing Literature.- Modal Balancing Literature.- Influence Coefficient Balancing Literature.- Literature on Combined Modal/Influence Coefficient Balancing Methods and Comparative Studies.- 4 Rotor Balancing Methods and Instrumentation.- Rigid Rotor Balancing.- Flexible Rotor Balancing.- Vibration Measurement for Rotor Balancing.- 5 Modal Balancing.- Analytical Development.- Application to Balancing.- N and (N+2) Plane Modal Balancing.- Advantages and Limitations of Modal Balancing.- 6 Influence Coefficient Balancing.- Analytical Development.- Calculation of Correction Masses.- Calculation of Influence Coefficients.- Procedure for Influence Coefficient Balancing.- Advantages and Limitations of Influence Coefficient Balancing.- Elimination of Non-independent Balancing Planes.- Analytical Development of the Orthogonalization Procedure.- Constraining the Non-independent Planes.- Numerical Examples.- 7 The Unified Balancing Approach.- Analytical Development.- Calculation of Modal Trial Mass Sets.- Calculation of Modal Correction Mass Sets.- Calculation of Influence Coefficients.- Procedure for Application of the Unified Balancing Approach.- 8 Experimental Comparisons of the Various Methods.- Test Rotor System.- Influence Coefficient Balancing Tests.- Balancing at the First Critical Speed.- Balancing at the Third Critical Speed.- Balancing at the Fourth Critical Speed.- Enhanced Modal Balancing Tests.- Balancing the First Mode.- Balancing the Third Mode.- Balancing the Fourth Mode.- Unified Balancing Approach Tests.- Balancing at the First Critical Speed.- Balancing at the Third Critical Speed.- Balancing at the Fourth Critical Speed.- 9 Application of the Principle of Reciprocity to Flexible Rotor Balancing.- Principle of Reciprocity.- Numerical Verification of Reciprocity.- Experimental Verification of Reciprocity.- Supercritical Shaft Verification.- Demo Rig Measurements.- Using Reciprocity in Flexible Rotor Balancing.- Glossary of Terms for High-Speed Rotor Balancing.- References.