RF Positioning : Fundamentals, Applications, and Tools. by Campos, Rafael Saraiva

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Sensorimotor cognition and natural language syntax by Knott, Alistair, 1967-

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Biofuel technologies for a sustainable future : India and beyond

Table of Contents: “…Preface xi List of Figures xiii List of Tables xv List of Contributors xvii List of Abbreviations xix 1 Current Scenario of Renewable Energy in India and Its Possibilities in the Future 1 1.1 Introduction 2 1.2 Renewable Energy 3 1.2.1 Biomass 3 1.2.2 Biofuels 6 1.2.3 Small Hydro 7 1.2.4 Solar Energy 8 1.2.4.1 Grid-connected 9 1.2.4.2 Off-grid solar PV program 10 1.2.5 Wind Energy 12 1.2.6 Waste to Energy 14 1.2.7 Geothermal Energy 16 1.3 Future of Renewable Energy in India 18 1.4 Policy Gaps and Opportunities 19 1.5 Conclusion 22 References 22 2 Application of Green Nanomaterials for Sustainable Energy Systems: A Review of the Current Status 25 2.1 Introduction 26 2.2 Use of Nanotechnology for Improved Energy Efficiency 27 2.3 Nanomaterials and Sustainability Issues 30 2.4 Green Nanomaterials Enhancing the Sustainability in Energy Applications 32 2.4.1 Green Reagents Used During Nanoparticle Synthesis 33 2.4.2 Green Processes Involved in Nanoparticle Synthesis 36 2.4.3 Biomass Based Green Nanotechnology in Energy Devices 38 2.5 Conclusion 41 References 42 3 Production of Energy from Biowaste: An Overview of the Underlying Biological Technologies 51 3.1 Introduction 52 3.2 Current Technologies for Energy Generation from Biowaste 53 3.3 Anaerobic Digestion for Generation of Biogas 55 3.4 Microbial Fermentation for Bioethanol Generation 58 3.5 Microbial Fermentation for Bio-Hydrogen Generation 62 3.6 Transesterification for Biodiesel Generation 64 3.7 Discussion on Potential Challenges and Solutions for Biofuel Generation 65 3.8 Conclusion 67 References 68 4 Coconut Shell-Based Activated Carbon Supported Metal Oxides in Catalytic Cracking Activity 79 4.1 Introduction 80 4.2 Experimental Procedures 81 4.2.1 Material 81 4.2.2 Catalyst Preparation 81 4.2.3 Catalytic Cracking of Waste Cooking Oil 82 4.2.4 Product Analysis 83 4.3 Results and Discussion 84 4.3.1 Properties of Waste Cooking Oil 84 4.3.2 Catalytic Cracking of Waste Cooking Oil 84 4.3.2.1 Activated carbon-based catalysts 84 4.3.2.2 Activated carbon supported metal oxides 89 4.3.3 Characterization of Activated Carbon Supported Metal Catalysts 92 4.3.3.1 X-ray diffraction (XRD) analysis 92 4.3.3.2 Scanning electron microscopy (SEM) 95 4.3.3.3 Temperature programmed desorption (TPD) 97 4.3.3.4 Catalyst stability test 98 4.4 Conclusion 98 References 99 5 Biofuels - Are they a Sustainable Alternative? …”
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Sex and the brain

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The law and practice of restructuring in the UK and US

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Oral and maxillofacial pathology

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The Performance Management Systems Playbook : Integrating the ISO 56002 and 56004 Standards Into Your Business Operations. by Harrington, H. J. (H. James)

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CCENT Cisco Certified Entry Networking Technician ICND1 : study guide by Lammle, Todd

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Advanced wireless communications & Internet : future evolving technologies by Glisic, Savo G.

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Computational models for polydisperse particulate and multiphase systems by Marchisio, Daniele L., Fox, Rodney O., 1959-

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Source Separation and Decentralization for Wastewater Management.

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Fluid-structure interaction : an introduction to finite element coupling by Sigrist, Jean-François

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Rust data engineering.

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Upscaling of single-and two-phase flow in reservoir engineering by Bruining, Hans

Table of Contents: “…Sheet I contains the permeabilities 2.A.5 The sheet for the well flow potential <BR>2.A.6 The sheet for Productivity/Injectivity indexes 2.A.7 The sheet for the wells 2.A.8 The sheet for flow calculations 2.B Finite element calculations 2.C Sketch of proof of the effective medium approximation formula 2.D Homogenization 3 Time dependent problems in porous media flow 3.1 Transient Pressure Equation 3.1.1 Boundary conditions 3.1.2 The averaged problem in two space dimensions 3.1.3 The problem in radial symmetry 3.1.4 Boundary conditions for radial diffusivity equation 3.1.5 Dimensional analysis for the radial pressure equation; adapted from lecture notes of Larry Lake 3.1.6 Solution of the radial diffusivity equation with the help of Laplace transformation 3.1.7 Laplace transformation 3.1.8 Self similar solution 3.1.9 The dimensional draw-down pressure <BR>3.2 Pressure build up 3.2.2 Time derivatives of pressure response 3.2.3 Practical limitations of pressure build up testing 3.3 Formulation in a bounded reservoir 3.4 Non-Darcy flow 3.A About Boundary condition at r = reD 3.A.1 Exercise, Stehfest algorithm 3.B Rock compressibility 3.B.1 Physical model 3.B.2 Mass balance in constant control volume 3.C Equations disregarding the grain velocity in Darcy's law 3.D Superposition principle 3.E Laplace inversion with the Stehfest algorithm [223] 3.F EXCEL numerical Laplace inversion programme 3.F.1 Alternative inversion techniques 4 Multi-Phase Flow 4.1 Capillary Pressure function 4.1.1 Interfacial tension and capillary rise 4.1.2 Exercise, Laplace formula 4.1.3 Exercise, Young's law 4.1.4 Application to conical tube; Relation between capillary pressure and saturation 4.1.5 Relation between the pore radius and the square root of the permeability divided by the porosity. 4.1.6 Non-dimensionalizing the capillary pressure 4.1.7 Exercise, Ratio grain diameter / pore throat diameter 4.1.8 Three phase capillary pressures 4.1.9 Experimental set up and measurements of capillary pressure 4.1.10 Cross-dip capillary equilibrium 4.1.11 Exercise, Capillary desaturation curve 4.2 Relative permeabilities 4.2.1 Exercise, Brooks-Corey rel-perms 4.2.2 LET relative permeability model 4.2.3 Estimate of the LET parameters 4.2.4 Exercise, Residual oil and Rel-perm 4.3 Theory of Buckley-Leverett 4.3.1 Exercise, Vertical upscaling relative permeability 4.4 Material balance 4.4.1 Solutions of the theory of Buckley-Leverett 4.4.2 Equation of motion (Darcy's Law) and the fractional flow function 4.4.3 Analytical solution of the equations <BR>4.4.4 Construction of the analytical solution; requirement of the entropy condition 4.4.5 Exercise, Buckley Leverett profile with EXCEL 4.4.6 Derivation of the shock condition 4.4.7 Analytical calculation of the production behavior 4.4.8 Exercise, Buckley Leverett production file 4.4.9 Exercise, Analytical Buckley Leverett production curve 4.4.10 Determination of relative permeabilities from production data and pressure measurements 4.4.11 Determination of the relative permeabilities by additional measurement of the pressure drop 4.5 Finite volume approach to obtain the finite difference equations for the Buckley Leverett problem 4.5.1 Exercise, Numerical solution of Buckley Leverett problem 4.6 Vertical equilibrium as a basis for upscaling of relative permeabilities and fractional flow functions 4.6.1 Dake's Upscaling procedure for relative permeabilities 4.6.2 Exercise, Sorting factor dependence 4.6.3 Hopmans's formulation 4.7 Physical Theory of Interface Models 4.7.1 Derivation of interface equation of motion and productions for segregated flow 4.7.2 Stationary interface (Mobility number < Gravity number +1) 4.7.3 Exercise, Interface angle calculations 4.7.4 Production behavior for stationary solution, i.e., M < G + 1 4.8 Non-stationary interface 4.8.1 The volume balance in the form of an interface equation 4.8.2 Dietz-Dupuit-approximation 4.8.3 Approximate Equilibrium Equation 4.8.4 Derivation of flow rate Qwx from Darcy's law 4.8.5 Quasi Stationary Solution of the Dietz-Dupuit Equation for M < G + 1 4.8.6 Exercise, Shock solution versus interface angle solution 4.8.7 Analytical Solutions 4.8.8 Analytical expressions for the interface as a function of position in the reservoir 4.8.9 Analytical expressions for the production behavior 4.8.10 Summary of analytical procedure for interface models 4.8.11 Exercise, Advantage of M G + 1 4.A Numerical approach for interface models 4.A.1 Exercise. …”
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Welding Metallurgy and Weldability. by Lippold, John C.

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ASP.NET Core 2 and Angular 5. by Sanctis, Valerio De

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Mergers, Acquisitions, and Other Restructuring Activities. by DePamphilis, Donald

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Syncope An Evidence-Based Approach by Brignole, Michele

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Colloidal quantum dot light emitting diodes : materials and devices by Meng, Hong, 1966-

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Handbook of laser-induced breakdown spectroscopy by Cremers, David A.

Table of Contents: “…5.7 Semiquantitative Analysis5.8 Problems; References; 6 Quantitative LIBS Analysis; 6.1 Introduction; 6.2 Effects of Sampling Geometry; 6.3 Other Sampling Considerations; 6.4 Incomplete Vaporization and Ablation Stoichiometry; 6.5 Use of Internal Standardization; 6.6 Chemical Matrix Effects; 6.7 Example of LIBS Measurement: Impurities in Lithium-Containing Solutions; 6.7.1 Objective; 6.7.2 Experimental; 6.7.3 Results; 6.7.4 Discussion of Results; 6.8 Example of LIBS Measurement: Detection of Materials on Swipes; 6.8.1 Objective; 6.8.2 Experimental; 6.8.3 Results.…”
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