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200 1 $aPrevenzione della corruzione e trasparenza nelle amministrazioni pubbliche e negli altri soggetti pubblici e privati individuati dalla disciplina vigente$fValerio Sarcone, Marco Tartaglione
210   $aAcquaviva$cSapidata$d2015-
215   $a2 v.
307   $a1.331 p. .- 24 cm
327 0 $a1. Le misure di prevenzione e contrasto alla corruzione. Gli adempimenti in materia di trasparenza. Poteri e competenze dell'autoritā nazionale anticorruzione. Presupposti giuridici e indicazioni operative.
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200 10$aSulfuric acid manufacture$b[electronic resource]$eanalysis, control, and optimization /$fby Matthew J. King, William G. Davenport, Michael S. Moats
205   $a2nd ed.
210   $aSan Diego, Calif. $cElsevier$dc2013
215   $a1 online resource (464 p.)
300   $aDescription based upon print version of record.
311   $a0-08-098220-4 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Sulfuric Acid Manufacture: Analysis, Control, and Optimization; Copyright; Contents; Preface; Chapter 1: Overview; 1.1. Catalytic oxidation of SO2 to SO3; 1.1.1. Catalyst; 1.1.2. Feed gas drying; 1.2. H2SO4 production; 1.3. Industrial flowsheet; 1.4. Sulfur burning; 1.5. Metallurgical offgas; 1.6. Spent acid regeneration; 1.7. Sulfuric acid product; 1.8. Recent developments; 1.9. Alternative processes; 1.9.1. Wet gas sulfuric acid; 1.9.2. SulfacidŽ; 1.10. Summary; References; Suggested reading; Chapter 2: Production and consumption; 2.1. Uses; 2.2. Acid plant locations
327   $a2.3. Price2.4. Summary; References; Suggested reading; Chapter 3: Sulfur burning; 3.1. Objectives; 3.2. Sulfur; 3.2.1. Viscosity; 3.3. Molten sulfur delivery; 3.3.1. Sulfur pumps and pipes; 3.4. Sulfur atomizers and sulfur burning furnaces; 3.4.1. Sulfur atomizers; 3.4.2. Dried air supply; 3.4.3. Main blower; 3.4.4. Furnace; 3.5. Product gas; 3.5.1. Gas destination; 3.5.2. Composition and temperature control; 3.5.3. Target gas composition; 3.5.4. Target gas temperature; 3.6. Heat recovery boiler; 3.7. Summary; References; Suggested reading; Chapter 4: Metallurgical offgas cooling and cleaning
327   $a4.1. Initial and final SO2 concentrations4.2. Initial and final dust concentrations; 4.3. Offgas cooling and heat recovery; 4.4. Electrostatic collection of dust; 4.5. Water scrubbing (Tables4.5 and 4.6); 4.5.1. Gas temperature after scrubbing; 4.5.2. Impure scrubbing liquid; 4.5.3. Mercury removal (Outotec, 2011;  Schlesinger et al., 2011); 4.5.4. Fluorine removal; 4.6. H2O(g) removal from scrubber exit gas (Tables4.5 and 4.6); 4.7. Summary; References; Suggested reading; Chapter 5: Regeneration of spent sulfuric acid; 5.1. Spent acid compositions; 5.2. Spent acid handling
327   $a5.3. Decomposition5.3.1. Other reactions; 5.3.2. Spent acid spraying; 5.4. Decomposition furnace product; 5.5. Optimum decomposition furnace operating conditions; 5.5.1. Temperature effects; 5.5.2. O2 content effects; 5.6. Preparation of offgas for SO2 oxidation and H2SO4 making; 5.6.1. Gas composition; 5.7. Summary; References; Suggested Reading; Chapter 6: Dehydrating air and gases with strong sulfuric acid; 6.1. Chapter objectives; 6.1.1. H2O(g) before gas dehydration; 6.2. Dehydration with strong sulfuric acid; 6.2.1. H2O(g) concentration after gas dehydration
327   $a6.2.2. Choice of dehydration acid strength6.3. Dehydration reaction mechanism; 6.3.1. Maximizing dehydration rate; 6.4. Residence times; 6.5. Recent advances; 6.6. Summary; References; Chapter 7: Catalytic oxidation of SO2 to SO3*; 7.1. Objectives; 7.2. Industrial SO2 oxidation; 7.2.1. Source of O2; 7.3. Catalyst necessity; 7.3.1. Temperature effect; 7.4. SO2 oxidation ``heatup ? ? path (Chapter 11); 7.5. Industrial multicatalyst bed SO2 oxidation (Tables 7.2-7.7); 7.5.1. Overall multicatalyst bed results; 7.5.2. Double contact acidmaking; 7.6. Industrial operation (Table7.2); 7.6.1. Startup
327   $a7.6.2. Steady operation
330   $aBy some measure the most widely produced chemical in the world today, sulfuric acid has an extraordinary range of modern uses, including phosphate fertilizer production, explosives, glue, wood preservative and lead-acid batteries. An exceptionally corrosive and dangerous acid, production of sulfuric acid requires stringent adherence to environmental regulatory guidance within cost-efficient standards of production.   This work provides an experience-based review of how sulfuric acid plants work, how they should be designed and how they should be operated for maximum sulfur capture and
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200 10$aDeveloping High Performance Leaders$b[electronic resource] $eA Behavioral Science Guide for the Knowledge of Work Culture
210   $aHoboken $cTaylor and Francis$d2012
215   $a1 online resource (353 p.)
300   $aDescription based upon print version of record.
311   $a0-415-50069-9 
327   $aCover; Title; Copyright; Dedication; Contents; List of exhibits; Foreword; Preface; Acknowledgments; About the author; Prologue: the organization as an energy exchange; 1 High performance leaders for a knowledge culture; 2 Leading in a high performance work environment; 3 Increasing performance at work; 4 Improving leadership communication skills; 5 Influencing work culture at home and abroad; 6 Enhancing organizational and team relations; 7 Leading in the management of change; 8 Developing people through learning; 9 Energizing personnel through meetings
327   $a10 Future of leadership in the twenty-first centuryEpilogue: the learning leader; Afterword; Glossary of abbreviations; Further reading; Notes; Index
330   $aEvery leader has human resource management and development responsibilities. Using a behavioural science perspective, Developing High Performance Leaders will enable leaders throughout the various business sectors to increase the yield on their organization's human capital and help their team members achieve their goals. In this instructive book, Philip Harris centres his teaching around five key aspects of the leadership process: human behaviour and performancecommunicationscultural influencesorganizational relationschange management
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606   $aLeadership
606   $aPersonnel management
606   $aEmployee motivation
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