Microreactor Technology and Process Intensification Book

Microreactor Technology and Process Intensification, Microreaction technology, with its unprecedented heat and mass transfer advantages as well as uniform residence time and flow pattern, is one of the few technologies with potential to develop efficient, environmentally benign, and compact processes. , Microreactor Technology and Process Intensification

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Microreactor Technology and Process Intensification
Written by author Yong Wang
Published by An American Chemical Society Publication, November 2004
Microreaction technology, with its unprecedented heat and mass transfer advantages as well as uniform residence time and flow pattern, is one of the few technologies with potential to develop efficient, environmentally benign, and compact processes.
Stemming from the First Symposium on Microreactor Technology and Process Intensification held as part of the 226th American Chemical Society National Meeting in New York in September 2003, this volume contains a selection of 25 papers from the symposium,

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1 Silicon-based microreactors 2
2 Chemical microprocess engineering : current trends and issues to be resolved 23
3 Overview of early-state microchannel reactor development at Pacific Northwest National Laboratory 47
4 Parallel heterogeneous reactor systems for catalyst screening 66
5 Microreactor research and development at Louisiana Tech University : fabrication of silicon microchannel reactors for catalyst studies on conversion of cyclohexene as a prototype and syngas to alkanes
6 Engineerd catalysts for microchannel reactor applications 102
7 Fuel reformation : catalyst requirements in microchannel architectures
8 Nanoscale platinum catalyst in microreactors for preferential oxidation of CO for hydrogen fuel cell feeds 129
9 Process intensification through heat-integration for high-temperature catalysis 145
10 Miniaturization of a hydrogen plant 162
11 Downsizing chemical processes for portable hydrogen production 179
12 Fuel processing in catalytically coated microreactors for low-power fuel cell applications 194
13 Integrated methanol fuel processors for portable fuel cell systems 209
14 Engineering aspects of designing the components in a microchannel fuel processor 224
15 Fuel reformation : microchannel reactor design
16 Microchannel reactors for intensifying gas-to-liquid technology 258
17 Microchannel catalytic processes for converting biomass-derived syngas to transportation fuels 273
18 Flow-induced phase inversion phenomenon in process intensification and microreactor technology : preparation and applications of nanostructured microporous polymers and metals 286
19 New catalytic polymeric membranes incorporating Ti(IV) trialkanolamines complexes : synthesis, characterization, and application in catalysis 309
20 Enhancement of micromixing tees using ultrasound energy 322
21 Mixing principles for microstructured mixers : active and passive mixing 334
22 Gas-liquid processing in microchannels 360
23 Process intensification in water-in-crude oil emulsion separation by simultaneous application of electric field and novel demulsifier adsorbers based on polyhipe polymers 378
24 Intensification of reaction and V-L separation in batch systems 393
25 Microfibrous entrapped ZnO-support sorbents for high contacting efficiency H[subscript 2]S removal from reformate streams in PEMFC applications 406

Title: Microreactor Technology and Process Intensification

Manufacturer:

American Chemical Society

Item Number: 9780841239234

Publication Date: November 2004

Number: 1

Product Description: Microreactor Technology and Process Intensification

Universal Product Code (UPC): 9780841239234

WonderClub Stock Keeping Unit (WSKU): 9780841239234

Rating: 3/5 based on 2 Reviews

Image Location: https://wonderclub.com/images/covers/92/34/9780841239234.jpg

Category: Media >> Books

Weight: 0.200 kg (0.44 lbs)

Width: 9.100 cm (3.58 inches)

Heigh : 6.200 cm (2.44 inches)

Depth: 1.000 cm (0.39 inches)

Date Added: August 25, 2020, Added By: Ross

Date Last Edited: August 25, 2020, Edited By: Ross

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$167.52	Digital	Arrives between May 8 - Jun 7 Login to your account for a direct download. Some files are emailed from Dropbox. Continent $0.00 - World $0.00	WonderClub (9296 total ratings)

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Johan Nilsson

reviewed Microreactor Technology and Process Intensification on April 19, 2020

Microreactor Technology and Process Intensification

Written over 35 years ago, this book is another terrifying reminder of how evil and hopelessly currupt the central banks, corporations and governments that give them legal cover truly are. The dominance of the oil and chemical industry and the deadly poisons they profit from is unforgivable. The chemical compounds created by Nazi scientists then imported to the US are the basis of our sophisticated ag industry and we are all ingesting the toxins daily. The air, soil, food, water, and all of the daily products we use as consumers are loaded with poisons. As Vandana Shiva has said......we are still consuming the legacy of WW2. The nightmare it seems, will never be over until we are all dead.

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Microreactor Technology and Process Intensification,
Microreaction technology, with its unprecedented heat and mass transfer advantages as well as uniform residence time and flow pattern, is one of the few technologies with potential to develop efficient, environmentally benign, and compact processes. , Microreactor Technology and Process Intensification

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Add Microreactor Technology and Process Intensification, Microreaction technology, with its unprecedented heat and mass transfer advantages as well as uniform residence time and flow pattern, is one of the few technologies with potential to develop efficient, environmentally benign, and compact processes. , Microreactor Technology and Process Intensification to your collection on WonderClub

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1	Silicon-based microreactors	2
2	Chemical microprocess engineering : current trends and issues to be resolved	23
3	Overview of early-state microchannel reactor development at Pacific Northwest National Laboratory	47
4	Parallel heterogeneous reactor systems for catalyst screening	66
5	Microreactor research and development at Louisiana Tech University : fabrication of silicon microchannel reactors for catalyst studies on conversion of cyclohexene as a prototype and syngas to alkanes
6	Engineerd catalysts for microchannel reactor applications	102
7	Fuel reformation : catalyst requirements in microchannel architectures
8	Nanoscale platinum catalyst in microreactors for preferential oxidation of CO for hydrogen fuel cell feeds	129
9	Process intensification through heat-integration for high-temperature catalysis	145
10	Miniaturization of a hydrogen plant	162
11	Downsizing chemical processes for portable hydrogen production	179
12	Fuel processing in catalytically coated microreactors for low-power fuel cell applications	194
13	Integrated methanol fuel processors for portable fuel cell systems	209
14	Engineering aspects of designing the components in a microchannel fuel processor	224
15	Fuel reformation : microchannel reactor design
16	Microchannel reactors for intensifying gas-to-liquid technology	258
17	Microchannel catalytic processes for converting biomass-derived syngas to transportation fuels	273
18	Flow-induced phase inversion phenomenon in process intensification and microreactor technology : preparation and applications of nanostructured microporous polymers and metals	286
19	New catalytic polymeric membranes incorporating Ti(IV) trialkanolamines complexes : synthesis, characterization, and application in catalysis	309
20	Enhancement of micromixing tees using ultrasound energy	322
21	Mixing principles for microstructured mixers : active and passive mixing	334
22	Gas-liquid processing in microchannels	360
23	Process intensification in water-in-crude oil emulsion separation by simultaneous application of electric field and novel demulsifier adsorbers based on polyhipe polymers	378
24	Intensification of reaction and V-L separation in batch systems	393
25	Microfibrous entrapped ZnO-support sorbents for high contacting efficiency H[subscript 2]S removal from reformate streams in PEMFC applications	406