Study on Thermoacoustic Cooling System Using a Resonance Tube to Induce One-Wavelength Mode Resonance

スポンサーリンク

概要

• 論文の詳細を見る

• The property of a loop tube connected with a one-wavelength resonance tube is experimentally investigated. The one-wavelength resonance tube has one open end and its length is a quarter of the total length of the loop tube. The resonance tube is connected at the antinodal position of the sound pressure induced by a heat pump. While the node of the sound pressure is then formed at the open end, the antinode of the sound pressure appears at the connecting position. Since this condition coincides with a one-wavelength mode, the one-wavelength resonance is surmised to be attained by connecting the resonance tube. The experiment heat energy demonstrates the validity of the above prediction. It is also found that, when the heat supplied is 270 W, for example, the cooling ability of the loop tube using the resonance tube is enhanced so as to induce a temperature decrease of as much as 26 °C, while that induced using the conventional loop tube is only 9 °C.

• Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
• 2007-07-15

著者

• Sakamoto Shin-ichi

  Faculty Of Engineering Doshisha University

• Watanabe Yoshiaki

  Faculty Of Engineering Doshisha University

• Yoshida Hideo

  Faculty of Engineering, Doshisha University, Kyotanabe, Kyoto 610-0321, Japan

関連論文

• Inner Head Acoustic Field for Bone-Conducted Sound Calculated by Finite-Difference Time-Domain Method
• P1-16 Characteristics of shear mode FBAR using (112^^-0) textured ZnO films(Poster session 1)
• A Study on Cleaning Ability of Oscillating Bubbles Driven by Low-Frequency Ultrasound
• Applying Sub-Loop Tube to Control the Sound Field in a Loop-Tube-Type Thermoacoustic System
• Blood Flow Measurement by the Counter-Crossed Beam Contrast Echo Method
• A Study on Frequency Characteristics and Transmission Path of Audible Sound Perceived when the Tragus is Vibrated by Amplitude-Modulated Ultrasound
• P1-15 Effects of sputtering gas on the formation of (112^^-0) textured ZnO films(Poster session 1)
• Observation of Sonoluminescing Bubble Motion at the Rebounding Phase (Short Note)
• Effect of sputtering geometry on (112^^-0) textured ZnO piezofilm
• Experimental study on resonance frequency of loop-tube-type thermoacoustic cooling system(introduction to the amazing world of sounds with demonstrations)
• Effects of Existence of Microbubbles for Increase of Acoustic Streaming
• Control of Parametric Amplification Using the Nonlinear Vibration of Bubbles Under Water : Ultrasonic Propagation and Field
• Inspection Method for Contact Condition of Soil on the Surface of Underground Pipe Utilizing Resonance of Transverse Lamb Wave
• Inspection Method for Detection of Defects in Sewage Pipes Renewed by Sewage Pipe Renewal Method
• Applicability of Finite-Difference Time-Domain Method to Simulation of Wave Propagation in Cancellous Bone
• Measurement of the resonant characteristics of a single bubble vibration by using a laser Doppler vibrometer (Special issue: Ultrasonic electronics)
• Stable Parametric Amplification Using Elastic Microcapsules Placed in Silicone Rubber : Ultrasonic Propagation and Field
• Dependence on the Pause Time for the Hysteresis Loop Appearing in Single Bubble Sonoluminescence
• Relation between Acoustic Impedance and Sound Intensity Amplification in a Stack of Standing-Wave Thermoacoustic Prime Mover (Special Issue : Ultrasonic Electronics)
• Fundamental Study for the Solution of Thermoacoustic Phenomenon Using Numerical Calculation : Relationship between the Stack Installation Position and Heat Flow (Special Issue : Ultrasonic Electronics)
• Characterization of ($11\bar{2}0$) Textured ZnO Films Fabricated by RF Magnetron Sputtering
• Miniaturization of Thermoacoustic Cooling System Considering Energy Conversion Efficiency Estimated Using Specific Parameter
• How to Design a Thermoacoustic System Considering the Relaxation Time $\tau$: Introduction of Parameter $\omega\tau$ to Determine the Position of Stack
• Energy Conversion from Sound to Heat Using Lamination Mesh on the Thermoacoustic System
• Existence of Hysteresis Based on Argon Rectification in Single Bubble Sonoluminescence
• Analyses of Characteristics of Semi-intermodulated Imaging Based on Multi-Bifrequency Approximation
• Applying Diverging Tube for the Low-Temperature Drive in a Loop-Tube-Type Thermoacoustic System
• Acoustic Nonlinear Effect on Auricular Cartilage Vibrated with Amplitude-Modulated Ultrasound
• Optical and Acoustic Observations of Bubble Adhered to Piezoelectric Transducer under Ultrasound Field: Pressure Signal Caused by Bubble Behavior
• Effects of Collapsing Bubble in Ultrasonic Field on Soft Material
• Study on Thermoacoustic Cooling System Using a Resonance Tube to Induce One-Wavelength Mode Resonance
• Effect of Inner Diameter Change of Phase Adjuster on Heat-to-Sound Energy Conversion Efficiency in Loop-Tube-Type Thermoacoustic Prime Mover
• Large-Area Growth of In-Plane Oriented ($11\bar{2}0$) ZnO Films by Linear Cathode Magnetron Sputtering
• A New Contrast Echo Imaging Method Using Crossed Beams of Two Ultrasonic Frequencies
• Effects of Sputtering Gas Conditions on Formation of ($11\bar{2}0$) Textured ZnO Films
• Effect of Copper Mesh at Interface between Stack and Heat Source in Thermoacoustic Cooling System
• Heat Pump Placed in the Resonance Tube Connected to the Loop-Tube-Type Thermoacoustic Cooling System Improves the Cooling Effect
• Shell Effects on Vibration Behavior of a Microcapsule in an Acoustic Field
• Observation of Shock Wave Propagation by a Sonoluminescing Bubble
• Improvement of Cooling Effect of Loop-Tube-Type Thermoacoustic Cooling System Applying Phase Adjuster
• Modulation of Sound Field in Looped-Tube Thermoacoustic Cooling System with Membrane
• Experimental Study on Acoustic Streaming in Water Containing Microcapsules
• Conversion Characteristics of the Shear Wave Transducer Made of Unidirectionally Aligned ZnO Film in Plane
• Measurements of Phase Velocity of a Sound Wave Propagating in a Tube in Low Frequency Region
• Optical Observation of Microcapsule Destruction in an Acoustic Standing Wave

もっと見る 閉じる

スポンサーリンク