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Department of Chemical Engineering, Waseda University | 論文
- Analysis of Reaction of Luminol at an Indium-Tin Oxide Anode by Cyclic Voltammetry
- DISSOCIATION CONSTANTS OF THE COMPONENTS IN THE ENZYMATIC SYNTHESIS OF ASPARTAME PRECURSOR
- Hollow-fiber blood-dialysis membranes : superoxide generation, permeation, and dismutation measured by chemiluminescence
- Optimum control of oxygen addinity of hemoglobin as an oxygen carrier solution for an artificial gill
- Computer-aided design of hollow-fiber dialyzers
- Fibrous Support Stabilizes Nitrification Performance of a Membrane-Aerated Biofilm : The Effect of Liquid Flow Perturbation
- SOLUBILITY OF N-(BENZYLOXYCARBONYL)-L-ASPARTYL-L-PHENYLALANINE METHYL ESTER FORMING A COMPLEX WITH L-PHENYLALANINE METHYL ESTER IN AQUEOUS SYSTEM
- A CORRELATION FOR BED VOIDAGE IN THREE-PHASE FLUIDIZED BED
- MOMENTUM, WITH HEAT AND MASS TRANSFER THROUGH GAS-LIQUID INTERFACE WITH ACCELERATED INTERFACIAL VELOCITY
- Three-Dimensional Immobilization of Bacterial Cells with a Fibrous Network and Its Application in a High-Rate Fixed-Bed Nitrifying Bioreactor
- Experimental evaluation of flow and dialysis performance of hollow-fiber dialyzers with different packing densities
- Melt Mixing of the 0.3In/0.7GaSb/0.3Sb Solid Combination by Diffusion under Microgravity
- Numerical and Physical Experiments on Drag Torque in a Wet Clutch
- Natural and Marangoni convections in a two-dimensional rectangular open boat.
- Predicting bed voidage in solid-liquid fluidization.
- Characteristics of simultaneous utilization of oxygen and substrate in a three-phase fluidized bed bioreactor.
- Corrections to the paper "Control of crystal-melt interface shape during Ozochralski growth of oxide single crystals".
- Control of crystal-melt interface shape during Czochralski growth of oxide single crystals.
- IMPROVEMENTS IN OXYGEN TRANSFER IN A LIQUID-LIQUID MEMBRANE OXYGENATOR USING PERFLUOROOCTYLBROMIDE
- Filtration characteristics of membranes for plasma separation and changes in membrane structure after blood contact.