CHUBU UNIVERSITY
  • Print only the body of the page. Set to print background colors and images.
  • Print the whole page. Set to print background colors and images.

HIRASAWA Taro

Profile

Title Professor
Belong to Dept. of Mechanical Engineering
Mechanical Engineering (graduate school)
Graduated Keio University, Graduate School of Science and Technology
Degree Ph.D., Keio University
Academic Institutional Membership Combustion Society of Japan
The Japan Society of Mechanical Engineers
The Society of Chemical Engineers, Japan
The Japanese Society for Experimental Mechanics
The Heat Transfer Society of Japan
Field of Study Combustion Science and Technology
Research, Studies Effect of Unsteady Flame Stretch on Premixed Flame, Fuel Blend Combustion, Oscillatory Wall Stagnating Flow
Curriculum Specialized Engineering Thermodynamics B, Exercises in Creation Engineering A, Exercises in Computer Programming, Practice and Experiment of Mechanical Engineering D

Academic Papers, Critique

Characterization of the thermal structure of six clustered microflames seeded with TaN particles through emission spectroscopy, Experimental Thermal and Fluid Science, 96, 2018.

Experimental and theoretical study on the interaction between two identical micro-slot diffusion flames: Burner pitch effects, Combustion and Flame, 165, 2016.

A Study on Energy Conversion Efficiency of Direct Flame Fuel Cell Supported by Clustered Diffusion Microflames, Journal of Physics, 557, 2014.

Interaction of Two Micro-slot Flames: Heat Release Rate and Flame Shape, Journal of Physics, 557, 2014.

Interaction between Two Identical Micro-­slot Diffusion Flames, Theoretical and Applied Mechanics Japan, 62, 2014.

Exhaust Gas Characteristics of Methane Clustered Microflames Established on 3 x 3 Array of Micro Burners, J. JSEM Special Issue, 14, 2014.

Effect of Burner Size and Material on Extinction of Methane Diffusion Microflame, J. JSEM Special Issue, 13, 2013.

A Strategy to Obtain an Universal Scaling Law of Flames beyond Flame-sheet Concept, JSEM, 13-2, 2013.

Microflame in High Oxygen Concentration Field - Effect on Point-symmetric One-dimensionality and Heat Release Density -, J. JSEM, 13-2, 2013.

Visualization Measurement of Product Concentration in Microreactors Based on Two-color Method, J. JSEM, 13-1, 2013.

Visualization Measurement of Product Concentration in Microreactors Based on Two-color Method, Journal of the Japanese Society for Experimental Mechanics, 13-1, 2013.

Impact of Flame-Flame Interactions in Identical Twin Diffusion Microflames, Combustion Science and Technology, 184, 2012.

A Simple Theory of Interaction between Two Jet Diffusion Microflames, Journal of the Combustion Society of Japan, 54-170, 2012.

Verification of Ch* Emission Imaging Technique as a Measure of a Flame's Overall Heat Release Rate on a Non-Sooting Methane Diffusion Microflame, Visualization of Mechanical Processes, 2-4, 2012.

Development of "Tiny" Droplet Flame Simulator: "Super-stabilized" Micro-jet Flame in a Hot Air, Journal of Thermal Science and Technology, 6-2, 2011.

Some Consideration of Nonintrusive Thermometry for Solid Surface near Flame, Journal of High Temperature Society, 36-5, 2010.

A Key Length Scale on Characterizing Microflames,Journal of High Temperature Society, 36-5, 2010.

Feasibility Study of Temperature Measurement in Pool Fire, Bulletin of Japan association for Fire Science and Engineering, 59-1, 2009.

Evaluation of Measurement in Mid-High Temperature Range by Near Infrared Two-Color Imaging Pyrometry, Transactions of Visualization Society of Japan, 29-9, 2009.

Spectroscopic Study on Luminous Counterflow Propane-Air Diffusion Flames: Measurement of Local Emissive Properties from Soot Cloud-2nd Report : Local Emissive Properties in C1-C4 Flames, Journal of the Japan Institute of Energy, 86-3, 2007.

Spectroscopic Study on Luminous Counterflow Propane-Air Diffusion Flames: Measurement of Local Emissive Properties from Soot Cloud1st-1Report : Non-Gray Body Feature of Luminous Flame & Its Applicability to Soot Diagnostics, Journal of the Japan Institute of Energy, 86-3, 2007.

Temperature Dependence of Intensities of Laser-induced Fluorescences of Ethylbenzene and Naphthalene Seeded in Gas Flow at Atmospheric Pressure - Implications for Quantitative Visualization of Gas Temperature -, J. of Visualization, 10, 2, 2007.

Burning Velocity Measurements of Microgravity Spherical Sooting Premixed Flames Using Rainbow Schlieren Deflectometry, Combustion and Flame, 140, 2005.

Effect of Ferrocene Addition on Sooting Limits in Laminar Premixed Ethylene/Oxygen/Argon Flames, Combustion and Flame, 139, 2004.

Determination of Laminar Flame Speeds Using Digital Particle Image Velocimetry: Binary Fuel Blends of Ethylene, n-Butane, and Toluene, Proceedings of the Combustion Institute, 29, 2002

Response of Flame Displacement Speeds to Oscillatory Stretch in Wall-Stagnating Flow, Combustion and Flame, 121, 2000.

Effect of Oscillatory Stretch on the Flame Speed of Wall-Stagnating Premixed Flame, Proc. of the Combustion Institute, 27, 1998.

Wall Stagnating Flow Near the Wall Oscillated Parallel to the Flow, Transactions of the Japan Society of Mechanical Engineers Series B, 64- 624, 1998.

Page Top