Green Chemistry: An Introductory TextThe challenge for today's new chemistry graduates is to meet society's demand for new products that have increased benefits, but without detrimental effects on the environment. Green Chemistry: An Introductory Text outlines the basic concepts of the subject in simple language, looking at the role of catalysts and solvents, waste minimisation, feedstocks, green metrics and the design of safer, more efficient, processes. The inclusion of industrially relevant examples throughout demonstrates the importance of green chemistry in many industry sectors. Intended primarily for use by students and lecturers, this book will also appeal to industrial chemists, engineers, managers or anyone wishing to know more about green chemistry. |
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Contents
II | 1 |
III | 2 |
IV | 6 |
V | 8 |
VI | 13 |
VII | 16 |
VIII | 20 |
X | 21 |
XLII | 161 |
XLIII | 163 |
XLIV | 164 |
XLVI | 166 |
XLVII | 167 |
XLVIII | 184 |
XLIX | 204 |
L | 207 |
XI | 22 |
XII | 24 |
XIII | 28 |
XIV | 31 |
XV | 38 |
XVI | 45 |
XVII | 49 |
XVIII | 57 |
XIX | 58 |
XX | 59 |
XXI | 64 |
XXII | 69 |
XXIII | 73 |
XXIV | 78 |
XXV | 80 |
XXVI | 82 |
XXVII | 83 |
XXVIII | 84 |
XXIX | 88 |
XXX | 108 |
XXXI | 119 |
XXXII | 124 |
XXXIII | 127 |
XXXIV | 128 |
XXXVI | 129 |
XXXVII | 130 |
XXXVIII | 132 |
XXXIX | 135 |
XL | 149 |
XLI | 154 |
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Common terms and phrases
achieved active adipic acid alkenes amounts applications aqueous atom economy batch reactors benign biodegradable biomass bulk chemical by-products carbon carried catalyst chemical industry chloride CO₂ CO₂H commercial complex cost degradation developed Diels-Alder reaction discussed distillation dyes economic effect efficient effluent electrochemical emissions energy environmental enzymes example fatty acid Figure fuel cell Green Chemistry H₂O hazardous heat hence heterogeneous highly hydrogen hydrolysis hydroxide impact improved increasing involves ionic liquids Lewis acid manufacture materials metal metallocene methanol methods microwave minimization molecular weight molecules OH OH operating organic solvents overall oxidation oxygen pharmaceutical phase phenol phosgene phosphine photochemical plants polyethene polymer polymerization pore potential pressure problem reactants reagents recycling reduced relatively renewable resources resulting route scCO₂ Scheme selectivity significant sodium soluble substrate sulfonation sulfuric acid supercritical supercritical fluids surface surfactants synthesis synthetic temperature tonnes toxic Whilst yield zeolites
References to this book
Green Separation Processes: Fundamentals and Applications Carlos A. M. Afonso,Joćo Pedro G. Crespo No preview available - 2006 |