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Activated Carbon Compendium
1st Edition - November 29, 2001
Author: H. Marsh
Hardback ISBN:
9 7 8 - 0 - 0 8 - 0 4 4 0 3 0 - 9
Activated Carbon Compendium provides a critical in-depth analysis of recent research into activated carbons, focussing on their wide-ranging applications, and the complexity and… Read more
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Activated Carbon Compendium provides a critical in-depth analysis of recent research into activated carbons, focussing on their wide-ranging applications, and the complexity and flexibility in their manufacture and use. Professor Harry Marsh has selected and reviewed 27 key papers originally published in Carbon over the last five years. The compendium represents an indispensable review of key work in the area.Areas include: The Activation Process, Modifications to Porosity, Properties of Activated carbons, Applications, Theoretical.
For carbon and materials scientists, students and researchers involved in the field of activated carbons, who want a summary of the key advances in the field over the last five years.
Chapter headings. Foreword. The Activation Process Production of micro- and mesoporous activated carbon from paper mill sludge. I. Effect of zinc chloride activation
(N.R. Khalili et al.).
Preparation of activated carbons from bituminous coals with CO2 activation - influence of coal oxidation (H. Teng et al.).
Adsorbents for methane storage made by phosphoric acid activation of peach pits (J.A.F. MacDonald, D.F. Quinn).
Preparation of activated carbon from bituminous coal with phosphoric acid activation
(H. Teng et al.).
Development of porosity in combined phosphoric acid-carbon dioxide activation (M. Molina-Sabio et al.).
Carbon honeycomb structures for adsorption applications
(K.P. Gadkaree).
Modifications to Porosity.
Coating of activated carbon with silicon carbide by chemical vapour deposition (R. Moene et al.).
Effects of acid treatments on the pore and surface properties of Ni catalyst supported on activated carbon (S. Wang, G.Q. Lu).
Change of porous structure and surface state of charcoal as a result of coating with thin
carbon layer (A. Oya et al.).
Properties of Activated Carbons.
Characterizing the ignition process of activated carbon (Y. Suzin et al.).
Carbon structure and porosity of carbonaceous adsorbents in relation to their adsorption properties (F. Haghseresht et al.).
On surface of micropores and fractal dimension of activated carbon determined on the basis of adsorption and SAXS investigations (R. Diduszko et al.).
Applications.
Activated carbon for gas separation and storage
(S. Sircar et al.).
Responding to changing conditions: how powdered activated carbon systems can provide the operational flexibility necessary to treat contaminated groundwater and industrial wastes
(J.A. Meidl).
Vapor adsorption on coal- and wood-based chemically activated carbons. Part I. Surface oxidation states and adsorption of H2O
(W.H. Lee, P.J. Reucroft).
Vapor adsorption on coal- and wood-based chemically activated carbons. Part II. Adsorption of organic vapors
(W.H. Lee, P.J. Reucroft).
Vapor adsorption on coal- and wood-based chemically activated carbons. Part III. NH3 and H2S adsorption in the low relative pressure range
(W.H. Lee, P.J. Reucroft).
Removal of SOX and NOX over activated carbon fibers
(I. Mochida et al.).
Theoretical.
Changes in PSD of progressively activated carbons obtained from their supercritical methane isotherms
(K.A. Sosin et al.).
Theoretical study of the performance of activated carbon in the presence of binary vapor mixtures
(N. Vahdat).
Application of the mono/multilayer and adsorption potential theories to coal methane adsorption isotherms at elevated temperature and pressure
(C.R. Clarkson et al.).
Applicability of adsorption equations to argon, nitrogen and volatile organic compound adsorption on to activated carbon
(P.D. Paulsen et al.).
A new model for the description of adsorption kinetics in heterogeneous activated carbon
(D.D. Do, K. Wang).
Dynamics of natural gas adsorption storage systems employing activated carbon
(J.P. Barbosa Mota et al.).
Radial distribution function analysis of the structure of activated carbons (A. Burian et al.).
Determination of fractal dimensions of solid carbons from gas and liquid phase adsorption isotherms
(N.R. Khalili et al.).
Adsorption dynamics of carbon dioxide on a carbon molecular sieve 5A (S.W. Rutherford, D.D. Do).
Author index.
(N.R. Khalili et al.).
Preparation of activated carbons from bituminous coals with CO2 activation - influence of coal oxidation (H. Teng et al.).
Adsorbents for methane storage made by phosphoric acid activation of peach pits (J.A.F. MacDonald, D.F. Quinn).
Preparation of activated carbon from bituminous coal with phosphoric acid activation
(H. Teng et al.).
Development of porosity in combined phosphoric acid-carbon dioxide activation (M. Molina-Sabio et al.).
Carbon honeycomb structures for adsorption applications
(K.P. Gadkaree).
Modifications to Porosity.
Coating of activated carbon with silicon carbide by chemical vapour deposition (R. Moene et al.).
Effects of acid treatments on the pore and surface properties of Ni catalyst supported on activated carbon (S. Wang, G.Q. Lu).
Change of porous structure and surface state of charcoal as a result of coating with thin
carbon layer (A. Oya et al.).
Properties of Activated Carbons.
Characterizing the ignition process of activated carbon (Y. Suzin et al.).
Carbon structure and porosity of carbonaceous adsorbents in relation to their adsorption properties (F. Haghseresht et al.).
On surface of micropores and fractal dimension of activated carbon determined on the basis of adsorption and SAXS investigations (R. Diduszko et al.).
Applications.
Activated carbon for gas separation and storage
(S. Sircar et al.).
Responding to changing conditions: how powdered activated carbon systems can provide the operational flexibility necessary to treat contaminated groundwater and industrial wastes
(J.A. Meidl).
Vapor adsorption on coal- and wood-based chemically activated carbons. Part I. Surface oxidation states and adsorption of H2O
(W.H. Lee, P.J. Reucroft).
Vapor adsorption on coal- and wood-based chemically activated carbons. Part II. Adsorption of organic vapors
(W.H. Lee, P.J. Reucroft).
Vapor adsorption on coal- and wood-based chemically activated carbons. Part III. NH3 and H2S adsorption in the low relative pressure range
(W.H. Lee, P.J. Reucroft).
Removal of SOX and NOX over activated carbon fibers
(I. Mochida et al.).
Theoretical.
Changes in PSD of progressively activated carbons obtained from their supercritical methane isotherms
(K.A. Sosin et al.).
Theoretical study of the performance of activated carbon in the presence of binary vapor mixtures
(N. Vahdat).
Application of the mono/multilayer and adsorption potential theories to coal methane adsorption isotherms at elevated temperature and pressure
(C.R. Clarkson et al.).
Applicability of adsorption equations to argon, nitrogen and volatile organic compound adsorption on to activated carbon
(P.D. Paulsen et al.).
A new model for the description of adsorption kinetics in heterogeneous activated carbon
(D.D. Do, K. Wang).
Dynamics of natural gas adsorption storage systems employing activated carbon
(J.P. Barbosa Mota et al.).
Radial distribution function analysis of the structure of activated carbons (A. Burian et al.).
Determination of fractal dimensions of solid carbons from gas and liquid phase adsorption isotherms
(N.R. Khalili et al.).
Adsorption dynamics of carbon dioxide on a carbon molecular sieve 5A (S.W. Rutherford, D.D. Do).
Author index.
- No. of pages: 320
- Language: English
- Published: November 29, 2001
- Imprint: Elsevier Science
- Hardback ISBN: 9780080440309
HM
H. Marsh
Affiliations and expertise
100 Dolphin Quays, Clive St, North Shields, NE29 6HJ, UK