Arama Sonuçları - tubular bells~

Fuel cell systems explained / Yazar: Dicks, Andrew, Rand, D. A. J. (David Anthony James), 1942-

İçindekiler: “…7.3 Principles of Operation -- 7.3.1 Electrolyte -- 7.3.2 Electrodes and Catalysts -- 7.3.3 Stack Construction -- 7.3.4 Stack Cooling and Manifolding -- 7.4 Performance -- 7.4.1 Operating Pressure -- 7.4.2 Operating Temperature -- 7.4.3 Effects of Fuel and Oxidant Composition -- 7.4.4 Effects of Carbon Monoxide and Sulfur -- 7.5 Technological Developments -- Further Reading -- Chapter 8 Molten Carbonate Fuel Cells -- 8.1 Principles of Operation -- 8.2 Cell Components -- 8.2.1 Electrolyte -- 8.2.2 Anode -- 8.2.3 Cathode -- 8.2.4 Non-Porous Components -- 8.3 Stack Configuration and Sealing -- 8.3.1 Manifolding -- 8.3.2 Internal and External Reforming -- 8.4 Performance -- 8.4.1 Influence of Pressure -- 8.4.2 Influence of Temperature -- 8.5 Practical Systems -- 8.5.1 Fuel Cell Energy (USA) -- 8.5.2 Fuel Cell Energy Solutions (Europe) -- 8.5.3 Facilities in Japan -- 8.5.4 Facilities in South Korea -- 8.6 Future Research and Development -- 8.7 Hydrogen Production and Carbon Dioxide Separation -- 8.8 Direct Carbon Fuel Cell -- Further Reading -- Chapter 9 Solid Oxide Fuel Cells -- 9.1 Principles of Operation -- 9.1.1 High-Temperature (HT) Cells -- 9.1.2 Low-Temperature (IT) Cells -- 9.2 Components -- 9.2.1 Zirconia Electrolyte for HT-Cells -- 9.2.2 Electrolytes for IT-Cells -- 9.2.2.1 Ceria -- 9.2.2.2 Perovskites -- 9.2.2.3 Other Materials -- 9.2.3 Anodes -- 9.2.3.1 Nickel-YSZ -- 9.2.3.2 Cathode -- 9.2.3.3 Mixed Ionic-Electronic Conductor Anode -- 9.2.4 Cathode -- 9.2.5 Interconnect Material -- 9.2.6 Sealing Materials -- 9.3 Practical Design and Stacking Arrangements -- 9.3.1 Tubular Design -- 9.3.2 Planar Design -- 9.4 Performance -- 9.5 Developmental and Commercial Systems -- 9.5.1 Tubular SOFCs -- 9.5.2 Planar SOFCs -- 9.6 Combined-Cycle and Other Systems -- Further Reading -- Chapter 10 Fuels for Fuel Cells -- 10.1 Introduction -- 10.2 Fossil Fuels.…”
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Nanostructured Materials for Next-Generation Energy Storage and Conversion Fuel Cells /

İçindekiler: “…Traditional Materials and New Trends -- Recent Progress on the Utilization of Nano Materials in Micro-Tubular Solid Oxide Fuel Cell -- Nanostructured Materials for Advanced Energy Conversion and Storage Devices: Safety Implications at End-of-Life Disposal.…”
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Computational Biomechanics for Medicine Imaging, Modeling and Computing /

İçindekiler: “…Patient-specific Cartilage Models -- Role of Ligaments in the Knee Joint Kinematic Behavior: Development and Validation of a Finite Element model -- Challenges to Validate Multi-physics Model of Liver Tumor Radiofrequency Ablation from Pre-clinical Data -- Robust Landmark Identification for Generating Subject Specific Models for Biomechanics -- Forward Problem of Time-Resolved Diffuse Optical Tomography Considering Biological Tissue Deformation -- Mechanical Models of Endothelial Mechanotransmission Based on a Population of Cells -- Investigation of Modelling Parameters for Finite Element Analysis of MR Elastography -- Fuzzy Tissue Classification for Non-linear Patient-Specific Biomechanical Models for Whole-Body Image Registration -- GPU-Based Fast Finite Element Solution for Nonlinear Anisotropic Material Behavior And Comparison of Integration Strategies -- Fast Prediction of Femoral Biomechanics Using Supervised Machine Learning and Statistical Shape Modeling -- Some Use Cases for Composite Finite Elements in Image Based Computing -- Part II: Vascular System and the Brain -- Computational Simulation of Blood Flow and Drug Transportation in a Large Vasculature -- Fundus Image Based Blood Flow Simulation of the Retinal Arteries -- Integration of an Electrophysiologically-Driven Heart Model into Three-Dimensional Haemodynamics Simulation using the CRIMSON Control Systems Framework -- Simulating Patient Specific Multiple Time-point MRIs from a Biophysical Model of Brain Deformation in Alzheimer's Disease -- Traumatic Brain Injury - an Investigation into Shear Waves Interference Effects -- Modeling of Bifurcated Tubular Structures for Vessel Segmentation -- Modelling the Presence of Diffuse Axonal Injury in Primary Phase Blast-Induced Traumatic Brain Injury.…”
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