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Books on the topic 'Catalytic membrane'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 June 2025

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1

Thomas, Tsotsis Theodore, ed. Catalytic membranes and membrane reactors. Wiley-VCH, 2002.

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2

Rickey, Welch G., ed. Organized multienzyme systems: Catalytic properties. Academic Press, 1985.

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3

High temperature catalytic membrane reactors: Topical report. U. S. Dept. of Energy., 1990.

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4

Collins, John Patrick. Catalytic decomposition of ammonia in a membrane reactor. 1993.

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5

Simulation of ethylbenzene dehydrogenation in microporous catalytic membrane reactors. U. S. Dept. of Energy., 1989.

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6

Eiichi, Torikai, and United States. National Aeronautics and Space Administration., eds. Production of an ion-exchange membrane-catalytic electrode bonded material for electrolytic cells. National Aeronautics and Space Administration, 1986.

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7

Current Trends and Future Developments on Membranes: Photocatalytic Membranes and Photocatalytic Membrane Reactors. Elsevier, 2018.

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8

Basile, Angelo, and Teko W. Napporn. Current Trends and Future Developments on Membranes: Membrane Systems for Hydrogen Production. Elsevier, 2020.

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9

Basile, Angelo, and Giuseppe Spazzafumo. Current Trends and Future Developments on Membranes: Cogeneration Systems and Membrane Technology. Elsevier, 2020.

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10

Basile, Angelo, and Giuseppe Spazzafumo. Current Trends and Future Developments on Membranes: Co-Generation Systems and Membrane Technology. Elsevier, 2020.

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11

Basile, Angelo, Alberto Figoli, and Alfredo Cassano. Current Trends and Future Developments on Membranes: Renewable Energy Integrated with Membrane Operations. Elsevier, 2018.

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12

Basile, Angelo, and Teko W. Napporn. Current Trends and Future Developments on Membranes: Membrane Systems for Electrochemical Hydrogen Conversion. Elsevier, 2020.

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13

Sebastio, Gianfranco, Manuel Schiff, and Hélène Ogier de Baulny. Lysinuric Protein Intolerance and Hartnup Disease. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199972135.003.0025.

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Lysinuric protein intolerance (LPI) is an inherited aminoaciduria caused by defective cationic amino acid transport at the basolateral membrane of epithelial cells in intestine and kidney. LPI is caused by mutations in the SLC7A7 gene, which encodes the y+LAT-1 protein, the catalytic light chain subunit of a complex belonging to the heterodimeric amino acid transporter family. Symptoms usually begin after weaning with refusal of feeding, vomiting, and consequent failure to thrive. Hepatosplenomegaly, hematological anomalies, and neurological involvement including hyperammonemic coma will progressively appear. Lung involvement (specifically pulmonary alveolar proteinosis), chronic renal disease that may lead to end stage renal disease, and hemophagocytic lymphohistiocytosis with macrophage activation all represent complications of LPI that may appear at any time from childhood to adulthood. The great variability of the clinical presentation frequently causes misdiagnosis or delayed diagnosis. The basic therapy of LPI consist of a low-protein diet, low-dose citrulline supplementation, nitrogen-scavenging compounds to prevent hyperammonemia, lysine, and carnitine supplements.
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14

Basile, Angelo, and Antonio Comite. Current Trends and Future Developments on Membranes: Membrane Technology for Water and Wastewater Treatment - Advances and Emerging Processes. Elsevier, 2020.

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15

Basile, Angelo, and Fausto Gallucci. Current Trends and Future Developments on Membranes: Recent Advances in Metallic Membranes. Elsevier, 2020.

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16

Basile, Angelo, and Fausto Gallucci. Current Trends and Future Developments on Membranes: Recent Advances in Metallic Membranes. Elsevier, 2020.

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17

Basile, Angelo, and Evangelos P. Favvas. Current Trends and Future Developments on Membranes: Carbon Dioxide Separation/Capture by Using Membranes. Elsevier, 2018.

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18

Doraiswamy, L. K. Organic Synthesis Engineering. Oxford University Press, 2001. http://dx.doi.org/10.1093/oso/9780195096897.001.0001.

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This book will formally launch "organic synthesis engineering" as a distinctive field in the armory of the reaction engineer. Its main theme revolves around two developments: catalysis and the role of process intensification in enhancing overall productivity. Each of these two subjects are becoming increasingly useful in organic synthesis engineering, especially in the production of medium and small volume chemicals and enhancing reaction rates by extending laboratory techniques, such as ultrasound, phase transfer catalysts, membrane reactor, and microwaves, to industrial scale production. This volume describes the applications of catalysis in organic synthesis and outlines different techniques of reaction rate and/or selectivity enhancement against a background of reaction engineering principles for both homogeneous and heterogeneous systems.
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19

Basile, Angelo, and Adolfo Iulianelli. Current Trends and Future Developments on Membranes: New Perspectives on Hydrogen Production, Separation, and Utilization. Elsevier, 2020.

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20

Basile, Angelo, and Kamran Ghasemzadeh. Current Trends and Future Developments on Membranes: Recent Achievements in Wastewater and Water Treatments. Elsevier, 2020.

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21

Basile, Angelo, and Adolfo Iulianelli. Current Trends and Future Developments on Membranes: New Perspectives on Hydrogen Production, Separation, and Utilization. Elsevier, 2020.

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22

Elsevier's Directories in Chemistry: Part I Catalysis and Part II Membranes. Elsevier Science Ltd, 1996.

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