Your search keyword '"Tsutomu Nemoto"' showing total 4 results

1. Spectral and Total Transmittances of Magnesium Chloride-Water Solution

Author

Kimio Kanayama, Noboru Endoh, Hiromu Baba, and Tsutomu Nemoto

Subjects

Work (thermodynamics), Materials science, business.industry, Infrared, Magnesium, Mechanical Engineering, Analytical chemistry, chemistry.chemical_element, Condensed Matter Physics, Solar pond, Optics, Partition method, chemistry, Attenuation coefficient, Transmittance, Working fluid, business, Computer Science::Information Theory

Abstract

We report measurements of the spectral transmittance and calculations of the total transmittance of magnesium chloride-water solution to be used as the working fluid for a solar pond. The spectral transmittance of MgCl2-water solution in the visible, infrared and nearby regions decreases with increasing salt concentration. The total transmittance of MgCl2-water solution can be calculated using an exact integration method and a simple 5-band partition method over a 3 m depth of pond water. The simple method is useful in practice to calculate the total transmittance for a conventional solar pond, because the rate of difference between the results calculated by the two methods is less than 10% at shallow depths and then it decreases rapidly being followed by 0% at a depth of 3 m. Furthermore, the absorption coefficient calculated from the spectral transmittance of the present work is compared with that from Usmanov's data as shown in references (6) and (7).

Published

1997

2. Spectral and Total Transmittances of Sodium Chloride and Potassium Chloride Water Solutions

Author

Hiromu Baba, Kimio Kanayama, Noboru Endoh, and Tsutomu Nemoto

Subjects

Materials science, Infrared, business.industry, Mechanical Engineering, Potassium, Sodium, Analytical chemistry, chemistry.chemical_element, Spectral transmittance, Condensed Matter Physics, Solar pond, Salinity, Water depth, Optics, chemistry, Transmittance, business

Abstract

We describe the measurements of spectral transmittance and the calculations of the total transmittance for sodium chloride and potassium chloride water solutions. The spectral transmittance of NaCl and KCl water solutions over the infrared and nearby regions increases with increasing salinity. In the visible region, the spectral transmittance of NaCl w-s increases slightly, while that of KCl w-s decreases with increasing salinity. The total transmittance of the two salt water solutions can also be calculated by means of an integral method and a simple 5-partition method over 0∼3 m water depth. The simple method is of practical use to calculate the total transmittance for a conventional solar pond, because the rate of error between the two methods is about 10% at shallow depth and 0% at 3 m depth.

Published

1997

3. Spectral transmittance of water and sodium chloride water solution as working substance for a solar pond

Author

Kimio Kanayama, Noboru Endoh, Tsutomu Nemoto, and Hiromu Baba

Subjects

Fluid Flow and Transfer Processes, Materials science, business.industry, Sodium, Analytical chemistry, chemistry.chemical_element, Air mass (solar energy), Solar energy, Solar pond, Optics, chemistry, Attenuation coefficient, Absorptance, Thermal, Transmittance, business

Abstract

The transmission properties of water and sodium chloride water solutions with various salt concentrations were investigated. This paper concerns the measurement of the spectral transmittance and the calculation of the total transmittance for water and NaCl water solutions. The spectral transmittance of the NaCl water solutions over the infrared and nearby regions increased with increasing salt concentration for constant specimen thickness and air mass. The spectral transmittance was found to be useful for precisely calculating the thermal performance of a solar pond, and by using an effective absorption coefficient, a five-partition method dividing the wavelengths into five bands by which the total transmittance up to a water depth of 3 m could be calculated, was found to be important as a practical method of solar pond technology. © 1997 Scripta Technica, Inc. Heat Trans Jpn Res, 26(1): 1–15, 1997

Published

1997

4. Spectral Transmittance of Water and Sodium Chloride-Water Solution as Working Substance for Solar Pond

Author

Kimio Kanayama, Noboru Endoh, Tsutomu Nemoto, and Hiromu Baba

Subjects

Materials science, business.industry, Mechanical Engineering, Analytical chemistry, Air mass (solar energy), Condensed Matter Physics, Spectral line, Solar pond, Thermal transmittance, Wavelength, Optics, Attenuation coefficient, Thermal, Transmittance, business, Physics::Atmospheric and Oceanic Physics, Computer Science::Information Theory

Abstract

The transmission property of water and sodium chloride-water solutions with various salinity concentrations was clarified using spectra. This paper deals with the measurement of the spectral transmittance and the calculation of the total transmittance for water and NaCl-water solutions. The spectral transmittance of the NaCl-water solution over the infrared and nearby regions increased with increasing salinity concentration for constant specimen thickness and air mass. It was found that the spectral transmittance was useful for precisely calculating of the thermal performance of a solar pond, and by using an effective absorption coefficient, a 5-partition method dividing wavelength into five bands by which the total transmittance up to a water depth of 3m could be calculated, was found to be important practical example of solar pond technology.

Published

1996