Control and measurement of heat transfer mechanisms and thermal conductivity of insulation materials, focusing on automobiles and building materials.
★Estimate the attenuation coefficient of radiation from thermal conductivity! ★An explanation of the trends in insulation materials, which are key factors for improving energy efficiency in automobiles and homes!
Speaker Part 1: Nichias Corporation, Research and Development Department, Chief Researcher, Ph.D. in Engineering, Responsible Person Part 2: Plastico Corporation, Responsible Person Part 3: Toyama University Graduate School of Science and Engineering (Engineering), Professor, Ph.D. in Engineering, Mr. Yoshio Hirasawa Part 4: Aichi Institute of Technology, Faculty of Engineering, Department of Mechanical Engineering, Professor, Ph.D. in Engineering, Mr. Ryuichi Tanimoto (Former Chief of Vehicle Testing Department at Toyota Body) Target Audience: Responsible persons involved in the development of insulation materials, insulation-related technology personnel from housing and automotive manufacturers Venue: Kawasaki City Educational and Cultural Center, 4th Floor, Room 3 [Kanagawa, Kawasaki] Access: 10-15 minutes walk from JR Kawasaki Station, 10-15 minutes walk from Keikyu Kawasaki Station Date and Time: February 27, 2012 (Monday) 10:00-16:10 Capacity: 30 people *Registration will close once full. Please apply early. Participation Fee: [Early Bird Discount Price] 56,700 yen (tax included, including text costs) for 2 people from one company *Limited to Tech-Zone members who apply by February 13. Membership registration is free. *After February 13, the [Regular Price] will be 59,850 yen (tax included, including text costs) for 2 people from one company.
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basic information
**Lecture 1: Purpose of the Course** This lecture discusses the current state of thermal conductivity measurement techniques for insulation materials, along with the characteristics and precautions of various measurement methods (such as the guarded hot plate method, heat flow meter method, transient hot wire method, cylindrical method, and periodic heating method). It also separates the components contributing to thermal conductivity in solids, radiation, and gases, and discusses the attenuation coefficient of radiation within insulation materials and the estimation of internal structures. Furthermore, it describes high-performance insulation materials using nanoparticles, focusing on the mechanisms that achieve both low thermal conductivity and high strength, as well as usage methods that leverage low thermal conductivity. **Lecture 3: Purpose of the Course** This lecture introduces the heat transfer mechanisms within insulation materials from a fundamental perspective. Using examples such as porous insulation materials like filling layers and fibrous insulation materials, it explains how the structure of insulation materials needs to be considered. Additionally, it presents attempts to actively control the thermal conductivity of insulation materials. **Lecture 4: Purpose of the Course** This lecture investigates heat bridges and the aging deterioration of the insulation performance of polyurethane foam, clarifying the necessary insulation material performance for refrigerated vehicles as a manufacturer. Furthermore, based on heat transfer engineering and thermodynamic theory, it establishes a prediction technology for heat loss to facilitate smooth development.
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P2
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P2
Applications/Examples of results
Part 1: Measurement Techniques for Thermal Conductivity of Insulation Materials and Development of Insulation Materials Using Nanoparticles 1. Current Status of Insulation Material Development and Thermal Conductivity Measurement 2. Thermal Conductivity Measurement Methods - Principles and Practices - 2-1. Guarded Hot Plate Method, Heat Flow Meter Method, Transient Hot Wire Method, Cylinder Method, Periodic Heating Method 2-2. Comparison of Different Measurement Methods 2-3. Selection of Measurement Methods According to the Type of Test Specimen 3. What Can Be Learned from Thermal Conductivity 4. High-Performance Insulation Materials Using Nanoparticles 4-1. Internal Structure 4-2. Thermal Properties: Mechanisms of Low Thermal Conductivity 4-3. Strength and Workability 4-4. Usage Methods Leveraging Low Thermal Conductivity Part 2: Improving Thermal Insulation in Automobiles Using Foam Materials Part 3: Proposals for Heat Transfer Mechanisms and Material Development of Insulation Materials Using Composites and Functional Materials 2. Basic Heat Transfer Mechanisms 3. Heat Transfer Mechanisms of Porous Insulation Materials 4. Multi-Layer Insulation Materials 5. Considerations Regarding Functional Insulation Materials Part 4: Required Insulation Performance and Material Properties for Automobiles (Refrigerated Trucks) 1. Market Research on Refrigerated Truck Cooling 2. Development of High-Insulation Refrigerated Trucks for Next-Generation Models 2-1. Box-Type Refrigerated Trucks 2-2. Van-Type Refrigerated Trucks
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