: Each chapter includes short questions and practice problems designed to test understanding and prepare for technical examinations. What’s New in the Second Edition?
It allows professionals to access technical data while in the field.
The distinction between porous and non-porous membranes is explained through clear mathematical modeling, specifically focusing on the Hagen-Poiseuille equation for porous transport and Fick’s Law for diffusion.
Practice the driving-force equations for mass transfer, which are frequently featured in chemical engineering examinations.
The textbook covers a broad range of fundamental and practical topics in membrane technology:
: Uniquely covers applications like blood oxygenators, controlled drug delivery, and bioartificial organs.
Dr. Nath establishes a strong foundation by defining membrane parameters, including porosity, selectivity, and material characteristics. The text details how synthetic membranes operate as physical or chemical barriers to isolate components from a solution under a driving force. 2. Pressure-Driven Membrane Operations
: Retains multivalent ions, synthetic dyes, and small organic molecules.
offers a comprehensive exploration of one of chemical engineering's most transformative technologies. This essay delves into the core themes of the text, highlighting how membrane technology serves as a sustainable, energy-efficient alternative to conventional separation methods. The Core Philosophy: Efficiency through Selectivity
Membrane cross-linking methods and organic-organic separation.