Liquid purification or separation – Tangential flow or centrifugal fluid action – Multiple cyclone
Patent
1992-10-20
1995-03-28
Dawson, Robert A.
Liquid purification or separation
Tangential flow or centrifugal fluid action
Multiple cyclone
204144, 204211, 554591, B01D 2126
Patent
active
054014115
DESCRIPTION:
BRIEF SUMMARY
The present invention relates to a hydrocyclone plant comprising a great number of hydrocyclones arranged in a plurality of separate assemblies of hydrocyclones. Each hydrocyclone assembly includes branch pipes, to which the hydrocyclones of the assembly are connected in parallel relationship to one another. There are main pipes of the same number as that of the branch pipes of each hydrocyclone assembly. The branch pipes of each hydrocyclone assembly are releasably connected to the main pipes, respectively.
A prior hydrocyclone plant of this kind is disclosed in U.S. Pat. No. 3,543,931. In the prior plant, the hydrocyclone assemblies are formed by groups of ten hydrocyclones. The hydrocyclones are longitudinally clamped between manifolds. Each manifold is designed to serve exactly ten hydrocyclones, which results in that each assembly must include ten hydrocyclones. A disadvantage of this prior plant is that it is impossible to select the exact number of operating hydrocyclones required for a specific application or to meet a change in the flow conditions, in order to optimize the operation of the plant. Thus, the capacity of the prior plant can only be adjusted by adding or removing ten hydrocyclones at a time. Also, because of the complicated arrangement of manifolds, the prior plant would be relatively expensive to manufacture.
The object of the present invention is to provide a simple, inexpensive hydrocyclone plant, in which the capacity can be more accurately adjusted, as compared to the prior plant described above.
This object is obtained by means of a hydrocyclone plant of the kind initially described, which mainly is characterized in that clamping means are provided for releasably clamping each hydrocyclone substantially transversely against at least one of the associated branch pipes of the latter, and that the individual hydrocyclone assemblies include various numbers of hydrocyclones, for optimizing the desired capacity of the hydrocyclone plant.
Preferably, the clamping means comprise clamping members for clamping the hydrocyclones side by side in pairs against the branch pipes, which reduces the costs for producing the individual hydrocyclone assemblies.
In hydrocyclone assemblies having at least four hydrocyclones, it is suitable to arrange pairs of hydrocyclones at mutual sides of each branch pipe.
The branch pipes have the same transversal dimensions, in order to enable use of low cost standardize pipes and exchange of hydrocyclone assemblies at optional locations of the plant. However, the branch pipes preferably have various longitudinal extensions adapted to the number of hydrocyclones connected in the respective assemblies, which facilitates the installation of the hydrocyclone plant at a location having limited space available. Accordingly, smaller assemblies having a few number of hydrocyclones may be connected to the main pipes where the available space is small, while larger assemblies may be utilized where the available space is sufficient for these. This makes the new hydrocyclone plant flexible in installation.
The invention is disclosed more closely in the following with reference to the accompanying drawing, in which FIG. 1 shows a side view of a hydrocyclone plant according to the invention, FIG. 2 shows a view from above of the hydrocyclone plant according to FIG. 1, and FIG. 3 shows a side view of a hydrocyclone assembly.
The hydrocyclone plant shown in the figures comprises thirty hydrocyclones 1, which are arranged in five groups, three of which have eight hydrocyclones 1 each, one of said groups has two hydrocyclones, and one of said groups has four hydrocyclones. Each hydrocyclone 1 has an inlet member 2 for a liquid mixture to be separated, an accept outlet member 3 for a created accept fraction, and a reject outlet member 4 for a created reject fraction. All of the hydrocyclones in each hydrocyclone group consisting of eight hydrocyclones have their inlet members connected to a branch supply pipe 5 for supplying said liquid mixture, their accept outlet members 3 conn
REFERENCES:
patent: 3543931 (1970-12-01), Rastatter
patent: 3959150 (1976-05-01), Frykhuh et al.
patent: 4226726 (1980-10-01), Rehm
patent: 4572787 (1986-02-01), Robinson
Celleco Hedemora AB
Dawson Robert A.
Reitsnyder David
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