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200 10$aWechseljahre Am Arbeitsplatz $eHandlungskonzept Für ein Innovatives Betriebliches Gesundheitsmanagement
205   $a1st ed.
210  1$aBielefeld :$ctranscript Verlag,$d2025.
210  4$d©2025.
215   $a1 online resource (0 pages)
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327   $tFrontmatter -- $tInhalt -- $tAbbildungen -- $tTabellen -- $tKapitel 1: Einleitung -- $tTeil A: Wechseljahre und Arbeit, ein Überblick über die Literatur -- $tEinleitung -- $tKapitel 2: Einführung in die Wechseljahre. Definition und Grundlagen -- $tKapitel 3: Wechselseitige Beziehung zwischen Wechseljahren und Arbeit -- $tKapitel 4: Erkenntnisse aus dem Betrieblichen Gesundheitsmanagement -- $tTeil B: Die MenoMATRIX -- $tEinleitung -- $tKapitel 5: Zusammensetzung der MenoMATRIX -- $tKapitel 6: Physische Ebene der MenoMATRIX -- $tKapitel 7: Psychische Ebene der MenoMATRIX -- $tKapitel 8: Sozio-affektive Ebene der MenoMATRIX -- $tTeil C: Analyse der Wechseljahre am Arbeitsplatz unter Verwendung der MenoMATRIX -- $tEinleitung -- $tKapitel 9: Auswertung deutschlandweiter Umfragen entlang der MenoMATRIX -- $tKapitel 10: Erkenntnisse von Expertinnen aus der Praxis in Deutschland -- $tKapitel 11: MenoMAPP ? Vier-Schritte zur Umsetzung eines innovativen betrieblichen Gesundheitsmanagements zur Unterstützung von Frauen in den Wechseljahren -- $tKapitel 12: Auf dem Weg zu einer neuen Erzählung der Wechseljahre für innovative, ganzheitliche Unterstützung am Arbeitsplatz -- $tLiteraturverzeichnis
330   $aDas Thema Wechseljahre am Arbeitsplatz wird in Deutschland noch häufig tabuisiert. Jennifer Chan de Avila und Sabine Nitsche schaffen Abhilfe und bieten neben einem theoretischen Denkmodell auch ein konkretes Handlungskonzept für ein innovatives betriebliches Gesundheitsmanagement. Basierend auf umfangreichen Recherchen und Expert*inneninterviews betrachten sie die physische, psychische und sozio-affektive Ebene der Menopause, ermöglichen eine Überprüfung bzw. Ergänzung bestehender BGM-Maßnahmen am Arbeitsplatz und geben darüber hinaus Tipps zur Gestaltung eines inklusiveren, frauengerechteren und unterstützenden Arbeitsumfeldes.
606   $aSOCIAL SCIENCE / Sociology / General$2bisacsh
610   $aArbeit.
610   $aArbeits- und Industriesoziologie.
610   $aArbeitsplatz.
610   $aBetrieb.
610   $aBetriebliches Gesundheitsmanagement.
610   $aDeutschland.
610   $aGender Studies.
610   $aGender.
610   $aGermany.
610   $aGeschlecht.
610   $aMenopause.
610   $aOccupational Health Management.
610   $aOrganisational Health.
610   $aOrganisationale Gesundheit.
610   $aSociology of Work and Industry.
610   $aWechseljahre.
610   $aWork.
610   $aWorkplace.
615  7$aSOCIAL SCIENCE / Sociology / General.
700   $aChan de Avila$b Jennifer$01559135
701   $aNitsche$b Sabine$01800770
701   $aArndt$b Maria$01782233
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200 00$aBiomass gasification $echemistry, processes, and applications /$fJean-Pierre Badeau and Albrecht Levi, editors
205   $a1st ed.
210   $aHauppauge, N.Y. $cNova Science Publishers$dc2009
215   $a1 online resource (490 p.)
225 0 $aRenewable energy. Research, development and policies series
300   $aDescription based upon print version of record.
311 08$a1-60741-461-9 
320   $aIncludes bibliographical references and index.
327   $aIntro -- BIOMASS GASIFICATION: CHEMISTRY, PROCESSES AND APPLICATIONS -- BIOMASS GASIFICATION: CHEMISTRY, PROCESSES AND APPLICATIONS -- CONTENTS -- PREFACE -- A GLOBAL PERSPECTIVE ON BIOMASS GASIFICATION -- ABSTRACT -- INTRODUCTION: PRESENT AND FUTURE FOR BIOMASS FUELS -- THE PROSPECTS FOR BIOMASS GASIFICATION -- DISCUSSION -- ACKNOWLEDGMENTS -- REFERENCES -- INNOVATION ON BIOMASS WASTES UTILIZATION THROUGH GASIFICATION AND CO-GASIFICATION. STAGE OF DEPLOYMENT AND NEEDS FOR FURTHER R&amp -- D -- ABSTRACT -- 1. INTRODUCTION -- 2. BIOMASS GASIFICATION FUNDAMENTALS AND MAIN REACTIONS -- 3. EFFECT OF BIOMASS WASTES CHARACTERISTICS ON FUEL  GAS COMPOSITION -- 3.1. Effect on Hydrocarbons Content -- 3.2. Effect on Ammonia Formation -- 3.3. Effect on Sulfides Formation -- 3.4. Effect on Chlorides Formation -- 4. EFFECT OF EXPERIMENTAL CONDITIONS ON GASIFICATION GAS COMPONENTS -- 4.1. Effect of Temperature -- 4.2. Effect of Oxygen Flow Rate -- 4.3. Effect of Adding a Catalyst or Sorbent -- 4.3.1. Gas Main Components -- Use of Dolomite as Catalyst -- Use of Olivine as Catalyst -- Use of Other Minerals as Catalysts -- Use of Nickel Based Catalysts -- Use of Other Catalysts -- 4.3.2. NH3  Reduction -- 4.3.3. H2S Removal -- 4.3.4. HCl Destruction -- 5. PROCESSES FOR REDUCING ASH AGGLOMERATION -- 6. HOT SYNGAS CLEANING PROCESSES -- 6.1. Particulates Removal Technologies -- 6.2. Sulfur and Halogens Based Compounds Abatement -- 6.3. Tar Abatement -- 6.4. Other Processes for Improving Syngas Properties -- 7. NEW SYNGAS UTILIZATIONS -- 7.1. Hydrogen Production -- 7.2. Fischer-Tropsch Synthesis -- 7.3. Synthesis of Methanol and Dimethyl Ether -- 7.4. Production of Bio-Based Products from Syngas Fermentation -- 7.5. Production of Heat and Power -- 8. MAIN BIOMASS GASIFICATION BARRIERS AND R&amp -- D NEEDS -- REFERENCES.
327   $aWILLOW BIOMASS GASIFICATION  FEASIBILITY STUDY -- ABSTRACT -- 1. INTRODUCTION -- 2. GASIFICATION SYSTEM -- 3. FEEDSTOCK CHARACTERIZATION, PERFORMANCE ANALYSES, AND COST ESTIMATIONS -- 4. FEASIBILITY AND IMPLEMENTATION ISSUES -- 5. CONCLUSION -- REFERENCES -- BIOWASTES-TO-BIOFUELS  ROUTES VIA GASIFICATION -- ABSTRACT -- NOMENCLATURE -- Greek symbols -- Acronyms -- 1. INTRODUCTION -- 1.1. Current Scenario -- 1.2. Biomass and Wastes as Key Renewable Alternatives -- 1.3. Challenges for Biomass Energy Implementation -- 1.4. Aim of the Chapter -- 1.5. Outline of the Chapter -- 2. BIOMASS AS A SUSTAINABLE ENERGY SOURCE -- 2.1. Global Availability and Potential of Biomass -- 2.2. Biomass Supply-Costs -- 2.3. Case study: Biomass from Friesland Province -- 3. GASIFICATION TECHNOLOGY FOR BIOMASS CONVERSION -- 3.1. Gasification Reactions -- 3.2. Types of Gasifiers -- 3.3. Mode of Operation  The syngas compositions as well as -- 3.3.1. Gasifying Medium -- 3.3.2. Heat Transfer -- 3.4. Gasification Modeling in Aspen Plus -- 3.4.1. Syngas Composition -- 3.4.2. Syngas Calorific Value -- 3.4.3. Gasification Efficiency -- 3.4.4. Effect of Temperature and Gasifying Agent -- 3.4.5. Effect of Pressure and Gasifying Agent -- 3.5. State-of-the-Art of Gasification -- 4. TECHNOLOGY SELECTION FOR BIOFUELS PRODUCTION -- 4.1. System Boundaries -- 4.2. Pre-Treatment -- 4.2.1. Reception -- 4.2.2. Storage -- 4.2.3. Conveying Systems -- 4.2.4. Size Reduction -- 4.2.5.Drying -- 4.2.6. Densification -- 4.2.7. Feeding Systems -- 4.3. Cleaning Stages -- 4.4. Heat Recovery -- 4.5. Synthetic Natural Gas (SNG) -- 4.6. Methanol -- 4.7. Fischer-Tropsch -- 4.8. Hydrogen -- 4.9. Heat and Electricity -- 5. BIOFUELS APPLICATION -- 5.1. Electricity Generation -- 5.1.1. Combined Cycles IGCC -- 5.2. Heat and/or Steam Generation -- 5.3. Transport Fuels (Synfuels) -- 5.4. Chemicals.
327   $a6. EFFICIENCY EVALUATION OF DIFFERENT BIOFUEL PROCESSES -- 6.1. Mass and Energy Balances -- 6.2. Efficiency -- 6.2.1. Mass Conversion Yields -- 6.2.2. Efficiency Based on HHV and LHV of Biowastes and Biofuels -- 6.2.3. Overall Energy Efficiency -- 6.2.4. Exergetic Efficiency -- 6.2.4.1. Chemical Exergy -- 6.2.4.2. Physical Exergy -- 6.2.4.3. Total Exergy of a Stream -- 6.2.4.4. Exergetic Efficiency -- 6.2.5. Comparison of Different Efficiency Analysis -- 6.2.5.1. Exergy Losses of a Process (Irreversibilities) -- 7. SUSTAINABILITY EVALUATION -- 7.1. Environmental Impact -- 7.1.1. Biomass-to-SNG Evaluation -- 7.1.2. Biomass-to-Methanol Evaluation -- 7.1.3.Biomass-to-Fischer Tropsch Fuels Evaluation -- 7.1.4. Biomass-to-Hydrogen Evaluation -- 7.1.5. Biomass-to-Electricity Evaluation -- 7.2. Economic Analysis -- 7.3. Unidimensional and Multidimensional Accounting Methods -- CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- AUTO-GASIFICATION OF BIOMASS -- ABSTRACT -- NOMENCLATURE -- 1. INTRODUCTION -- 2. BIOMASS - RELIABLE ENERGY SOURCE? -- 3. BIO-RESIDUES - RELIABLE AND RENEWABLE ENERGY SOURCE! -- 4. AUTO-GASIFICATION - A MYTH OR REAL? -- 5. COMPONENTS OF BIOMASS -- 6. COMPOSITION OF BIOMASS -- 7. UNDERSTANDING OF GASIFICATION -- 8. PLAUSIBLE MECHANISM OF AUTO-GASIFICATION -- 9. VARIABLES AFFECTING AUTO GASIFICATION -- 9.1. Materials and Methods -- 9.2. Environment -- 9.3. Flow of Medium -- 9.4. Size and Shape -- 9.5. Structure -- 9.6. Heating Rates -- 9.7. Temperature -- 9.8. Ash -- 10. KINETICS OF AUTO-GASIFICATION -- 10.1. Development of Method -- 10.2. Demonstration of Model -- CONCLUSIONS -- REFERENCES -- BIOMASS GASIFICATION SYSTEMS INTEGRATED WITH FUEL CELLS AND MICROTURBINES -- ABSTRACT -- NOMENCLATURE -- ABBREVIATIONS -- 1. INTRODUCTION -- 2. DISTRIBUTED GENERATION -- 3. USE OF FOREST RESIDUES -- 4. GASIFICATION -- 4.1. Gasification Process.
327   $a4.2. Biomass Gasifier -- 5. FUEL CELLS -- 5.1. Basic Principles -- 5.2. Fuel Cell Electrochemical Model -- 5.3. Biomass and Fuel Cell -- 6. GAS TURBINE -- 6.1. Gas Turbine Model -- 6.2. Gas Turbine Control Configuration -- 6.3. Biomass and Gas Turbine -- 7. FUEL CELL AND GAS TURBINE HYBRID SYSTEM -- 7.1. Configuration of the SOFC-GT Plant -- CONCLUSION -- REFERENCES -- ALLOTHERMAL GASIFICATION:  REVIEW OF RECENT DEVELOPMENTS -- ABSTRACT -- 1. INTRODUCTION -- 2. SYSTEMS BASED ON CIRCULATION OF SOLID HEAT CARRIERS -- 2.1. Battelle/FERCO Gasifier -- 2.2. Fast Internally Circulating Fluidized Bed (FICFB) Gasifier -- 2.3. Staged Gasifier - The Blue Tower -- 2.4. MILENA Gasifier -- 3. SYSTEMS BASED ON HEAT EXCHANGERS -- 3.1. Biomass Heat Pipe Reformer (BioHPR) -- 3.2. PulseEnhanced? Steam Reforming Technology -- CONCLUSION -- REFERENCES -- MODELLING FIXED-BED BIOMASS GASIFIERS:  A REVIEW -- ABSTRACT -- 1. INTRODUCTION -- 2. GASIFIER CONFIGURATION AND OPERATION -- 3. PROCESSES OCCURRING WITHIN GASIFIERS -- 3.1. Drying -- 3.2. Pyrolysis and Cracking -- 3.3. Combustion -- 3.4. Char reduction -- 4. COMMON MODELLING APPROACHES -- 4.1. Equilibrium vs Kinetic Models -- 4.2. Mass and Energy Balance -- Mass Balance -- Energy Balance -- 4.3. Char Models -- 4.4. Summary of Recent Models -- 5. DISCUSSION -- CONCLUSION -- REFERENCES -- UPGRADING OF A BIOMASS GENERATED GAS WITH COMMERCIAL-LIKE AND HOME-MADE CATALYSTS -- ABSTRACT -- 1. INTRODUCTION -- 2. EXPERIMENTAL -- 2.1. Description of the Catalysts -- 2.2. Characterization -- 2.3. Exposure to Gasifier Output Gas -- 2.4. Catalytic Tests -- 3. RESULTS AND DISCUSSION -- 3.1. Characterization Results of the Ni Based Catalysts -- 3.2. Characterization Results of the Noble Metal Containing Catalysts -- 3.3. Catalytic Performances -- CONCLUSION -- REFERENCES.
327   $aTHE STUDY ON THE PERFORMANCE OF  "MOBILE OXYGEN" CATALYSTS USED FOR BIOMASS GASIFICATION -- ABSTRACT -- INTRODUCTION -- 1. OXYGEN -- 1.1. Reactive Oxygen Species (ROS) -- 1.2. Characteristic of ROS -- 2. "MOBILE OXYGEN" CATALYSTS -- 2.1. Metal "Mobile Oxygen" Catalysts -- 2.1.1. Iron Catalysts -- I. Fe Species as the Active Site in Olivine -- II. Fe-Based Catalysts -- III. Fe Oxide-Based Catalysts -- 2.1.2. Ce, Gd Catalysts -- 2.2. Perovskite Catalysts -- 2.3. Mayenite and Related Catalysts -- CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- BIOMASS PRODUCTION WITH FAST-GROWING TREES ON AGRICULTURAL LAND IN COOL-TEMPERATE REGIONS: POSSIBILITIES, LIMITATIONS, CHALLENGES -- ABSTRACT -- INTRODUCTION -- DEVELOPMENT OF COMMERCIAL BIOMASS PRODUCTION BASED ON WILLOWS IN SWEDEN -- ENVIRONMENTAL CONCERNS, BIODIVERSITY AND  LANDSCAPE DESIGN -- SYNERGIES AND CONFLICTS OF INTERESTS -- CONCLUSION -- REFERENCES -- PRODUCER GAS AND VEGETABLE OILS OPERATED COMPRESSION IGNITION ENGINES FOR RURAL APPLICATIONS -- ABSTRACT -- 1. INTRODUCTION -- Honge, Rice Bran and Neem Oils -- Biomass Gasification Status in India -- 2. FUELS USED AND THEIR PROPERTIES -- 3. EXPERIMENTAL SETUP -- Experimental Heat Release Estimation -- 4. RESULTS AND DISCUSSION -- 4.1. Single Fuel Operation -- 4.1.1. Crude Honge, Rice Bran and Neem Oil Operation -- 4.1.2. Biodiesel Operation -- Performance Characteristics -- 4.2. Dual Fuel Operation of Vegetable Oils with Producer Gas -- 4.3. Overall Comparison of the Different Modes of Engine Operation -- CONCLUSION -- Transesterification of Non Edible Oils -- Experiments with Methyl Esters of Honge, Rice Bran and Neem Oils -- Experiments with HOME, ROME and NOME and Producer Gas in Dual Operation -- CLOSURE -- REFERENCES -- BIOMASS GASIFIER BASED POWER PROJECTS UNDER CLEAN DEVELOPMENT MECHANISM IN INDIA: A PRELIMINARY ASSESSMENT -- ABSTRACT.
327   $a1. INTRODUCTION.
330   $aBiomass gasification means incomplete combustion of biomass resulting in the production of combustible gases consisting of carbon monoxide, hydrogen and methane. This book examines the importance of biomass gasification and assesses the possibility of biomass exploitation as an alternative to conventional fuel.
410  0$aRenewable Energy: Research, Development and Policies
606   $aBiomass gasification
606   $aChemistry, Technical
615  0$aBiomass gasification.
615  0$aChemistry, Technical.
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