Correlation of Viscosity, Thermal Conductivity and Prandtl Number for Water and Steam as a Function of Temperature and Pressure

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概要

• 論文の詳細を見る

• In this report equations of viscosity, thermal conductivity and Prandtl number for water and steam were correlated as a function of temperature and pressure, while most of equation is previous investigations had been expressed as a function of temperature and density. Directly from values of temperature and pressure without knowing the value of density, property values can be calculated using equations in this report. Whole regions of up to 1000℃, 3500 bar for viscosity, up to 700℃, 500 bar for thermal conductivity and up to 600℃, 500 bar for Prandtl number are covered by three equations each, namely equations for the water, the steam and the critical regions. In the water and the steam regions those for the water, the steam and the critical regions. In the water and the steam regions those properties are expressed as the polynomials of pressure in two or three terms, while the narrow region near the critical point is expressed in a slightly more complicated form. Values calculated by the correlated equations were compared with the recent experimental values.

• 一般社団法人日本機械学会の論文
• 1971-11-00

著者

• Tanishita Ichimatsu

  Faculty Of Engineering Keio University.

• Tanishita Ichimatsu

  Faculty Of Engineering Keio University

• Nagashima Akira

  Lecturer Faculty Of Engineering Keio University.

• MURAI Yukio

  Faculty of Engineering, Keio University.

関連論文

• New Equation of State for Steam up to 800℃ and 1000 bar
• New Equation of Saturation Pressure for Water as a Function of Temperature
• New Equation of State for Ordinary Water Substance in the Critical Region
• A New Equation of State for Compressed Water up to 1000 bar and up to 350℃
• Correlation of Viscosity, Thermal Conductivity and Prandtl Number for Water and Steam as a Function of Temperature and Pressure

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