Industrial Efficiency - Debunking the Myths: Putting time, money into pumps will pay off

In this third installment of this series, Jack Creamer addresses three common myths regarding the impact of pumps in a facility, energy efficiency, and ROI.

10/04/2012


Myth: In a large industrial facility, how much impact does pumping really make on my energy use? It’s not worth the investment.

Pumps are a primary application in all aspects of the industrial world—from supporting liquids management for various industrial processes to comprising integral elements of HVAC or plumbing systems. As such, they are a tremendous consumer of energy for an industrial facility, and represent tremendous energy savings potential—up to 60% in many cases.

Pumping and pumping systems account for nearly 25% of all industrial motor energy usage. The common practice of oversizing pumps to allow for anticipated load demand or other safety reasons provides a key opportunitiy for “right-sizing” the motor to decrease energy waste. General wear over time, leads to degradation that greatly reduces the operating efficiency of the system. Additionally, relatively minor changes in speed can produce significant energy savings. VFDs, especially centrifugal pumps, allow you to both optimize pump operation and match varying loads—a huge energy saver.

Beyond right-sizing, there are a number of strategies to undertake which increase efficiency and in turn create substantial energy savings. Process energy optimization (PEO), an active energy management solution, provides for system profiling at optimum operating points.

Making investments in energy management at the pumping level gives more than just reduced consumption and smaller energy bills. Becoming energy efficient, or generating energy by saving it, opens up new doors for buildings to actually produce revenue by participating in utility demand response programs—making the ROI even greater.

Myth: The road to an energy efficient building is through lighting and HVAC.

Energy management in the pump realm is of growing interest, supported by key industry initiatives, economic incentives and demonstrated financial benefits to industry and building owners alike. Because pumps play a major role in all HVAC systems, and due to the nature of their application, design, and operation, they represent an excellent opportunity to reduce costs and increase reliability in all commercial building systems.

Enhanced controls are at the center of such solutions. Variable frequency drives, enhanced by intelligent controls, will pave the way for system optimization in the future, enabling efficiency improvements in application areas such as commercial buildings. Smart Motor Management systems can play a role equally as important as lighting and other initiatives, ensuring system performance and providing system monitoring and feedback to reduce the likelihood of failure.

Of course lighting and HVAC cannot be ignored—but pumps should be an area for consideration In fact, a little known piece of information about the HVAC systems is that two of its primary applications are pumps and fans. Pumping is responsible for up to 15% of a building’s peak energy use and in the typical life cycle of a pump, energy costs account for almost 40% of the total costs.

Myth: Intelligent pumping makes sense as a strategy for new construction, but the ROI of an update or retrofit just isn’t there.

Intelligent pumping can simply be defined as the combination of a pump and a VFD with digital control capability. As this trend continues to emerge, we see new implications or possibilities for:

  • Energy management
  • Remote condition monitoring
  • Remote systems control.

Intelligent pumping systems are expanding to include wireless monitoring and control capabilities which provide users with the ability to access real-time operating data on their pumping equipment, offsetting the higher initial costs through reduced unplanned downtime and improved predictive maintenance plans. The added benefits of wireless systems are apparent when reviewing the current challenges faced by pump system end users.

Historically, pumping system automation has often been addressed as a one-off engineered solution based on customer needs and architectural/consulting engineering specifications. However, as the technology evolved, and more importantly, became increasingly user friendly, facility operations personnel and management have demonstrated the desire to leverage the latest technology available—such as Internet communication for monitoring and control, WIFI communications, smart phone interface to their pump controller, for alarms and remote control and configuration.

According to the U.S. Environmental Protection Agency, more than 50% of the transient water systems in the U.S. do not have remote monitoring and control of their pumping assets—intelligent pumping systems help with this.

In fact, Frost and Sullivan anticipates that the market for real-time mobile asset tracking and preventative maintenance monitoring to increase five-fold by 2020.

Jack Creamer is a market segment manager focused on the OEM pumping equipment sector for Schneider Electric North America. He earned a bachelor’s degree in Industrial Engineering from Syracuse University and an MBA from Rensselaer Polytechnic Institute. He can be reached at jack.creamer(at)schneider-electric.com



No comments
Consulting-Specifying Engineer's Product of the Year (POY) contest is the premier award for new products in the HVAC, fire, electrical, and...
Consulting-Specifying Engineer magazine is dedicated to encouraging and recognizing the most talented young individuals...
The MEP Giants program lists the top mechanical, electrical, plumbing, and fire protection engineering firms in the United States.
Water use efficiency: Diminishing water quality, escalating costs; Lowering building energy use; Power for fire pumps
Building envelope and integration; Manufacturing industrial Q&A; NFPA 99; Testing fire systems
Labs and research facilities: Q&A with the experts; Water heating systems; Smart building integration; 40 Under 40 winners
Maintaining low data center PUE; Using eco mode in UPS systems; Commissioning electrical and power systems; Exploring dc power distribution alternatives
Protecting standby generators for mission critical facilities; Selecting energy-efficient transformers; Integrating power monitoring systems; Mitigating harmonics in electrical systems
Commissioning electrical systems in mission critical facilities; Anticipating the Smart Grid; Mitigating arc flash hazards in medium-voltage switchgear; Comparing generator sizing software
As brand protection manager for Eaton’s Electrical Sector, Tom Grace oversees counterfeit awareness...
Amara Rozgus is chief editor and content manager of Consulting-Specifier Engineer magazine.
IEEE power industry experts bring their combined experience in the electrical power industry...
Michael Heinsdorf, P.E., LEED AP, CDT is an Engineering Specification Writer at ARCOM MasterSpec.