05181nam 22006134a 450 991014320080332120170815113924.01-280-36711-397866103671150-470-23117-30-471-46241-10-471-44409-X(CKB)111087027119310(EBL)159853(OCoLC)52911551(SSID)ssj0000097531(PQKBManifestationID)11121612(PQKBTitleCode)TC0000097531(PQKBWorkID)10120801(PQKB)11432810(MiAaPQ)EBC159853(EXLCZ)9911108702711931020030226d2003 uy 0engur|n|---|||||txtccrAdsorbents[electronic resource] fundamentals and applications /Ralph T. YangHoboken, N.J. Wiley-Intersciencec20031 online resource (424 p.)Description based upon print version of record.0-471-29741-0 Includes bibliographical references and indexes.ADSORBENTS; CONTENTS; Preface; 1 Introductory Remarks; 1.1. Equilibrium Separation and Kinetic Separation; 1.2. Commercial Sorbents and Applications; 1.3. New Sorbents and Future Applications; References; 2 Fundamental Factors for Designing Adsorbent; 2.1. Potential Energies for Adsorption; 2.2. Heat of Adsorption; 2.3. Effects of Adsorbate Properties on Adsorption: Polarizability (a), Dipole Moment (m), and Quadrupole Moment (Q); 2.4. Basic Considerations for Sorbent Design; 2.4.1. Polarizability (a), Electronic Charge (q), and van der Waals Radius (r); 2.4.2. Pore Size and GeometryReferences3 Sorbent Selection: Equilibrium Isotherms, Diffusion, Cyclic Processes, and Sorbent Selection Criteria; 3.1. Equilibrium Isotherms and Diffusion; 3.1.1. Langmuir Isotherms for Single and Mixed Gases; 3.1.2. Potential Theory Isotherms for Single and Mixed Gases; 3.1.3. Ideal Adsorbed Solution Theory for Mixture and Similarities with Langmuir and Potential Theories; 3.1.4. Diffusion in Micropores: Concentration Dependence and Predicting Mixed Diffusivities; 3.2. Temperature Swing Adsorption and Pressure Swing Adsorption; 3.2.1. Temperature Swing Adsorption3.2.2. Pressure Swing Adsorption3.3. Simple Criteria for Sorbent Selection; References; 4 Pore Size Distribution; 4.1. The Kelvin Equation; 4.2. Horváth-Kawazoe Approach; 4.2.1. The Original HK Slit-Shaped Pore Model; 4.2.2. Modified HK Model for Slit-Shaped Pores; 4.2.3. Modified Model for Cylindrical Pores; 4.3. The Integral Equation Approach; References; 5 Activated Carbon; 5.1. Formation and Manufacture of Activated Carbon; 5.2. Pore Structure and Standard Tests for Activated Carbon; 5.3. General Adsorption Properties; 5.4. Surface Chemistry and Its Effects on Adsorption5.4.1. Effects of Surface Functionalities on Gas Adsorption5.5. Adsorption from Solution and Effects of Surface Functionalities; 5.5.1. Adsorption from Dilute Solution (Particularly Phenols); 5.5.2. Effects of Surface Functionalities on Adsorption; 5.6. Activated Carbon Fibers; 5.6.1. Adsorption Isotherms; 5.7. Carbon Molecular Sieves; 5.7.1. Carbon Deposition Step; 5.7.2. Kinetic Separation: Isotherms and Diffusivities; 5.7.3. Carbon Molecular Sieve Membranes; References; 6 Silica Gel, MCM, and Activated Alumina; 6.1. Silica Gels: Preparation and General Properties6.2. Surface Chemistry of Silicas: The Silanol Groups6.3. The Silanol Number (OH/nm(-1)); 6.4. MCM-41; 6.5. Chemical Modification of Silicas and Molecular Imprinting; 6.6. Activated Alumina; 6.7. Activated Alumina as Special Sorbents; References; 7 Zeolites and Molecular Sieves; 7.1. Zeolite Types A, X, and Y; 7.1.1. Structure and Cation Sites of Type A Zeolite; 7.1.2. Structure and Cation Sites of Types X and Y Zeolites; 7.1.3. Examples of Molecular Sieving; 7.2. Zeolites and Molecular Sieves: Synthesis and Molecular Sieving Properties; 7.2.1. Synthesis of Zeolites A, X, and Y7.2.2. Organic Additives (Templates) in Synthesis of Zeolites and Molecular SievesAdsorption promises to play an integral role in several future energy and environmental technologies, including hydrogen storage, CO removal for fuel cell technology, desulfurization of transportation fuels, and technologies for meeting higher standards on air and water pollutants. Ralph Yang's Adsorbents provides a single and comprehensive source of knowledge for all commercial and new sorbent materials, presenting the fundamental principles for their syntheses, their adsorption properties, and their present and potential applications for separation and purification. Chapter topics in this auAdsorptionElectronic books.Adsorption.660.284235660/.284235Yang R. T895619MiAaPQMiAaPQMiAaPQBOOK9910143200803321Adsorbents2000750UNINA09584nas# 22005051i 450 UON0000651420231205101913.7440567-725420020107a1960 |0itac50 baengJP|||| 1||||aA|||||||||Acta AsiaticaBulletin of the Institute of Eastern CultureNo. 1 (1960)- TokyoThe Toho Gakkai1960- v.26 cmAnnuale; semestrale dal 1963. - I fascicoli 1963-1964 sono indicati come volumi.ex inv yam 1207IT-UONSI A Per10/1966ex inv yam 1283IT-UONSI A Per10/1967ex inv yam 1207IT-UONSI A Per10/1968ex inv yam 1207IT-UONSI A Per10/1969EX INV MR 83761IT-UONSI A Per10/1961EX INV MR 83761IT-UONSI A Per10/1962EX INV 83761IT-UONSI A Per10/1963N. 108-109IT-UONSI A Per10/2015No. 106-107IT-UONSI A Per10/2014NN. 112-113IT-UONSI A Per10/2017Nn. 114-115IT-UONSI A Per10/2018Nos. 116-117.IT-UONSI A Per10/2019Nos. 128-129IT-UONSI A Per10/2025Esemplare in fotocopiaIT-UONSI A Per10/1972JPTōkyōUONL000031JPGIAPPONE - PERIODICIASCAMBIOPeriodici - ScambioAPERIODICI ATTIVIAInstitute of Eastern CultureTokyoUONV008242Toho GakkaiUONV246927650Toho Gakkai <Tokyo>Institute of Eastern Culture <Tokyo>UONV005543ITSOL20260206RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEO E ARCHIVIO STORICOUONSI1(1960)-129(2025)-Per 10 S 1 (Corr. 6°P.) fino al 2008; poi in Biblioteca ;UON00006514SIBA - SISTEMA BIBLIOTECARIO DI ATENEO E ARCHIVIO STORICOSI 1(1960)-129(2025)-SI A Per 10 2012 SI 295 7 2012 SI A Per 10 1966 SI 1351 7 1966 ex inv yam 1207BuonoSI A Per 10 1967 SI 1352 7 1967 ex inv yam 1283BuonoSI A Per 10 1968 SI 1353 7 1968 ex inv yam 1207BuonoSI A Per 10 1969 SI 1354 7 1969 ex inv yam 1207BuonoSI A Per 10 1970 SI 1355 7 1970 BuonoSI A Per 10 1971 SI 1356 7 1971 BuonoSI A Per 10 1973 SI 1357 7 1973 BuonoSI A Per 10 1974 SI 1358 7 1974 BuonoSI A Per 10 1975 SI 1359 7 1975 BuonoSI A Per 10 1984 SI 1360 7 1984 BuonoSI A Per 10 1985 SI 1361 7 1985 BuonoSI A Per 10 2003 SI 1362 7 2003 BuonoSI A Per 10 1961 SI 1363 7 1961 EX INV MR 83761BuonoSI A Per 10 1962 SI 1364 7 1962 EX INV MR 83761BuonoSI A Per 10 1963 SI 1365 7 1963 EX INV 83761BuonoSI A Per 10 1965 SI 1366 7 1965 BuonoSI A Per 10 2013 SI 5331 7 2013 BuonoSI A Per 10 2015 SI 13392 7 2015 N. 108-109SI A Per 10 2014 SI 15018 7 2014 No. 106-107BuonoSI A Per 10 2016 SI 17362 7 2016 SI A Per 10 2017 SI 22251 7 2017 NN. 112-113BuonoSI A Per 10 2018 SI 25805 7 2018 Nn. 114-115SI A Per 10 2019 SI 29126 7 2019 Nos. 116-117.SI A Per 10 2020 SI 35785 7 2020 SI A Per 10 2021 SI 37115 7 2021 SI A Per 10 2022 SI 39140 7 2022 SI A Per 10 2023 SI 42354 7 2023 SI A Per 10 2024 SI 52228 7 2024 SI A Per 10 2025 SI 52782 7 2025 Nos. 128-129SI A Per 10 1960 SI MR 83761 7 1960 BuonoSI A Per 10 1978 SI SA 5222 7 1978 BuonoSI A Per 10 1979 SI SA 13653 7 1979 BuonoSI A Per 10 1983 SI SA 34930 7 1983 BuonoSI A Per 10 1986 SI SA 51181 7 1986 BuonoSI A Per 10 1987 SI SA 53034 7 1987 BuonoSI A Per 10 1988 SI SA 58812 7 1988 BuonoSI A Per 10 1989 SI SA 63776 7 1989 BuonoSI A Per 10 1990 SI SA 66977 7 1990 BuonoSI A Per 10 1991 SI SA 68775 7 1991 BuonoSI A Per 10 1992 SI SA 73277 7 1992 SI A Per 10 1993 SI SA 75486 7 1993 SI A Per 10 1994 SI SA 79134 7 1994 SI A Per 10 1995 SI SA 81094 7 1995 BuonoSI A Per 10 1996 SI SA 85032 7 1996 SI A Per 10 1997 SI SA 87171 7 1997 SI A Per 10 1998 SI SA 88742 7 1998 SI A Per 10 1999 SI SA 91347 7 1999 SI A Per 10 2000 SI SA 93310 7 2000 SI A Per 10 2001 SI SA 97671 7 2001 SI A Per 10 2002 SI SA 104986 7 2002 SI A Per 10 2004 SI SA 110731 7 2004 SI A Per 10 2005 SI SA 113636 7 2005 SI A Per 10 2006 SI SA 116762 7 2006 SI A Per 10 1972 SI SA 119181 7 1972 Esemplare in fotocopiaSI A Per 10 2007 SI SA 120352 7 2007 SI A Per 10 2008 SI SA 124434 7 2008 SI A Per 10 2009 SI SA 126008 7 2009 SI A Per 10 2010 SI SA 127102 7 2010 SI A Per 10 2011 SI SA 129864 7 2011 SI A Per 10 1964 SI YAM83761 7 1964 BuonoActa Asiatica1321974UNIOR