Shigeo Kuroda scite author profile

Shigeo Kuroda

5Publications

51Citation Statements Received

68Citation Statements Given

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Nagoya Institute of Technology

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Effects of the Exchange Capacity and Cross-Linking Degree on the Hydration States of Anions in Quantitative Loading onto Strongly Basic Anion-Exchange Resins

et al. 2010

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The water content was determined for five strongly basic anion-exchange resins (trimethyammonium type having different exchange capacities and cross-linking degrees by divinylbenzene) in definite anionic forms (ten singly, three doubly, one triply, and one quadruply charged) dried at 25 °C and at a relative humidity of 50%. Incorporation of the results of the previous research on the conventional resins by X-ray absorption fine structure and diffraction methods indicated that the present method gave the number of intrinsic water molecules strongly interacting with an anion. The hydration numbers of weakly hydrating anions (Cl⁻, Br⁻, and ClO₄⁻) and a small anion (F⁻) were independent of the exchange capacity and slightly decreased with an increase in cross-linking, especially at 8%. The small and strongly hydrating ion F⁻ kept the in-water hydration structure to form a water-separated ion pair in the resins, while the other weakly hydrating ions were appreciably dehydrated to form a contact ion pair. The hydration number of a strongly hydrating ion, H₂PO₄⁻, appreciably decreased with increases in both the exchange capacity and cross-linking degree accompanied by intermolecular hydrogen bonding between the anions. This may be related to other characteristics of the H₂PO₄⁻ form resin, such as a higher concentration required for quantitative exchange, a systematic change in infrared spectra on the degree of exchange, and facile thermal dehydration, giving H₂P₂O₇²⁻. In contrast, multivalent anions were exchanged without dehydration, due to the larger space allowed for in the resins and the stronger interaction with water compared to those of monovalent anions.

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Energy Recycling of Recycled Plastic-Resin Powder : Effects of a Replacement Rate of PET-Powder on Combustion Behavior

Sato

Yamakita

Ishino

et al. 2003

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Combustion Characteristics of a Ceramic Burner Using Recycled PET-Resin Powder as an Assist Fuel

Ishino

Kuroda

Yamakita

et al. 2002

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Combustion Characteristics of a Ceramic Burner Using Recycled PET-Resin Powder as an Auxiliary Fuel : Effects of Replacement Rate of PET-Powder on Combustion Behavior

Ishino

Yamakita

Kuroda

et al. 2002

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Energy Recycling of Recycled Plastic-Resin Powder (Effects of Resin Powder Construction and Diameter on Combustion Properties)

Yamakita¹,

Ishino²,

Sato³

et al. 2003

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Shigeo Kuroda

Effects of the Exchange Capacity and Cross-Linking Degree on the Hydration States of Anions in Quantitative Loading onto Strongly Basic Anion-Exchange Resins

Energy Recycling of Recycled Plastic-Resin Powder : Effects of a Replacement Rate of PET-Powder on Combustion Behavior

Combustion Characteristics of a Ceramic Burner Using Recycled PET-Resin Powder as an Assist Fuel

Combustion Characteristics of a Ceramic Burner Using Recycled PET-Resin Powder as an Auxiliary Fuel : Effects of Replacement Rate of PET-Powder on Combustion Behavior

Energy Recycling of Recycled Plastic-Resin Powder (Effects of Resin Powder Construction and Diameter on Combustion Properties)

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