Volume 2 / Issue 1 / July 2016

David Sims was raised in Detroit, Michigan where his spirit of perseverance was born and nurtured. Shortly after graduating from the Detroit High School for the Fine and Performing Arts, he took off for the campus of Michigan State University with perseverance fueling him. He received a Bachelor’s Degree in Communications in Arts & Sciences. After graduating, he worked for Michigan State University for 14 years.

In 2013, David moved to Dallas and accepted a position in Central Order Management as the Aftermarket Parts Specialist for the Dallas site. As a Central Order Management specialist, his work consists of processing part orders and updating pricing and availability. He also ensures that all international orders go through the proper import and export screenings before being processed. He handles all credit card orders and wire transfers for cash in advance part orders. In addition, he is responsible for all customer bill to payment terms and accuracy of sales person information. Each day he strives to offer exceptional service by helping customers find the best quality products.

In his leisure, he enjoys taking road trips, spending time in nature, reading, watching collegiate sports, exploring health and nutrition, and spending time with his family and friends.

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Volume 2 / Issue 1 / July 2016

Newer PACE systems have a Min Speed Seek function located on page 1 of Field Setup. When ready (per below), press the Seek button. Why is this function so important? It eliminates the dead band if minimum/starting speed is too low, and the PID loop is way more efficient.

Min Speed Seek will experimentally determine the following values – PID minimum speed, initial starting speed, speed test speed, starting speed XL lag, and stopping speed XL lag. These values are all important to good speed control operation.  The test will slowly increase VFD speed to determine when the pump will produce setpoint pressure, but no flow.

This test will only operate if a single VFD pump is started in Test Mode (System in “Test”, Pump in “Auto”). No XL Pumps may be running during the test or the test will terminate.

If the VFD pump is turned off for any reason the test will terminate. No PID values will be set if the test terminates prematurely.

Best results will be obtained with the station open to the irrigation, but all irrigation flow off. The system may be run with the station isolation valve closed if the irrigation system is leaky or cannot be closed for some reason. Some final tweaking may be needed, but these values are a very good starting point.

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Volume 2 / Issue 1 / July 2016

The Pump Technician

Even in this day and age, one of the most important things to ask for with your pump station (regardless of the brand) is an excellent technician. Whether setting the station, starting it up for the first time, winterization and spring startup, or it’s showing its age and needs some attention, a qualified and conscientious pump technician is indispensable.

I’ve worked with a lot of pump techs over the years.  The vast majority are hard-working, genuinely care about their customers and take pride in making the equipment run as well as it can. Frankly, it’s not a job I would want…way too much time away from home, early start and late hours. From early spring to late summer, there’s hardly a break. Yet, this business would be impossible without them.

On top of that, the pump techs have had to stay up with technology as it encroaches into the water pumping world, while still keeping their hands dirty turning wrenches, tuning valves and squeezing into places I’ll never be able to get into again (a few more salads maybe?). They have had to learn programmable controls, variable speed drives, radio communication, networking and cellular technology just to name a few new tricks, and who knows what else is coming down the pipe.

As manufacturers, we’re struggling with a complexity dilemma. In order to make our controls capable of handling all sorts of situations they may encounter, they are complex internally. This leaves the field technician, who is performing most tasks regarding station setup and operation, dealing with a complex interface. All of the capabilities of the control are exposed, and this can make for an overwhelming amount of information to manage. It’s certainly not intentional. To some degree it’s inevitable, but we all know it could be better.

Unfortunately, this means that features that could help a station overcome field peculiarity are not obvious, or are as easy to set up as they should be. Sometimes this means they don’t get used at all.

As pump station software matures, my task as a programmer is shifting from creating working features that make pump stations operate more efficiently, to creating systems that help the technician implement those features without having to necessarily understand as many of the internal workings, or spending time devising ways to determine what value to use in a particular parameter. Features like “Min speed seek” function, that give the tech a tool for setting the PID minimum speed (an undervalued parameter, often left default), saves the technician time while giving the speed control system the best chance of smooth, precise control.

We are working on other features as well, to assemble into wizards that will assist the startup scenario, making the techs life easier and the station operate more efficiently. This will mean lower operating costs and longer station life for the end user.

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Volume 2 / Issue 1 / July 2016

Summer outings and fireworks are finally here, and Flowtronex is adding to all of the excitement with not 1 but 2 new products this August.
• Oasis g2 Retrofit Controller
• SSE 3-Main Pump Standard Configurations for Quick Turnaround

Oasis g2
• Low cost retrofit controller for extending the life of your old station, including filtration control.
• Updated hardware technology & construction
– Larger & brighter screen
– Faster navigation
– Same footprint & connections makes for seamless field connections
• VFD capability for up to 3 main pumps!
• Flowtronex can also supply the separate Variable Speed drive and switchgear if needed

FLOWTRONEX SSE (3-Main Pump Configuration)
• Standard 2-Main and 3-Main Pump Station plus PM Pump
• Standardized drawings mean faster order-to-delivery turnaround.
• Standard features and options include:
– 5.7” and 12” HMI Interface Screens
– Premium Efficient (PE) Motors per New DOE Requirements
– Fertigation Run Relay
– Highly Durable Toff Coating for extended Skid life
– Direct Connect Radio
– 1” TOL
– Various Style Dogleg Option
– Lake Level Control
– Krohne Flow Meter
– Power Guard

Look for the Flowtronex announcement bulletin coming shortly with release dates. Don’t forget to ask your Flowtronex Sales Representative about the Oasis g2 & SSE-III Kick-Off Promotion program. Details will be forthcoming in the bulletin.

We are Xylem-Flowtronex. The roots of the Flowtronex brand extends over an unprecedented 42 to years of experience in building pump stations and controls systems for the Golf industry. We are Xylem – Goulds Water Technology and have been advancing technologies and fluid solutions for over 150 years in the pump market.  No one else in the golf industry retains this kind of internal experience.

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Morton, Grove, Ill. June 23, 2016 – Goulds Water Technology (GWT), a Xylem brand, is pleased to award scholarships to 14 exemplary high school graduates through the Goulds Professional Dealer Association (GPDA). This year, GWT increased the scholarship amount to award an additional $500 per recipient. The students, who reside in the United States or in Canada, will each receive a $1,500 GPDA scholarship for college or technical school.

“Each year, we have the honor of helping 14 young adults pursue their dreams. We are thrilled to assist the future influencers of our industry and look forward to watching them develop in their careers,” said Susan O’Grady, Global Communications Segment Leader, Residential & Specialty, Xylem.

GPDA scholarship recipients are family members of GPDA members. Established in 1969, GPDA is a network of independent water system professionals and is the industry’s oldest and largest dealers association. Since the scholarship’s inception 16 years ago, the GPDA has awarded over $230,000 to 224 recipients.

Congratulations to the 2016 GPDA scholarship recipients:

• Relissa Beth Backman, Wilton, North Dakota
• Emma Badgley, Oconto, Nebraska
• Cortney Blevins, Freeland, Maryland
• Faith Dermer, Friedens, Pennsylvania
• Madison Etzler, Hallettsville, Texas
• Katie Flitcroft, Delevan, Wisconsin
• Taylor Gatesman, Shippenville, Pennsylvania
• Elias Juarez, Oakley, California
• Thomas Mattioni, Downingtown, Pennsylvania
• Kyle Molynuex, Shunk, Pennsylvania
• Taylor Pilat, Flatonia, Texas
• Jess A. Polohonki, Dubois, Pennsylvania
• Chase Preister, Petersburg, Nebraska
• Alexander Truog, Independence, Wisconsin

“This scholarship enables us to give back to both our GPDA members and their children, which is incredibly fulfilling,” O’Grady added.

GWT and the GPDA value the opportunity to help high school graduates pursue higher education and build their careers through the GPDA scholarship, which is based on academic achievement, community service and leadership. Xylem has also created the Future Professional Dealers of America program through GPDA, in which young professionals following in their parents’ footsteps receive technical information, training and support to complement their education.

Independent dealers also receive extensive technical and product training through GPDA. Since GWT established its education center for customers in the early 1960s, the company has graduated more than 20,000 independent dealers and distributors.

To learn more about Gould Water Technology and other Xylem brands, visit www.xylemappliedwater.com.

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Xylem introduces online resource for marine industry

Interactive website offers latest product information and technical assistance

MORTON GROVE, Ill. — June 28, 2016 — Xylem Inc., a leading global water technology provider, recently introduced an online destination for marine professionals and enthusiasts, showcasing the company’s wide range of system solutions and expertise in the recreational marine industry. Marine.xylem.com is designed to educate consumers and industry professionals on the application and installation of Rule^® and Jabsco^® marine products, while providing a user-friendly customer service experience.

“The site provides customers with a vast array of information in an engaging way,” said Steve Tilders, Global Director of Marine Sales, Xylem Inc. “The boat info graphic shows the location of each product, and interactive videos provide further information on product installations, servicing and troubleshooting.”

Marine.xylem.com features Xylem’s comprehensive marine portfolio of products within the industry leading Rule and Jabsco brands, including Jabsco’s newly released Lite Flush Toilet. The highly efficient electric toilet offers low power consumption, is stylish, lightweight and easy to install. It is fitted with a new, quiet flush pump, which has large clearances to help prevent blockages. Site users will find information on this and other Xylem marine products for recreational use:

• Searchlights
• Water pressure systems
• Livewell/baitwell pumps
• Ballast pumps
• Washdown pumps
• Diesel pumps
• Engine cooling pumps
• Bilge pumps and switches
• Bilge blowers
• Toilet systems
• Shower drain pumps

To find a complete document library further detailing the Rule and Jabsco products listed above, please visit marine.xylem.com.

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Goulds Water Technology (GWT), a Xylem brand, released its third quarter GWT Factory School schedules for in-person, WebEx and online education. A new Factory School WebEx course has been designed to address the recent U.S. Department of Energy Integral Horsepower Motor Rule, effective June 1, 2016, and provide an overview of compliance and the resulting industry impact. The course will be held online on July 8, and again later in the year.

Instructor-led sessions are held at the Campbell Education Center laboratory in Seneca Falls, New York. Classes provide hands-on training in commercial applications, variable frequency drives, water systems and wastewater, and are designed to give water professionals an edge among competitors.

The GWT e-Learning virtual education program contains 11 modules that follow the GWT Factory School training schedule, but are modified for individual comprehension. Modules contain videos and interactive online resources. A new e-Learning module focused on variable frequency drives is slated for release later this year. The new module will discuss the basic applications, installation and use of variable frequency drives.

Online WebEx training seminars can be accessed globally and provide users with up-to-date product information, troubleshooting support and industry knowledge.

GWT Factory School third quarter instructor-led class schedule

• Residential Water System Product Application and Troubleshooting School       Sept. 12-15
• Variable Speed Drive Product and Application School                                             Sept. 26-29

GWT Factory School third quarter online WebEx training schedule

No registration necessary; online courses take place at 2 p.m. EST/EDT

• U.S. Department of Energy Integral Horsepower Motor Rule                July 8
• BMS (Building Management Systems) Basics                                       July 11
• Aquavar SOLO2                                                                                      July 18
• Xylem Online Sizing and Selection Software-Turbines                          July 22
• Surface Motor Basics                                                                              July 29

For more than 30 years, the GWT Factory School has educated thousands of water industry professionals on the latest advancements in commercial, residential and agricultural applications.

For course descriptions or to learn how to register for in-person and e-learning courses, please visit: http://goulds.com/factory-school/ and http://goulds.com/e-learning/.

The Goulds Professional Dealers Association (GPDA) loyalty program helps professional pump installers grow their business and deliver superior service to homeowners by providing tools, education and support. GPDA members who enroll in GWT Factory School courses will receive points for attending training sessions: 10,000 points for in person factory school courses, 1,000 points for enrolling in e-Learning, 500 points for each online module and 250 points for each WebEx training.

Connect with Goulds Water Technology on social media:

Facebook: @GouldsWaterTechnology

Twitter: @GouldsWaterTech

YouTube: GouldsWaterTech

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Volume 3/ Issue 3/ August 2016

Q.  How do I test a spring pilot?
A.  The easiest way to test a pilot operated valve is to disconnect the pilot line and observe the pilot’s operation.

Keep in mind you are handling steam. Use proper safety precautions.

When you turn the adjusting nuts in, the pilot valve should open and steam should shoot out the end of the tube. When you back out the adjusting nuts, the pilot should close. Only a small leakage is acceptable.

Q. How do I test the main valve diaphragm?
A.  You can test for leaks in the main valve diaphragms in line. First, disconnect the copper tubing to the main valve diaphragm. Slowly open the bypass valve to load downstream steam pressure. If the diaphragms are bad, steam will blow through the diaphragm and out the bottom of the main valve.

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Volume 3/ Issue 3/ August 2016

This issue is not addressed in Xylem Domestic Pump and Hoffman Pump product manuals, factory recommendations or Little Red School House steam system application and sizing guides. Some installations require insulation for safety. Otherwise, it’s a matter of choice based on system design and your understanding of the strengths, limitations and use of products in the system.

Before deciding to apply insulation to condensate handling/ boiler feed equipment, however, you should address issues that have been raised in site visits and comments from the field.

Adding insulation may not be the money-saver it appears
Insulation is typically applied to retain latent heat from the condensed steam and minimize the energy needed to create new steam in the boiler. But most Domestic Pump / Hoffman Pump condensate units have cast iron receivers sized, per ASHRAE recommendations, for one minute net storage on condensate receivers or 5 minute net storage on boiler feed units. Thus, if the unit is properly sized, condensate is collected and returned to the boiler before too much additional sub-cooling can occur—and the thermal mass of cast iron receivers retains heat. What’s more, if a steam trap fails, the receiver walls and vent piping let steam condense as additional heat from the failed trap is dissipated. Insulation could prevent the condensate from cooling, leading to pump performance problems due to NPSHA issues. It’s often more economical to properly size units based on an understanding of system dynamics than to grossly over-size units and apply insulation.

Adding Insulation may impede unit service
Applied insulation often restricts access to the product, which means the insulation has to be removed for service or maintenance. It may also hide identification plates, obscuring the serial number required to identify replacement parts for Built-To-Order Domestic Pump products and Hoffman Pump products. If you relocate the nameplate outside the insulation, the plate could be lost, making it harder to identify the unit and the correct replacement parts.

Insulation can trap moisture
Insulation can trap moisture from the atmosphere or from service issues against the receiver, accelerating corrosion and shortening product life. Cast iron receivers are certainly subject to this, and even fabricated steel receivers can be affected. Corrosion under the insulation may also render data plates unreadable, compounding the parts issue noted above. There’s also the possibility of mold, which thrives in a warm, moist environment and can cause serious health issues. While there is not a clearly defined industry-wide solution, the key to mold prevention appears to be leaving the condensate unit uninsulated and installing condensate units in a properly vented and drained equipment space.

Never insulate vacuum units
Some systems use a vacuum to remove air from in front of system steam and to provide lower steaming temperatures. These vacuum units should always be un-insulated, promoting the best heat retention/heat dissipation relationship. Vacuum units are typically designed to operate at 160 degrees F or cooler. Focus on maintaining the steam traps; if they fail and steam passes through to the vacuum heating unit, you’ve got trouble. But if a steam trap does fail, the uninsulated condensate unit can help cool condensate to acceptable levels, preventing or at least minimizing damage to the heating unit until the trap can be repaired.

Ultimately, the decision to insulate a condensate or boiler feed unit is up to you. Use the information above and your knowledge of your system to make an educated choice for you and your customer.

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Bell & Gossett revamps TECHNOLOGIC pump controller

Enhanced product strengthens Xylem’s variable frequency drive installation capabilities

MORTON GROVE, ILL. — Aug. 10, 2016 — Xylem Inc. and its Bell & Gossett (B&G) brand today released the latest generation of their intelligent pump controller/market-leading variable frequency drive (VFD), further strengthening its portfolio of system solutions. The updated TECHNOLOGIC VFD series combines two advanced controller functions — the Start-Up Genie and an electronically controlled bypass — engineered to reduce on-site setup and configuration time by more than 50 percent across a wide range of hydronic HVAC system applications.

“The demand to reduce operating costs and optimize building systems is higher than ever. This bundled offering of B&G hydraulics and TECHNOLOGIC controls ensures a single point of contact and ease of service — a critical factor in pump specification,” said Kyle Schoenheit, Global Product Manager, Xylem. “B&G continues to offer solutions that address our customers’ feedback and meet the needs of commercial building owners.”

The TECHNOLOGIC drive’s proprietary Start-Up Genie guides users and installers through quick and easy commissioning, with its 10 preconfigured applications, preset pump protections and input/output options. For more straightforward hydraulic applications, a built-in Auto set mode is available that remembers previously set parameters, enabling users to quickly make adjustments without inputting measurements. Set-up time is about 15 minutes, compared to more than 45 minutes for most other products available today.

For applications with varying flow ranges, the TECHNOLOGIC has the ability to alter hydraulic performance to maintain constant system pressure, resulting in more efficient operations. The drive provides constant speed lag control and the ability to control one variable speed pump with up to two fixed speed lag pumps triggered by relay. This duplex configuration provides precise application management. It has the versatility to support large hydraulic ranges while optimizing system uptime for the end-user.

The TECHNOLOGIC’s bypass option with electronic control ensures uninterruptible operation of the HVAC system by keeping the rotating equipment running, even if the drive is taken out of the loop. Advanced system control features include: automatic bypass; common start/stop in drive or bypass modes; and advanced firefighter’s override.

The TECHNOLOGIC is compatible with any system and a variety of products, including B&G’s Series e-80 vertical inline centrifugal pumps available with Integrated Technologic Sensorless Control VFDs, eliminating the cost and time of using wired transducers to better match system demands.

Additional highlights include:

Dynamic operation

• Built-in BACnet, Modbus^® RTU and Metasys® N2 communications protocols simplify integration into existing building management systems.
• Manual and standby alternation supports even wear on the pump with built-in protection of dry pump, dynamic flow-loss compensation and low-flow detection, increasing product life and reducing maintenance costs.
• The Genie’s step-by-step process ensures that the drive is installed correctly the first time eliminating common callbacks often associated with installations.

Versatile functions

• The My Personal Menu enables users to focus on selected and saved parameters, with its USB connectivity supports remote diagnostics through PC software to prevent accidental loss of data due to voltage surge. In the event of failure all field values will remain stored.
• The pump’s logic is held in memory storage, with automatic energy optimization to regulate output voltage and improve system efficiency as loads change, further preventing loss of data due to a voltage surge.
• A bypass option is available for critical situations that cannot endure a shut down, even for short periods of time (e.g., hospital HVAC, central energy pumps). If the VFD fails, the system will run on bypass until the VFD is repaired.

Follow Bell & Gossett on social media:

• Facebook: BellandGossett
• Twitter: @BellGossett
• YouTube: BellandGossett

About Xylem

Xylem (XYL) is a leading global water technology provider, enabling customers to transport, treat, test and efficiently use water in public utility, residential and commercial building services, industrial and agricultural settings. The company does business in more than 150 countries through a number of market-leading product brands, and its people bring broad applications expertise with a strong focus on finding local solutions to the world’s most challenging water and wastewater problems. Xylem is headquartered in Rye Brook, New York, with 2015 revenues of $3.7 billion and approximately 12,500 employees worldwide. Xylem was named to the Dow Jones Sustainability Index for the last four years for advancing sustainable business practices and solutions worldwide and the Company has satisfied the requirements to be a constituent of the FTSE4Good Index Series each year since 2013.

The name Xylem is derived from classical Greek and is the tissue that transports water in plants, highlighting the engineering efficiency of our water-centric business by linking it with the best water transportation of all — that which occurs in nature. For more information, please visit us at www.xylem.com.

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Seneca Falls, N.Y. – Distributors, dealers and engineers are invited to learn about product applications, markets, troubleshooting and system components at Goulds Water Technology (GWT) Factory School. Fourth quarter classes begin Oct. 17, and continue through November, covering a range of topics for industry professionals.

These industry-leading training and education offerings are held at the Campbell Education Center laboratory in Seneca Falls, New York. Instructor-led classes provide one-of-a-kind training in commercial and industrial pump product and applications, and advanced commercial and industrial drive features and software.

“As the industry evolves, training and education must evolve with it. We are proud to provide industry professionals with the best educational offerings to help them remain up to date with the latest advancements while keeping their existing skill set sharp,” said Tom Stephan, GWT Training Manger.

In addition to in-person and online courses, GWT recently launched an interactive online learning tool for the Aquavar SOLO2 that brings the SOLO2 user interface board to computer or tablet.

The GWT e-Learning virtual education program contains 11 modules that follow the GWT Factory School training schedule, but are modified for individual comprehension. Modules contain videos and interactive online resources.

Online WebEx training seminars can be accessed globally and provide users with up-to-date product information, troubleshooting support and industry knowledge.

 GWT Factory School fourth quarter instructor-led class schedule

• Commercial/Industrial Pump Product and Application School: Oct. 17-21
• Advanced Commercial/Industrial Drive Features and Software: Oct. 31- Nov. 3

GWT Factory School fourth quarter online WebEx training schedule

No registration necessary; online courses take place at 2 p.m. EST/EDT

• U.S. Department of Energy Integral Horsepower Motor Rule: Oct. 14
• Aquavar SOLO2: Oct. 17
• BMS (Building Management Systems) Basics: Oct. 21
• Troubleshooting Drives with Multimeters: Oct. 24
• System Resistance Curves (Wastewater Example): Oct. 28
• Surface Motor Basics: Nov. 4
• FM Series 6” Submersible Motors: Nov. 7
• Xylem Online Sizing and Selection Software – Turbines: Nov. 11
• AC Product: Nov. 15
• Advanced MCT10 Software for the IPC: Nov. 18

For more than 30 years, the GWT Factory School has educated thousands of water industry professionals on the latest advancements in commercial, residential and agricultural applications.

For course descriptions or to learn how to register for in-person and e-learning courses, please visit: http://goulds.com/factory-school/ and http://goulds.com/e-learning/.

The Goulds Professional Dealers Association (GPDA) loyalty program helps professional pump installers grow their business and deliver superior service to homeowners by providing tools, education and support. GPDA members who enroll in GWT Factory School courses will receive points for attending training sessions: 10,000 points for in person factory school courses, 1,000 points for enrolling in e-Learning, 500 points for each online module and 250 points for each WebEx training.

Connect with Goulds Water Technology on social media:

Facebook: @GouldsWaterTechnology Twitter: @GouldsWaterTech YouTube: GouldsWaterTech

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Morton Grove, Ill. — Engineers, contractors and installers are invited to join the ranks of the more than 62,000 HVAC professionals and earn credits toward green building certification through Xylem’s industry-leading training at its Bell & Gossett (B&G) Little Red Schoolhouse (LRSH). Fourth-quarter classes are tailored toward commercial hydronic heating and cooling industries.

The LRSH’s one-of-a-kind, systems-based training approach provides high-quality professional development to industry personnel with holistic solutions to customers in the HVAC industry.

The in-person courses deliver knowledge on the latest advancements in centrifugal pumps and HVAC system design, and qualify for industry credentialing requirements. Since 1954, the state-of-the-art learning center has excelled in the proper design, installation and maintenance of hydronic and steam systems.

“Demand for practical, hands-on experience with a focus on technological advances remains high. B&G is proud to provide two strong options to gain valuable world-class training to the HVAC industry,” said Larry Konopacz, Senior Manager, Technical Training, Xylem.

 Little Red Schoolhouse fourth quarter schedule

• Steam System Design & Application Seminar: Sept. 26-28
• Service & Maintenance of Water Based HVAC Systems Seminar: Oct. 3-5
• Design & Application of Water Based HVAC Systems Seminar*: Nov. 7-9
• Large Chilled Water System Design Seminar*: Nov. 14-16
• Modern Hydronic Heating Systems Basic Seminar*: Dec. 5-7
• Design & Application of Water Based HVAC Systems Seminar*: Dec. 12-14

* Seminar approved by GBCI to provide credit toward the credential maintenance requirements of the LEED Associate and LEED AP certifications

Online education

Bell & Gossett’s commitment to education reaches a global audience through its virtual curriculum. The Online Little Red Schoolhouse training and educational program begins with introductory courses on centrifugal pump fundamentals and piping systems. Twenty-two self paced modules are intended to complement the more in-depth, hands-on experience students receive during the in-person courses, including a recently launched course focused on waterside economization where students can learn design fundamentals and how the 90.1 Energy Standard applies to waterside economization systems.

For continuing education credit information, seminar descriptions, representative information and enrollment, visit www.bellgossett.com/training-education. To sign up for seminars via the Online Little Red Schoolhouse, visit: http://training.bellgossett.com/.

Follow Bell & Gossett on social media:

Facebook: BellandGossett Twitter: @BellGossett YouTube: BellandGossett

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Bell & Gossett presented with 2016 Product of the Year by Consulting-Specifying Engineer

Suction Diffuser Plus receives Bronze Award in annual reader’s choice program

Morton Grove, Ill. — For the sixth time since 2010, Xylem Inc., a global water technology leader focused on solving the world’s most challenging water issues, and its Bell & Gossett (B&G) brand, have received a Product of the Year recognition, most recently for the B&G Suction Diffuser Plus by Consulting-Specifying Engineer (CSE) magazine. The Suction Diffuser Plus is an innovative flow-straightening centrifugal pump accessory that helps maintain efficiency, improve flow conditions and eliminate recirculation zones, reducing energy waste.

The annual Product of the Year program was established to provide CSE readers with information about the leading new products in the HVAC, fire/life safety, electrical and plumbing systems engineering markets. This year, readers, many of whom are daily product users, recognized the market-leading B&G Suction Diffuser Plus with a Bronze Award in the HVAC category.

“We are pleased that CSE readers acknowledged the energy efficiency benefits, quality and reliability of the Suction Diffuser Plus and nominated it as one of the best new products of 2016,” said Mark Handzel, Vice President, Product Regulatory Affairs, and Director, HVAC and Commercial Buildings, Americas, Xylem. “The innovative Flow Cone™ technology enables the pump accessory to retain as much as 5 percent more of its intrinsic efficiency than similar products, ensuring the highest pump efficiency for a broad range of HVAC applications.”

The Suction Diffuser Plus was developed to provide ideal flow conditions to maintain increased efficiencies. The product’s compact footprint is easily retrofitted into previous system designs.

Other product benefits include:

• A patent-pending Flow Cone™ design that addresses increasingly stringent ASHRAE and MEI efficiency guidelines by improving flow conditions and eliminating recirculation zones, which reduces energy waste.
• A mesh throwaway start-up strainer that ensures clean and trouble-free performance at installation. A large-diameter orifice cylinder that prevents debris from entering the pump suction, resulting in reduced maintenance costs.
• Optional pressure/temperature ports that allow operators to check system conditions and verify start-up strainer presence without having to shut down the pump system, saving installers time and effort.

The Suction Diffuser Plus and other Product of the Year recipients were featured online and in the September issue of Consulting Specifying-Engineer. To learn more about the Suction Diffuser Plus, visit http://bellgossett.com/hydronic-plumbing-accessories/pump-accessories/suction-diffuser/.

Follow Bell & Gossett on social media:

• Facebook: BellandGossett
• Twitter: @BellGossett
• YouTube: BellandGossett

About Xylem

Xylem (XYL) is a leading global water technology provider, enabling customers to transport, treat, test and efficiently use water in public utility, residential and commercial building services, industrial and agricultural settings. The company does business in more than 150 countries through a number of market-leading product brands, and its people bring broad applications expertise with a strong focus on finding local solutions to the world’s most challenging water and wastewater problems. Xylem is headquartered in Rye Brook, New York, with 2015 revenues of $3.7 billion and approximately 12,500 employees worldwide. Xylem was named to the Dow Jones Sustainability Index for the last four years for advancing sustainable business practices and solutions worldwide and the Company has satisfied the requirements to be a constituent of the FTSE4Good Index Series each year since 2013.

The name Xylem is derived from classical Greek and is the tissue that transports water in plants, highlighting the engineering efficiency of our water-centric business by linking it with the best water transportation of all — that which occurs in nature. For more information, please visit us at www.xylem.com.

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Presented by: Xylem Applied Water Systems

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Energy and maintenance expenses account for approximately 75 percent of the life-cycle costs of a centrifugal pump. With a growing emphasis on reducing energy consumption driven by government regulation and businesses seeking operational and financial efficiencies, HVAC system designers are seeking system solutions that maximize efficiencies while reducing costs.

To address this demand and the industry’s evolution, Bell & Gossett (B&G), a Xylem brand, has introduced a new pump selection criteria called Part Load Efficiency Value (PLEV). PLEV is a calculation that represents the efficiency of the pump at partial flow rates and can be used to gauge true pump performance within a hydronic system.

Centrifugal pumps installed in HVAC systems typically operate in variable load applications that see a fluctuation of flow requirements based on the heating or cooling load of a building at any given time. General industry practice is to make pump selections based on a system’s design load, or the maximum capacity of the system. With this approach, the pump system efficiency is typically measured at 100 percent capacity, even though the system generally only operates at that level 1 percent of the time. Given the reality of how buildings actually operate, traditional sizing and measurement does not accurately reflect where pumps operate most of the time.

This practice is a contributing factor to why the majority of systems today operate with oversized pumps, leading to inefficiencies. A pump is considered oversized when it does not operate within about 20 percent of its best efficiency point (BEP).

Effects of oversizing

There are a number of reasons why system designers oversize pumps, including adding safety margins beyond those factored into the design by pump manufacturers. Oversizing pumps is a common, yet often unnecessary, practice that increases the system’s operation, maintenance and capital costs. For example, oversizing the flow by 5 percent increases the energy demand by more than 15 percent. An increased flow of 10 percent raises the energy consumption by 30 percent.

The Hydraulic Institute has defined preferred operating range (POR), which is a range of flows on either side of the BEP in which hydraulic efficiency is not degraded. POR generally extends from 70 to 120 percent of flow at BEP. When a pump operates outside of its efficiency range, it increases the likelihood of cavitation — a noisy and damaging condition caused by vapor bubbles forming and collapsing at the pump impeller — and overloading the pump motor. Long-term mechanical damage to the pump can result when any of the following occur:

• Excessive temperature rise throughout the pump

• Increased vibration and noise

• Insufficient net positive suction head and suction recirculation

• Reduced bearing life

• Reduced shaft seal life

• Shaft fatigue

• Thrust reversal

Practices such as throttling the pump or trimming the impeller combat the effects of oversized pumps to a certain extent, but they aren’t always the most efficient solutions. If a pump is so oversized that its flow must be throttled more than 50 percent, it should be replaced with a properly sized pump.

Proper system design is a critical element in minimizing life-cycle costs and reducing power consumption. Studies have shown that 30 to 50 percent of the energy consumed by pump systems could be saved through equipment or control system changes. By matching the equipment more precisely to actual system demands, pumps will use less power and require less maintenance, reducing costs and extending equipment life.

A new benchmark

B&G’s PLEV formula creates a modern standard for the industry, providing the most accurate specification of a centrifugal pump at partial flow rates, in turn helping to eliminate oversizing often associated with system design.

PLEV is derived from the successful Integrated Part Load Value (IPLV) performance calculation developed by the Air- Conditioning, Heating and Refrigeration Institute (AHRI) in AHRI 550/590-1998. The proven formula describes the equipment efficiency while operating at various capacities of a chiller system, and is crucial in supporting energy use and operating costs throughout the lifetime of the system. B&G engineers have adapted the formula for centrifugal pumps used in HVAC systems and updated B&G’s ESP-PLUS online selection software with the PLEV selection criteria. The PLEV equation is as follows:

A, B, C and D are the pump efficiency values at 100 percent, 75 percent, 50 percent and 25 percent of flow rate and at the corresponding head value on the control curve. Based on the equation in Figure 1, during any given year the pump will operate at 100 percent flow (duty point) only 1 percent of the year; 75 percent flow 42 percent of the year; 50 percent flow 45 percent of the year and 25 percent flow 12 percent of the year.

The subscript “v” denotes variable speed operation with the control, or fixed head, calculated within a system’s critical circuit. B&G’s ESP-PLUS software defaults to 30 percent of pump TDH (Total Design Head) to represent the minimum control head within a system. The American Society of Heating, Refrigerating and Air-Conditioning Engineers’ ASHRAE 90.1- 2013 guideline requires that the total head loss in a system be calculated making it natural to calculate the critical zone’s fixed head, too. This is the number that should be used as it represents a more accurate calculation, which will be reflected in the cost analysis.

Most heating and cooling systems are closed loop and require a constant head differential at all times. The constant head differential is necessary for system control and to ensure that the necessary differential head across any controlled subcircuit is maintained during operation (Figures 2 and 3).

PLEV can be used to accurately compare pumps from different manufactures to identify overall operational efficiency. The 30 percent TDH, or calculated minimum control head within the equipment schedule along with specifications, will ensure a fair comparison among manufacturers.

PLEV and BEP

PLEV provides system designers more latitude in selecting pumps to the right of BEP, as long as system head loss is calculated accurately (See Figure 4). Pump selections to the right of BEP may have a higher PLEV than other selections because the PLEV load profile is heavily weighted on operating hours at 75 percent and 50 percent operation. These load profile points account for 87 percent of operating hours.

If system head loss has been estimated and a selection is made to the right of BEP, there is a risk that the pump will run outside the acceptable range of operation. In a worst-case scenario, the pump may run off the end of the pump curve. ASHRAE guidelines prefer pump selections between 85 and 105 percent of BEP.

In pump selection for an open system, PLEV might not be a key selection criterion due to Net Positive Suction Head Required (NPSHr). Picking right of BEP generally increases NPSHr.

PLEV can be considered as a factor in two-pump parallel pump selections but users must carefully evaluate the requirement for a point of intersection between the single pump curve and the system curve. The risk of selecting a pump with a higher PLEV or to the right of BEP will increase the likelihood that the single pump curve will not have a point of intersection. In general, selecting pumps to the left of BEP in multiple parallel pump systems continues to be a recommended practice to minimize operating costs as a whole.

Other selection criteria

For closed loop HVAC systems, it’s common design practice to use 1800 RPM pump selections as they offer a number of advantages, such as increased mass to absorb system harmonics that could lead to unwanted vibration and higher efficiencies to left of BEP. Pump selections at higher speeds (3600 RPM) also offer significant advantages, such as smaller pumps and motors that yield lower first cost, less mechanical room space requirements, smaller pipe diameters and higher PLEV efficiencies. The differences are outlined in Figure 5.

Efficiency match

In applying PLEV as a pump selection criteria, it’s critical for designers to select pumps that operate at the highest efficiencies across the largest segment of the pump curve. Newer pump designs incorporate cutting-edge computational fluid dynamics technology to increase efficiency, such as Bell & Gossett’s e-range of centrifugal pumps that operate efficiently to the left, or right of BEP.

Bell & Gossett’s term for these efficiency ranges is Efficiency Islands. An Efficiency Island is an envelope on the performance curve where the pump operates as widely and as deeply as possible within the POR. These extensive efficiency profiles enable users to maintain significantly higher levels of efficiency over a much wider range of operating conditions, leading to lower power consumption and life-cycle cost, and increased pump reliability and overall system performance.

When combining highly efficient pumps with the PLEV selection criteria, system designers can maximize operational performance while realizing energy and cost savings, as well as environmental benefits. More stringent pump efficiency standards are spurring system designers to seek smarter ways to specify pumps. The PLEV selection criteria and specially designed selection software offer them the tools to meet and exceed efficiency requirements.

Mark Handzel is vice president, product regulatory affairs, and director, HVAC commercial buildings, Bell & Gossett, a Xylem brand. He is a member of the Appliance Standards and Rulemaking Federal Advisory Committee’s Commercial and Industrial Pumps Working Group.

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Bell & Gossett introduces formula for smarter hydronic pump selection

PLEV calculation gauges true pump performance to maximize efficiency

Morton Grove, Ill. — Bell & Gossett (B&G), a Xylem Inc. brand, has released its PLEV pump selection criteria, a new standard for the industry to provide the most accurate and efficient specification of a centrifugal pump at partial flow rates, designed to save energy and reduce costs. PLEV, which stands for Part Load Efficiency Value, helps HVAC system designers select pumps based on real-world system demands to ensure the most efficient hydronic system performance.

Until now, a system designer specified a pump at maximum capacity or flow at all times during pump operation, even though a pump operates at 100 percent flow just 1 percent of the time. PLEV is calculated based on the partial load that a pump will experience throughout its operation. B&G’s ESP-PLUS pump selection and system design software has been updated with the PLEV selection criteria to assist specifying engineers.

“PLEV is the answer to the industry’s demand for the most efficient pump selection, by taking into account the entire variation profile and flow requirements based on the actual heating or cooling load in a commercial building HVAC system, not just the design model. This formula will enable professionals to more precisely specify the appropriate pump for the application, helping to reduce both energy use and operating costs throughout the lifetime of the product,” said Mark Handzel, Vice President Product Regulatory Affairs and Director, HVAC Commercial Buildings, Americas, Xylem.

When PLEV is used in the specification process with newer pump designs that use computational fluid dynamics technology to increase efficiency over a wider range on the performance curve — a range B&G terms Efficiency Islands — system designers can maximize overall system performance.

“System designers are seeking smarter ways to meet efficiency standards. Our products with extensive Efficiency Island profiles and PLEV selection software are part of our comprehensive portfolio of tools offered to exceed efficiency requirements,” Handzel said.

The operating cost analysis section of ESP-PLUS has been revised to default to PLEV as the standard load profile, giving specifiers instant operational efficiencies.

PLEV is derived from the successful Integrated Part Load Value (IPLV) performance calculation developed by the Air-Conditioning, Heating and Refrigeration Institute (AHRI). It is used to calculate equipment efficiency while operating at various capacities in a chiller system, leading to energy and cost savings.

The free PLEV application is available from the iTunes App Store for iPad, iPhone and through Google Play for Android, in addition to being available online through the Xylem software ESP-PLUS. For more information on PLEV, view our industry white paper, http://bellgossett.com/2016/09/28/bell-gossett-introduces-new-hydronic-pump-selection-criteria-maximize-system-efficiency/, or visit http://bellgossett.com to learn more about our system solutions.

Follow Bell & Gossett on social media:

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• Twitter: @BellGossett
• YouTube: BellandGossett

About Xylem

Xylem (XYL) is a leading global water technology provider, enabling customers to transport, treat, test and efficiently use water in public utility, residential and commercial building services, industrial and agricultural settings. The company does business in more than 150 countries through a number of market-leading product brands, and its people bring broad applications expertise with a strong focus on finding local solutions to the world’s most challenging water and wastewater problems. Xylem is headquartered in Rye Brook, New York, with 2015 revenues of $3.7 billion and approximately 12,500 employees worldwide. Xylem was named to the Dow Jones Sustainability Index for the last four years for advancing sustainable business practices and solutions worldwide and the Company has satisfied the requirements to be a constituent of the FTSE4Good Index Series each year since 2013.

The name Xylem is derived from classical Greek and is the tissue that transports water in plants, highlighting the engineering efficiency of our water-centric business by linking it with the best water transportation of all — that which occurs in nature. For more information, please visit us at www.xylem.com.

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Volume 2 / Issue 2 / October 2016

Matthew Gross with Smith Turf & Irrigation gives adulates to Flowtronex Engineer for product support.  Flowtronex PACE controls are now intergraded with Toro Lynx via cellphone modem.

“I just wanted to say thanks’, we were able to get Country Club of North Carolina pump integrated today with Lynx and the cell modem. Will Hawkins did a great job and knows his stuff. Please be sure to let him know Ron Kelly and myself are really appreciative of what he did today!”

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Volume 2 / Issue 2 / October 2016

On July 11 and 12, Flowtronex provided a sponsorship for the AGIF seminar held at Tan Son Nhat GC in Ho Chi Minh City, Vietnam. The two day event featured best practice presentations for golf course superintendents and club managers, along with a field demonstration day for equipment sponsors. The event was well attended by 75 industry professionals in the fast growing Vietnam golf market.  Flowtronex exhibited with our distributor in SE Asia, Jebsen & Jessen.

Flowtronex Sponsorship for the AGIF seminar at Tan Son Nhat GC in Ho Chi Minh City, Vietnam

Thanh Phong, Chi Thanh Services, FlowNet at AGIF

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