Overview and details of the sessions of this conference. Please select a date or location to show only sessions at that day or location. Please select a single session for detailed view (with abstracts and downloads if available).
Pump Performance Assessment; A Panacea for Predictive Maintenance?
Jennifer E. Murphy, Brandon Moss
Parametrix, United States of America; ,
Assessing the condition of pump stations can be a significant undertaking for many utilities, and the specific approaches and techniques of assessment can vary widely. Among the many working components within the pump station its namesake, the pump, is often a key focus. Significantly reduced capacity or excessive vibration are easily identifiable signs of a failed pump; however, quantifying the specific degradation of an individual pump can be difficult. If accurate quantitative data is available the useful life of a pump can be prolonged by targeted maintenance, and premature rebuild or replacement can be avoided.
Methodology for field testing pumps and the differing approaches in testing both flood control and wastewater pumps will be presented. The technical requirements and constraints and opportunities of instruments and data logging equipment will be reviewed. Some of the common and uncommon insights into centrifugal pump performance, implications for the health of the force main, and specific indicators of wear on various components will be discussed.
Two client case studies will be presented detailing how results from pump testing can be applied to assess equipment condition as well as make predictive maintenance and capital improvement decisions. The City of Spokane, WA, tested pumps at five wastewater pump stations to confirm condition and capacity. Multnomah County Drainage District in Portland, OR, has conducted a variety of condition assessments for its 13 flood control pump stations and has performed testing to confirm the flood control pumping capacities and remaining useful life of most of the pumps it maintains. The specifics of testing wastewater and flood control pumps will be covered, in addition to how the resulting test data, in combination with operational data, can be used to perform targeted rebuilds and prioritize replacements.
Brief Biography and/or Qualifications Jen Murphy is a senior engineer at Parametrix in the Water Solutions Group for the Pacific Northwest. She has over 14 years of experience on both the construction and design sides of the industry, with the last decade focused on providing clients with engineering services related to drinking water, waste water, and storm water. She has been a significant contributor for design projects at 35 pumping stations and 10 treatment facilities with capacities up to 800 MGD.
Brandon Moss is a professional engineer at Parametrix in the Water Solutions Group for the Pacific Northwest. He provides hydraulic, mechanical, and civil engineering design and construction support to local agency and tribal clients. His work supports water and wastewater projects including rehabilitation and replacements of force mains and pump stations, treatment processes and hydraulic designs, and reclamation plant upgrades.
CFD in Wastewater Treatment: A Useful Design Tool or Design Dollars Down the Drain
Zachary Hahm Taylor
Osborn Consulting, Inc., United States of America;
With continual improvement of computer processing and software algorithms, there is an ever-growing number of applications for computational fluid dynamics (CFD) to improve the design operation of wastewater treatment facilities. However, the costs of CFD modeling studies are significant, not all applications warrant a detailed study, and some studies are not realistic in addition to being unwarranted.
CFD studies are warranted when 1) their cost can be recovered by savings in capital or operations and maintenance 2) an overall reduction in project risk can be achieved 3) the added benefit of flow visualization warrants the added expense. An example is the utilization of CFD studies for contact tanks. These studies can provide an accurate estimate of baffle factor and result in tanks with smaller footprints than would be allowed using empirical equations or design charts. Reduced footprint size and/or reduced disinfection byproducts justify the cost of CFD studies for contact tanks, storage tanks, settling basins, etc.
CFD studies of pump stations that do not require physical models can be used to evaluate pre-swirl and velocity distribution in the pump throat and develop modifications to improve approach conditions to the pumps. However, CFD has yet to advance to where it can be used to evaluate the potential for vortices or for accurate estimation of turbulence entering the pump. Some consultants and software providers may claim that they can, but buyer beware.
Successful studies require proper application and experienced CFD consultants who can both properly execute a model study and interpret/present the results to design engineers and stakeholders. Attendees will gain an understanding of CFD as a tool that can be useful when properly applied and when the design team understands how close to reality the results are.
Brief Biography and/or Qualifications Zach is a Professional Engineer with experience in hydraulic modeling and design. His particular expertise is in computational fluid dynamics (CFD) modeling, hydrodynamic modeling, and physical hydraulic modeling, with experience in studies involving dams, levees, pump stations, spillways, upstream and downstream fish passage facilities, flood control, and river navigation. He has extensive modeling experience using a variety of modeling platforms (including Flow-3D, Star-CCM+, Fluent, HEC-RAS, SRH-2D, AdH, PTM, CMS-WAVE) and understands the value and capabilities of each in addressing project site evaluation and design.