Exploring Regional Water System Interconnections in the Triangle
- Jeff Cruickshank, PE - Hazen and Sawyer
- Sydney Miller - Town of Cary
This presentation describes how utilities in North Carolina’s Triangle region used hydraulic modeling to explore water supply alternatives and the management of interconnected water systems during drought or outages.
The modeling project was commissioned by the Jordan Lake Partnership, which includes the Towns of Cary, Apex, Hillsborough, Holly Springs, Morrisville and Pittsboro; the Cities of Raleigh, Durham and Sanford; the Orange Water and Sewer Authority (OWASA) serving Chapel Hill and Carrboro; as well as Chatham, Orange and Wake Counties.
The Partnership’s goals were to determine how much water could be moved through interconnected water systems to increase reliability for all customers, optimize supplies during times of water shortages, and expand water supply alternatives available to the region.
The project involved building a regional hydraulic model by combining 10 existing models of the partners’ distribution systems. The combined model had more than 100,000 pipes and average summer demand of nearly 120 mgd.
The model determined sustainable flows for long-term conditions, such as a drought that might impact some partners more than others. Modeling scenarios studied finished water transfers from utilities with surplus supply to utilities with shortages. Some transfers involved moving water through several distribution systems via multiple interconnections.
The presentation describes using extended period simulations of large flows through interconnections to determine pressures and evaluate pump and tank performance.
Regional hydraulic models provide water utilities with a valuable tool for exploring existing or potential interconnections and possibly deferring the need for water supply expansions.
For more information, please contact the author at email@example.com.
Hear about new publications with our email newsletter
Horizons showcases significant water, wastewater, reuse, and stormwater projects and innovations that help our clients to achieve their goals, and can help you achieve yours. Articles are written by top engineers and process group leaders, demonstrating and explaining the beneficial application of a variety of technologies and tools.