How to Select the Right Centrifugal Pump: A Brief Survey of Centrifugal Pump Selection Best Practices
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-such as the required flow, differential pressure, suction conditions, etc.- must be weighed against the capital costs and cost of energy for the pumps considered. To determine the right pump, you must consider the overall cost of ownership, which includes capital cost, operating costs, and maintenance cost. What good is a low cost pump if it is inefficient or if is costly to maintain?
The selection methodology offered in this book focuses mainly on hydraulic design considerations, but it also touches on mechanical design details. Analyzing basic pump hydraulic parameters allows you to quickly determine if a centrifugal pump makes sense for your particular application. If you do decide a centrifugal pump will work for your application, then you need to be able to evaluate the various bids returned by pump manufacturers. A complete chapter is devoted to tabulating quotes from pump manufacturers in order to properly evaluate their bids and select the best overall option.
Robert X. Perez
Robert X. Perez has thirty years of rotating equipment experience in the petrochemical industry. He earned a BSME degree from Texas A&M University (College Station) and an MSME degree from the University of Texas (Austin), and he is a licensed professional engineer in the state of Texas. Mr. Perez served as an adjunct professor at Texas A&M University–Corpus Christi, where he developed and taught the engineering technology rotating equipment course. He authored Operator’s Guide to Centrifugal Pumps (Xlibris) in 2008 and coauthored Is My Machine OK?” (Industrial Press) with Andy Conkey in 2011. In 2013, he completed writing Illustrated Dictionary of Essential Process Machinery Terms (Diesel Publications) with the help of several other contributors. This dictionary has been well received by the community of rotating equipment professionals. In 2014, he coauthored Operator’s Guide to Rotating Equipment (Authorhouse) with Julien Lebeu. He has also written numerous machinery reliability articles for numerous technical conferences and magazines.
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How to Select the Right Centrifugal Pump - Robert X. Perez
AuthorHouse™
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Bloomington, IN 47403
www.authorhouse.com
Phone: 1 (800) 839-8640
© 2015 Robert X. Perez. All rights reserved.
No part of this book may be reproduced, stored in a retrieval system, or transmitted by any means without the written permission of the author.
Published by AuthorHouse 09/23/2015
ISBN: 978-1-5049-2267-8 (sc)
ISBN: 978-1-5049-2268-5 (hc)
ISBN: 978-1-5049-2266-1 (e)
Library of Congress Control Number: 2015911270
Any people depicted in stock imagery provided by Thinkstock are models,
and such images are being used for illustrative purposes only.
Certain stock imagery © Thinkstock.
Because of the dynamic nature of the Internet, any web addresses or links contained in this book may have changed since publication and may no longer be valid. The views expressed in this work are solely those of the author and do not necessarily reflect the views of the publisher, and the publisher hereby disclaims any responsibility for them.
Table of Contents
Dedication
Acknowledgement
Preface
Chapter 1 - Introduction to Centrifugal Pumps
Chapter 2 - Can I Use a Centrifugal Pump?
Chapter 3 - How Good Pumps Become Bad Actors
Chapter 4 - 10 Pump Selection Rules of Thumb
Chapter 5 - Bid Tabulations
Chapter 6 - The most important day in a pump’s lifetime
Chapter 7 - The Pump Selection Process
Appendix A - How to Calculate Pipe Friction Head Losses for Newtonian Fluids
Appendix B - Mechanical Seal Selection Primer
Appendix C - Centrifugal Pump Selection Checklist
Appendix D - Useful Conversions
Dedication
To my mother, Dolores Perez, for teaching me the importance of education and hard work.
Acknowledgement
The author would like to thank:
1) His wife, Elaine, for providing valuable feedback on the layout and format of the book and helping with editing.
2) Jacques Chaurette, Mechanical Engineer, for providing the material found iin Appendix A: How to Calculate Pipe Friction Head Losses for Newtonian Fluids
3) Julien LeBleu of Sage Technologies LLC for reviewing the manuscript and pointing out areas for improvement.
Preface
Preface%20Photo.jpgThe goal of this short book is to provide those who need to select reliable and efficient centrifugal pumps for industrial applications with some practical tips and advice on how to evaluate the many pump design possibilities available on the market today.
The technical discussion presented here assumes that the reader has a basic understanding of centrifugal pump construction and terminology. My book, Operators Guide to Centrifugal Pumps
is an excellent primer for those who feel the need for a basic review of centrifugal pump technology before tackling the topics in this book.
Choosing a centrifugal pump from the countless options available can be daunting, but someone has to make the decision. Many factors, such as the required flow, differential pressure, suction conditions, etc., must be weighed against the capital costs and cost of energy for the pumps considered. To determine the right pump, you must consider the overall cost of ownership, which includes capital cost, operating costs, and maintenance cost. What good is a low cost pump if it is inefficient or if is costly to maintain?
The selection methodology offered in this book focuses mainly on hydraulic design considerations, but also touches on mechanical design details. A large part of the book is devoted to key hydraulic deign parameters, such as specific speed (Ns) and suction specific speed (Nss), NSPHa, NPSHr, and NPSH margin ratio. Analyzing these basic hydraulic parameters allow you to quickly determine if a centrifugal pump makes sense for your particular application.
If you do decide a centrifugal pump will work for your application, then you need to be able to evaluate the various bids returned by pump manufacturers. Chapter 5 covers how to tabulate quotes from pump manufacturers in order to properly evaluate their bids and select the best overall option.
Using the advice in this book along with your company’s centrifugal pump guidelines, should ensure the selection of the optimum pump for your given application. Remember when in doubt, your company’s specifications along with current governing pertinent standards, such as API, PIP, ANSI, etc., should be considered the final word in the selection process.
I hope readers will find this book to be a useful addition to their technical libraries. My ultimate goal was to provide a valuable reference book that will be relevant for years to come.
Robert X. Perez
Chapter 1
Introduction to Centrifugal Pumps
Pumps are required throughout the process industry to move liquids from point A to point B, as shown in Figure 1.1 below where a pump takes suction flow from an overhead process vessel and pumps it into the process. Pump functions may involve moving liquid from a lower pressure to a higher pressure, lifting the liquid from a lower to a higher elevation or a combination of both. Liquid normally wants to move from a higher pressure to a lower pressure and from a higher level to a lower level. Getting liquid to move against its normal tendencies requires the addition of energy. That’s where pumps come in. Pumps are devices that transform mechanical energy into useful liquid energy.
Image34268.jpgFig. 1.1 - A centrifugal pump takes suction from an overhead process vessel and pumps product into a process.
Centrifugal pumps are one of the simplest of all the pump designs. They have one moving part. The rotor has an impeller that accelerates liquid from its suction eye or inlet (see Figure 1.2) to a maximum speed at its outer diameter.
Fig%201.2.jpgFigure 1.2- Centrifugal Pump Impeller and Volute
The liquid is then gradually decelerated to a much lower velocity in the stationary casing, called a volute casing. As it slows down, due to the increasing cross sectional area of the casing, pressure is developed, until full pressure is developed at the pump’s discharge. This simplicity of design and operation is what makes centrifugal pumps one of the most reliable of pump designs, assuming they are applied properly.
This process of converting velocity to pressure is similar to holding your hand outside of a moving automobile. As the high velocity air hits you, it slows down and pushes your hand back due to the pressure developed. Similarly, if you could insert your hand into the pump casing at the impeller exit and catch
the liquid, you would feel the pressure produced by dynamic action of the impeller. When any high velocity stream slows down, pressure is created. (This effect is called Bernoulli’s Principle, which simply states that energy is always conserved in a fluid stream.) The greater that the impeller diameter or rpm is, the greater the exit velocity is and, therefore, the higher pressure developed at the pump’s discharge.
Another benefit of centrifugal pumps is that they can cover a wide range of hydraulic requirements. Thus, they can be used in a wide range of flow and pressure applications. They can easily provide flows from less than 10 gallons per minute (37.9 liters per minute) to well over 10,000 gallons per minute (gpm) (379 000 liters/minute). Centrifugal pump impellers can easily be staged, that is, arranged so that one impeller’s output is directed to a subsequent impeller; over 4500 pounds per square inch (psi) (31026 kPa) of pressure can be generated.
One key disadvantage of centrifugal pumps is that their efficiencies are usually less than that of positive displacement pumps. Whereas positive displacement pumps can deliver