Oxygen Transfer from Silicone Hollow Fiber Membrane to Water
スポンサーリンク
概要
- 論文の詳細を見る
Silicone rubber hollow fiber was able to enrich the oxygen concentration in air by about 30%, and oxygen was transferred sufficiently from the membrane to water. When an aeration tank was filled with hollow fiber to up to 10% of its volume, the oxygen utilization rate, Rr, was about seven times as much as the value in the standard actibated sludge method. It is suggested that there is some possibility of improving the efficiency of aerobic wastewater treatment by using this system.
- 社団法人日本生物工学会の論文
- 1991-03-25
著者
-
HIRASA Okihiko
National Institute of Materials and Chemical Research
-
Hirasa O
National Inst. Materials And Chemical Research Ibaraki
-
HIRASA OKIHIKO
Research Institute for Polymers and Textiles, Agency of Industrial Science and Technology, M.I.T.I.,
-
ICHIJO HISAO
Research Institute for Polymers and Textiles, Agency of Industrial Science and Technology, M.I.T.I.,
-
YAMAUCHI AIZO
Research Institute for Polymers and Textiles, Agency of Industrial Science and Technology, M.I.T.I.,
-
Yamauchi Aizo
Research Institute For Polymers And Textiles Agency Of Industrial Science And Technology M.i.t.i.
-
Yamauchi Aizo
Research Institute For Polymers And Textiles
-
Ichijo H
Research Institute For Polymers And Textiles Agency Of Industrial Science And Technology M.i.t.i.
-
Ichijo Hisao
Research Institute For Polymers And Textiles
関連論文
- Temperature-Swing Column Adsorption of Nonionic Surfactant with Poly(vinylmethylether) Gel
- Effect of Salt on Temperature-Swing Adsorption of Nonionic Surfactant with Poly(Vinylmethyl Ether) Gel
- ADSORPTION OF TRITON X-100, TRYPTOPHAN AND BSA ON TEMPERATURE-SENSITIVE POLY(VINYLMETHYLETHER)GEL
- SIMULTANEOUS ORGANIC CARBON REMOVAL AND NITRIFICATION BY BIOFILM FORMED ON OXYGEN ENRICHMENT MEMBRANE
- ADSORPTION OF HYDROPHOBIC NONIONIC SURFACTANT ON POLY (VINYLMETHYLETHER) GEL
- Preparation of New Support for Immobilization of Activated Sludges
- Oxygen Transfer from Silicone Hollow Fiber Membrane to Water
- Electrical Deformation of Thermotropic Liquid-Crystalline Polymer Gels
- Thermal Stability of Free and Immobilized Glucose Oxidase Studied by Activity Assay and Calorimetry(Biological Chemistry)
- Thermal Stability of Free and Immobilized Invertase Studied by Activity Assay and Calorimetry
- Entrained responses of the current oscillation of polymer gels to sinusoidal stimulation.