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MONOLITHIC SEPARATION MEMBRANE STRUCTURE
PROBLEM TO BE SOLVED: To provide a monolithic separation membrane structure capable of reducing differences among permeation amounts of permeable components in respective separation membranes.SOLUTION: A monolithic separation membrane structure 10 separates permeable components from a mixed fluid. The monolithic separation membrane structure 10 comprises a support body 20, a first separation membrane CL1 and a second separation membrane CL2. The support body 20 comprises: a first filter cell 231 and a second filter cell 232 both of which respectively continue from a first side surface S1 to a second side surface S2; and a side surface S3 through which the permeable components flow out. The first separation membrane CL1 is formed on an inner surface of the first filter cell 231. The second separation membrane CL2 is formed on an inner surface of the second filter cell 232. The first filter cell 231 is closer to the side surface S3 than the second filter cell 232. A first thickness t1 of the first separation membrane CL1 is thicker than a second separation thickness t2 of the second separation membrane CL2.SELECTED DRAWING: Figure 4
【課題】各分離膜における透過成分の透過量差を低減可能なモノリス型分離膜構造体を提供する。【解決手段】モノリス型分離膜構造体10は、混合流体から透過成分を分離する。モノリス型分離膜構造体10は、支持体20と、第1分離膜CL1と、第2分離膜CL2とを備える。支持体20は、第1端面S1から第2端面S2までそれぞれ連なる第1及び第2濾過セル231,232と、透過成分が流出する側面S3とを有する。第1分離膜CL1は、第1濾過セル231の内表面に形成される。第2分離膜CL2は、第2濾過セル232の内表面に形成される。第1濾過セル231は、第2濾過セル232よりも側面S3に近い。第1分離膜CL1の第1膜厚t1は、第2分離膜CL2の第2膜厚t2よりも厚い。【選択図】図4
MONOLITHIC SEPARATION MEMBRANE STRUCTURE
PROBLEM TO BE SOLVED: To provide a monolithic separation membrane structure capable of reducing differences among permeation amounts of permeable components in respective separation membranes.SOLUTION: A monolithic separation membrane structure 10 separates permeable components from a mixed fluid. The monolithic separation membrane structure 10 comprises a support body 20, a first separation membrane CL1 and a second separation membrane CL2. The support body 20 comprises: a first filter cell 231 and a second filter cell 232 both of which respectively continue from a first side surface S1 to a second side surface S2; and a side surface S3 through which the permeable components flow out. The first separation membrane CL1 is formed on an inner surface of the first filter cell 231. The second separation membrane CL2 is formed on an inner surface of the second filter cell 232. The first filter cell 231 is closer to the side surface S3 than the second filter cell 232. A first thickness t1 of the first separation membrane CL1 is thicker than a second separation thickness t2 of the second separation membrane CL2.SELECTED DRAWING: Figure 4
【課題】各分離膜における透過成分の透過量差を低減可能なモノリス型分離膜構造体を提供する。【解決手段】モノリス型分離膜構造体10は、混合流体から透過成分を分離する。モノリス型分離膜構造体10は、支持体20と、第1分離膜CL1と、第2分離膜CL2とを備える。支持体20は、第1端面S1から第2端面S2までそれぞれ連なる第1及び第2濾過セル231,232と、透過成分が流出する側面S3とを有する。第1分離膜CL1は、第1濾過セル231の内表面に形成される。第2分離膜CL2は、第2濾過セル232の内表面に形成される。第1濾過セル231は、第2濾過セル232よりも側面S3に近い。第1分離膜CL1の第1膜厚t1は、第2分離膜CL2の第2膜厚t2よりも厚い。【選択図】図4
MONOLITHIC SEPARATION MEMBRANE STRUCTURE
モノリス型分離膜構造体
TANAKA HIROSHI (author)
2017-10-05
Patent
Electronic Resource
Japanese