| Abstract | 第4页 |
| Chapter 1 – Introducing Acoustic Levitation | 第7-24页 |
| 1.1 The source of topic | 第7页 |
| 1.2 Acoustic Levitation Characterization | 第7-10页 |
| 1.3 Research background and significance | 第10-23页 |
| 1.4 Research topic | 第23-24页 |
| CHAPTER 2 – Theoretical Background | 第24-37页 |
| 2.1 The acoustic wave equation of the ideal medium | 第24-29页 |
| 2.1.1 The motion equation | 第24-26页 |
| 2.1.2 continuity equation | 第26-27页 |
| 2.1.3 Equation of state | 第27-28页 |
| 2.1.4 One dimensional wave equation | 第28-29页 |
| 2.2 Acoustic parameter description of standing wave acoustic field based on waveequation | 第29-33页 |
| 2.2.1 Acoustic pressure and particle velocity distribution in ultrasonic standing wave | 第29-30页 |
| 2.2.2 Acoustic standing wave field time average potential and acoustic levitation forcedescription | 第30-33页 |
| 2.3 Analysis of suspended solids theoretical stable suspension position | 第33-36页 |
| 2.4 Summary of the section | 第36-37页 |
| CHAPTER 3 – Simulation of the Resonant | 第37-50页 |
| 3.1 Simulation procedure | 第37页 |
| 3.2 Simulation Results | 第37-39页 |
| 3.3 Distance – Pressure – Potential relationship | 第39-42页 |
| 3.4 Pressure drop points (PDPs) – explanation | 第42-49页 |
| 3.5 Summary of the chapter | 第49-50页 |
| CHAPTER 4 - Calculation of the parameters of the equivalent model | 第50-57页 |
| 4.1 Establishment of the sound field equivalent model | 第50-51页 |
| 4.2 Calculations | 第51-53页 |
| 4.3 Matlab Figures | 第53-56页 |
| 4.4 Summary of the chapter | 第56-57页 |
| Conclusion | 第57-58页 |
| Attachments | 第58-81页 |
| Attachment A | 第58-67页 |
| Attachment B | 第67-81页 |
| References | 第81-87页 |
| Published Papers | 第87-89页 |
| Acknowledgement | 第89页 |
