Fiber monitoring system
First Claim
1. A method of identifying a module having a failed fibre from among a set of at least 60 modules, each module comprising a cylindrical shell surrounding at least 1000 hollow micro-porous fibres wherein each module comprises about 2 square meters of membrane surface area, the fibres comprising pores having an average diameter of about 0.2 micron, the fibers being adapted to allow filtrate to flow through the fibre membrane during filtration thereby excluding impurities from the filtrate, the interior of each fibre communicating with a manifold and the space intermediate the fibres and shell being isolated from the manifold, each module comprising a tube extending vertically from and in communication with the space intermediate the fibres and the shell, said method comprising the steps of:
- filling the space intermediate the fibres and the shell with liquid;
supplying gas at a pressure of 80-100 kPa to the inside of the fibres;
measuring the rate of displacement of liquid from the space intermediate the fibres and the shell caused by transfer of the gas from the interior to the exterior of the fibres by measuring the time taken for the liquid level to rise between two predetermined points by means of spaced apart level detecting transducers on the tube; and
identifying a module having a failed fibre based on a measured rate of liquid displacement above about 1 mL/s.
12 Assignments
0 Petitions
Accused Products
Abstract
A failed hollow fiber is located in a membrane filtration module by supplying a gas under pressure to the space between fibers and shell, wetting the ends of fibers, and monitoring the ends of the fibers for bubble formation.
114 Citations
6 Claims
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1. A method of identifying a module having a failed fibre from among a set of at least 60 modules, each module comprising a cylindrical shell surrounding at least 1000 hollow micro-porous fibres wherein each module comprises about 2 square meters of membrane surface area, the fibres comprising pores having an average diameter of about 0.2 micron, the fibers being adapted to allow filtrate to flow through the fibre membrane during filtration thereby excluding impurities from the filtrate, the interior of each fibre communicating with a manifold and the space intermediate the fibres and shell being isolated from the manifold, each module comprising a tube extending vertically from and in communication with the space intermediate the fibres and the shell, said method comprising the steps of:
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filling the space intermediate the fibres and the shell with liquid; supplying gas at a pressure of 80-100 kPa to the inside of the fibres; measuring the rate of displacement of liquid from the space intermediate the fibres and the shell caused by transfer of the gas from the interior to the exterior of the fibres by measuring the time taken for the liquid level to rise between two predetermined points by means of spaced apart level detecting transducers on the tube; and identifying a module having a failed fibre based on a measured rate of liquid displacement above about 1 mL/s. - View Dependent Claims (2, 3)
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4. A method of identifying a module having a failed fibre from among a set of at least 60 modules, each module comprising a cylindrical shell surrounding at least 1000 hollow micro-porous fibres wherein each module comprises about 2 square meters of membrane surface area, the fibres comprising pores having an average diameter of about 0.2 micron, the fibers being adapted to allow filtrate to flow through the fibre membrane during filtration thereby excluding impurities from the filtrate, the interior of each fibre communicating with a manifold and the space intermediate the fibres and shell being isolated from the manifold, each module comprising a tube extending vertically from and in communication with the manifold, said method comprising the steps of:
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filling the inside of the fibres with liquid; supplying gas at a pressure of 80-100 kPa to the space intermediate the fibres and the shell; measuring the rate of displacement of liquid from inside the fibres caused by transfer of the gas from the exterior to the interior of the fibres by measuring the time taken for the liquid level to rise between two predetermined points by means of spaced apart level detecting transducers on the tube; and identifying a module having a failed fibre based on a measured rate of liquid displacement above about 1 mL/s. - View Dependent Claims (5, 6)
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Specification