Sizing large-scale pumping systems.
The HI Engineering Data Book offers several key features that make it a valuable resource for engineers:
Information on how to plot system curves and intersect them with pump performance curves to determine the operating point.
For pump-focused engineers, the Hydraulic Institute Engineering Data Book is superior. For a chemical engineer sizing a control valve, Crane TP-410 might be a better desk companion. hydraulic institute engineering data book
The text instructs on plotting the System Curve (static head + friction head) against the Pump Curve. The intersection point, known as the , is the flow rate the pump will actually produce. The Data Book explains how to analyze this intersection to ensure the pump operates within its preferred operating range (POR), preventing premature bearing failure or seal wear.
By utilizing exact friction factors, designers can optimize pipe sizing. Balancing the capital cost of larger piping against the lifetime energy savings of reduced friction loss lowers the total cost of ownership for the facility. Industry Importance and Best Practices
Unlike theoretical physics textbooks, this book focuses heavily on . It bridges the gap between complex fluid dynamics equations and the everyday needs of working engineers. Core Focus Areas and Key Content Sizing large-scale pumping systems
Information on standard steel pipes, PVC, and other materials to determine friction factors.
The data is backed by decades of physical testing.
For professionals who prefer traditional methods, the printed second edition is still available through the Hydraulic Institute website. Conclusion For a chemical engineer sizing a control valve,
The Hydraulic Institute, a globally recognized authority on pumps, created the Engineering Data Book to standardize and centralize technical data. It is a compilation of critical information needed for calculating pipe friction, pump performance, system curves, and fluid properties. It bridges the gap between theoretical fluid mechanics and practical piping design. 2. Key Technical Content and Topics Covered
factors) and equivalent lengths for elbows, tees, gates, and check valves.
Friction is the enemy of efficiency in fluid systems. As liquid rubs against the interior walls of a pipe, energy is lost. The HI Engineering Data Book provides massive, highly detailed tables detailing friction losses based on: