Engineering Data Book Better - Wolverine
That resource is the .
You move to Section 2 (Evaporation). You decide to use Wolverine "Turbo-B II" tubing. The data book provides a graph: "Heat Transfer Coefficient vs. Heat Flux for R-717." You read that at 15,000 BTU/hr-sqft, the HTC is 3,500 BTU/hr-sqft-F.
The is more than just a collection of tables. It is a bridge between academic fluid dynamics and industrial reality. For the engineer designing a condenser for a nuclear power plant, a chiller for a semiconductor fab, or an evaporator for a pharmaceutical reactor, this book represents decades of empirical wisdom. wolverine engineering data book
: Detailed formulas for overall heat transfer coefficients, Log Mean Temperature Difference (LMTD), and configuration correction factors.
Furthermore, for 80% of standard industrial applications (water, glycol, standard refrigerants), the correlations in the Data Book are accurate within ±15%—which is well within the safety factor of most mechanical designs. That resource is the
For air-cooled condensers and evaporators, the book includes data on lanced fins, wavy fins, and flat fins. It correlates j-factors (Colburn) and f-factors (Fanning) for staggered tube banks.
With the rise of machine learning and high-fidelity CFD (like ANSYS Fluent or OpenFOAM), some wonder if the is obsolete. The data book provides a graph: "Heat Transfer
To understand the value of the book, one must understand the legacy of Wolverine Tube. Founded in 1914, the company became a titan in the tubing industry. As their product lines expanded into complex alloys and intricate finned tubes for heat transfer, their internal engineering teams needed a reliable way to standardize calculations.
The (primarily Data Book II and III) are widely recognized technical references for heat transfer engineers. Originally published by Wolverine Tube Inc. and now maintained by Wieland Thermal Solutions , these books provide essential design methods for tubular heat exchangers. Wolverine Engineering Data Book II
In the world of thermal engineering and heat exchanger design, access to accurate, empirically-derived data is not a luxury—it is a necessity. For decades, engineers and specifiers have relied on a specific, hallowed resource that sits on the virtual and physical shelves of nearly every HVAC&R, chemical processing, and power generation facility.