UNDERDRAIN FOR MEDIA VESSEL AND METHOD OF CLEANING

Abstract

An underdrain system for a media pressure vessel has a set of removable pipe sections located between an external header and the bottom of a vessel. Septa extend upwards from the removable pipe sections into the vessel. The header is attached to the bottoms of the removable pipe sections. Each pipe section, and its associated septum, may be removed individually. To clean the vessel, after media is removed from the vessel the pipe sections are removed sequentially while the header remains otherwise attached to the vessel. While a pipe section is removed, its associated septum is removed so that solids can be removed from the annulus between the septum and the vessel. In this way, media can be cleaned from the annuli without moving the external header or entering the vessel.

Claims

1. An underdrain system for a vessel comprising, an external header; a plurality of removable pipe sections, each having an upper end and a lower end; and, a plurality of septa, each septum corresponding to one of the removable pipe sections, wherein the bottom of each movable pipe section is attached to the external header, the top of each removable pipe section is attached to the bottom of the vessel, and the septa extend upwards into the tank.

2. The underdrain system of claim 1 wherein each septum extends upwards from its corresponding removable pipe section.

3. The underdrain system of claim 1 wherein the bottom of the vessel has a set of flanges, each septum has a flange, the upper end of each removable pipe section has a flange, and the flange of the septa are located between the flanges of the removable pipe section and the flanges of the vessel.

4. The underdrain system of claim 1 wherein the vessel has a set of flange pads.

5. The underdrain system of claim 1 wherein connections between the vessel, the septa, the removable pipe sections and the header are configured such that each pipe section may be removed individually without moving the header.

6. The underdrain system of claim 1 wherein each septum may be removed from the vessel when its associated pipe section has been removed from the vessel and the header.

7. The underdrain system of claim 1 wherein the removable pipe sections are vertical.

8. The underdrain system of claim 1 wherein attachments between the removable pipe sections and the tank and the header are made by way of horizontal flanges.

9. The underdrain system of claim 1 wherein each removable pipe section is longer than its associated septa.

10. The underdrain system of claim 1 wherein the upper ends of the removable pipe sections are connected to fittings attached to the bottom of the vessel, wherein the fittings do not extend more than 5 cm below the lowest point, excluding any attached fittings, of the bottom of the vessel.

11. The underdrain system of claim 1 wherein the upper ends of the removable pipe sections comprise a flexible connector.

12. A method of cleaning a media pressure vessel comprising the steps of, removing one or more pipe sections from between an external header and the vessel while the header remains otherwise attached to the vessel; and, removing one or more septa associated with the one or more pipe sections from the vessel.

13. The method of claim 12 further comprising removing solids from one or more annuli between the one or more removed septa and the vessel.

14. The method of claim 12 comprising replacing the one or more septa and pipe sections and removing one or more other septa and pipe sections.

15. The method of claim 12 wherein one or more pipe sections remain attached to the vessel and the header while one or more other pipe sections are removed from the header and the vessel.

16. The method of claim 12 wherein removing a pipe section comprises moving the pipe section sideways.

17. The method claim 12 wherein removing a septum comprises moving the septum downwards to remove the septum from the tank, then moving the septum sideways.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0014] FIG. 1 is an isometric view of a pressure vessel for water treatment using a media bed with an external header underdrain system.

[0015] FIG. 2 is a side view of the pressure vessel of FIG. 1.

[0016] FIG. 3 is a front view of the pressure vessel of FIG. 1.

[0017] FIG. 4 is an isometric view of a header and spools (i.e. removable pipe sections) of the underdrain system of FIG. 1.

[0018] FIG. 5 is a top view of the header and spools of FIG. 4.

[0019] FIG. 6 is a side view of the header and spools of FIG. 5.

[0020] FIG. 7 is a side view of a septum of the underdrain system of FIG. 1.

[0021] FIG. 8 is an isometric view of the septum of FIG. 7.

[0022] FIG. 9 is an enlarged view of part of the vessel of FIG. 1 showing a flange pad and spool removed from the flange pad.

[0023] FIG. 10 shows steps in cleaning a vessel of FIG. 1.

[0024] FIG. 11 shows and an alternative removable pipe section.

[0025] FIG. 12 shows another alternative removable pipe section.

DETAILED DESCRIPTION

[0026] A detailed description of one or more examples or embodiments will be described below to assist in describing the invention and to further enable the reader to make and use the invention. In this detailed description, the invention will be described as used with an otherwise conventional pressure vessel of the type used to hold a water treatment media, for example granular activated carbon or ion exchange resin beads. However, the invention may be applied to other water treatment equipment having a drain system near the bottom of the vessel. A particular example or embodiment might not be within every claimed invention.

[0027] A conventional pressure vessel with an underdrain system including an external header has a number, for example 8, of ports attached (i.e. welded) to the bottom of the tank. The ports may be located in a circle around a central media outlet, which is used to remove media from the vessel. The ports are typically made of a section of pipe about 6-12 (15-30 cm) long. A flange is welded on one end of the port and the other end of the port is welded to the tank. Septa in fluid communication with the ports extend upwards into the tank. An external ring header is then attached (i.e. bolted) to flanges of the ports.

[0028] In a vessel described herein, removable pipe sections are added between the vessel and the ring header. These pipe sections (optionally called spools in some examples) facilitate removal of the septa for cleaning or inspection, or for cleaning of the annuli around them, without the need to remove the ring header. The pipe sections may be, for example, 6-18 (15-45 cm) long. This may improve one or more of the speed, ease, and safety of cleaning the septa or annuli during maintenance or when replacing the media in the vessel. In some examples the removable pipe sections are rigid assemblies. For example a removable pipe section may be made up of a length of steel pipe with flanges welded onto each end of it. In other examples, a removable pipe section may be made in the form of a flexible connector or include a rigid section and one or more flexible connectors. A flexible connector, alternatively called an expansion joint, includes a flexible section that allows for an axial misalignment between an upper end and a lower end of the flexible connector, or an axial expansion of the flexible connector, or both. When the removable pipe sections include a flexible section, independent attachments may be added between the header and the vessel.

[0029] Optionally, the ports of a conventional vessel are also replaced with tangential flange pads (alternatively called flange pads or studding outlets). Alternatively, short ports may be used but the flange pads are typically the shortest form of fitting to a curved vessel bottom having a flange available. A flange pad may have a length, measured on its longest side, of 4 (10 cm) or less. The bottom of the flange pad, or a short port or other fitting attached to the vessel, may be less than 5 cm below the lowest point, excluding any attached fittings, of the bottom of the vessel (typically found at the center of the bottom of the vessel), and optionally may be above the lowest point, excluding any attached fittings, of the bottom of the vessel. The top of the flange pad may be welded over a hole in the vessel. The bottom of the flange pad has a set of threaded holes. A septum with a flange on its lower end is inserted into the vessel through the flange pad. A removable pipe section is then bolted to the flange pad by way of a flange on the top of the pipe section. The flange of the septum is secured between the flange of the pipe section and the flange pad. The use of flange pads, or other short flanges, reduces the height of the vessel directly, and also by way of reducing the length of the septa which in turn allows the removable pipe sections to be short. However, conventional ports could alternatively be used, for example because they are readily available to the manufacture or already fitted to an existing vessel that is being adapted for use with the removable pipe sections. When using conventional ports, the vessel legs may need to be lengthened. Optionally, if conventional ports are used, they may be modified or originally fabricated to be not more than 20 cm long.

[0030] Optionally, the flange pad may have one or more ports through its sidewall. A port may be drilled through the flange pad and tapped to receive a pipe fitting. The port may be used to flush or drain an annulus between the septa and the flange before or without removing the septum. In this way, removal of the septum to clean the annulus may be delayed or avoided.

[0031] The ring header is attached to the bottom of the removable pipe sections, for example by way of horizontal flanges. Unbolting a pipe section from the flange pad and a flange on the ring header allows the pipe section to be removed by sliding it sideways. The septum can then be pulled downwards into the space previously occupied by the pipe sections. This allows an annulus between the septum and the flange pad to be cleaned from outside of the vessel. Optionally, the septum may be shorter than the pipe section. The septum can then be moved sideways to completely remove it from the tank to allow for better access to the annulus or to clean, inspect or replace the septum.

[0032] While one or more pipe sections are removed, the ring header remains attached to the vessel by other pipe sections that have not been removed, by optional independent attachment members, such as struts or U-bolts, between the ring header and the vessel, or both. One, or more than one, pipe section can be removed at a time. Optionally, flexible connectors, for example of the type having a flexible section between two flanges, may be inserted between the removable pipe sections and the header or the vessel or both the header and the vessel. In some examples, the flexible connectors may be METRASPHERE flexible connectors sold by Metraflex Quality Products. One or more flexible connectors may be removed with a rigid removable pipe section (and be considered part of the removable pipe section) or remain attached to the header or the vessel. In another option, the entire removable pipe section might be made of a flexible section, made for example of reinforced rubber, with flanges, made for example of plate steel, attached to each end of the flexible section. When removable pipe sections with one or more flexible sections that are part of or attached to the removable pipe section are used it is preferable, though optional, to have independent attachments between the header and the vessel. However, if independent attachments are not provided it is preferable, through optional, to use rigid removable pipe sections and leave a second set of at least three pipe sections connected to the vessel while a first set of pipe sections are removed. After the first set of pipe sections are reconnected to the ring header and the vessel, the second set of pipe sections can be removed to clean their associated annuli.

[0033] FIGS. 1-3 shows an example of a vessel 10 with an underdrain system 12. The vessel 10 in this example is a pressure vessel for holding a water treatment media such as granular activated carbon or ion exchange resin beads. The underdrain system includes a header 14 that is external to the vessel 10. In the example shown, the vessel 10 has a diameter of about 12 (3.7 m).

[0034] The vessel 10 has a set of legs 16 to support the vessel 10 on a floor. The vessel 10 also has a wash nozzle 18 and a flanged media outlet port 22. During media changes, media is removed through the outlet port 22 while water is added through the wash nozzle 18. A media inlet port 24 is used to add new media to the vessel 10. A hatch 28 allows a person to enter the vessel 10 when necessary. A sight glass 30 is provided to allow a person to see into the vessel 10. A set of anticipatory probes 32 are provided at different elevations to allow for monitoring the condition of the media.

[0035] During use, water to be treated enters the vessel through an inlet distributor nozzle 26. The water flows through the media in the vessel, septa 34, and spools 36 to the header 14. The header 14 is in the shape of a ring with a flanged outlet port 20.

[0036] FIGS. 4-6 show the header 14 and spools 36 in greater detail. In the example shown, the header 14 is made up of sections of 8 (20 cm) diameter pipe bolted together. The header 14 has a set of inlet flanges 38. The inlet flanges 38 are located at the top of the header 14 and oriented horizontally. Each spool 36 is a section of pipe with an upper flange 40 at the top of the spool 36 and a lower flange 42 at the bottom of the spool 36. The upper flange 40 and lower flange 42 are perpendicular to the length of the spool 36. In the example shown, the section of pipe of the spool is about 6 (15 cm) in diameter and 12 (30 cm) long. Bolts and nuts, not shown, attached the spools 36 to the header 14.

[0037] FIGS. 7-8 show a septum 34. The septum 34 has a plate flange 44 attached to a solid pipe segment 46. A screen 48, for example a wellscreen, is attached (i.e. welded) to the top of the solid pipe segment 46. The screen 48 may be made, for example, of stainless steel v-wire or other well screen material.

[0038] FIG. 9 shows one of a set of tangential flange pads 50 attached to the bottom of the vessel. The flange pad 50 presents a horizontal flange surface. The flange pad 50 has threaded holes 55 to accept bolts (not shown) passing through the upper flange 40 of the spool and the plate flange 44 of the septum 34. The septum 34, when inserted into the flange pad 50, extends upwards from its flange 44 into the vessel 10. Optionally, one or more ports 52 are provided through the side wall of the flange pad 50. The ports 52 may be connected to pipes and used to spray water into an annulus 54 between the flange pad 50 and the septum 34, or to withdraw a slurry from the annulus 54.

[0039] FIG. 10 shows steps in cleaning the vessel 10. A spool 36 is unbolted from the flange pad 50 and the header 14 and moved sideways away from the header 14. The septum 34, which is shorter than the spool 36, is then lowered into the space previously occupied by the spool 36. In this way, the septum 34 is removed from the vessel 10. Optionally, the septum 34 can be moved sideways to better expose the annulus 54 inside the pad flange 50. The annulus 54, or the inside of the pad flange 50 generally, can then be cleaned out. For example, media or other solids are removed from the inside of the pad flange 50. After the annulus 54 is cleaned, the septum 34 is reinstalled in the vessel 10 and the spool 36 is bolted back into place. Another spool 36 and septum 34 can then be removed. The process can be repeated until every spool 36 and septum 34 have been removed and replaced, and all of the annuli 54 are clean.

[0040] In the method described above, the header 14 remains attached to the vessel 10 even when a spool 36 is removed. Optionally, additional struts 56 may be added between the header 14 and the vessel to allow more spools 36 to be removed simultaneously. However, keeping 3 or 4 spools 36 attached may be adequate to support the header 14 while other spools 36 are removed. Accordingly, eight annuli 52 can be cleaned in two to four sets if desired. Alternatively, one annulus 52 at a time may be cleaned.

[0041] FIG. 11 shows a first alternative removable pipe section 68, which may be used in place of the spool 36 described above. The first alternative removable pipe section 68 has a flexible section 60 connected to an upper flange 40 and a lower flange 42. FIG. 12 shows a second alternative removable pipe section 70. The second alternative removable pipe section 70 has a flexible section 60 connected to an upper flange 40 and a first intermediate flange 62. The second alternative removable pipe section 70 also has a rigid pipe section 66 connected to a second intermediate flange 62 and a lower flange 42. Alternatively, variations on the second alternative removable pipe section 70 may be made with the flexible section 60 at the bottom of the second alternative removable pipe section 70 or on both the top and bottom of the second alternative removable pipe section 70.

[0042] The invention may be practiced in various alternative forms and/or with modifications to the description of examples above. Ordinary methods and devices used to build pipe networks, such as gaskets, sealants, fasteners, fittings etc. have not been described above but may be used as required.