Transport Phenomena in Micro Process Engineering (Heat and Mass Transfer) ebook

In this book, the fundamentals of chemical engineering are presented aiming to applications in micro system . the state-of-the-art in micro process engineering. a detailed treatment of transport phenomena for engineers.

In this book, the fundamentals of chemical engineering are presented aiming to applications in micro system technology, microfluidics, and transport processes within microstructures. After a general overview on both disciplines and common areas, recent projects are shortly presented. The combination of different disciplines gives new opportunities in microfluidic devices and process intensification, respectively. Special features of the book are: - the state-of-the-art in micro process engineering.

Heat and Mass Transfer. Transport Phenomena in Micro Process Engineering. Authors: Kockmann, Norbert. Wide overview on fundamental processes in chemical and process engineering devices. In this book, the fundamentals of chemical engineering are presented aiming to applications in micro system technology, microfluidics, and transport processes within microstructures.

Micro process engineering, an interdisciplinary approach - 2. Fundamentals, balances, and transport processes - 3. Momentum transfer - 4. Heat transfer and micro heat exchangers - 5. Diffusion, mixing, and mass transfer equipment - 6. Chemical reactions and reactive precipitation - 7. Coupled transport processes.

process engineering topics and deals with coupled transport processes. Micro fabrication technology enables tailor-made geometries with appropriate materials to augment coupled transport phenomena.

Micro Process Engineering - An Interdisciplinary Approach: Introduction . Micro Heat Exchanger Devices.

Micro Process Engineering - An Interdisciplinary Approach: Introduction and Motivation. Orientation of Micro Process Engineering. The Role of Transport Processes. Diffusion, Mixing, and Mass Transfer Equipment: Mixing Processes and Their Characterization. Diffuse Mass Transport and Concentration Distribution in Fluids. He began his studies of aerospace engineering in 1985 at the Technical University of Munich.

Micro process engineering at the interface of (at least) chemistry, process engineering, and microsystems engineering provides good opportunities to introduce new possibilities and options in many application fields. The basic features of integrated and enhanced transfer phenomena and small dimensions are explained and illustrated in this work. The superior advantages in terms of process intensification by enhanced heat and mass transfer as well as process control and safety issues lead to a growing need for scientists with microreaction technology experiences. The pressure loss and.

Автор: Norbert Kockmann Название: Transport Phenomena in Micro Process Engineering ISBN .

Описание: Presenting the fundamentals of chemical engineering, this book references applications in micro system technology, microfluidics and transport processes within microstructures. Special features include a detailed treatment of transport phenomena for engineers and a detailed treatment of chemical reaction in continuous flow microstructured reactors.

Items related to Transport Phenomena in Micro Process Engineering (Heat. In this book, the fundamentals of chemical engineering are presented aiming to applications in micro system technology, microfluidics, and transport processes within microstructures

Items related to Transport Phenomena in Micro Process Engineering (Heat. Home Norbert Kockmann Transport Phenomena in Micro Process Engineering (Heat and Mass. Special features of the book are

The transport phenomena in microstructures treated here concern momentum, species, mass, and energy transfer combined with entropy generation, reaction kinetics, and coupled processes.

Transport Phenomena in Micro Process Engineering. With 214 Figures and 17 Tables. The transport phenomena in microstructures treated here concern momentum, species, mass, and energy transfer combined with entropy generation, reaction kinetics, and coupled processes. Almost all transport processes dealt with are in the continuum range and can be described by linear correlations, however, the limitations and exceptions are given. The length scale of transport processes reaches from molecular scale of gas scattering to complex turbulent flow in the millimeter range.