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▼a Advances in aerospace technologies /
▼c editors, Devabrata Sahoo, Abhishek Sharma, Shailendra Rajput. |
| 260 | |
▼a [United States] :
▼b River Publishers,
▼c [2024] |
| 300 | |
▼a 1 online resource. |
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▼a Preface xi List of Figures xiii List of Tables xvii List of Contributors xix List of Abbreviations xxi 1 Satellite System Design ?겁곣굛 A Reverse Engineering Case Study 1 1.1 Introduction 2 1.1.1 Motivation for the mission 2 1.1.2 Overview 4 1.1.3 Mission Analysis 4 1.1.4 Operational Orbit 6 1.2 System Design 6 1.2.1 System configuration 6 1.3 Payload Instruments 7 1.3.1 Environmental testing and radiation sensor 7 1.3.2 Q/V band communication and propagation 7 1.3.3 Active pixel star tracker 8 1.3.4 Optical communications and Ka-band downlink 8 1.4 Attitude Determination and Orbit Control (ADCS) 10 1.4.1 ADCS design process 10 1.4.2 ADCS design of spacecraft 12 1.4.3 Tradeoff suggestions 12 1.5 Power Subsystem (POW) 13 1.5.1 Power subsystem design process 13 1.5.2 List of equipment 14 1.5.3 Tradeoff suggestions 15 1.6 Communication Subsystem (COM) 15 1.6.1 Communication subsystem design process 15 1.6.2 List of equipment 17 1.7 Command and Data Handling Subsystem (C&DH) 17 1.8 Propulsion Subsystem 18 1.8.1 List of equipment 19 1.8.2 Tradeoff suggestions 19 1.9 Thermal Control Subsystem 20 1.9.1 List of equipment 21 1.9.2 Tradeoff suggestions 22 1.10 Structural Subsystem 22 1.10.1 List of equipment 23 1.10.2 Tradeoff suggestions 24 2 Modeling and Analysis of Advanced Composite Structures: Functionally Graded Structures 27 2.1 Functionally Graded Materials 28 2.2 Material Variation Laws 32 2.2.1 Exponential law 32 2.2.2 Power law 33 2.2.3 Sigmoidal law 34 2.2.4 Advanced functionally graded sandwich plates 35 2.2.4.1 Type A Sandwich plate 35 2.2.4.2 Type B Sandwich plate 38 2.3 Shear Deformation Theories 41 2.4 Choice of Unknown Variables 43 2.5 Solution Methodology 44 2.6 Structural Analyses 44 3 Detailed Study of DeltaWing Aerodynamics 49 3.1 Introduction 49 3.1.1 Subsonic flow with delta (I??? wings 53 3.1.2 Supersonic flow with delta (I??? wings 55 3.1.3 Features of flow detachment or separation 56 3.1.4 Delta (I??? wing with subsonic leading-edge 56 3.1.5 Supersonic leading-edge delta (I??? wing 58 3.1.6 Highly swept wings with flow separation 59 3.2 Literature Review 62 3.2.1 Slender delta wings 62 3.2.1.1 Leading-edge vortices 62 3.2.2 Vortex breakdown 63 3.3 Non-slender Delta Wings 63 3.4 Vortex Interactions 64 3.5 Buffeting 65 3.6 Delta Wings in Unsteady Flows 66 3.7 Flow?겁곣굛Structure Interactions 66 3.8 Conclusions 67 4 Green Propellant ?겁곣굛 The Future of Space Propulsion Systems 73 4.1 Introduction 74 4.2 Need for Green Propellant 76 4.3 Development in Various Compositions 76 4.4 Applications 78 4.4.1 Boosters 78 4.4.2 Manned capsule reactive control systems and landing retrorockets 78 4.4.3 Automatic interplanetary missions 78 4.4.4 Toxicity and control 79 4.5 Alternative Propellant Working Areas 79 4.6 The Need for Green Rocket Propulsion 80 4.7 Properties and Hazards 82 4.7.1 Section excerpts 85 4.7.2 Thruster development 85 4.8 Development of the HPGP Propulsion System 85 4.8.1 Propellant development LMP-103S 86 4.8.2 PRISMA 86 5 A Study of Different Techniques for Reducing Drag and Heating Problems on a Blunt Body at Supersonic and Hypersonic Speed 89 5.1 Introduction 90 5.2 Geometrical Method 91 5.2.1 Conventional spike 91 5.2.2 Aerodisk 94 5.2.3 Cavity 98 5.2.4 Multi-row disk 101 5.3 Injecting Mass 102 5.3.1 Counterflowing jet 102 5.3.2 Breathing blunt nose method 105 5.4 Laser and Plasma Energy Techniques 106 5.4.1 Energy deposition method 106 5.4.2 Laser-plasma energy 108 5.5 Magneto-Aerodynamics Methods 109 5.5.1 Magneto-aerodynamic 110 5.5.2 Heat addition method 110 5.6 Combinational Methods 111 5.6.1 Combination of aerospike and counterflowing jet 112 5.6.2 Combination of aerospike and heat addition 115 5.6.3 Combination of counterflowing jet and energy deposition 117 5.6.4 Combination of counterflowing jet and forwardfacing cavity 120 5.7 Conclusions 121 6 Industry 4.0 in Aerospace Domain 129 6.1 Introduction 130 6.2 Industry 4.0 132 6.2.1 Important technological changes 133 6.3 The Aerospace Industry 134 6.3.1 Challenges aerospace companies must overcome 136 6.3.1.1 Rising fuel costs 136 6.3.1.2 Regulatory obstacles 137 6.3.1.3 Supply chain integration in aerospace 137 6.4 Requirement for a Digital Transformation 138 6.5 Review of the Current State 138 6.6 Conclusions 140 7 Investigating Recent Trends and Advancements in the Global Nanosatellite Environs ?겁곣굛 The Era of CubeSats 143 7.1 Introduction 144 7.2 History 145 7.2.1 CubeSat industry analysis 146 7.2.2 Market size 146 7.2.3 Importance/significance 147 7.2.4 Advantages against conventional satellites 148 7.2.5 Disadvantages against conventional satellites 149 7.2.6 COVID impact 150 7.3 CubeSat Application Trends 150 7.3.1 Remote sensing ?겁곣굛 need for Himalayan glacier monitoring 150 7.3.2 Interplanetary missions 153 7.3.3 Military applications 154 7.3.4 Space debris detection 157 7.4 CubeSat Subsystem Development Trends 158 7.5 Limitations of Current Technologies 160 7.6 Structural Subsystem ?겁곣굛 Composites Materials 160 7.7 ADCS ?겁곣굛 Magnetic Bearing Systems 163 7.8 Power System 165 7.9 Propulsion System 168 7.10 Conclusions 172 8 Experimental and Numerical Investigation on Supersonic Intake Buzz: A Survey 177 8.1 Introduction 178 8.1.1 Dailey criterion (based on ramp body flow separation) 181 8.1.2 Ferri criterion (based on vortex sheet interaction on cowl lip) 182 8.2 Classification of Intake 186 8.3 Operation of Mixed Compression Intake 187 8.3.1 Start/unstart of intake 188 8.3.2 Influencing parameters 189 8.3.3 Engine face condition 190 8.4 Shock-wave?겁곣굛Boundary-layer Interaction 190 8.5 Literature Review of Experimental Analysis of Supersonic Intake Buzz 192 8.6 Literature Review of Numerical Analysis of Supersonic Intake Buzz 201 8.7 Conclusions 205 9 Application of Artificial Intelligence System in Aerospace Area 211 9.1 Introduction 212 9.2 Application of AI in Aerospace Area 218 9.2.1 Autonomous systems 218 9.2.2 Aircraft maintenance 220 9.2.3 Flight operations and air traffic management 223 9.2.4 Weather forecasting 224 9.2.5 Aircraft design and simulation 226 9.2.6 Satellite operations 229 9.2.7 Airline customer service 231 9.2.8 Airspace security 232 9.3 Conclusions 233 Index 237 About the Editors 239. |
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▼a This book features the recent technological advances made in the broad domain of aerospace engineering. Aerospace engineering covers a wide range of areas on which research is being done, including subsonic aerodynamics, high speed aerodynamics, unsteady aerodynamics, wind tunnel testing, computational fluid dynamics, and more. The authors also review recent technological advancements done in aerospace engineering and provide information about all the important domains and problems of interest in the field. The various important problem areas covered within the book include satellites, supersonic/hypersonic inlets, advanced composite structures, spiked bodies, delta wings, green propellant, satellite designing, satellite trajectory control, industry 4.0 in aerospace etc. In addition, the advancements done in the areas of introducing artificial intelligence in to the aerospace domain is also covered. |
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▼a "EBSCO evaluates our products based on the Web Content Accessibility Guidelines (WCAG) and the related Section 508 and EN 301 549 regulations in the US and EU. Most EBSCO products are substantially conformant with WCAG 2.2 level AA." Source: https://connect.ebsco.com/s/article/EBSCO-VPATs?language=en_US. Last accessed April 22, 2025. |
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▼a Dr. Devabrata Sahoo, currently working as an Associate Professor, Department of Aerospace Engineering, Graphic Era (Deemed to be University), Dehradun, India. He has completed his Ph.D. from Technion-Israel Institute of Technology, ISRAEL. His research expertise is in experimental aerodynamics in supersonic speed and he has been actively involved in performing research in this area for the last 14 years. He is familiar with conducting experiments which include high-speed flow visualization (Schlieren/shadowgraph and oil flow), time-averaged and unsteady pressure measurements, and force measurements. Along with experiments, he has also performed computations throughout these years and is familiar with the computational tool Ansys/Fluent. He has more than 50 publications of international repute in the field of aerodynamics. He has worked on various research projects related to high-speed aerodynamics funded by the Govt. of India and was involved in designing and setting up a supersonic wind tunnel in the Department of Space Engineering & Rocketry, B.I.T, Mesra, India. He is also familiar with conducting experiments on subsonic wind tunnels. Along with the wind tunnel testing, he has also been involved in setting up various other lab instruments. His current research interests are high speed aerodynamics, subsonic flows, unsteady aerodynamics, experimental aerodynamics, computational fluid dynamics and wind tunnel testing. Dr. Abhishek Sharma received his Bachelor's degree in electronics and communication engineering from ITM-Gwalior, India, in 2012, and his Master's degree in robotics engineering from the University of Petroleum and Energy Studies (UPES), Dehradun, India, in 2014. He was a Senior Research Fellow in a DST funded project under the Technology Systems Development Scheme and worked as an Assistant Professor with the Department of Electronics and Instrumentation, UPES. He also worked as a research fellow in Ariel University (Israel) and received an Emerging Scientist award in 2021. Currently he is currently working as a research assistant professor scientist in Graphic Era University (India). His research interests include machine learning, optimization theory, swarm intelligence, embedded system, control and robotics. Dr. Shailendra Rajput received his B.Sc. and M.Sc. degrees from the Dr. Hari Singh Gour University, Sagar, India, in 2006 and 2008, respectively. He received his Ph.D. degree from the Department of Physics, Birla Institute of Technology, Ranchi, India in 2014. He has worked as postdoctoral fellow at Department of Electrical and Electronic Engineering, Ariel University, Israel since 2017. His current research interests are energy harvesting, medical applications of millimeter waves, ferroelectricity and piezoelectricity. Currently he is working as an associate professor at Xi'an International University, China. |
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