Tag: Monitoring
1. Introduction In the hierarchy of fluid handling equipment within municipal and industrial sectors, dewatering pumps occupy a unique and critical position. Unlike permanently installed process pumps designed for steady-state operations within a treatment plant, dewatering pumps are often tasked with transient, emergency, or variable-duty cycles in uncontrolled environments. For the consulting engineer and plant […]
1. Introduction In the water and wastewater (W/WW) utility sector, Supervisory Control and Data Acquisition (SCADA) systems and Human-Machine Interfaces (HMI) serve as the central nervous system of critical infrastructure. Unlike discrete manufacturing, where operations are often contained within a single building, water utilities manage geographically dispersed assets ranging from remote lift stations and booster […]
Introduction to PLC & Control Platforms in Water & Wastewater In the municipal and industrial water sector, the Programmable Logic Controller (PLC)—often evolving into the Programmable Automation Controller (PAC)—serves as the central nervous system of treatment and distribution infrastructure. Unlike discrete manufacturing, where systems may shut down for retooling, water and wastewater treatment plants (WTPs […]
Introduction In the realm of municipal and industrial wastewater management, the failure of a grinder pump due to ragging or jamming is rarely a minor inconvenience—it is a distinct operational hazard that leads to Sanitary Sewer Overflows (SSOs), costly emergency call-outs, and accelerated equipment degradation. With the increasing prevalence of “non-flushable” wipes and high-tensile synthetic […]
1. Introduction Biogas systems serve as the critical interface between anaerobic digestion processes and energy recovery or disposal mechanisms in municipal and industrial wastewater treatment facilities. While historically viewed merely as a waste byproduct requiring safe disposal, biogas—comprising primarily methane (CH4) and carbon dioxide (CO2)—is now universally recognized as a valuable renewable energy resource. The […]
Introduction The escalation of non-dispersible solids in municipal wastewater streams—colloquially known as the “flushable wipes” crisis—has fundamentally altered how consulting engineers and utility directors approach pump station design. A decade ago, 3-inch solids handling capacity was sufficient for most municipal lift stations. Today, the tensile strength of modern synthetic fibers creates roping and matting that […]
Introduction One of the most persistent vulnerabilities in municipal wastewater infrastructure is the susceptibility of dry well lift stations to flooding. Traditional configurations utilizing standard TEFC (Totally Enclosed Fan Cooled) motors coupled to pumps via long drive shafts offer excellent maintenance access but catastrophic failure modes during flood events. When a dry well floods due […]
1. Introduction Rotary lobe pumps represent a critical category of positive displacement (PD) equipment within the water and wastewater infrastructure. Unlike centrifugal pumps, which rely on kinetic energy to move fluid, rotary lobe pumps utilize the mechanical action of counter-rotating elements to trap and displace discrete volumes of fluid. This fundamental difference in operating principle […]
Introduction In the municipal and industrial water treatment sectors, the selection of positive displacement (PD) pumping technology is often the determining factor between a reliable, low-maintenance process and a chronic operational headache. Engineers frequently default to familiar technologies without fully analyzing the rheological impacts of the fluid on the equipment lifecycle. A common, yet critical, […]
1. Introduction: The Role of Progressive Cavity Pumps in Water & Wastewater In the complex hydraulic architecture of municipal and industrial water treatment facilities, the Progressive Cavity (PC) pump—often referred to as a helical rotor pump or eccentric screw pump—occupies a critical operational niche. Unlike centrifugal pumps, which rely on kinetic energy to move fluid […]