スポンサーリンク
Department of Chemical Engineering, College of Engineering, University of Osaka Prefecture | 論文
- EXPERIMENTAL INVESTIGATION OF THE MASS TRANSFER MODEL FOR A DEIONIZATION PROCESS BY MIXED STRONG CATION AND ANION EXCHANGE RESINS
- MASS TRANSFER MECHANISM OF DEIONIZATION BY MIXED BED
- EQUILIBRIUM CHARACTERISTICS OF ION EXCHANGE BETWEEN AN OH-TYPE STRONG ANION EXCHANGE RESIN AND DILUTE Cl^- SOLUTION
- THEORETICAL ANALYSIS OF MASS TRANSFER OF DEIONIZATION BY CATION AND ANION MIXED-ION EXCHANGE RESINS - A BATCHWISE CONTANCT -
- DEIONIZATION EQUILIBRIA BETWEEN MIXED CATION AND ANION EXCHANGE RESINS ADN A DILUTE NaCI SOLUTION
- The Effect of Surgical Treatment of Obstructive Sleep Apnea Syndrome on the Plasma TNF-α Levels
- Anaerobic Oxidation of Dissolved Hydrogen Sulfide in Continuous Culture of the Phototrophic Bacterium Prosthecochloris aestuarii
- GAS HOLDUP AND PRESSURE DROP IN A MULTISTAGE VIBRATING DISK COLUMN WITH COCURRENT GAS-LIOUID FLOW
- Mechanism of copper transport through a diaphragm-type liquid membrane.
- MASS TRANSFER IN THE CONTINUOUS PHASE AROUND A SINGLE DROP
- Continuous Removal of Heavy Metals by the Lime Sulfurated Solution (Calcium Polysulfide) Process
- Copper recovery from wastewater by cementation utilizing packed bed of iron spheres.
- Identification of axial liquid mixing models for packed beds.
- Photographic observation of flow pattern formed in a void of tube bundle arrays.
- Optimum axial temperature distribution for maximum reactor yield with the stagnant pocket model.
- Conditions for the precipitation of heavy metals from wastewater by the lime sulfurated solution (calcium polysulfide) process.
- THE PENETRATION THEORY WITH HIGH MASS FLUX AND VARIABLE PROPERTIES
- APPLICABILITY OF DISPERSION MODEL TO A PACKED BED REACTOR WITH AN IRREVERSIBLE CHEMICAL REACTION OF THE 2ND ORDER
- MASS TRANSFER IN A MULTISTAGE VIBRATING DISK COLUMN WITH COCURRENT GAS-LIQUID FLOW
- THE EFFECT OF THE WAVE FORM OF DISK VIBRATION ON MASS TRANSFER IN A MULTISTAGE VIBRATING DISK COLUMN WITH COUNTERCURRENT LIQUID-LIQUID FLOW