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Additive manufacturing of metal alloys 2 : microstructures, post-processing and use properties / / edited by Patrice Peyre, Éric Charkaluk
| Additive manufacturing of metal alloys 2 : microstructures, post-processing and use properties / / edited by Patrice Peyre, Éric Charkaluk |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (286 pages) |
| Disciplina | 739.5 |
| Soggetto topico |
Metals - Coloring
Alloys Simulation methods |
| Soggetto non controllato |
Metals
Technology & Engineering |
| ISBN |
1-394-22905-4
1-394-22903-8 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910830035103321 |
| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Aesthetics in digital photography / / Henri Maître
| Aesthetics in digital photography / / Henri Maître |
| Autore | Maître H (Henri) |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (324 pages) |
| Disciplina | 770 |
| Soggetto topico |
Photography - Digital techniques
Digital cameras Image processing - Digital techniques |
| ISBN |
1-394-22597-0
1-394-22595-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Introduction: Image and Gaze -- Chapter 1. The Legacy of Philosophers -- 1.1. The objectivist approach -- 1.1.1. The source: ancient Greece -- 1.1.2. After Greece -- 1.1.3. Kant and modern aesthetics -- 1.1.4. Objectivism after Kant: from pseudo-subjectivism to aesthetic realism -- 1.2. The subjectivist approach -- 1.2.1. From classicism to romanticism -- 1.2.2. The moderns -- 1.2.3. The influence of neurobiology -- 1.3. Subjectivism and objectivism: an ongoing debate -- Chapter 2. Neurobiology or the Arbitrator of Consciousness -- 2.1. fMRI protocols and neuroaesthetics -- 2.2. The fMRI quest for "beauty processes" in the brain -- 2.2.1. The role of the prefrontal cortex -- 2.2.2. The role of the insular cortex -- 2.2.3. The role of the visual areas -- 2.2.4. The role of memory and cognition -- 2.2.5. The role of embodiment -- 2.3. Responses from functional electric encephalography -- 2.4. A global cognitive scheme for aesthetic judgment? -- 2.4.1. J. Petitot's neurogeometric model -- 2.4.2. A. Chatterjee's aesthetic emotion model -- 2.4.3. The model by Brown et al -- 2.4.4. Model proposed by H. Leder -- 2.4.5. The model by C. Redies -- 2.4.6. The emotions model developed by S. Koelsch et al. -- 2.4.7. L.H. Hsu's model of emotions based on A. Damásio -- 2.4.8. Other models -- 2.5. A critique of neuroaesthetic methods -- 2.5.1. Criticism of neuroaesthetic methods -- 2.5.2. Criticisms of the objectives of neuroaesthetics -- Chapter 3. What Are the Criteria For a Beautiful Photo? -- 3.1. Before we enter into the fray -- 3.1.1. What reference books do we have? -- 3.1.2. "Beauty of an image" or "quality of an image"? -- 3.1.3. A glossary of aesthetic appraisal -- 3.1.4. Measuring beauty -- 3.2. Composition -- 3.2.1. Complexity versus simplicity -- 3.2.2. Unity.
3.2.3. A specific case in composition: landscapes -- 3.2.4. Using oculometry to analyze composition -- 3.2.5. Format or aspect ratio -- 3.2.6. The rule of thirds (RoT) -- 3.2.7. The center of the image -- 3.2.8. Other rules for composition -- 3.3. Histograms, spectral properties and textures -- 3.3.1. Histograms and gray levels -- 3.3.2. Focus, spectral density, fractals -- 3.3.3. Textures -- 3.4. Color -- 3.4.1. About the concept of color -- 3.4.2. Preferences related to isolated colors -- 3.4.3. Preferences related to color palettes -- 3.5. What behavioral psychosociology has to say -- 3.5.1. Images of nature -- 3.5.2. The aesthetics of faces -- 3.5.3. The role of the signature, title and context -- 3.5.4. Perception and memory: prototypicality -- Chapter 4. Algorithmic Approaches to "Calculate" Beauty -- 4.1. First steps: C. Henry -- 4.2. G.D. Birkhoff's mathematical approach -- 4.3. Those who followed G.D. Birkhoff -- 4.3.1. Beauty according to H.J. Eysenck -- 4.3.2. The Post-War years: the designers, A. Moles and M. Bense -- 4.3.3. A dynamic approach: P. Machado and A. Cardoso -- 4.3.4. Work carried out by J. Rigau, M. Feixas and M. Bert -- 4.4. Algorithmic approach with AI: J. Schmidhuber -- Chapter 5. The Holy Grail of the Digital World: Artificial Intelligence -- 5.1. Which artificial intelligence? -- 5.1.1. The principles -- 5.1.2. Learning algorithms -- 5.2. Why artificial intelligence in aesthetics? -- 5.3. Expert opinions -- 5.4. The database -- 5.4.1. Generalist databases, used for aesthetic judgments -- 5.4.2. Databases that are specialized for aesthetic photography -- 5.4.3. Databases dedicated to artistic judgment -- 5.4.4. Other image databases that are sometimes used -- 5.4.5. Increasing databases -- Chapter 6. Primitive-based Classification Methods -- 6.1. Judging aesthetics. 6.1.1. Multimedia primitives: the ACQUINE system (Datta et al.) -- 6.1.2. Edges and chromatic distance: Ke et al. -- 6.1.3. Photography rules: Luo and Tang and Mavridaki and Mezaris -- 6.1.4. High-level primitives: Dhar et al. -- 6.1.5. Generic descriptors of vision: Marchesotti et al. -- 6.2. Help in composing beautiful photos -- 6.2.1. The library of aesthetic primitives developed by Su et al. -- 6.2.2. The OSCAR system by Yao et al. -- 6.2.3. Embedded systems: Lo et al. and Wang et al. -- 6.3. Some specific research related to the evaluation of aesthetics using primitives -- 6.3.1. Color harmony: Lu et al. -- 6.3.2. Group photography: Wang et al. -- 6.3.3. Social networks and crowdsourcing: Schifanella et al. -- 6.3.4. Looking at comments: San Pedro et al. -- Chapter 7. Deep Neural Network Systems -- 7.1. DNNs dedicated to aesthetic evaluation -- 7.1.1. High and low resolutions: the RAPID system, Lu et al. -- 7.1.2. The multi-path DMA-Net architecture: Lu et al. -- 7.1.3. Adapting to the size of the image: Mai et al. -- 7.1.4. Finding beauty on the Web: Redi et al. -- 7.1.5. Siamese and GAN networks: Kong et al. and Deng et al. -- 7.1.6. Paying attention to the image construction: A-Lamp -- 7.2. Variants around the basic DNN architecture -- 7.2.1. Comparing photos between themselves: Schwarz et al. -- 7.2.2. Making use of knowledge of the subject: Kao et al. -- 7.2.3. BDN: halfway between classification and DNN -- 7.2.4. Using the distribution of the evaluations -- 7.2.5. Extracting a "dramatic" image from a panorama: the Creatism system -- 7.3. Written appraisals: analyzing them and formulating new ones -- 7.3.1. Photo critique captioning dataset (PCCD) -- 7.3.2. Neural aesthetic image retriever (NAIR) -- 7.3.3. Semantic processing by Ghosal et al. -- 7.3.4. Aesthetic multi attribute network (AMAN) -- 7.4. Measuring subjective beauty. 7.4.1. Recommendation systems -- 7.4.2. Defining the user's psychological profile -- 7.4.3. Learning the user's tastes through tests -- 7.4.4. Multiplying concurrent expertise -- Chapter 8. A Critical Analysis of Machine Learning Techniques -- 8.1. The popularity of studies on aesthetics -- 8.2. A summary of learning methods -- 8.2.1. Which architecture? Which software? -- 8.2.2. What performances? -- 8.3. Questioning the hypotheses -- 8.4. Specific features of beautiful images detected by a computer -- 8.4.1. Some observations on the photos in the AVA database -- 8.4.2. The scores in the AVA database -- Conclusion -- Appendix 1. A Brief Review of Aesthetics -- Appendix 2. Aesthetics in China -- Appendix 3. The Aesthetic of Persian Miniatures -- Appendix 4. Aesthetics in Japan -- References -- Index -- EULA. |
| Record Nr. | UNINA-9910830064403321 |
Maître H (Henri)
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| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Applied reliability for industry : predictive reliability for the automobile, aeronautics, defense, medical, marine and space industries / / edited by Abdelkhalak El Hami, David Delaux, Henri Grzeskowiak
| Applied reliability for industry : predictive reliability for the automobile, aeronautics, defense, medical, marine and space industries / / edited by Abdelkhalak El Hami, David Delaux, Henri Grzeskowiak |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (248 pages) |
| Disciplina | 620.00452 |
| Soggetto topico | Reliability (Engineering) |
| ISBN |
1-394-20867-7
1-394-20862-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Foreword -- Preface -- Chapter 1. FIDES, a Method for Assessing and Building the Reliability of Electronic Systems -- 1.1. The inadequacy of existing methods -- 1.1.1. MIL-HDBK-217F -- 1.1.2. UTE-C-80810 (or RDF2000, or IEC 62380 TR Ed.1) -- 1.1.3. PRISM® or 217plus -- 1.2. The ambition of FIDES -- 1.3. General presentation of the FIDES method -- 1.3.1. Failure rate -- 1.3.2. The structure of FIDES models -- 1.3.3. Physical models -- 1.3.4. The exploitation of manufacturer data -- 1.3.5. Exploiting databases of failure mechanisms (not failure rates) -- 1.3.6. Life profile -- 1.3.7. Other contributors -- 1.3.8. Sensitivity of FIDES models -- 1.3.9. Industrial applications -- 1.4. Validity of reliability studies with FIDES -- 1.5. Conclusion -- 1.6. References -- Chapter 2. Reliability in Maritime Transport: Choosing a Container Handling System -- 2.1. Introduction -- 2.2. Proposed case study -- 2.3. Inputs of the RAMS approach -- 2.3.1. Presentation of the system -- 2.3.2. Component reliability data -- 2.3.3. Reliability of carabiners over time -- 2.4. Assessment of the system's RAMS -- 2.4.1. Reliability assessment -- 2.4.2. Assessment of the intrinsic availability -- 2.4.3. Maintainability assessment -- 2.4.4. Safety assessment -- 2.5. Conclusion -- 2.5.1. FMECA or fault trees, how to choose? -- 2.5.2. Pitfalls to avoid -- 2.5.3. Note on low reliability targets in innovative systems -- 2.6. General conclusion -- 2.7. References -- Chapter 3. Generation of a Failure Model through Probabilistic "Stress-Strength" Interaction in a Context of Poor Information -- 3.1. Introduction -- 3.2. Aims and objectives -- 3.3. Choosing types of legislation -- 3.3.1. Principle of maximum entropy -- 3.3.2. The strength distribution -- 3.3.3. The law of constraint -- 3.3.4. Relationship between the two laws.
3.4. Probability of failure -- 3.4.1. Formulation -- 3.4.2. Analytical solution -- 3.4.3. Parametric expression -- 3.5. Safety factor -- 3.5.1. Simplified expressions -- 3.5.2. Validity limits -- 3.6. Validation and applications -- 3.6.1. Comparative analyses -- 3.6.2. Applications -- 3.7. Conclusion and extensions -- 3.8. References -- Chapter 4. Reliable Optimization of Dental Implants Using the Generalized Polynomial Chaos Method -- 4.1. Introduction -- 4.2. Stochastic approach -- 4.2.1. The MC method -- 4.2.2. The GPC method -- 4.3. Deterministic design optimization -- 4.4. Reliability-based design optimization -- 4.4.1. The classic method -- 4.4.2. OSF using GPC -- 4.5. Numerical result -- 4.5.1. 2D dental implant -- 4.6. Conclusion -- 4.7. References -- Chapter 5. Multi-objective Reliability Optimization Based on Substitution Models. Applied Case Study of a Hip Prosthesis -- 5.1. Introduction -- 5.2. Description of metamodeling methods -- 5.2.1. Application of a substitution model -- 5.2.2. Construction of a metamodel -- 5.2.3. Validation of metamodels -- 5.3. Optimization of multi-objective design -- 5.3.1. Deterministic MOO -- 5.3.2. Reliability-based multi-objective design optimization -- 5.4. RBMDO based on hip prosthesis surrogate models -- 5.4.1. Deterministic simulation using the finite element method -- 5.4.2. Construction of substitution models -- 5.4.3. Optimization of multi-objective design based on reliability -- 5.5. Conclusion -- 5.6. References -- Chapter 6. CMA-ES Assisted by the Kriging Metamodel for the Optimization of Thermomechanical Performances of Mechatronic Packaging -- 6.1. Introduction -- 6.2. Presentation of the system under study -- 6.2.1. The case of wire bonding -- 6.2.2. The case of solder joints -- 6.3. Thermal fatigue models of solder joints -- 6.3.1. The Coffin-Manson model -- 6.3.2. The Morrow model. 6.3.3. The Coffin-Manson frequency-modified model -- 6.3.4. The Morrow frequency-modified model -- 6.3.5. The Darveaux model -- 6.4. Modeling and finite element analysis of the PQFP housing -- 6.4.1. Modeling -- 6.4.2. Material properties -- 6.4.3. Thermal load -- 6.4.4. Fatigue model selected for solder joints -- 6.4.5. Numerical results -- 6.5. Evolutionary strategies -- 6.5.1. Presentation of evolutionary strategies -- 6.5.2. Principles of ESs -- 6.5.3. Covariance matrix adaptation evolution strategy -- 6.5.4. Metamodeling techniques -- 6.5.5. Kriging-assisted CMA-ES -- 6.6. Global optimization of the PQFP housing solder joints -- 6.6.1. Formulation of the problem -- 6.6.2. Numerical simulations -- 6.7. Conclusion -- 6.8. References -- Chapter 7. Reliable Optimization of Vibro-acoustic Problems in the Presence of Uncertainties via Polynomial Chaos -- 7.1. Introduction -- 7.2. Robust approaches to uncertainty propagation -- 7.2.1. The Monte Carlo method -- 7.2.2. Generalized polynomial chaos -- 7.3. Structural optimization -- 7.3.1. Formulation of the optimization problem -- 7.3.2. Deterministic design optimization -- 7.3.3. Reliability design optimization -- 7.4. OSF method coupled with GPC applied to vibro-acoustic systems in the presence of uncertainties -- 7.4.1. Deterministic model -- 7.4.2. Probabilistic analysis -- 7.4.3. OSF method coupled with GPC -- 7.5. Conclusion -- 7.6. References -- List of Authors -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910830605003321 |
| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Beyond-CMOS : state of the art and trends / / edited by Alessandro Cresti
| Beyond-CMOS : state of the art and trends / / edited by Alessandro Cresti |
| Edizione | [First edition.] |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (443 pages) |
| Disciplina | 621.381 |
| Soggetto topico | Digital electronics |
| Soggetto non controllato |
Electronic Circuits
Electronics Technology & Engineering |
| ISBN |
1-394-22871-6
1-394-22869-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Chapter 1. Tunnel Field-Effect Transistors Based on III-V Semiconductors -- 1.1. Introduction -- 1.2. Experiments -- 1.3. Simulation of III-V-based TFETs -- 1.3.1. The k.p model in the NEGF formalism -- 1.4. SS degradation mechanisms -- 1.4.1. Electrostatic integrity -- 1.4.2. Trap-assisted tunneling -- 1.4.3. Surface roughness -- 1.5. Strategies to improve the on-state current -- 1.5.1. Strain -- 1.5.2. Broken-gap hetero-structures -- 1.5.3. Molar fraction grading of the source material -- 1.6. Conclusion -- 1.7. References -- Chapter 2. Field-Effect Transistors Based on 2D Materials: A Modeling Perspective -- 2.1. Introduction -- 2.1.1. Future of Moore's law -- 2.1.2. The potential of 2D materials -- 2.2. Modeling approach -- 2.2.1. Requirements and state of the art -- 2.2.2. Maximally localized Wannier functions (MLWFs) -- 2.2.3. Towards ab initio quantum transport simulations -- 2.3. 2D device performance analysis -- 2.3.1. MoS2 and other TMDs -- 2.3.2. Novel 2D materials -- 2.4. Challenges and opportunities -- 2.4.1. Electrical contacts between metals and 2D monolayers -- 2.4.2. 2D mobility limiting factors -- 2.4.3. 2D oxides -- 2.4.4. Advanced logic concepts -- 2.5. Conclusion and outlook -- 2.6. Acknowledgments -- 2.7. References -- Chapter 3. Negative Capacitance Field-Effect Transistors -- 3.1. Introduction -- 3.2. The rise of NC-FETs -- 3.3. Understanding NC-FETs from scratch -- 3.3.1. Electrostatics in a generic NC-FET -- 3.3.2. Formulating switching slope of a generic NC-FET -- 3.4. Fundamental challenges of NC-FET -- 3.4.1. NC does not help good FETs -- 3.4.2. Quantum capacitance may "kill" NC-FETs -- 3.5. Design and optimization of NC-FET -- 3.5.1. Designing NC-FET in the quantum capacitance limit -- 3.5.2. The role of NC nonlinearity.
3.5.3. IMG: borrow parasitic charge for polarization in NC -- 3.5.4. A practical role of NC for FETs: voltage-loss saver -- 3.6. Appendix: A rule for polarization dynamics-based interpretation of the subthermionic SS -- 3.7. References -- Chapter 4. Z2 Field-Effect Transistors -- 4.1. Introduction -- 4.2. Z2FET steady-state operation -- 4.2.1. Z2FET sharp switch evidence -- 4.2.2. Z2FET "S-shape" characteristic -- 4.2.3. Z2FET detailed description -- 4.3. Z2FET steady-state analytical and compact model -- 4.3.1. Z2FET steady-state analytical drain current model -- 4.3.2. Z2FET analytical evaluation of switching voltage -- 4.3.3. Z2FET compact model -- 4.4. Z2FET experimental evidence -- 4.4.1. Z2FET fabrication -- 4.4.3. Z2FET switching characteristic under gate sweep -- 4.4.4. Z2FET switching characteristic under drain sweep -- 4.5. Z2FET as 1T-DRAM -- 4.5.1. Z2FET 1T-DRAM operation description -- 4.5.2. Z2FET 1T-DRAM operation experimental evidence -- 4.6. Z2FET structure optimization -- 4.6.1. Z2FET DGP -- 4.6.2. Z3FET -- 4.7. Z2FET advanced applications -- 4.7.1. Z2FET as ESD -- 4.7.2. Z2FET as logic switch -- 4.7.3. Z2FET as photodetector -- 4.8. Conclusion -- 4.9. References -- Chapter 5. Two-Dimensional Spintronics -- 5.1. Introduction -- 5.2. Spintronics in 2D Rashba gases at oxide surfaces-interfaces -- 5.2.1. Emergent 2D conductivity at oxide interfaces -- 5.2.2. Rashba spin-orbit interactions -- 5.2.3. Spin-to-charge current conversion in oxide 2DEGs -- 5.2.4. Device applications and prospects -- 5.3. Spintronics in lateral spin devices in 2D materials -- 5.3.1. Introduction -- 5.3.2. Spin injection and detection -- 5.3.3. Spin precession -- 5.3.4. Mechanisms of spin relaxation -- 5.3.5. Spin transport in van der Waals heterostructures -- 5.4. 2D materials in magnetic tunnel junctions -- 5.4.1. Introduction. 5.4.2. First steps towards 2D material integration in magnetic tunnel junctions -- 5.4.3. Exfoliated and transferred devices: early results -- 5.4.4. Exfoliated and transferred devices: improvement through in situ definition -- 5.4.5. Direct CVD growth: the rise of large scale and high quality -- 5.4.6. Experimental evidences of 2D-based spin filtering in hybrid 2D-MTJs -- 5.4.7. Conclusion -- 5.5. Topological insulators in spintronics -- 5.5.1. Introduction -- 5.5.2. Spin-momentum locking and spin-charge interconversion -- 5.5.3. Materials, interfaces and fabrication methods -- 5.5.4. Spin-charge interconversion measurements -- 5.5.5. Conclusion and outlook -- 5.6. References -- Chapter 6. Valleytronics in 2D Materials -- 6.1. Introduction -- 6.2. Exciton and valley physics -- 6.2.1. Introduction to valleys and excitons -- 6.2.2. Valley physics -- 6.2.3. Spin orbit coupling and exotic excitons -- 6.3. Valley lifetime, transport and operations -- 6.3.1. Valley lifetime -- 6.3.2. Valley transport -- 6.3.3. Valley operations -- 6.4. Valleytronic devices and materials -- 6.5. Valleytronic computing -- 6.5.1. Classical computing - power and performance -- 6.5.2. Classical computing - architecture -- 6.5.3. Quantum computing -- 6.5.4. Outlook -- 6.6. References -- Chapter 7. Molecular Electronics: Electron, Spin and Thermal Transport through Molecules -- 7.1. Introduction -- 7.2. How to make a molecular junction -- 7.3. Electron transport in molecular devices: back to basics -- 7.4. Electron transport: DC and low frequency -- 7.5. Electron transport at high frequencies -- 7.6. Spin-dependent electron transport in molecular junctions -- 7.7. Molecular electronic plasmonics -- 7.8. Quantum interference and thermal transport -- 7.9. Noise in molecular junctions -- 7.10. Conclusion and further reading -- 7.11. References. Chapter 8. Superconducting Quantum Electronics -- 8.1. Introduction -- 8.1.1. A little bit of history -- 8.1.2. The Josephson junction -- 8.1.3. Superconducting quantum interference devices (SQUIDs) -- 8.1.4. Emergence of superconductor electronics -- 8.2. Passive superconducting electronics -- 8.2.1. Surface impedance of superconductors -- 8.2.2. Superconductor waveguides and transmission lines -- 8.2.3. Superconducting antennas -- 8.2.4. Superconducting filters -- 8.2.5. Microwave switches -- 8.3. Superconducting detectors -- 8.3.1. Transition edge sensors (TES) -- 8.3.2. Superconductor nanowire single-photon detectors (SNSPDs) -- 8.3.3. Kinetic inductance detectors (KIDs) -- 8.4. Superconducting digital electronics -- 8.4.1. Single flux quantum (SFQ) logic -- 8.4.2. Adiabatic quantum flux parametron (AQFP) logic -- 8.4.3. Towards superconducting computing -- 8.4.4. In-memory and quantum neuromorphic computing -- 8.4.5. Computer-aided design (CAD) tools -- 8.5. Superconducting quantum computing -- 8.5.1. Epistemological approach -- 8.5.2. Superconductor quantum bits (qubits) -- 8.5.3. Source of decoherence in qubits -- 8.5.4. Interface system for Josephson junction qubits -- 8.5.5. The qubit cavity -- 8.6. Cryogenic cooling -- 8.7. References -- Chapter 9. All-Optical Chips -- 9.1. Introduction -- 9.2. Nanophotonic circuits -- 9.2.1. Dielectric waveguides -- 9.2.2. Basic photonic devices -- 9.3. Phase change photonics -- 9.3.1. Switching dynamics of phase change materials -- 9.3.2. Waveguide-coupled phase change materials -- 9.4. Photonic tensor core -- 9.4.1. Optical multiply and accumulate operations -- 9.4.2. Design of the photonic tensor core -- 9.4.3. Parallel computing by wavelength division multiplexing -- 9.4.4. Photonic tensor core prototype -- 9.5. Optical artificial neural network -- 9.5.1. Artificial neural networks. 9.5.2. Nonlinear activation unit -- 9.5.3. Optical neuron prototype -- 9.6. Challenges and outlook -- 9.7. References -- List of Authors -- Index -- EULA. |
| Record Nr. | UNINA-9910830743503321 |
| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Cybercrime during the SARS-Cov-2 pandemic (2019-2022) : evolutions, adaptations, consequences / / edited by Daniel Ventre, Hugo Loiseau
| Cybercrime during the SARS-Cov-2 pandemic (2019-2022) : evolutions, adaptations, consequences / / edited by Daniel Ventre, Hugo Loiseau |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (256 pages) |
| Disciplina | 345.730268 |
| Soggetto topico |
Computer crimes
Computer viruses Criminal jurisdiction |
| ISBN |
1-394-22634-9
1-394-22632-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Introduction -- Chapter 1. The Evolution of Cybercrime During the Covid-19 Crisis -- 1.1. Introduction -- 1.2. Observing the evolution of cybercrime -- 1.2.1. Leveraging annual data: the case of India -- 1.2.2. Leveraging monthly data -- 1.2.3. Leveraging weekly data: the case of China -- 1.3. Has the global geography of cyberattacks changed? -- 1.4. Conclusion -- 1.5. Appendix -- 1.5.1. Cybercrime tools: malware -- 1.5.2. CVSS as indicators of vulnerability levels -- 1.5.3. Heterogeneity and complexity of cybercrime typologies -- 1.5.4. Attitude of companies toward cyber risks: the case of the United Kingdom -- 1.6. References -- Chapter 2. The SARS-CoV-2 Pandemic Crisis and the Evolution of Cybercrime in the United States and Canada -- 2.1. Introduction -- 2.2. The impacts of the SARS-CoV-2 pandemic -- 2.3. Cybercrime and SARS-CoV-2 -- 2.3.1. Targets and victims -- 2.3.2. Malicious actors -- 2.3.3. Cyberspace: a propitious environment for cybercrime -- 2.4. The evolution of cybercrime in North America during the pandemic -- 2.4.1. The United States -- 2.4.2. Canada -- 2.5. Discussion -- 2.6. Conclusion -- 2.7. Acknowledgments -- 2.8. References -- Chapter 3. Online Radicalization as Cybercrime: American Militancy During Covid-19 -- 3.1. Introduction -- 3.2. A new typology of cybercrime -- 3.3. Internet connectivity and violent militancy -- 3.4. The pre-pandemic domestic threat landscape -- 3.5. The domestic threat landscape of the pandemic -- 3.6. Pandemic accelerationism -- 3.7. From virtual to real-life criminality -- 3.8. Online radicalization during Covid-19 -- 3.9. A new methodological paradigm for online radicalization? -- 3.10. Conclusion: meta-radicalization as cybercrime -- 3.11. References.
Chapter 4. Cybercrime in Brazil After the Covid-19 Global Crisis: An Assessment of the Policies Concerning International Cooperation for Investigations and Prosecutions -- 4.1. Introduction: Brazilian cybercrime and the Covid crisis impact -- 4.2. Cybercrime in the literature and the Brazilian case -- 4.3. A theoretical model for international cooperation -- 4.4. The evolution of cybercrime in Brazil -- 4.5. The evolution of the Brazilian legal system concerning cybercrime and its connection to the international regime -- 4.6. Managing international cooperation without having the best tools -- 4.7. Difficulties with cooperation: joints, mortises, and notches -- 4.8. Conclusion: what to expect from the future? -- 4.9. References -- 4.10. Appendix: List of interviews and questions -- Chapter 5. Has Covid-19 Changed Fear and Victimization of Online Identity Theft in Portugal? -- 5.1. Introduction -- 5.2. The impact of the Covid-19 pandemic on cybercrime -- 5.3. Evolution of cybercrime in Portugal -- 5.4. Online identity theft (OIT) -- 5.4.1. Definition and modus operandi -- 5.4.2. RAT applied to cyberspace -- 5.4.3. Individual variables and OIT victimization -- 5.5. Fear of (online) crime -- 5.5.1. Determinants of fear of (online) crime -- 5.6. The present study -- 5.6.1. Measures -- 5.6.2. Results -- 5.6.3. Variables associated with online victimization and fear of identity theft -- 5.7. Conclusion -- 5.8. References -- Chapter 6. A South African Perspective on Cybercrime During the Pandemic -- 6.1. Introduction -- 6.1.1. Background to South Africa and the pandemic -- 6.1.2. Methodology -- 6.2. International rankings -- 6.3. Cybercrime and related legislation -- 6.4. Cybersecurity incidents -- 6.4.1. Ransomware -- 6.4.2. Scams and fraud -- 6.4.3. System intrusions and data breaches -- 6.4.4. Disinformation and malicious communications -- 6.4.5. Other. 6.5. Discussion -- 6.6. Conclusion -- 6.7. References -- List of Authors -- Index -- EULA. |
| Record Nr. | UNINA-9910830147403321 |
| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Decision and decision-maker in an industrial environment / / Lamia Berrah and Vincent Clivillé
| Decision and decision-maker in an industrial environment / / Lamia Berrah and Vincent Clivillé |
| Autore | Berrah Lamia |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (257 pages) |
| Disciplina | 613.62 |
| Soggetto topico |
Work environment
Industrial location |
| Soggetto non controllato |
Industrial Engineering
Systems Engineering Technology & Engineering |
| ISBN |
1-394-22992-5
1-394-22990-9 9781394229918 (ebook.) 1394229917 (ebook.) |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910830091503321 |
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Berrah Lamia
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| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Decision-Making Tools to Support Innovation : Guidelines and Case Studies / / edited by Manon Enjolras, Daniel Galvez, and Mauricio Camargo
| Decision-Making Tools to Support Innovation : Guidelines and Case Studies / / edited by Manon Enjolras, Daniel Galvez, and Mauricio Camargo |
| Edizione | [First edition.] |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (272 pages) |
| Disciplina | 658.403 |
| Soggetto topico | Decision making |
| Soggetto non controllato |
Chemical Engineering
Technology & Engineering |
| ISBN |
1-394-22899-6
1-394-22897-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Foreword -- Introduction -- Chapter 1. The Selection of Ideas During a Creativity Workshop: An Application of PROMETHEE -- 1.1. Context and challenges in decision-making -- 1.1.1. The phases of a creative workshop -- 1.1.2. Evaluation and selection of ideas -- 1.2. The PROMETHEE method -- 1.2.1. Methodological concept: the preference function -- 1.2.2. Application process -- 1.3. Application of PROMETHEE to the selection of ideas -- 1.3.1. Context of the workshop -- 1.3.2. Discussion of the results -- 1.4. To go further -- 1.4.1. The Gaia plane -- 1.4.2. Regarding the different versions of PROMETHEE -- 1.5. The PROMETHEE method: instructions for use -- 1.5.1. PROMETHEE step by step -- 1.5.2. Application of PROMETHEE with software support -- 1.6. References -- Chapter 2. The Upstream Phases of Product Design: An Application of AHP -- 2.1. Context and challenges in decision-making -- 2.1.1. The challenges of the upstream phases of the design process -- 2.1.2. A trend in innovation: sustainable design -- 2.1.3. Definition of the decision model -- 2.2. The AHP method: analytic hierarchy process -- 2.2.1. The fundamental principle: the relative importance of criteria -- 2.2.2. Application of the method -- 2.3. Going further: the question of interdependence between criteria -- 2.3.1. The Dematel method -- 2.3.2. Application to the case study -- 2.3.3. Proposal for an AHP/Dematel combined approach -- 2.4. AHP: instructions for use -- 2.4.1. Practical guide -- 2.4.2. Illustration of related free software -- 2.5. References -- Chapter 3. Marketing Strategy During the Market Entry Phase: An Application of Rough Sets -- 3.1. Context and challenges in decision-making -- 3.1.1. Decision-making in marketing -- 3.1.2. Definition of the decision model.
3.2. The Rough Sets method or the theory of approximate sets -- 3.2.1. Terminology -- 3.2.2. Fundamental principle: indiscernibility -- 3.2.3. Application of the method -- 3.3. Discussion of the results obtained -- 3.3.1. Conditional rules obtained -- 3.3.2. Operational exploitation of rules -- 3.3.3. To go further: dominance-based rough sets approach -- 3.4. The Rough Sets method: instructions for use -- 3.4.1. The case of extracting information from a database: an example using the freeware program 4Emka -- 3.4.2. The case of implicit preference modeling -- 3.4.3. Step-by-step application -- 3.5. References -- Chapter 4. Building a Coherent Project Portfolio: An Application of MAUT -- 4.1. Context and challenges in decision-making -- 4.1.1. The selection of innovative projects -- 4.1.2. Decision-making in the petroleum industry -- 4.1.3. Definition of the decision model -- 4.2. The MAUT method -- 4.2.1. Terminology and methodological concepts -- 4.2.2. Application of the method -- 4.3. To go further -- 4.3.1. Consideration of the constraints in making the decision -- 4.3.2. Synergies between criteria/between projects -- 4.3.3. The accuracy of the utility function -- 4.4. The MAUT method: instructions for use -- 4.4.1. MAUT step by step -- 4.4.2. Using software supports -- 4.5. References -- Chapter 5. The Recruitment Process in Human Resources: An Application of ELECTRE -- 5.1. Context and challenges in decision-making -- 5.1.1. Human resources management and innovation -- 5.1.2. The challenges of the recruitment process -- 5.2. The ELECTRE method -- 5.2.1. Methodological concepts -- 5.2.2. Application of ELECTRE to the hiring of new staff members -- 5.3. To go further -- 5.3.1. Addressing incomparability in the results -- 5.3.2. Improving the accuracy of input data: processing qualitative criteria -- 5.4. ELECTRE: instructions for use. 5.4.1. Practical guide -- 5.4.2. Illustration of related free software -- 5.5. References -- Chapter 6. Knowledge Management in the Supply Chain: An Application of TOPSIS -- 6.1. Context and challenges in decision-making -- 6.1.1. Knowledge management in the supply chain -- 6.1.2. Definition of the decision model -- 6.2. The TOPSIS method -- 6.2.1. Methodological concepts -- 6.2.2. Application of the method -- 6.3. To go further -- 6.3.1. The imprecise nature of human judgment: moving towards "fuzzy logic" -- 6.3.2. Sensitivity analysis or the proposal of simulation scenarios -- 6.4. The TOPSIS method: instructions for use -- 6.4.1. TOPSIS step by step -- 6.4.2. Illustration of related free software -- 6.5. References -- Conclusion -- List of Authors -- Index -- EULA. |
| Record Nr. | UNINA-9910830088803321 |
| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Digital transformation and public policies / / edited by Valérie Revest, Isabelle Liotard
| Digital transformation and public policies / / edited by Valérie Revest, Isabelle Liotard |
| Pubbl/distr/stampa | Hoboken, NJ : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (207 pages) |
| Disciplina | 658.4 |
| Soggetto topico |
Electronic commerce
Business enterprises - Computer networks |
| ISBN |
1-394-22630-6
1-394-22628-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Acknowledgments -- About the Authors -- Introduction -- Chapter 1. From Crowdsourcing to Inclusiveness: The European Experience of Innovation Contests -- 1.1. Open innovation and crowdsourcing: two closely related phenomena -- 1.2. Platforms, innovation contests and inclusiveness or how to better articulate innovation and society? -- 1.3. The European context: a proactive approach to open innovation -- 1.4. European contests and inclusiveness: two case studies -- 1.4.1. Blockchain for social goods (BCSG): a step towards greater inclusiveness? -- 1.4.2. Affordable High-Tech for Humanitarian Aid (AHTHA): an attempt to increase cooperation? -- 1.5. Discussion and conclusion -- 1.5.1. Contests and mechanisms of co-production of knowledge -- 1.5.2. A reflection on communities of innovation -- 1.6. Acknowledgments -- 1.7. References -- Chapter 2. The Regulation of Public Data: The Difficult Case of the Health Sector -- 2.1. Tenfold attraction for health data, new digitized tools: towards truly innovative practices? -- 2.1.1. A constant quest for data -- 2.1.2. Health data with an increasingly broad scope -- 2.1.3. Health data used to serve a reform rhetoric that is not very innovative -- 2.2. Towards an economic valuation of health data in the name of a sovereignty imperative -- 2.2.1. Public action and data representation as an economic issue -- 2.2.2. Towards public-private co-regulation of health data -- 2.3. A contested regulatory vision -- 2.3.1. A complex health system -- 2.3.2. Interministerial rivalries -- 2.3.3. A professional sector under tension -- 2.4. Conclusion -- 2.5. References -- Chapter 3. Access Policies to Digital Resources of Administration through the Lens of Microsimulation -- 3.1. From a circumvented closure to a progressive and non-systematic opening of data (1951-2001).
3.1.1. Outside of the administration, researchers who manage to access data in an "informal" way -- 3.1.2. Incomplete access: the decisive advantage of "Administrative Economists" -- 3.2. The movement to open up at the turn of the 2010s: from retreat to institutional change -- 3.2.1. Fiscal revolution and statistical counter-revolution: a movement to close the data -- 3.2.2. From a relationship of distrust to one of trust: the IPP and the LPR/Lemaire law (2011-2016) -- 3.3. The movement to open up codes: free consent versus forced freedom -- 3.3.1. The first steps of an "open source" culture within the administration -- 3.3.2. Forced openness: the administration ordered to communicate or open up the codes of its microsimulation models -- 3.4. Discussion: different conceptions of opening up quality? -- 3.5. References -- Chapter 4. How to Characterize Public Innovation Platforms? Crossed Perspectives -- 4.1. Platforms in economics and management -- 4.1.1. From the platform to the digital platform: definitions and characteristics -- 4.1.2. Digital platform and a two-sided market -- 4.2. From innovation intermediation platforms (IIPs) to public innovation intermediation platforms (PIIPs) -- 4.2.1. Innocentive, a private intermediary innovation platform -- 4.2.2. Challenge.Gov, an innovation intermediary government platform -- 4.2.3. First conceptualization of public innovation intermediation platforms (PIIPs) -- 4.3. The contribution of engineering sciences to the analysis of PIIPs: some directions to explore -- 4.3.1. The contributions of a process approach -- 4.3.2. The Open Innovation Platform (OIP): from a characterization in technical terms -- 4.3.3. ... to a vision in terms of modularity and lifecycle -- 4.4. Discussion and conclusion -- 4.5. Acknowledgments -- 4.6. References -- Conclusion -- List of Authors -- Index -- EULA. |
| Record Nr. | UNINA-9910830144303321 |
| Hoboken, NJ : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Drinking water treatment . Volume 2. : chemical and physical elimination of organic substances and particles / / Kader Gaid
| Drinking water treatment . Volume 2. : chemical and physical elimination of organic substances and particles / / Kader Gaid |
| Autore | Gaid Kader |
| Pubbl/distr/stampa | London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (404 pages) |
| Disciplina | 628.162 |
| Soggetto topico |
Drinking water - Purification
Water - Purification Biotechnology |
| ISBN |
1-394-22603-9
1-394-22601-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Chapter 7. Removal of Natural Organic Matter -- 7.1. Natural organic matter: humic substances -- 7.2. Methods of quantification and assessment of organic substances in water -- 7.2.1. Total organic carbon -- 7.2.2. Absorbance of ultraviolet light at 254 nm (UV 254) -- 7.2.3. Specific UV absorbance -- 7.2.4. Liquid chromatography -- 7.2.5. Hydrophobic organic carbon -- 7.2.6. Fluorescence -- 7.3. Conditions for the removal of NOM -- 7.4. NOM removal techniques -- 7.4.1. Coagulation-flocculation -- 7.5. Adsorption on activated carbon -- 7.5.1. Mechanism of NOM removal by activated carbon -- 7.5.2. Implementation of activated carbon adsorption for NOM removal -- 7.6. Ozonation -- 7.6.1. Preozonation -- 7.6.2. Interozonation -- 7.7. Biological treatment -- 7.7.1. Biological treatment with PAC: operating principle of the Opaline® B process (Veolia) -- 7.7.2. Biological treatment combining ozone and GAC -- 7.8. Treatment of ion exchange resins -- 7.8.1. Use of resins for NOM removal: mechanism of NOM removal -- 7.8.2. Parameters affecting the performance of resins for the removal of NOM -- 7.8.3. Resin regeneration -- 7.8.4. The Opalix® process -- 7.9. NOM removal by high-pressure membranes -- 7.10. References -- Chapter 8. Filtration -- 8.1. Rapid filters and very high-rate filters (TGV) -- 8.2. Multimedia filters -- 8.3. Direct filtration -- 8.4. Pressurized filters -- 8.5. Filtration mechanisms -- 8.5.1. General principle -- 8.5.2. Mechanisms involved in filtration -- 8.6. Implementation parameters -- 8.6.1. Materials -- 8.6.2. Material height/d10 ratio -- 8.6.3. ES ratio -- 8.7. Sizing parameters: filtration rate and material height -- 8.8. Operating parameters -- 8.8.1. Pressure loss in a clean filter -- 8.8.2. Pressure loss during clogging.
8.8.3. Estimation of the turbidity of filtered water in single-layer filters -- 8.8.4. Retention capacity -- 8.8.5. Filter washing conditions: theory and calculations -- 8.8.6. Cycle time -- 8.8.7. Main parameters involved in filter sizing -- 8.9. Veolia filtration technologies: general information -- 8.9.1. Characteristics of open gravity filters -- 8.10. Regulation systems -- 8.10.1. Hydraulic regulators -- 8.10.2. Control valves -- 8.11. Recycling and microbiological risks -- 8.12. Monitoring the operation and performance of filters -- 8.12.1. Turbidity -- 8.12.2. Particle count -- 8.12.3. Problems with the operation of filters -- 8.13. References -- Chapter 9. Adsorption on Activated Carbon -- 9.1. Activation processes of activated carbon -- 9.1.1. Chemical activation -- 9.1.2. Physical activation -- 9.2. Physicochemical properties of activated carbon -- 9.2.1. Parameters influencing adsorption -- 9.3. Transport process in activated carbon: mass transfer -- 9.3.1. Adsorption mechanisms and isotherms -- 9.4. The different forms of conditioning of activated carbons -- 9.4.1. Powdered activated carbon -- 9.4.2. Micrograin activated carbon (ìgrain) -- 9.4.3. Granular activated carbon -- 9.5. Adsorption reactors on activated carbon: removal process -- 9.6. PAC reactors: description of PAC reactors -- 9.6.1. Mass balance -- 9.6.2. GAC reactors in adsorption mode: GAC filters -- 9.6.3. Fluidized bed activated carbon reactors -- 9.6.4. GAC-ìgrain-PAC comparison -- 9.6.5. Hybrid process with a PAC reactor associated with UF membranes -- 9.7. Veolia technologies: treatment process with PAC reactors -- 9.7.1. Implementation in a settler without PAC recirculation -- 9.7.2. Implementation with PAC recirculation -- 9.7.3. Opaline® C process: PAC-membrane hybrid -- 9.8. Micrograin activated carbon reactors. 9.8.1. Integration of ìgrain activated carbon in the treatment process -- 9.8.2. The Filtraflo® Carb -- 9.8.3. Opacarb®FL -- 9.8.4. Opacarb®MG -- 9.9. Fixed bed reactors - GAC filters -- 9.9.1. The GAC filter (Veolia) -- 9.9.2. GAC filters in series -- 9.9.3. Implementation modes for GAC filters -- 9.10. Pressurized GAC filters (Opacarb™ filters) -- 9.11. References -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910830067703321 |
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Gaid Kader
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| London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Drinking water treatment . Volume 3. : organic and mineral micropollutants / / Kader Gaid
| Drinking water treatment . Volume 3. : organic and mineral micropollutants / / Kader Gaid |
| Autore | Gaid Kader |
| Pubbl/distr/stampa | Hoboken, NJ : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] |
| Descrizione fisica | 1 online resource (454 pages) |
| Disciplina | 628.162 |
| Soggetto topico |
Drinking water - Purification
Water - Purification Biotechnology |
| ISBN |
1-394-22606-3
1-394-22604-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Chapter 10. Removal of Micropollutants -- 10.1. Introduction -- 10.2. Pesticides -- 10.3. Pharmaceuticals and industrial waste -- 10.4. Pesticide removal technologies and emerging MPs -- 10.4.1. Adsorption onto activated carbon (AC) -- 10.4.2. Ozonation -- 10.4.3. Ozone-activated carbon combination -- 10.4.4. Advanced chemical oxidation -- 10.4.5. Nanofiltration and reverse osmosis membranes -- 10.5. Frogbox®: an effective monitoring and control tool -- 10.6. The evolution of micropollutants in drinking water plants -- 10.7. References -- Chapter 11. Removal of Perfluorinated Compounds -- 11.1. Physicochemical properties -- 11.2. Presence in the water -- 11.3. Drinking water regulations -- 11.4. Treatments -- 11.4.1. Coagulation-flocculation-settling (or flotation) -- 11.4.2. Chemical oxidation -- 11.4.3. UV oxidation -- 11.4.4. Activated carbon -- 11.4.5. High-pressure membranes: nanofiltration and reverse osmosis -- 11.5. Conclusion -- 11.6. References -- Chapter 12. Biological Removal of Ammonia -- 12.1. The principle of biological nitrification -- 12.2. Design parameters -- 12.2.1. Dissolved oxygen -- 12.2.2. Filtration rate -- 12.2.3. NH4+ concentration removed as a function of temperature (°C) -- 12.2.4. Applicable volume load -- 12.2.5. Contact time -- 12.2.6. Material height -- 12.3. Factors limiting oxygen -- 12.3.1. Mineral carbon -- 12.3.2. pH -- 12.3.3. Temperature -- 12.3.4. Other elements -- 12.3.5. Biological filter washing -- 12.4. Implementation -- 12.4.1. Sand filtration -- 12.5. Biofilters (Biocarbon® process) -- 12.6. Water treatment stations -- 12.6.1. Treatment stations with conventional sand, dual media or GAC filtration -- 12.6.2. Treatment stations with Biocarbon® filters -- 12.7. References -- Chapter 13. Nitrate Removal -- 13.1. Biological treatment.
13.1.1. Biochemical reactions -- 13.1.2. Nitrite formation -- 13.1.3. The bacteriological aspect -- 13.1.4. Biofilter description (Biodenit® process) -- 13.1.5. Water treatment stations including biological denitrification -- 13.1.6. Factors affecting biological denitrification -- 13.1.7. Design parameters: applied volumic load -- 13.1.8. Design parameters: minimum contact time (tc min) -- 13.1.9. Design parameters: height of Biodagen® material (m) -- 13.1.10. Design parameters: material volume (m3) -- 13.1.11. Partial treatment -- 13.1.12. Sludge production -- 13.1.13. The reagents -- 13.1.14. Biological denitrification implementation and exploitation -- 13.2. Treatment with ion exchange resins -- 13.2.1. General exchange mechanism (Ecodenit® process) -- 13.2.2. Ecodenit® process technology -- 13.2.3. Integration into the water treatment station -- 13.2.4. Packaged solutions -- 13.3. Nitrate removal by high pressure membranes -- 13.4. References -- Chapter 14. Removal of Perchlorates -- 14.1. General aspects -- 14.2. Main processes for removing perchlorate ions -- 14.2.1. Ion exchange resins -- 14.2.2. Nanofiltration membranes -- 14.3. Conclusions regarding the removal of perchlorates -- 14.4. References -- Chapter 15. Water Softening -- 15.1. Water hardness -- 15.2. Alkalinity -- 15.3. Langelier index (LI or LSI) -- 15.4. Drinking water hardness goals -- 15.5. General principles of water softening -- 15.5.1. The main chemical reactions with lime and soda -- 15.6. Water softening chemical processes -- 15.6.1. Limitations of the process and empirical considerations -- 15.7. Veolia water softening technologies -- 15.7.1. Clariflocculator -- 15.7.2. Actiflo® softening -- 15.7.3. Multiflo® softening -- 15.7.4. Catalytic water softening -- 15.8. Saphira® process -- 15.9. Water softening using high-pressure membranes. 15.10. Water softening using ion exchange resins -- 15.10.1. Resin resistance: use precautions -- 15.10.2. Ca2+ and Mg2+ removal -- 15.10.3. Bicarbonate removal -- 15.10.4. Resin operating capacity -- 15.10.5. Operating parameters -- 15.11. Comparison between the four water softening solutions discussed -- 15.11.1. Advantages and limitations of the different solutions -- 15.12. References -- Chapter 16. Metal Removal -- 16.1. Iron and manganese removal: general aspects -- 16.1.1. Presence of iron and manganese at the resource level -- 16.1.2. Presence of iron and manganese at the production level -- 16.1.3. Regulatory aspects of iron and manganese -- 16.1.4. Iron and manganese treatments -- 16.2. Arsenic removal -- 16.2.1. Arsenic chemistry -- 16.2.2. Arsenic treatments -- 16.3. Removal of selenium (Se) -- 16.3.1. The chemistry of selenium -- 16.3.2. Selenium removal treatments -- 16.4. Nickel removal -- 16.4.1. The chemistry of nickel -- 16.4.2. Nickel removal treatment -- 16.5. References -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910830942203321 |
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Gaid Kader
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| Hoboken, NJ : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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