While theoretical textbooks (such as Kern’s Process Heat Transfer or Incropera’s Fundamentals of Heat and Mass Transfer ) provided the governing equations, they often lacked the specific empirical constants for commercial tubing. Wolverine filled this gap by publishing their proprietary testing results.
Using Section 4, you design the shell. You calculate the number of tubes based on the required duty (Q = U * A * LMTD) . The book provides the tube pitch (e.g., 1.25 x OD) and clearance factors.
Unlike broad metallurgical handbooks that cover every element on the periodic table, the Wolverine book is highly specialized. It focuses intensely on the nuances of tube production—specifically addressing the variables that affect yield, quality, and structural integrity. wolverine engineering data book
: Includes nearly 200 film sequences demonstrating flow phenomena and heat transfer.
: Includes a video gallery of flow phenomena to help engineers visualize complex internal and external fluid behaviors. Key Authors and History Data Book II : Originally compiled by engineers A.C. Mueller While theoretical textbooks (such as Kern’s Process Heat
This section allows engineers to quickly cross-reference standard industry sizes (like those governed by ASTM or ASME standards) with manufacturing capabilities.
: Provides typical fouling resistances and guidance on material selection for various services. Wolverine Engineering Data Book III You calculate the number of tubes based on
Before the age of Computational Fluid Dynamics (CFD) and AI-driven design, engineers relied on slide rules and published monographs. Wolverine Tube, a leading manufacturer of integral finned tubing and enhanced surface tubes (like Turbo-Chill and Turbo-B II), recognized a gap in the market.