Logo

Pressure Driven Membrane Processes

Small book cover: Pressure Driven Membrane Processes

Pressure Driven Membrane Processes
by

Publisher: BookBoon
ISBN/ASIN: 8776811522
Number of pages: 22

Description:
Membrane processes are key unit operations in almost all parts of the chemical, biochemical, and pharmaceutical downstream processing. In this book, microfiltration, ultrafiltration, nanofiltration, and reverse osmosis are introduced. Flux, trans-membrane pressure, osmotic pressure, osmotic pressure model, resistance towards mass transport, concentration polarization, gel layer model, and membrane fouling are all important terms that are explained and described.

Home page url

Download or read it online for free here:
Download link
(1.4MB, PDF)

Similar books

Book cover: Atoms, Molecules and Matter: The Stuff of ChemistryAtoms, Molecules and Matter: The Stuff of Chemistry
by - Learning Development Institute
Contents: The structure of matter; Molecules in motion; Chemical Reactions; A deeper look at the ideal gas; The Second Law; Statistical interpretation of the Second Law; Partition functions and properties; Finally - back to Chemical Reactions.
(7044 views)
Book cover: Introductory Maths for ChemistsIntroductory Maths for Chemists
by - Bookboon
This volume teaches Maths from a 'chemical' perspective and is the first of a three part series of texts taken during a first-year university course. It is the Maths required by a Chemist, or Chemical Engineer, Chemical Physicist, Biochemist,...
(10161 views)
Book cover: General ChemistryGeneral Chemistry
by - Forgotten Books
In this book the author is developing the subject as logically as possible from the descriptive and experimental side; each law and theory has been presented at the point which seems best fitted both to the student and to the subject.
(16039 views)
Book cover: Multiscale Simulation Methods in Molecular SciencesMultiscale Simulation Methods in Molecular Sciences
by - Julich Supercomputing Centre
Coarse graining of molecular systems and solids, quantum/classical hybrid methods, embedding and multiple time step techniques, creating reactive potentials, multiscale magnetism, adaptive resolution ideas or hydrodynamic interactions are discussed.
(10602 views)