Arama Sonuçları - 2.4 characteristic.

Interfacial Bonding Characteristics in Natural Fiber Reinforced Polymer Composites : Fiber-Matrix Interface in Biocomposites. Yazar: Krishnasamy, Senthilkumar

İçindekiler: “…3 Natural Fiber Modifications -- 3.1 Alkaline Treatment -- 3.2 Silane Treatment -- 3.3 Acetylation Treatment -- 3.4 Benzoylation Treatment -- 3.5 Peroxide Treatment -- 3.6 Isocyanate Treatment -- 3.7 Maleated Coupling Agent -- 3.8 Sodium Chlorite Treatment -- 4 Interfacial Bonding Characteristics of Chemically Treated Various Natural Fibers-Reinforced Polymer Matrix Composites -- 4.1 Kenaf Fiber-Reinforced Composite -- 4.2 Bagasse Fiber-Reinforced Composite -- 4.3 Jute Fiber-Reinforced Composite -- 4.4 Coir Fiber-Reinforced Composite -- 4.5 Sisal Fiber-Reinforced Composite -- 5 Summary -- References -- Effect of Fiber Dosage and Chemical Treatment on the Vibrational Behavior of Luffa/ USP Composite -- 1 Introduction -- 2 Experimental Details -- 2.1 NaOH Treatment -- 2.2 Fabrication of Composite Material -- 2.3 Mechanical Properties -- 2.4 Modal Analysis -- 2.5 Damping Factor -- 3 Result and Discussion -- 3.1 Mechanical Properties -- 3.2 Natural Frequency -- 3.3 Damping Factor of Composites -- 4 Conclusion -- References.…”
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Polystyrene : synthesis, characteristics, and applications /

İçindekiler: “…Continuous Process Using a Fluidized Bed Reactors2.2.4. Pyrolysis of PS Mixed with Biomasses; 2.3. …”
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Thermal Plasma Torches : Design, Characteristics, Application. Yazar: Zhukov, M.F

İçindekiler: “…SPEED AND PULSATION CHARACTERISTICS OF ARC ELEMENTS -- 2.4. TOMOGRAPHIC INVESTIGATIONS OF THE ELECTRIC ARC -- 2.4.1. …”
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Lithium batteries and other electrochemical storage systems / Yazar: Glaize, Christian

İçindekiler: “…Storage Requirements Characteristics Of Secondary Batteries Examples Of Use; Chapter 1. …”
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Olives and olive oil as functional foods : bioactivity, chemistry and processing /

İçindekiler: “…2.1 Introduction2.1.1 Classification -- taxonomic hierarchy; 2.2 Botanical characteristics; 2.2.1 Anatomy -- morphology; 2.2.2 Flowering, pollination, and fruit set; 2.3 Cultivation and growth conditions; 2.3.1 Climatic conditions; 2.3.2 Soil conditions; 2.3.3 Factors affecting olive growth and composition; 2.4 Defense mechanisms against various stresses; 2.4.1 Development of defense mechanisms against drought; 2.4.2 Defense mechanisms against combined stresses (drought, salinity, radiation, and heat); 2.5 Factors affecting olive growth and functional compounds…”
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Metal nanopowders : production, characterization, and energetic applications /

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Topology Design of Robot Mechanisms Yazar: Yang, Ting-Li, Liu, Anxin, Shen, Huiping, Hang, LuBin, Luo, Yufeng, Jin, Qiong

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Moving the Masses: Bus-Rapid Transit (BRT) Policies in Low Income Asian Cities Case Studies from Indonesia / Yazar: Wijaya, Suryani Eka, Imran, Muhammad

İçindekiler: “…List of abbreviations -- Indonesian terms -- Introduction -- Chapter 1 Complexities of urban transport in low-income Asian (LIA) cities -- 1.1 Urban transport and climate change issues -- 1.2 Features and characteristics of medium-sized low-income Asian cities -- 1.2.1 Urbanisation in LIA cities -- 1.2.2 Compact urban forms and travel characteristics -- 1.2.3 Transport and environmental characteristics in LIA cities -- 1.2.4 Solutions offered to urban transport problems in LIA cities -- 1.3 Governance and multi-level governance -- 1.3.1 Governance -- 1.3.2 Multi-level governance -- 1.4 The challenges of multi-level governance for LIA cities -- 1.5 Multi-level planning policy issues and responses in Indonesia -- 1.5.1 System for the development of planning and policies -- 1.5.2 Spatial and sectoral planning -- 1.5.3 Urban transport projects -- 1.6 Summary -- Chapter 2 Conceptualising policy tensions in LIA cities -- 2.1 Power, communication, and participation -- 2.1.1 Power in multi-level governance structure -- 2.1.2 Legitimacy, communication, and participation -- 2.2 Multi-level governance in Europe and LIA -- 2.2.1 Multi-level governance in the EU -- 2.2.2 Multi-level governance in the Low-Income Asia -- 2.2.3 Comparison of multi-level governance in Europe and LIA cities -- 2.3 Theoretical framework -- 2.4 Research design -- 2.4.1 Data collection methods -- Chapter 3 Transport planning and policies in Indonesia -- 3.1 Transport and climate change decision-making in Indonesia -- 3.1.1 Government organisations -- 3.1.2 International organisations -- 3.1.3 Non-government organisations -- 3.2 Transport and climate change policies in Indonesia -- 3.2.1 Environment and climate change policy -- 3.2.2 National development planning system -- 3.2.3 Transport policy -- 3.2.4 Spatial planning policy -- 3.2.5 Energy policy -- 3.2.6 Economic policies -- 3.3 Summary -- Chapter 4 Transport planning and policies in Bandung -- 4.1 Personal experience of commuting in Bandung -- 4.2 Bandung urban transport challenges and emerging opportunities -- 4.2.1 Economic growth, urbanization, and urban form -- 4.2.2 Increasing road construction and motorization -- 4.2.3 Air pollution problems -- 4.2.4 Declining public transport patronage -- 4.3 Transport decision-making in Bandung -- 4.3.1 Stakeholders in the decision-making -- 4.3.1.1 International development agencies -- 4.3.1.2 Central government organisations -- 4.3.1.3 Provincial government organisations -- 4.3.1.4 City government organisation -- 4.3.1.5 Public transport operators -- 4.3.1.6 Non-government organisations -- 4.3.2 BRT decision-making in Bandung -- 4.4 Bandung transport policy review -- 4.4.1 Urban spatial planning policy -- 4.4.2 Urban development planning policy -- 4.4.3 Climate change policy -- 4.4.4 Urban transport policy -- 4.4.5 Bandung BRT studies -- 4.5 Policy tensions in the BRT project -- 4.5.1 Institutional-financial power of higher level governments -- 4.5.2 Socio-political power -- 4.5.3 Discourse in advancing BRT in Bandung -- 4.5.4 Communication and participation gaps -- 4.6 Summary -- Chapter 5 Transport planning and policies in Surabaya -- 5.1 Personal experience of communicating in Surabaya -- 5.2 Surabaya urban transport challenges and opportunities -- 5.2.1 Economic role of Surabaya -- 5.2.2 Urban form and transport system -- 5.2.3 Transport externalities -- 5.2.4 Urban public transport system -- 5.3 Transport decision-making process -- 5.3.1 Stakeholders in the decision-making -- 5.3.1.1 International development agencies -- 5.3.1.2 Central government organisations -- 5.3.1.3 Provincial government organisations -- 5.3.1.4 City government organisations -- 5.3.1.5 Public transport operators -- 5.3.1.6 Non-government organisations -- 5.3.2 BRT decision-making in Surabaya -- 5.4 Surabaya transport policy review -- 5.4.1 Urban spatial planning policy -- 5.4.2 Urban development planning policy -- 5.4.3 Climate change policy -- 5.4.4 Infrastructure development policy -- 5.4.5 Urban transport policy -- 5.4.6 Surabaya BRT studies -- 5.5 Policy tensions in urban transport in Surabaya -- 5.5.1 Institutional and financial power at different levels -- 5.5.2 Socio-political power in Surabaya -- 5.5.3 Discursive power in the selection and rejection of the BRT in Surabaya -- 5.5.3.1 Low-cost storyline -- 5.5.3.2 Modern and practical storylines -- 5.5.3.3 Environmentally sustainable storyline -- 5.5.4 Community participation and consultation gaps -- 5.6 Summary -- Chapter 6 Identifying policy tensions in transport planning and policies -- 6.1 Explaining the dynamics of transport and climate change policies -- 6.2 Explaining policy tensions in BRT projects in Bandung and Surabaya -- 6.2.1 Financial-institutional tensions -- 6.2.2 Socio-political tensions -- 6.2.3 Discursive tensions -- 6.2.4 Communication and public participation tensions -- 6.3 The importance of multi-level governance framework -- Chapter 7 Conclusion -- 7.1 Directions for future research -- References -- Appendices.…”
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PEM fuel cells : theory, performance and applications /

İçindekiler: “…Ohmic losses; 2.3.4. Concentration losses; 2.4. Characteristic I-V Curve; 2.5. Energy Efficiency; 2.6. …”
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Introduction to Refractories for Iron- and Steelmaking. Yazar: Biswas, Subir

İçindekiler: “…2.3.3.1 Input-Output in LD Converter -- 2.3.3.2 Reactions in BOF -- 2.3.3.3 Reaction Equilibrium in BOF Steel Making -- 2.3.3.4 Bottom-Stirring Practice in LD Converter -- 2.3.4 Secondary Refining Process -- 2.4 Type of Processes and Special Consideration -- 2.4.1 Ladle Furnaces -- 2.4.1.1 Refining of Liquid Steel -- 2.4.1.2 Steel Alloying -- 2.4.1.3 Stirring Liquid Bath in Ladles -- 2.4.1.4 Chilling Effect on Alloy Addition -- 2.4.1.5 Preheating of Steel Ladle -- 2.4.2 RH-Degasser -- 2.4.2.1 Basics of RH Process -- 2.4.2.2 Multifunctional Burner (MFB) in RH-OB -- 2.4.2.3 Ultra-Low Carbon Steel in RH Vessel -- 2.4.3 CAS-OB -- 2.4.3.1 Basics of CAS-OB -- 2.4.3.2 CAS-OB Reheating -- 2.4.3.3 Refractory Erosion and Snorkel Life -- References -- Chapter 3: Blast Furnace Refractory -- 3.1 Introduction -- 3.2 Demand on Refractory Lining -- 3.2.1 Refractory Practice in Stack -- 3.2.2 Refractory Practice in Bosh and Belly -- 3.2.3 Refractory Practice in TJ Area -- 3.2.3.1 Use of Ramming Masses in Blast Furnace Lining -- 3.2.4 Refractory Practices in Hearth -- 3.2.4.1 Source and Quality of Graphite -- 3.2.4.2 Hot-Pressed Carbon -- 3.2.4.3 Thermal Conductivity -- 3.2.4.4 Corrosion Resistance -- 3.3 Refractory Maintenance Practice -- 3.3.1 Robotic Stack Gunning -- 3.3.1.1 Arrangements for Robotic Gunning -- 3.3.1.2 Blast Furnace Wall Cleaning -- 3.3.2 Grouting Refractory -- 3.3.2.1 Decisions on Grouting in Stack and Bosh -- 3.3.2.2 Preparation for Grouting -- 3.3.2.3 Decision on Grouting in Hearth Side Wall -- 3.3.3 TiO2 Injection [18] -- 3.4 Consideration to Prolong Blast Furnace Campaign -- 3.4.1 Designing Features -- 3.4.1.1 Design on Thermal Gradient -- 3.4.1.2 Heat Conduction in a Multilayer Refractory Lining in Straight Wall -- 3.4.1.3 Heat Flux Calculation through Circular Wall -- 3.4.1.4 Design on Thermo-Mechanical Stress.…”
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Control Applications of Vehicle Dynamics. Yazar: Yu, Jingsheng

İçindekiler: “…Velocities of Points on a Rigid Body -- 2.4. Vehicle Velocities and Accelerations -- 2.5. …”
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Antioxidant Polymers : Synthesis, Properties, and Applications /

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Handbook of Gas Sensor Materials : Properties, Advantages and Shortcomings for Applications Volume 1: Conventional Approaches. Yazar: Korotcenkov, Ghenadii

İçindekiler: “…References -- Chapter 18: Humidity-Sensitive Materials -- 18.1 Humidity Sensors -- 18.2 Materials Acceptable for Application in Humidity Sensors -- 18.2.1 Polymers -- 18.2.2 Metal Oxide Ceramics -- 18.2.3 Porous Semiconductors (Silicon and Other) -- 18.2.4 Other Materials and Approaches -- References -- Chapter 19: Materials for Field Ionization Gas Sensors -- References -- Chapter 20: Gas Sensors Based on Thin-Film Transistors -- 20.1 Thin-Film Transistors -- 20.2 Gas-Sensing Characteristics of Organic Thin-Film Transistors -- 20.3 Metal Oxide-Based Thin-Film Transistors -- 20.4 Other Materials in Thin-Film Transistor-Based Gas Sensors -- References -- Author Biography -- Index.…”
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Fully Implicit, Coupled Procedures in Computational Fluid Dynamics An Engineer's Resource Book / Yazar: Mazhar, Zeka

İçindekiler: “…Preface -- Chapter 1 Introduction -- 1.1 Scope of the Book -- 1.2 Outline of the Book -- Chapter 2 Preliminaries -- 2.1 Quadratic Interpolation -- 2.2 Approximations using Lagrangian Polynomial -- 2.3 Approximations using Taylor Series -- 2.4 General Elimination Technique for Linear Systems -- 2.5 Solution Techniques for Special Linear Systems -- Chapter 3 Governing Differential Equations -- 3.1 Governing Equations -- 3.2 Characteristics of the Governing Equations -- 3.3 The Velocity-Pressure Coupling Problem -- Chapter 4 Finite Difference Formulations -- 4.1 Manipulation of the Momentum Equations -- 4.2 Grid Arrangement for the Solution -- 4.3 Profile Assumptions for the Discretizations -- 4.4 Discretization of the Governing Equations -- 4.5 A Discussion on the Profile Assumptions -- Chapter 5 Preparations For Solution -- 5.1 The Solution Region -- 5.2 Boundary Conditions -- 5.3 Incorporating Relaxation -- Chapter 6 Assembling The Discretized Equations Into A Block Matrix System -- 6.1 The Numbering Scheme -- 6.2 Construction of the Block Matrix System -- 6.3. …”
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Blast Protection of Buildings. Yazar: Engineers, American Society of Civil

İçindekiler: “…6.3.1.4 Concrete Frame with Concrete Shear Wall Systems -- 6.3.1.5 Precast Tilt-Up with Concrete Shear Wall Systems -- 6.3.1.6 Reinforced Masonry Bearing/Shear Walls -- 6.4 RESPONSE CHARACTERISTICS -- 6.4.1 Close-In Effects -- 6.4.2 Far-Range Effects -- Chapter 7: PROTECTION OF SPACES -- 7.1 GENERAL PROVISIONS -- 7.2 WALLS AND SLABS ISOLATING INTERNAL THREATS -- 7.2.1 Scope -- 7.2.2 Threat Locations for Buildings with Controlled Access -- 7.2.3 Design Provisions for Walls and Slabs Isolating Internal Threats -- 7.2.4 Stairwell Enclosures -- 7.2.5 Hardened Plenums -- 7.2.5.1 Design Provisions for Hardened Plenums -- 7.3 SAFE HAVENS -- 7.3.1 Design Considerations -- 7.3.2 Applicable Loads and Performance -- 7.3.3 Resistance to Progressive Collapse -- 7.3.4 Location within Building -- 7.3.5 Accessibility to Egress -- 7.3.6 Fire Rating -- Chapter 8: EXTERIOR ENVELOPE -- 8.1 DESIGN INTENT -- 8.1.1 General -- 8.1.2 Exterior Structural Components -- 8.2 DESIGN PROCEDURES -- 8.2.1 General -- 8.2.2 Response Criteria -- 8.2.3 Analytical Methods -- 8.2.4 Balanced Design -- 8.2.5 Flying Fragments -- 8.3 FENESTRATION -- 8.3.1 General -- 8.3.2 Blast-Mitigating Window Systems -- 8.3.2.1 Glazing -- 8.3.2.2 Frame and Mullion Design -- 8.3.2.3 Connections and Anchorage -- 8.3.2.4 Rebound Loads -- 8.3.3 Curtain Wall Systems -- 8.3.4 Skylights -- 8.3.5 Operable Windows -- 8.3.6 Doors -- 8.3.6.1 Non-Blast-Resistant Doors -- 8.3.6.2 Public-Access Glass Doors -- 8.3.6.3 Oversized and Rollup Flexible Metal Doors -- 8.3.6.4 Other Doors -- 8.4 NON-LOAD-BEARING EXTERIOR WALLS -- 8.4.1 General -- 8.4.1.1 -- 8.4.1.2 -- 8.4.1.3 -- 8.4.1.4 -- 8.4.2 Cast-in-Place, Precast, and Tilt-Up Concrete Walls -- 8.4.3 Pretensioned and Posttensioned Concrete Wall Panels -- 8.4.4 Masonry Walls -- 8.4.4.1 -- 8.4.4.2 -- 8.4.4.3 -- 8.4.5 Steel Wall Systems -- 8.4.6 Other Wall Systems.…”
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Sustainable Shipping : A Cross-Disciplinary View. Yazar: Psaraftis, Harilaos N.

İçindekiler: “…2.3.2 Forebody Optimization -- 2.3.3 Aftbody Optimization -- 2.3.4 Appendage Resistance -- 2.3.5 Maneuvering and Course-Keeping Considerations -- 2.4 Propulsion Arrangement and Propeller Selection -- 2.4.1 Single Screw Vessels -- 2.4.2 Twin-Screw Open Shaft -- 2.4.3 Azimuthing Propulsion and Pod Propulsion -- 2.5 Energy-Saving Devices -- 2.5.1 Overview -- 2.5.2 Evaluation and Analysis of Energy-Saving Devices (ESDs) -- 2.5.3 Wake Equalizing Duct and/or Flow Guide Fins -- 2.5.4 Pre-swirl Devices -- 2.5.5 Rudder Position -- 2.5.6 Rudder Bulb -- 2.5.7 Twisted Rudder -- 2.6 Novel Technologies -- 2.6.1 Air Lubrication -- 2.6.2 Renewable Energy -- 3 Machinery Technology -- 3.1 Main and Auxiliary Internal Combustion Engines -- 3.1.1 Propulsion and Power Generation Arrangements -- 3.1.2 Propulsion Engines -- 3.1.3 Power Generation Engines -- 3.2 Engine Design Trends and Trade Offs -- 3.2.1 Design Trends -- 3.2.2 Trade-Offs -- 3.2.3 Fuel Consumption Characteristics -- 3.2.4 Air Pollution Considerations -- 3.3 Internal Combustion Engine Efficiency Improvements -- 3.3.1 Propulsion Engine Derating -- 3.3.2 Slow Steaming -- 3.3.3 Electronic Engine Control and Common Rail -- 3.3.4 Engine Instrumentation, Monitoring, and Control -- 3.3.5 Energy Efficiency Optimization -- 3.3.6 Exhaust Emission Abatement Equipment -- 3.4 Waste Heat Recovery -- 3.5 Auxiliary Equipment -- 3.5.1 Shaft Generator -- 3.5.2 Number/Size of Ships Auxiliary Generators and Power Management Systems -- 3.5.3 Heating, Ventilation, and Air Conditioning (HVAC) -- 3.5.4 Variable Speed Motors: Pumps and Fans -- 3.6 Hybrid Systems and Equipment -- 3.6.1 Batteries -- 3.6.2 Alternative Energy Sources -- 4 Ballast Water Management -- 4.1 Requirements Under the BWM Convention -- 4.2 Requirements in the United States -- 4.2.1 Federal Regulations Under the US Coast Guard.…”
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Geotechnical Modelling. Yazar: Muir Wood, David

İçindekiler: “…Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- 1 Introduction to modelling -- 1.1 Introduction -- 1.2 Empirical models -- 1.2.1 Vane strength correction -- 1.2.2 Consolidation settlement -- 1.2.3 Cone penetration test and settlement of footings on sand -- 1.2.4 Pressuremeter -- 1.3 Theoretical models -- 1.3.1 Steady seepage -- 1.4 Numerical modelling -- 1.5 Constitutive modelling -- 1.6 Physical models -- 1.6.1 Physical models: full-scale -- 1.6.2 Physical models: small-scale -- 1.7 Geological model -- 1.8 Classification model -- 1.9 Conclusion -- 2 Characteristics of soil behaviour -- 2.1 Introduction -- 2.2 Particle-continuum duality -- 2.3 Laboratory element testing -- 2.4 Stress and strain variables -- 2.5 Stiffness -- 2.5.1 Nonlinearity: secant and tangent stiffness -- 2.5.2 Stiffness and strain measurement -- 2.5.3 Stiffness and history: stress response envelopes -- 2.5.4 Anisotropy of stiffness -- 2.6 Dilatancy -- 2.6.1 Critical states: state variable -- 2.6.2 Pore pressure parameter -- 2.7 Strength -- 3 Constitutive modelling -- 3.1 Introduction -- 3.2 Elastic models -- 3.2.1 Conventional drained triaxial compression test -- 3.2.2 Conventional undrained triaxial compression test -- 3.2.3 Measurement of elastic parameters with different devices -- 3.2.4 Anisotropy -- 3.2.5 Nonlinearity -- 3.2.6 Heterogeneity -- 3.3 Elastic-perfectly plastic models -- 3.3.1 General elastic-perfectly plastic model -- 3.3.2 A digression: collapse of portal frame -- 3.3.3 General elastic-perfectly plastic model (continued) -- 3.3.4 Elastic-perfectly plastic Mohr-Coulomb model -- 3.4 Elastic-hardening plastic models -- 3.4.1 Extended Mohr-Coulomb model -- 3.4.2 Cam clay -- 3.5 Modelling non-monotonic loading -- 3.6 Modelling cementation and structure -- 3.7 Modelling rate effects -- 3.8 Design of programmes of laboratory tests.…”
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Antenna Fundamentals for Legacy Mobile Applications and Beyond

İçindekiler: “…Introduction -- Section I Evolution of the Mobile Antenna: 3G, 4G and beyond -- Fundamentals of antenna design, technologies and applications -- Section II Multi-band Antennas -- Design of Dual-band Planar Inverted F-L-Structure for frequency bands of the IEEE 802.11a/b/g, Bluetooth and ZigBee standards -- Double-Monopole Crescent-Shaped Antennas with High Isolation for WLAN and WIMAX Applications -- Electrically Small Planar Antenna based on Metamaterial -- Section III Wide band Antennas -- Effect of Aperture-Coupled Asymmetric Four (and five) DRA elements on the defected Ground Plan of Microstrip line for Ultra-Wideband -- A sample and compact planar ultra wide-band antenna with single or dual band-notched characteristics -- A Miniaturised Monopole Wideband Antenna with Tuneable Notch for WLAN/WiMAX Application -- Section IV MIMO Antennas -- Miniaturized EBG Two U-shape MIMO PIFA Antenna for mobile handset applications -- Compact design of MIMO antenna array Operating on 2.4 GHz and 5.2 GHzfor wireless applications -- Compact Wide Band Printed MIMO/Diversity Monopole Antenna for GSM/UMTS and LTE Applications -- SECTION V Balanced Antennas -- Compact Structure of 3G Mobile Handsets wideband Balanced Antenna -- Coplanar-Fed Miniaturized Folded Loop Balanced Antenna for Use in WLAN Applications -- Performance of Dual-band balanced Antenna Structure for LTE -- SECTION VI mmWAVE Antenna for 5G -- Millimeter-Wave Pattern Reconfigurable Antenna -- Wide Angle Beam Scanning Antenna at 79 GHz for Short Range Automotive Radar Applications -- Conclusion.…”
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Design of Marine Facilities : Engineering for Port and Harbor Structures. Yazar: Gaythwaite, John W.

İçindekiler: “…Intro -- Contents -- Foreword -- Preface -- Acknowledgments -- Notations -- Nomenclature -- Chapter 1: Introduction -- 1.1 Scope and Purpose -- 1.2 Marine Civil Engineering -- 1.3 Port and Harbor Facilities -- 1.4 Design of Marine Facilities -- 1.5 Design Guidance and Information Sources -- References -- Chapter 2: Vessel Characteristics and Dimensions -- 2.1 Definitions -- 2.2 Hull Form and Features -- 2.3 Hull Construction -- 2.4 Vessel Types and Dimensions -- References -- Chapter 3: General Design Considerations -- 3.1 Design Criteria and General Considerations -- 3.2 Site Selection and Layout -- 3.3 Facility-Type Requirements -- 3.4 Environmental Conditions -- 3.5 Materials for Marine Construction -- References -- Chapter 4: Operational and Environmental Loads -- 4.1 Cargo Loads -- 4.2 Vehicular and Mobile Equipment Loads -- 4.3 Rail-Mounted and Material-Handling Equipment -- 4.4 Port Buildings and Miscellaneous Structures -- 4.5 Environmental Loads -- 4.6 Seismic Loads and Ground Motions -- 4.7 Tsunami Effects in Ports -- 4.8 Other Load Sources and Design Considerations -- Acknowledgments -- References -- Chapter 5: Berthing Loads and FenderSystem Design -- 5.1 Berthing Fundamentals -- 5.2 Berthing Ship Geometry -- 5.3 The Added Mass Factor -- 5.4 Berthing Impact Energy Determination -- 5.5 Fender System Types and Selection -- 5.6 Fender System Layout and Design -- 5.7 Fender Materials and Specifications -- References -- Chapter 6: Mooring Loads and Design Principles -- 6.1 Mooring Principles -- 6.2 Mooring Analysis -- 6.3 Mooring Lines -- 6.4 Mooring Hardware and Equipment -- 6.5 Wind Forces -- 6.6 Current Forces -- 6.7 Passing Vessel Effects -- 6.8 Wave Loads and Vessel Motions -- 6.9 Analytical Treatment and Modeling -- 6.10 Physical Model Testing -- 6.11 Operational Considerations -- References -- Chapter 7: Design of Fixed Structures.…”
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Reflections on Power Prediction Modeling of Conventional High-Speed Craft Yazar: Radojčić, Dejan

İçindekiler: “…1 Introduction -- 1.1 Objectives -- 1.2 Conventional High-Speed Craft (HSC) -- 1.3 Resistance, Propulsion, and Power Prediction -- 1.4 Common Mistakes -- 1.5 Excluded Topics -- References -- 2 Mathematical Modeling -- 2.1 Statistical Modeling -- 2.2 Model Extraction Tools -- 2.3 Hardware -- 2.4 Conclusions on Mathematical Modeling -- References -- 3 Resistance And Dynamic Trim Predictions -- 3.1 An Overview of Early Resistance Prediction Mathematical Models -- 3.2 Types of Mathematical Models for Resistance Prediction -- 3.3 Systematic Series Applicable to Conventional High-Speed Craft -- 3.4 Mathematical Modeling of Resistance and Dynamic Trim for High-Speed Craft -- 3.5 Future Work - Stepped Hulls -- 3.6 Mathematical Model Use -- 3.7 Recommended Mathematical Models for Resistance and Dynamic Trim Prediction -- References -- 4 Propeller's Open-Water Efficiency Prediction -- 4.1 An Overview of Modeling Propeller's Hydrodynamic Characteristics -- 4.2 Mathematical Modeling of KT, KQ, and ηO of High-Speed Propellers -- 4.3 Loading Criteria for High-Speed Propellers -- 4.4 Recommended Mathematical Models for High-Speed Propellers -- References -- 5 Additional Resistance Components And Propulsive Coefficients -- 5.1 Evaluation of In-Service Power Performance -- 5.2 Resistance Components - Calm and Deep Water -- 5.3 Resistance in a Seaway -- 5.4 Resistance in Shallow Water -- 5.5 Propulsive Coefficients -- 5.6 Recommended References for Evaluation of Additional Resistance Components and Propulsive Coefficients -- References -- 6 Power Prediction -- 6.1 Power and Performance Predictions for High-Speed Craft -- 6.2 Classics -- 6.3 Modernism -- 6.4 Another Perspective -- References -- 7 Concluding Remarks -- References.…”
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