Geoff Klempner

Handbook of Large Hydro Generators


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Isidor, author. | Klempner, Geoff, author.

      Title: Handbook of large hydro generators : operation and maintenance / Glenn Mottershead, Stefano Bomben, Isidor Kerszenbaum, Geoff Klempner.

      Other titles: Operation and maintenance of large turbo generators

      Description: Eleventh edition. | Hoboken, New Jersey : Wiley, [2020] | Series: IEEE press series on power engineering | Original edition published under title: Operation and maintenance of large turbo generators / Geoff Klempner, Isidor Kerszenbaum. | Includes bibliographical references and index.

      Identifiers: LCCN 2020035414 (print) | LCCN 2020035415 (ebook) | ISBN 9780470947579 (hardback) | ISBN 9781119524182 (adobe pdf) | ISBN 9781119524168 (epub)

      Subjects: LCSH: Turbogenerators. | Turbogenerators–Maintenance and repair.

      Classification: LCC TK2765 .K58 2020 (print) | LCC TK2765 (ebook) | DDC 621.31/3–dc23

      LC record available at https://lccn.loc.gov/2020035414 LC ebook record available at https://lccn.loc.gov/2020035415

       To our familiesJoanne and sons Stephen, Brian, Jeffrey Mottershead and their familiesVictoria, Kristina, and Kayla BombenSusan KlempnerJackie, Livnat, and Yigal Kerszenbaum,andTo the operators, technicians, and engineers in the power stations around the world who keep the lights on and the power flowing around the clock through adverse conditions for the benefit of everyone.

      Hydro generators in different plants are rarely identical, and it is not uncommon for small, medium, or large utilities to have a significant variety of unit sizes, origins, and vintage in their fleet of generators. Among these generators, there might be units 60 or more years old with all original components including stator windings due to the robust nature of this class of machinery. Some might still have a pilot and main rotating exciter or a static pilot with a main rotating exciter, or have full static excitation. Additionally, there may be units operating over a wide range of rotating speeds in 50 and 60 Hz power grids with a few still operating at 25 Hz or other frequencies. All are designed and built by a long list of manufacturers from around the globe using a variety of materials and methods governed by different standards. These generators are still owned by traditional utilities and also owned by new deregulated independent power producers (IPPs) that acquire traditional utilities from all over the world. There are new large hydro plants still being built for traditional utilities and IPPs to the most modern design standards and manufacturing methods. The owners of all types are called upon to operate and maintain an incredibly wide variety of machines.

      The reasons why one may find so many “old” units still in operation is not difficult to determine. First of all, historically generators have been designed and manufactured with the intent to be robust enough to last typically 50 years or more. Second, replacing operating units is very capital‐intensive and done only when a catastrophic failure has occurred or some significant economic benefit is possible only with complete replacement. Third, although typically designed to last many years, large hydro generators are known to be capable of having their lives extended far beyond 50 years if well maintained and operated. There are some generators in operation today that were placed in service in 1896, an example is the Dominion Power and Transmission Company's units in Decew Falls, Ontario, Canada, now operated by Ontario Power Generation. To continue to operate reliably older generators require replacement of at least some major components, such as the armature winding, rotor winding insulation, or replacing the entire stator frame and core or rotor spider. Managing the scope and timing of major maintenance is always a challenge.

      Unfortunately, not every company retains an individual with the breadth and depth of expertise required for troubleshooting the generators. In fact, with the advent of deregulation, many small nonutility (third‐party) power producers operate small fleets of generators without the benefit of in‐house expertise. In lieu of that, they depend heavily on OEMs and independent consultants. Large utilities in many places have also seen their expertise dissipate, not to a small extent because of a refocusing of management priorities. All these developments are occurring at the same time that these aging units are called to operate in a deregulated or semideregulated world which typically results in an increase in load‐cycling.

      Some effort has been made over the years to capture the experts' knowledge and make it readily available to any operator as a computer‐based expert system. However, difficulty with adaptation of the associated computer programs to the many different types of generators and related equipment in existence has proved to be the Achilles heel of this technology. There is just no substitute for someone who understands machine design and has the required experience to recognize the significance of visual indications while crawling through a machine on a regular basis.

      This book is designed to partially fill the gap by offering a comprehensive view of many issues related to the operation, inspection, maintenance, and troubleshooting of large hydro generators. All of the information in the book is the result of many years of combined hands‐on experience of the authors, which at the time of this writing, amounts to 157 years. It was written with the machine's operator and inspector in mind, as well as providing a guide to uprating and life enhancement of large hydro generators. Although not designed to provide a step‐by‐step guide for the troubleshooting of large hydro generators, it serves as a valuable source of information that may prove to be useful during troubleshooting activities. The topics covered are also cross‐referenced to other sources. Many such references are included to facilitate those readers interested in enlarging their knowledge of a specific issue under discussion. For the most part, theoretical equations have been left out, as there are several exceptionally good books on the theory of operation of synchronous machines. Those readers who so desire can readily access those books, several references are cited. This book, however, is about the practical aspects that characterize the design, operation, and maintenance of large hydro generators, and a number of practical calculations used commonly in maintenance and testing situations have been added.

      Chapters 2 and 3 (Generator Design and Construction and Generator Auxiliary Systems) contain a very detailed and informative description