Nobuya Fujiwara scite author profile

Nobuya Fujiwara

4Publications

83Citation Statements Received

17Citation Statements Given

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141

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Affiliations

Toyobo (Japan), Kobe University

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Gas-liquid mass transfer characteristics in a bubble column with suspended sparingly soluble fine particles

Sada¹,

Kumazawa²,

Lee³

et al. 1985

Ind. Eng. Chem. Proc. Des. Dev.

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2. The experimental results from a simulated 3-stage countercurrent extraction scheme were qualitatively predicted by the theoretical calculations. Gasohol with 90 to 96% ethanol recovery can be produced at room temperature if a 90 wt % ethanol feed is used.3. Solvency of the extractive solvent is directly proportional to the aromatics content in the solvent. However, the higher the solvency, the higher the water content in the product gasohol. Even a minor amount of water in gasohol will create a phase separation in colder climates.4. Experiments were also successful for producing gasohol in a 1.5-in. i.d. continuous column. Gasohol with 91.4% ethanol recovery was produced at 108 °F with unleaded gasoline. Increasing extraction temperature from 75 to 108 °F, the water content in gasohol increased only 0.1 wt %. The ethanol recovery can be further improved by use of a longer extraction column.5. Both molecular sieve absorption and chemical treatment can be effectively used to remove the minor amount of water in the product gasohol. The economics of these treatments need to be investigated.6. Instead of extraction, contacting and cooling is an alternative method for producing gasohol. Stabilized wet gasohol can be made by simply mixing 85-93% ethanol with unleaded gasoline at an appropriate temperature.The homogeneous mixture is then cooled to allow equilibrium and phase separation. Again, the economics of this process need to be studied. 7 pm in average size. Such mass transfer parameters as volumetric liquid-side mass transfer coefficient kL°a, specific gas-liquid interfacial area a, and hence liquid-side mass transfer coefficient kL°w ere determined under various electrolyte concentrations, solid concentrations, and gas flow rates, and kL°a could be correlated by the gas flow rate. The volumetric gas-side mass transfer coefficient k^a was determined and correlated by the gas flow rate. The enhancement factors during absorption of dilute carbon dioxide into aqueous calcium hydroxide slurries were compared with the theoretical predictions based on the film theory incorporating a finite slurry concept.

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Cellulose Triacetate Membranes for Reverse Osmosis

Kumano

Fujiwara

2008

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Study of mass transfer characteristics for a hollow fiber reverse osmosis module

Kumano

Sekino

Matsui

et al. 2008

Journal of Membrane Science

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Elimination of biological fouling in seawater reverse osmosis desalination plants

Fujiwara

Matsuyama

2008

Desalination

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Nobuya Fujiwara

Gas-liquid mass transfer characteristics in a bubble column with suspended sparingly soluble fine particles

Cellulose Triacetate Membranes for Reverse Osmosis

Study of mass transfer characteristics for a hollow fiber reverse osmosis module

Elimination of biological fouling in seawater reverse osmosis desalination plants

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