Cornell University Press, 2013

Ithaca, NY : , : Cornell University Library, , 2013

©2013

9780801467387

0801467381

9780801467394

080146739X

1 online resource (222 p.)

Signale : modern German letters, cultures, and thought

830.9/353

Ethics in motion pictures

Ethics in literature

Ethics - Germany - History - 20th century

German literature - 20th century - History and criticism

Electronic books.

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

"The odium of doubtfulness" : or, the vicissitudes of Arendt's metaphorical thinking -- Why does Hannah Arendt lie? : or, the vicissitudes of imagination -- "A peculiar apparatus" : Kafka's thanatopoetics -- A strike of rhetoric : Benjamin's paradox of justice -- Pernicious bastardizations : Benjamin's ethics of pure violence -- The return of the human : Germany in autumn -- A politics of enmity : Müller's Germania death in Berlin.

In Inconceivable Effects, Martin Blumenthal-Barby reads theoretical, literary and cinematic works that appear noteworthy for the ethical questions they raise. Via critical analysis of writers and filmmakers whose projects have changed our ways of viewing the modern world-including Hannah Arendt, Franz Kafka, Walter Benjamin, the directors of Germany in Autumn, and Heiner Mueller-these essays furnish a

cultural base for contemporary discussions of totalitarian domination, lying and politics, the relation between law and body, the relation between law and justice, the question of violence, and our ways of conceptualizing "the human." A consideration of ethics is central to the book, but ethics in a general, philosophical sense is not the primary subject here; instead, Blumenthal-Barby suggests that whatever understanding of the ethical one has is always contingent upon a particular mode of presentation (Darstellung), on particular aesthetic qualities and features of media. Whatever there is to be said about ethics, it is always bound to certain forms of saying, certain ways of telling, certain modes of narration. That modes of presentation differ across genres and media goes without saying; that such differences are intimately linked with the question of the ethical emerges with heightened urgency in this book.

Hoboken, N.J., : Wiley-Interscience, c2006

9786610551491

9781280551499

1280551496

9780470009406

0470009403

9780470009390

047000939X

1 online resource (388 p.)

The Electrochemical Society series

SchlesingerMordechay

671.7/32

Electroplating

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

FUNDAMENTALS OF ELECTROCHEMICAL DEPOSITION; CONTENTS;

Preface to the Second Edition; Preface to the First Edition; 1. Overview; 2. Water and Ionic Solutions; 3. Metals and Metal Surfaces; 4. Metal-Solution Interphase; 5. Equilibrium Electrode Potential; 6. Kinetics and Mechanism of Electrodeposition; 7. Nucleation and Growth Models; 8. Electroless Deposition; 9. Displacement Deposition; 10. Effect of Additives; 11. Electrodeposition of Alloys; 12. Metal Deposit and Current Distribution; 13. Characterization of Metallic Surfaces and Thin Films; 14. In Situ Characterization of Deposition

15. Mathematical Modeling in Electrochemistry16. Structure and Properties of Deposits; 17. Electrodeposited Multilayers; 18. Interdiffusion in Thin Films; 19. Applications in Semiconductor Technology; 20. Applications in the Fields of Magnetism and Microelectronics; 21. Frontiers in Applications: The Field of Medicine; Index

Excellent teaching and resource material . . . it is concise, coherently structured, and easy to read . . . highly recommended for students, engineers, and researchers in all related fields.""-Corrosion on the First Edition of Fundamentals of Electrochemical DepositionFrom computer hardware to automobiles, medical diagnostics to aerospace, electrochemical deposition plays a crucial role in an array of key industries. Fundamentals of Electrochemical Deposition, Second Edition is a comprehensive introduction to one of today's most exciting and rapidly evolving fields of practical kno

IWA Publishing, 2021

[s.l.] : , : IWA Publishing, , 2021

1 online resource (438 p.)

628.364

Technology & Engineering / Environmental / Waste Management

Technology

Inglese

Intro -- Cover -- Table of contents -- 1. Setting the stage -- 1.1 CITY-WIDE INCLUSIVE SANITATION -- 1.2 WHAT IS FAECAL SLUDGE? -- 1.3 TOWARDS STANDARDISATION OF METHODS FOR FAECAL SLUDGE ANALYSIS -- 1.4 INTEGRATED APPROACH TO DATA COLLECTION -- 1.5 ADDITIONAL RESOURCES -- REFERENCES -- 2. Faecal sludge properties and considerations for characterisation -- 2.1 INTRODUCTION -- 2.2 TYPES OF FAECAL SLUDGE -- 2.3 FACTORS INFLUENCING THE FAECAL SLUDGE CHARACTERISTICS ALONG THE SANITATION SERVICE CHAIN -- 2.3.1 Inputs to faecal sludge production -- 2.3.1.1 Excreta -- 2.3.1.2 Water inputs -- 2.3.1.3 Anal cleansing materials -- 2.3.1.4 Additional inputs -- 2.3.2 Factors affecting characteristics of accumulated faecal sludge -- 2.3.2.1 Technical factors -- 2.3.2.2 Demographic factors -- 2.3.2.3 Environmental factors -- 2.3.2.4 Variability of accumulated faecal sludge -- 2.3.2.5 Developments and innovations in onsite containment -- 2.3.3 Emptying and transport -- 2.3.3.1 Storage time or emptying frequency -- 2.3.3.2 Manual or mechanical emptying -- 2.3.3.3 Transportation -- 2.3.3.4 Innovations in faecal sludge emptying and transportation -- 2.3.4 Treatment and end use -- 2.3.4.1 Faecal sludge treatment plants -- 2.3.4.2 End use or disposal -- 2.3.4.3 Innovations in treatment and end use -- 2.3.4.4 Container-based sanitation (CBS) -- 2.3.4.5 Summary of technologies along the

sanitation service chain -- 2.4 PROPERTIES OF FAECAL SLUDGE AND SELECTING METHODS OF CHARACTERISATION -- 2.4.1 Faecal sludge properties -- 2.4.1.1 Chemical and physico-chemical properties -- 2.4.1.2 Physical properties -- 2.4.1.3 Biological properties -- 2.4.2 Selection of appropriate methods for characterisation -- 2.5 SETTING UP LABORATORIES FOR FAECAL SLUDGE ANALYSIS -- 2.5.1 Faecal sludge laboratory workflow -- 2.5.2 Health and safety practices -- 2.5.3 Laboratory management systems.

2.5.4 Case studies of global faecal sludge laboratories -- 2.5.5 Global Partnership of Laboratories for Faecal Sludge Analysis (GPLFSA) -- 2.6 OUTLOOK -- REFERENCES -- 3. Faecal sludge sample collection and handling -- 3.1 INTRODUCTION -- 3.2 SAMPLING OBJECTIVE -- 3.2.1 Containment -- 3.2.2 Collection and transport -- 3.2.3 Treatment -- 3.2.4 End use -- 3.3 REPRESENTATIVENESS -- 3.4 SAMPLING TECHNIQUES -- 3.4.1 Grab sampling -- 3.4.2 Composite sampling -- 3.5 SAMPLING AND MEASURING DEVICES -- 3.5.1 L-stick sludge and scum measuring device -- 3.5.2 Core sampling device -- 3.5.3 Vacuum sludge sampling device -- 3.5.4 Cone-shaped sampling device -- 3.5.5 Grab sampling device - horizontal -- 3.5.6 Grab sampling beaker device - vertical -- 3.5.7 Automatic composite sampler -- 3.5.8 Distance laser measuring device -- 3.5.9 Portable penetrometer -- 3.6 SAMPLING METHODS AND LOCATION -- 3.6.1 Sampling in situ from onsite containment technologies -- 3.6.2 Sampling during emptying of onsite containment technologies -- 3.6.3 Sampling at faecal sludge treatment plants -- 3.7 SAMPLE SIZE -- 3.8 HEALTH AND SAFETY -- 3.9 SAMPLE COLLECTION -- 3.10 RECORDING OF SAMPLE COLLECTION -- 3.11 TRANSPORT -- 3.12 STORAGE AND PRESERVATION -- 3.13 EXAMPLE OF SAMPLING KIT -- 3.14 OUTLOOK -- REFERENCES -- 4. Experimental design for the development, transfer, scaling-up, and optimisation of treatment technologies: case studies of dewatering and drying -- 4.1 INTRODUCTION -- 4.2 EXPERIMENTATION IN FAECAL SLUDGE MANAGEMENT -- 4.2.1 Scales of experiments -- 4.2.2 Designing an experiment -- 4.3 TRANSFERRING TECHNOLOGY: CONDITIONING TO IMPROVE DEWATERING -- 4.3.1 Introduction to faecal sludge dewatering with conditioners -- 4.3.2 Types and mechanisms of conditioners -- 4.3.3 Key parameters for selection of conditioners and optimal dose -- 4.3.4 Laboratory- and pilot-scale testing.

4.3.5 Case studies - conditioning for improved dewatering -- 4.4 TRANSFERRING TECHNOLOGY: THERMAL DRYING FOR RESOURCE RECOVERY OF DRIED SLUDGE FOR ENERGY -- 4.4.1 Introduction to resource recovery of faecal sludge as solid fuel -- 4.4.2 Introduction to faecal sludge drying -- 4.4.3 Types and mechanisms of thermal drying (technical background) -- 4.4.4 Key parameters when implementing thermal-drying technologies -- 4.4.5 Laboratory-scale and pilot-scale testing -- 4.4.6 Case studies - thermal drying for energy recovery -- 4.5 TRANSFERRING TECHNOLOGY: MICROWAVE DRYING FOR RESOURCE RECOVERY OF DRIED SLUDGE FOR ENERGY -- 4.5 OUTLOOK -- REFERENCES -- 5. Estimating quantities and qualities (Q&amp -- Q) of faecal sludge at community to city-wide scales -- 5.1 INTRODUCTION -- 5.2 BACKGROUND -- 5.2.1 Scenario projections for planning and management -- 5.2.2 Mass balance: quantifying loadings of faecal sludge -- 5.2.2.1 Production of excreta and faecal sludge -- 5.2.2.2 Accumulation of faecal sludge -- 5.2.2.3 Fate of faecal sludge -- 5.3 STEPS FOR IMPLEMENTATION -- 5.4 FURTHER RESEARCH AND ANALYTICAL POSSIBILITIES -- 5.4.1 Remote sensing -- 5.4.2 Additional spatial analysis -- 5.4.3 Interrelationships between sludge characteristics -- 5.4.4 Evaluating categories of data to evaluate

separately -- 5.4.5 Predictive models -- 5.5 OUTLOOK -- REFERENCES -- 6. Towards city-wide inclusive sanitation (CWIS) modelling: modelling of faecal sludge containment/treatment processes -- 6.1 BACKGROUND -- 6.2 INTRODUCTION TO MODELLING - LEARNING FROM ACTIVATED SLUDGE MODELS -- 6.2.1 What is a model? -- 6.2.2 Modelling basics -- 6.2.2.1 Model building -- 6.2.2.2 General activated sludge model set-up -- 6.2.2.3 The matrix notation -- 6.2.2.4 Wastewater treatment models -- 6.2.2.5 Modelling protocols -- 6.3 TOWARDS AN ONSITE SANITATION MODELLING FRAMEWORK.

6.3.1 Onsite sanitation modelling: formulation of objectives -- 6.3.2 Onsite sanitation modelling: process description -- 6.3.2.1 Portable toilets -- 6.3.2.2 Single pit latrines -- 6.3.2.3 Septic tanks -- 6.3.3 Onsite sanitation modelling: data collection and verification -- 6.3.4 Onsite sanitation modelling: model structure -- 6.3.4.1 Model structure of commonly used onsite sanitation systems -- 6.3.4.2 Model structures of other sanitation systems -- 6.3.5 Onsite sanitation modelling: characterisation of flows -- 6.3.6 Onsite sanitation modelling: calibration and validation -- 6.3.7 Onsite sanitation modelling: detailed characterisation -- 6.3.7.1 Faecal sludge characterisation and fractionation -- 6.3.7.2 Inhibition and toxicity -- 6.3.7.3 Pathogen inactivation -- 6.3.8 Modelling applications, benefits and challenges -- 6.4 OUTLOOK -- REFERENCES -- 7. Faecal sludge simulants: review of synthetic human faeces and faecal sludge for sanitation and wastewater research -- 7.1 INTRODUCTION -- 7.2 CHARACTERISTICS OF FAECES AND FAECAL SLUDGE -- 7.2.1 Faeces -- 7.2.2 Faecal sludge -- 7.3 SYNTHETIC FAECES AND FAECAL SLUDGE FOUND IN THE LITERATURE -- 7.3.1 Physical parameters -- 7.3.1.1 Faeces simulants -- 7.3.1.2 Faecal sludge simulants -- 7.3.2 Chemical, biological, and thermal parameters -- 7.3.2.1 Faeces simulants -- 7.3.2.2 Faecal sludge simulants -- 7.4 DISCUSSION -- 7.4.1 Development of a new simulant -- 7.4.1.1 Synthetic faeces -- 7.4.1.2 Synthetic faecal sludge -- 7.5 CONCLUSIONS -- REFERENCES -- 8. Laboratory procedures and methods for characterisation of faecal sludge -- 8.1 INTRODUCTION -- 8.2 HEALTH AND SAFETY (H&amp -- S) -- 8.2.1 Monitoring and responsibilities -- 8.2.2 Standard operating procedures (SOPs) -- 8.2.3 Handling of faecal sludge -- 8.2.3.1 Personal protective equipment -- 8.2.3.2 Vaccinations / inoculations.

8.2.3.3 'Clean' and 'dirty' work areas -- 8.2.3.4 Sampling -- 8.3 QUALITY ASSURANCE AND QUALITY CONTROL (QA/QC) -- 8.3.1 Training -- 8.3.2 Standard operating procedures -- 8.3.3 Laboratory facilities -- 8.3.4 Sample chain of command -- 8.3.4.1 Laboratory photographs and notebooks -- 8.3.4.2 Equipment maintenance and calibration -- 8.3.4.3 Reporting of results -- 8.3.4.4 Checking compliance -- 8.3.5 Quality control -- 8.4 SELECTION OF THE APPROPRIATE METHOD FOR THE PURPOSE OF CHARACTERISATION -- 8.4.1 Faecal sludge storage and preservation -- 8.4.2 Faecal sludge sample preparation for analysis -- 8.2.4.1 Homogenisation of samples -- 8.2.4.2 Dilution of samples -- 8.2.4.3 Filtration -- 8.2.4.4 Centrifugation -- 8.4.3 Sample and chemical disposal -- 8.5 SHIPPING AND RECEIVING OF FAECAL SLUDGE SAMPLES AND EQUIPMENT -- 8.6 CHEMICAL AND PHYSICO-CHEMICAL PROPERTIES -- 8.6.1 Solids and moisture content -- 8.6.1.1 Total solids and moisture content - volumetric and gravimetric methods by oven drying3 -- 8.6.1.1.1 Introduction -- 8.6.1.1.2 Safety precautions -- 8.6.1.1.3 Apparatus and instruments -- 8.6.1.1.4 Quality control -- 8.6.1.1.5 Sample preservation -- 8.6.1.1.6 Sample preparation -- 8.6.1.1.7 Analysis protocol -- 8.6.1.1.8 Calculation -- 8.6.1.1.9 Data set example -- 8.6.1.2 Volatile and fixed solids - ignition method5 -- 8.6.1.2.1

Introduction -- 8.6.1.2.2 Safety precautions -- 8.6.1.2.3 Apparatus and instruments -- 8.6.1.2.4 Quality control -- 8.6.1.2.5 Sample preservation -- 8.6.1.2.6 Sample preparation -- 8.6.1.2.7 Analysis protocol -- 8.6.1.2.8 Calculation -- 8.6.1.2.9 Data set example -- 8.6.1.3 Total suspended solids and total dissolved solids - oven drying method6 -- 8.6.1.3.1 Introduction -- 8.6.1.3.2 Safety precaution -- 8.6.1.3.3 Apparatus and instruments -- 8.6.1.3.4 Quality control -- 8.6.1.3.5 Sample preservation.

8.6.1.3.6 Sample preparation.

Faecal sludge management is recognized globally as an essential component of city-wide inclusive sanitation. However, a major gap in developing appropriate and adequate management and monitoring for faecal sludge is the ability to understand and predict the characteristics and volumes of accumulated faecal sludge, and correlations to source populations. Since standard methods for sampling and analysing faecal sludge do not currently exist, results are not comparable, the actual variability is not yet fully understood, and the transfer of knowledge and data between different regions and institutions can be challenging and often arbitrary. Due to this lack of standard analytical methods for faecal sludge, methods from other fields, such as wastewater management, and soil and food science are frequently applied. However, these methods are not necessarily the most suitable for faecal sludge analysis, and have not been specifically adapted for this purpose. Characteristics of faecal sludge can be different than these other matrices by orders of magnitude. There is also a lack of standard methods for sampling, which is complicated by the difficult nature of in situ sampling, the wide range of onsite sanitation technologies and potential sampling locations, and the diverse heterogeneity of faecal sludge within onsite containments and within cities. This illustrates the urgent need to establish common methods and procedures for faecal sludge characterisation, quantification, sampling, and modelling. The aim of this book is to provide a basis for standardised methods for the analysis of faecal sludge from onsite sanitation technologies, for improved communication between sanitation practitioners, and for greater confidence in the generated data. The book presents background information on types of faecal sludge, methods for sample collection, health and safety procedures for handling, case studies of experimental design, an approach for estimating faecal sludge at community to city-wide scales, modelling containment and treatment processes, recipes for simulants, and laboratory methods for faecal sludge analysis currently in use by faecal sludge laboratories. This book will be beneficial for researchers, laboratory technicians, academics, students and sanitation practitioners.