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200 10$aComplex TV $ethe poetics of contemporary television storytelling /$fJason Mittell
210  1$aNew York ;$aLondon :$cNew York University Press,$d[2015].
210  4$d©2015
215   $a1 online resource (x, 391 pages)
311 0 $aPrint version: Mittell, Jason. Complex TV : the poetics of contemporary television storytelling. New York, New York ; London, England : New York University Press, c2015 x, 391 pages 9780814771358 2014040997 
311 0 $a9780814769607 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tAcknowledgments --$tIntroduction --$t1. Complexity in Context --$t2. Beginnings --$t3. Authorship --$t4. Characters --$t5. Comprehension --$t6. Evaluation --$t7. Serial Melodrama --$t8. Orienting Paratexts --$t9. Transmedia Storytelling --$t10. Ends --$tNotes --$tIndex --$tAbout the Author
330   $aOver the past two decades, new technologies, changing viewer practices, and the proliferation of genres and channels has transformed American television. One of the most notable impacts of these shifts is the emergence of highly complex and elaborate forms of serial narrative, resulting in a robust period of formal experimentation and risky programming rarely seen in a medium that is typically viewed as formulaic and convention bound. Complex TV offers a sustained analysis of the poetics of television narrative, focusing on how storytelling has changed in recent years and how viewers make sense of these innovations. Through close analyses of key programs, including The Wire, Lost, Breaking Bad, The Sopranos, Veronica Mars, Curb Your Enthusiasm, and Mad Men the book traces the emergence of this narrative mode, focusing on issues such as viewer comprehension, transmedia storytelling, serial authorship, character change, and cultural evaluation. Developing a television-specific set of narrative theories, Complex TV argues that television is the most vital and important storytelling medium of our time.
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200 00$aMeasurement and Safety $eVolume I /$fedited by Béla G. Lipták and Kriszta Venczel
205   $aFifth edition.
210  1$aBoca Raton, FL :$cTaylor and Francis, an imprint of CRC Press,$d2016.
215   $a1 online resource (2,226 pages) $cillustrations
311 08$a1-4987-2764-6 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aCover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Table of Contents -- Introduction -- Contributors -- 1: General Considerations -- 1.1 Accuracy and Rangeability -- 1.2 Binary Logic Diagrams -- 1.3 Calibration -- 1.4 Configuring Intelligent Field Devices -- 1.5 Evaluation of Instrument Quality -- 1.6 Instrument Installation -- 1.7 Redundant and Voting Systems -- 1.8 Soft Sensors -- 1.9 Terminology for Automation and Testing -- 1.10 Uncertainty: Estimation, Propagation, and Reporting -- 2: Flow Measurement -- 2.1 Flowmeter Selection -- 2.2 Applications: Abrasive, Corrosive, Slurry -- 2.3 Applications: Bidirectional Flowmeters -- 2.4 Applications: Multiphase and Subsea Flowmeters -- 2.5 Applications: Multiphase Hydrocarbon Metering -- 2.6 Calibration and Maintenance -- 2.7 Installation -- 2.8 Anemometers -- 2.9 BTU Flow Measurement: Fuel Gas -- 2.10 BTU Flow Measurement: Liquids -- 2.11 Cross-Correlation Flowmetering -- 2.12 Elbow Flowmeters -- 2.13 Flow Switches -- 2.14 Laminar Flowmeters -- 2.15 Magnetic Flowmeters -- 2.16 Mass Flowmeters: Coriolis -- 2.17 Mass Flowmeters: Indirect and Turbine -- 2.18 Mass Flowmeters: Thermal -- 2.19 Metering Pumps -- 2.20 Oil-Custody Transfer -- 2.21 Orifices -- 2.22 Paddle Flow Switches -- 2.23 Pitot and Area-Averaging Tubes -- 2.24 Positive-Displacement Gas Meters -- 2.25 Positive-Displacement Liquid Meters and Provers -- 2.26 Purge Flow Regulators -- 2.27 Segmental Wedge Flowmeter -- 2.28 Sight Flow Indicators -- 2.29 Solids Flowmeter and Feeder -- 2.30 Target Meters -- 2.31 Turbine and Other Rotary Element Flowmeters -- 2.32 Ultrasonic Flowmeters -- 2.33 Variable Area, Gap, and Vane Flowmeters -- 2.34 Venturi, Proprietary Tubes, and Flow Nozzles -- 2.35 Vortex and Fluidic Flowmeters -- 2.36 V-Shaped Cone Flow Elements -- 2.37 Weirs and Flumes for Open Channels -- 3: Level Measurement.
327   $a3.1 Selection of Level Detectors -- 3.2 Installation Considerations -- 3.3 Applications: Interface, Foam, Boiling Services -- 3.4 Applications: Non-Contacting, Non-Penetrating -- 3.5 Applications: Tank Gauges for Oil and Gas -- 3.6 Applications: Water Level Measurement in Nuclear Reactors -- 3.7 Bubblers -- 3.8 Capacitance and Radio Frequency (RF) Admittance -- 3.9 Conductivity and Field-Effect Level Switches -- 3.10 Diaphragm Level Detectors -- 3.11 Differential Pressure Level Detectors -- 3.12 Displacer Type Level Detectors -- 3.13 Float Level Devices -- 3.14 Laser Level Sensors -- 3.15 Level Gauges, Including Magnetic -- 3.16 Magnetostrictive Level Transmitters -- 3.17 Microwave Level Switches -- 3.18 Optical and IR Level Switches -- 3.19 Radar: Contact Level Sensors (TDR, GWR, and PDS) -- 3.20 Radar: Non-Contacting Level Sensors -- 3.21 Radiation Level Sensors -- 3.22 Resistance Tapes -- 3.23 Rotary Paddle Switches (Solids Level Detector) -- 3.24 Tank Farm Gauges for Liquids and Solids -- 3.25 Thermal Dispersion Level Sensors -- 3.26 Ultrasonic Level Detectors -- 3.27 Vibrating Level Switches -- 4: Temperature Measurement -- 4.1 Selection of Temperature Sensors -- 4.2 Applications: Cryogenic Temperature Measurement -- 4.3 Applications: High Temperature -- 4.4 Bimetallic Thermometers -- 4.5 Calibrators and Simulators -- 4.6 Cones, Crayons, Labels, Paints, and Pellets -- 4.7 Filled-Bulb and Glass-Stem Thermometers -- 4.8 Integrated Circuitry (IC), Transistors and Diodes -- 4.9 Miscellaneous Temperature Sensors -- 4.10 Optical Fiber Thermometers (OFT) -- 4.11 Radiation Pyrometers: Infrared (IR), Total, and Optical -- 4.12 Resistance Temperature Detectors (RTDs) -- 4.13 Temperature Switches and Thermostats -- 4.14 Thermistors -- 4.15 Thermocouples -- 4.16 Thermowells -- 4.17 Ultrasonic Thermometers -- 5: Pressure Measurement.
327   $a5.1 Selection of Pressure Detectors -- 5.2 Accessories (Seals, Snubbers, Calibrators, Manifolds) -- 5.3 Bellows Elements and Barometers -- 5.4 Bourdon and Helical Elements -- 5.5 Diaphragm or Capsule Elements -- 5.6 Differential Pressure Instruments -- 5.7 Electronic Pressure Sensors -- 5.8 High-Pressure Sensors -- 5.9 Manometers -- 5.10 Pneumatic Repeaters and Boosters -- 5.11 Pressure and Differential Pressure (D/P) Switches -- 5.12 Pressure Gauges -- 5.13 Pressure Scanners -- 5.14 Vacuum Sensors -- 6: Density Measurement -- 6.1 Selection of Density Detectors -- 6.2 Displacement and Float-Type Densitometers -- 6.3 Gas Densitometers -- 6.4 Hydrometers -- 6.5 Hydrostatic Densitometers -- 6.6 Oscillating Densitometers (Coriolis) -- 6.7 Radiation Densitometers -- 6.8 Ultrasonic Sludge Slurry Densitometers -- 6.9 Vibrating Densitometers -- 6.10 Weighing Densitometers -- 7: Miscellaneous Sensors -- 7.1 Building Optimization Sensors -- 7.2 Electric Energy Management: Demand Shedding -- 7.3 Electric Meters -- 7.4 Machine Vision Technology -- 7.5 Metal Detectors -- 7.6 Noise Sensors and Nondestructive Testing -- 7.7 Nuclear Reactor Measurements -- 7.8 Pipe Integrity Gauges (PIGs) -- 7.9 Position Measurement, Linear and Angular -- 7.10 Proximity Sensors and Limit Switches -- 7.11 Solar Collector Positioning -- 7.12 Tachometers and Angular Speed Detectors -- 7.13 Thickness and Dimension Measurement -- 7.14 Torque and Force Measurement -- 7.15 Transportation Related Sensors -- 7.16 Vibration, Shock, and Acceleration -- 7.17 Visual Inspection Tools, Borescopes -- 7.18 Weather Stations -- 7.19 Weight Detectors Load Cells -- 7.20 Weighing Systems -- 8: Safety Sensors -- 8.1 Annunciators and Alarms Management -- 8.2 Electrical and Intrinsic Safety -- 8.3 Excess Flow and Regular Check Valves -- 8.4 Explosion Proofing of Instrumentation.
327   $a8.5 Explosion Suppression and Deluge Systems -- 8.6 Flame Arrestor, Conservation and Emergency Vents -- 8.7 Flame, Fire, and Smoke Detectors -- 8.8 Nuclear Accidents -- 8.9 Nuclear Radiation Detectors -- 8.10 Oil Industry Accidents -- 8.11 Relief Valves: Determination of Required Capacity -- 8.12 Relief Valves: Sizing, Specification, and Installation -- 8.13 Rupture Discs -- 9: Transmitters -- 9.1 Transmitters: Electronic -- 9.2 Transmitters: Fiber-Optic -- 9.3 Transmitters: Pneumatic -- 9.4 Transmitters: Smart, Multivariable -- 9.5 Transmitters: Wireless -- Appendix -- A.1 Definitions -- A.2 Abbreviations, Acronyms, and Symbols -- A.3 Organizations -- A.4 Flowsheet and Functional Diagrams Symbols -- A.5 Conversion among Engineering Units -- A.6 Chemical Resistance of Materials -- A.7 Composition and Properties of Metallic and Other Materials -- A.8 Steam and Water Tables -- A.9 Friction Loss in Pipes -- A.10 Tank Volumes -- Index.
330   $aThis handbook is dedicated to the next generation of automation engineers working in the fields of measurement, control, and safety, describing the sensors and detectors used in the measurement of process variables.
606   $aProcess control$vHandbooks, manuals, etc
606   $aMeasuring instruments$vHandbooks, manuals, etc
606   $aAutomatic control$vHandbooks, manuals, etc
606   $aPlant engineering$xSafety measures$vHandbooks, manuals, etc
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615  0$aPlant engineering$xSafety measures
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702   $aVenczel$b Kriszta 
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