A Quick Primer on Water Industry Terms And Their Meanings.

There are thousands of terms and esoteric framings in the water industry. As the industry works to attract the required number of new talent (the industry is facing ~30% attrition within the technician rank) making the terms more accessible is necessary. So here we share a list of terms and summary definitions of those terms. We hope you find it helpful.

1. Biofilm: A thin layer of microorganisms that adhere to a surface in a water distribution system, which can cause corrosion and affect water quality.
2. Booster Pump: A pump installed in a water system to increase water pressure and maintain adequate flow rates.
3. Booster Station: A facility that houses booster pumps to increase water pressure and flow rates in a distribution system.
4. Colebrook White Equation: An empirical formula used to estimate friction losses in fluid flow through pipes.
5. Contingency Sample Collection: The process of collecting water samples in response to a specific event, such as a water quality issue or system failure.
6. Criticality Analysis: A method to identify and prioritize the most critical components of a water distribution system to ensure its reliability and resilience.
7. Darcy Weisbach Formula: A formula used to calculate head loss due to friction in a pipe flow.
8. Decay Coefficients: Factors used to estimate the reduction of a substance’s concentration in water over time due to processes like biological degradation or chemical reactions.
9. Demand Loading: The process of estimating and incorporating the water demand at different locations within a water distribution system model.
10. Digital Terrain Models: Digital representations of the earth’s surface, including elevation data, used to inform water distribution system design and analysis.
11. Disinfection By-Products: Chemical compounds formed when disinfectants react with organic materials in water, potentially posing health risks.
12. Distribution System Testing: The process of testing the performance and integrity of a water distribution system, including water quality and pressure tests.
13. District Meter Areas: Defined areas within a water distribution system used for monitoring and management purposes, typically containing a single flow meter.
14. Downsurge: A sudden drop in pressure in a pipe, which can cause water hammer and damage to the distribution system.
15. EPANET: A software tool developed by the United States Environmental Protection Agency (EPA) for modeling and analyzing water distribution systems.
16. Eulerian Fixed Grid Method of Characteristics: A numerical method for solving fluid flow problems, particularly in water distribution systems.
17. Fill Time: The time required to fill a water storage tank or reservoir.
18. Flow Evaluation: The assessment of water flow characteristics in a distribution system, including flow rates, velocities, and pressure.
19. Free Chlorine: The amount of chlorine available in water to act as a disinfectant.
20. Geographic Information Systems (GIS): Computer systems used to capture, store, analyze, and present spatial data, including water distribution system components and infrastructure.
21. Hazen-Williams Formula: A widely-used empirical formula for estimating head loss due to friction in water flowing through pipes.
22. Head-Flow: A relationship between the flow rate and pressure head in a water distribution system.
23. Hydrant Flow Test: A test to measure the flow rate and pressure at a fire hydrant, used to assess the performance of a water distribution system.
24. Hydraulic Calibration: The process of adjusting a hydraulic model to match observed data from a real-world water distribution system.
25. Hydraulic Data: Information on water flow rates, pressures, and velocities in a water distribution system.
26. Hydraulic Modeling: The use of mathematical models to simulate and analyze the behavior of water distribution systems.
27. Hydraulic Test: A test to measure the performance of a water distribution system, such as pressure and flow rates.
28. Inlet Pipes: Pipes that convey water into a water distribution system or facility.
29. Joukowsky Relation: A fundamental equation that describes the relationship between pressure changes and fluid velocity changes in a water hammer event
30. Kinematic Similarity (water) (continued): geometric parameters are proportional, which can be used to scale and compare different water distribution system scenarios or designs.
31. Laboratory Information Management System (LIMS): A software system used to manage laboratory data and processes, including water quality testing results and sample tracking.
32. Lagrangian Wave Characteristic Method: A numerical method for solving fluid flow problems that involves tracking fluid particles as they move through the system.
33. LIDAR: A remote sensing technology that uses laser pulses to measure distances and create detailed, high-resolution maps of the earth’s surface, including topography and infrastructure.
34. Line Friction Orifice: A device installed in a pipe to create a controlled pressure drop and help regulate flow in a water distribution system.
35. Main Flushing Programs: Planned maintenance programs that involve flushing water mains to remove sediment and biofilm, improving water quality and system performance.
36. Mass Balance: A principle stating that the total mass entering a system must equal the mass leaving the system plus any changes in mass within the system, commonly applied in water distribution system analysis.
37. Maximum Pressure: The highest pressure that can occur in a water distribution system under normal operating conditions.
38. Maximum Residence Time: The longest time water spends in a distribution system before reaching a consumer, which can impact water quality and disinfection effectiveness.
39. Minimum Day Demand Conditions: The lowest daily water demand typically experienced in a water distribution system, used for system design and analysis.
40. Moody Diagram: A graphical representation of the relationship between pipe flow parameters, such as Reynolds number, relative roughness, and friction factor, used to estimate friction losses in pipes.
41. Non-Revenue Water: Water that is produced but not billed to customers, including losses from leaks, meter inaccuracies, and unauthorized consumption.
42. Outage Planning: The process of scheduling and coordinating maintenance, repair, or replacement activities that may require temporary service interruptions in a water distribution system.
43. Pressure Zone: A defined area within a water distribution system where water pressure is maintained within a specific range, often separated by pressure-reducing valves or booster stations.
44. Pump Energy Management: Strategies and technologies used to optimize energy consumption and efficiency in pump stations.
45. Pump Stations: Facilities that house pumps for moving water through a distribution system or to a higher elevation.
46. Real Time Modeling: The use of hydraulic and water quality models to analyze and predict the behavior of a water distribution system in real-time, supporting operational decision-making and emergency response.
47. Reliability Analysis: An assessment of a water distribution system’s ability to maintain service and deliver water to customers under various conditions and events.
48. Reservoirs: Water storage facilities used to store and manage water supply in a distribution system.
49. Safe Drinking Water Act: A U.S. federal law that sets standards for drinking water quality and regulates public water systems to ensure the safety of drinking water.
50. SCADA: Supervisory Control and Data Acquisition, a computer system used to monitor and control water distribution system infrastructure and processes.
51. System Performance Analysis: The assessment of a water distribution system’s performance in terms of pressure, flow, water quality, and other parameters.
52. Tanks: Water storage facilities used to store and manage water supply in a distribution system, such as elevated tanks or ground-level storage tanks.
53. THM Formation: Trihalomethane formation, a group of disinfection by-products formed when chlorine reacts with organic matter in water.
54. Throttle Control Valves: Valves that regulate flow or pressure in a water distribution system by partially closing or opening the valve.
55. Total Chlorine (continued): present as both a disinfectant and in the form of disinfection by-products.
56. Total Dynamic Head: The sum of the static head, pressure head, and friction head in a water distribution system, used to determine the energy requirements for pumping water.
57. Unidirectional Flushing: A systematic and controlled flushing process used to clean water mains by isolating sections of the distribution system and forcing water to flow in a single direction at high velocities.
58. Valve: A device used to control the flow of water in a distribution system by opening, closing, or partially obstructing flow.
59. Valve Operation: The process of operating and maintaining valves in a water distribution system to ensure proper function and system performance.
60. Water Age: The time elapsed since water entered a distribution system, which can impact water quality and disinfection effectiveness.
61. Water Consumption Data: Information on the volume and patterns of water usage by consumers within a water distribution system.
62. Water Distribution Distribution System Models: Mathematical models used to simulate and analyze water distribution systems, incorporating factors such as demand, infrastructure, and operational conditions.
63. Water Hammer: A sudden increase in pressure caused by a rapid change in the velocity of water in a distribution system, which can damage pipes and other system components.
64. Water Loss: The volume of water that escapes a distribution system through leaks, meter inaccuracies, or unauthorized consumption.
65. Water Model Equilibration: The process of adjusting and refining a water distribution system model to ensure it accurately represents the real-world system.
66. Water Pressure Loggers: Instruments used to measure and record water pressure data in a distribution system over time.
67. Water Quality Modeling: The use of mathematical models to predict and analyze the behavior of water quality parameters in a distribution system.
68. Water Quality Testing and Monitoring: The process of collecting and analyzing water samples to ensure compliance with water quality standards and identify potential issues.
69. Water Risk Management: The process of identifying, assessing, and mitigating risks to water supply, quality, and infrastructure in a water distribution system.
70. Water Storage Facility: A structure or area used to store water for later use in a distribution system, such as reservoirs or tanks.
71. Water System Models: Mathematical models used to simulate and analyze various aspects of water distribution systems, including hydraulics, water quality, and system performance.
72. Water Transmission Models: Models that simulate and analyze the movement of water through a distribution system, accounting for factors such as pipe networks, pumps, and valves.
73. Water Treatment Plant: A facility that processes raw water to meet drinking water standards by removing contaminants and disinfecting the water before distribution.
74. Zone Boundary Selection: The process of defining boundaries for pressure zones or district meter areas within a water distribution system to facilitate management and monitoring.
75. Zone Valve: A valve used to isolate or control water flow between different zones or pressure areas within a water distribution system.