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Livros sobre o tema "CO2 adsorption and separation"

Autor: Grafiati
Publicado: 15 de fevereiro de 2025

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1

Yang, R. T. Gas separation by adsorption processes. Boston: Butterworths, 1987.

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2

Yang, R. T. Gas separation by adsorption processes. Singapore: World Scientific, 1997.

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3

Al-Damkhi, Ali Mohammed. Separation of n-paraffins by selective adsorption. Birmingham: Aston University. Department of Chemical Engineering, 1986.

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4

Takeuchi, Yasushi. Kyūchakuzai no kaishitsu to bunri sōsa e no ōyō ni kansuru kenkyū. Kawasaki-shi: Meiji Daigaku Kagaku Gijutsu Kenkyūjo, 1993.

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5

Winter, Franz, Rashmi Avinash Agarwal, Jan Hrdlicka e Sunita Varjani, eds. CO2 Separation, Purification and Conversion to Chemicals and Fuels. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-3296-8.

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6

Valencia, Susana, e Fernando Rey, eds. New Developments in Adsorption/Separation of Small Molecules by Zeolites. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-63853-5.

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7

Blender, Karl Frederik. Adsorption Process Development for the Separation of Toxic Gaseous Components. Hamburg: Helmut-Schmidt-Universität, Bibliothek, 2020.

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8

Zee, Gerard van. Counter current sorption using fiber sorbents: A novel separation technique for water purification in power and space efficient equipment. Delft, Netherlands: Delft University Press, 1996.

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9

Tsai, Huimin. Separation of nickel from aqueous solution by adsorption onto fungal biomass. Manchester: UMIST, 1995.

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10

International Institute of Refrigeration. Commission A3. Comparaison avec la cryogénie des procédés PSA et membranes pour la séparation des gaz industriels: Compte rendu de la réunion de la Commission A3 = Comparison between cryogenics and PSA and membrane processes for industrial gas separation : proceedings of the meeting of Commission A3, October 24-25, 1989. Paris, France: Institut international du froid, 1989.

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11

Nakao, Shin-ichi, Katsunori Yogo, Kazuya Goto, Teruhiko Kai e Hidetaka Yamada. Advanced CO2 Capture Technologies: Absorption, Adsorption, and Membrane Separation Methods. Springer, 2019.

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12

Gas Separation by Adsorption Processes. Elsevier, 1987. http://dx.doi.org/10.1016/c2013-0-04269-7.

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13

Yang, Ralph T. Gas Separation by Adsorption Processes. PUBLISHED BY IMPERIAL COLLEGE PRESS AND DISTRIBUTED BY WORLD SCIENTIFIC PUBLISHING CO., 1997. http://dx.doi.org/10.1142/p037.

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14

Gas separation by adsorption processes. London: Imperial College Press, 1997.

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15

Yang, Ralph T. Gas Separation by Adsorption Processes. Elsevier Science & Technology Books, 2013.

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16

Lemlich, Robert. Adsorptive Bubble Separation Techniques. Elsevier Science & Technology Books, 2012.

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17

Winter, Franz, Sunita Varjani, Rashmi Avinash Agarwal e Jan Hrdlicka. CO2 Separation, Purification and Conversion to Chemicals and Fuels. Springer, 2018.

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18

Tʻang, Li. A mathematical model for adsorptive bubble-separation processes. 1990.

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19

Valencia, Susana, e Fernando Rey. New Developments in Adsorption/Separation of Small Molecules by Zeolites. Springer International Publishing AG, 2022.

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20

Valencia, Susana, e Fernando Rey. New Developments in Adsorption/Separation of Small Molecules by Zeolites. Springer International Publishing AG, 2021.

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21

Rodrigues, Alírio E. Sorption-Enhanced Reaction Processes. World Scientific Publishing Co Pte Ltd, 2017.

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22

(Editor), Peter P. Radecki, John C. Crittenden (Editor), David R. Shonnard (Editor) e John L. Bulloch (Editor), eds. Emerging Separation and Separative Reaction Technologies for Process Waste Reduction: Adsorption and Membrane Systems. American Institute of Chemical Engineers, 1998.

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23

Jawad, Zeinab Abbas. Membrane Technology for CO2 Sequestration. Taylor & Francis Group, 2019.

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24

Jawad, Zeinab Abbas. Membrane Technology for CO2 Sequestration. Taylor & Francis Group, 2019.

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25

Jawad, Zeinab Abbas. Membrane Technology for CO2 Sequestration. Taylor & Francis Group, 2019.

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26

Jawad, Zeinab Abbas. Membrane Technology for CO2 Sequestration. Taylor & Francis Group, 2019.

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27

Membrane Technology for Co2 Sequestration. Taylor & Francis Group, 2021.

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28

Membrane Technology for CO2 Sequestration. Taylor & Francis Group, 2019.

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29

Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO² Capture Project: Vol 1 - Capture and Separation of Carbon Dioxide ... and Verification (Co2 Capture Project). Elsevier Science, 2005.

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30

(Editor), David Thomas, e Sally Benson (Editor), eds. Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO² Capture Project: Vol 1 - Capture and Separation of Carbon Dioxide ... and Verification (Co2 Capture Project). Elsevier Science, 2005.

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31

Aveyard, Bob. Surfactants. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198828600.001.0001.

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Characteristically, surfactants in aqueous solution adsorb at interfaces and form aggregates (micelles of various shapes and sizes, microemulsion droplets, and lyotropic liquid crystalline phases). This book is about the behaviour of surfactants in solution, at interfaces, and in colloidal dispersions. Adsorption at liquid/fluid and solid/liquid interfaces, and ways of characterizing the adsorbed surfactant films, are explained. Surfactant aggregation in systems containing only an aqueous phase and in systems with comparable volumes of water and nonpolar oil are each considered. In the latter case, the surfactant distribution between oil and water and the behaviour of the resulting Winsor systems are central to surfactant science and to an understanding of the formation of emulsions and microemulsions. Surfactant layers on particle or droplet surfaces can confer stability on dispersions including emulsions, foams, and particulate dispersions. The stability is dependent on the surface forces between droplet or particle surfaces and the way in which they change with particle separation. Surface forces are also implicated in wetting processes and thin liquid film formation and stability. The rheology of adsorbed films on liquids and of bulk colloidal dispersions is covered in two chapters. Like surfactant molecules, small solid particles can adsorb at liquid/fluid interfaces and the final two chapters focus on particle adsorption, the behaviour of adsorbed particle films and the stabilization of Pickering emulsions.
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32

Cates, M. Complex fluids: the physics of emulsions. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198789352.003.0010.

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These lectures start with the mean field theory for a symmetric binary fluid mixture, addressing interfacial tension, the stress tensor, and the equations of motion (Model H). We then consider the phase separation kinetics of such a mixture: coalescence, Ostwald ripening, its prevention by trapped species, coarsening of bicontinuous states, and the role of shear flow. The third topic addressed is the stabilization of emulsions by using surfactants to reduce or even eliminate the interfacial tension between phases; the physics of bending energy, which becomes relevant in the latter case, is then presented briefly. The final topic is the creation of long-lived metastable emulsions by adsorption of colloidal particles or nanoparticles at the fluid–fluid interface; alongside spherical droplets, these methods can be used to create a range of unconventional structures with potentially interesting properties that are only now being explored.
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