Recent Developments in High-Speed Transport: Selected Contributions from International Conference on High-Speed Transport Development 2022

Preface
Contents
Marketing and Market Analysis
Long-Term Demand for Supersonic Jets and Role of Supersonic Flight in Air Transportation of the Future
1 Introduction
2 Present-Day and Prospective Transportation System
3 Competing Supersonic Jet Programs
4 Assessing Demand for Supersonic Jets
5 Conclusion
References
Intelligent Control, Navigation and Cockpit Interfaces
Advanced Supersonic Passenger Aircraft Cockpit Technologies
1 Introduction
2 Peculiarities of Supersonic Passenger Aircraft Cockpit Design
3 Cockpit Layout
4 Technologies Used
4.1 Technical Vision
4.2 Touch Screen Displays and Special Indication Frames
4.3 Multimodal Interaction
5 Evaluation of the Developed Solution
6 Certification Issues
7 Conclusions
References
System Methodologies for the Design of Human–Machine Interfaces for Advanced Aircraft
1 Introduction
2 Aspects of Interface Development
3 The Control Task of Inertial Navigation System
4 Application of Uniform Elements
5 MCDU Frame Development
6 Simulation of Crew Operation Using a Petri Net
7 Conclusion
References
A Method for Constructing a Hybrid Controller for Reconfiguration of On-Board Systems of a Supersonic Passenger Aircraft in the Event of Failures
1 Introduction
2 Problem Statement
3 Method Formulation
4 Description of Hybrid Controller
5 Conclusion
References
Development of a Controller Law for a Supersonic Transport Using Alternative Means of Automation in the Landing Phase
1 Introduction
2 Synthesis of a Controller for a Supersonic Transport Using Alternative Automation Means
2.1 Use of Direct Lift Control
2.2 Integration of DLC and an Advanced Display System with Predictive Indication
3 Advanced Means of Information Display
4 Conducting Experimental Research and Analyzing the Data Obtained
5 Conclusion
References
Synthesis of a Controller Based on the Principle of Inverse Dynamics and the Online Identification of a Lateral Motion Model in a Next-Generation Supersonic Transport
1 Introduction
2 Features of SST Dynamics
3 Proposed Approaches to Solving the Problem
3.1 Application of the Inverse Dynamic’s Principle
3.2 Identification Principle
3.3 Online Approximation
4 Study Results
5 Conclusion
References
Smoothing of Aircraft On-Board Measurements Based on the Use of Flight Dynamics Equations and Nonlinear Programming Methods
1 Introduction
2 Problem Statement
3 Method Formulation
3.1 Mathematical Model
3.2 Hermitian Splines
3.3 Particle Swarm Method
4 Description of Experiments
5 Conclusion
References
Methods for Operational Correction of Aircraft Indication Support in Flight Tests
1 Introduction
2 Technology of Simulation of Display Frames
3 Methods for Operational Correction During Flight Tests
4 Modeling Station
5 Implementation of a Mathematical Model of Aircraft Motion
6 The Model of the External Environment
7 Development of a Visualization System
8 Example of the Development of an Aerobatic Frame of a Multifunctional Indicator of an Aircraft
9 Conclusions
References
Engines and Aircraft Systems
Research on the Outline and Parameters Selection of the Power Plant for a Supersonic Passenger Aircraft Designed to Carry up to 20 Passengers
1 Introduction
2 Selection of Optimal Values of the Air Compression Ratio in the Compressor and the Bypass Ratio for a SPA
3 Engine Bypass Ratio Value Clarification
4 Development of an Additional Power Plant for the System of Shortened Takeoff and Landing of a Supersonic Passenger Aircraft
5 Calculation of the Required Mass of Fuel for a Flight at a Distance of 8,500 km
6 Conclusion
References
The Method of Thermal Calculation of the Aircraft Hydraulic System, Taking into Account Heat Losses at the Power Unit
1 Introduction
2 Analysis of Previous Works Results
3 The Object of Modeling
4 Mathematical Model of HS Thermal State
4.1 Basic Equations Describing a Heat Balance
4.2 The Submodel of HS Environment
4.3 The Submodel of HS Power Unit
4.4 The Submodel of Heat Rejection at Spool Valves
4.5 The Model of External Load on Hydraulic Actuators
4.6 The Final Equations of the HS Heat Balance
5 Verification of Model
5.1 The First Calculation Case
5.2 The Second Calculation Case
6 Conclusion
References
Investigation of Limits of High-Speed Forcing of Hydraulic Drive Elements
1 Introduction
2 Methods and Models
3 Results
4 Discussion
5 Conclusion
References
To the Problem of Selecting the Anti-Icing System for the Swept Wing of Supersonic Flight Demonstrator
1 Introduction
1.1 Relevance
1.2 Types of Anti-Icing System
2 Development of Electrical-Thermal Anti-Icing System
2.1 Determining the Size of the Protected Area
2.2 Simulation with IceFoam Solver
2.3 Calculation of the External Problem
2.4 Thermal Calculation
2.5 Electrical Calculation
3 Conclusion
References
Design Issues and New Materials
The Comparison of Calculation and Experimental Results of Sonic Boom Characteristics of the Real Aircraft
1 Introduction
2 Results of Experimental Investigations
3 Calculation and Experimental Results of Sonic Boom Characteristics
3.1 The Near Field Calculation
3.2 Sonic Boom Characteristics Calculation in Far Field and Comparison Results with Experiment
4 Conclusion
References
Problems of a Supersonic Business Aircraft Design with Regard to Cabin Noise Requirements
1 Introduction
2 Regulation of Noise Levels in Aircraft Cabins
3 The Tendency to Reduce Noise Levels in Passenger Aircraft Cabins and Targets for Noise in the Cabin of a Supersonic Business Aircraft
4 The Concept of Designing a Supersonic Business Aircraft with Regard to Cabin Noise Requirements
5 A Complex of Computational and Experimental Work to Ensure the Required Noise Levels of the Turbulent Boundary Layer
6 Acoustic Design of the Air Conditioning System
7 The Influence of the Interior on the Noise Levels in the Cabin
8 Conclusion
References
Parametric Analysis of Design Characteristics of Supersonic Passenger Aircraft
1 Introduction
2 Description of the Architecture of the Program Complex
3 Parametric Analysis of Design Characteristic
4 Conclusion
References
Damage Analysis and Prediction for Composite Materials of Future Supersonic Civilian Airliners Exposed to High-Velocity Rain Water Droplet Erosion
1 Introduction
2 Getting Started
2.1 High-Velocity Liquid–Solid Impact Theory
3 Toolbars
4 Experiment
5 Analysis
6 Conclusion
References
Investigation of the Mechanical Characteristics of the Modified PCM for Use in the Aerospace Industry
1 Introduction
2 Objects and Methods of Research
3 Results and Discussions
4 Conclusion
References
Design of Rigid Composite Panels According to Geometric Nonlinear State in the Compression
1 Introduction
2 Material and Methods
3 Panels with Rigid Support
4 Panels with Hinge Support
5 Design of Rigid Composite Panels for Stability and Strength in the Postbuckling Behavior
6 Discussion
7 Conclusion
References
Application of Modern Provisions of the Kinetic Theory of Strength for the Development of Generalized Models of Durability of Composites
1 Introduction
2 Problems of Long-Term Performance of Composites in Extreme Conditions
3 Problems of Predicting the Behavior of Polymer, Composite Materials Under the Influence of Extreme Environmental Factors
4 Physical Models of Molecular Interactions in Polymer, Composite Materials
5 Mathematical Formulation of Forecasting Problems of Defining Characteristics of Composites
6 Generalized Model of Durability of Optimal Structure and Complexity
7 Comparative Computational Experiments
8 Conclusion
References