CA2506865A1 - Compact surface mounted on-site wastewater treatment unit - Google Patents

Abstract

A compact, ground surface mounted wastewater treatment unit module.
The module is surface mounted on a selected substrate such as a scarified native soil. A watertight receiving basin is located on the substrate. The basin is at least partially filled with a lower layer of packing media, suitable for support of biological growth, and then with at least a first and a final layer of a porous granular media. A standpipe introduces wastewater to be treated, and such wastewater is distributed to the packing at the lower reaches of the basin.
The wastewater flows up through the packing, and into the first layer of a porous granular media, and thence upwardly and outwardly via capillary action and molecular attraction, and ultimately though the final porous granular media.
Treated wastewater is either collected or absorbed in an absorption foot interface between the final medium and the native earth below.

Claims (68)

1. A wastewater treatment module for treating contaminated wastewater in a biologically active treatment bed, said apparatus comprising:
(a) a substantially watertight basin, said basin having an outer bottom surface adapted for placement on a substrate, an inner bottom surface, and upwardly extending sidewalls, and a peripheral rim having a selected elevation above said bottom, said basin having a selected containment volume V;
(b) a plurality of units of at least one mass transfer packing media located within said basin, said mass transfer packing media sized and shaped to comprise a surface area adapted to support the growth of biological organisms thereon, and a void area within and between said packing media, and resulting when a plurality of mass transfer packing media ace packed together in a substantial void space within said basin, said mass transfer packing media extending upward from said inner bottom surface for a height H1;
(c) a standpipe, and a distributor pipe, said distributor pipe in fluid communication with said standpipe, said standpipe mounted to downwardly direct wastewater to be treated toward said distributor pipe, said distributor pipe mounted in said basin, said distributor pipe comprising a plurality of discharge outlets adapted to discharge wastewater therefrom so that said wastewater reaches said mass transfer packing media;
(d) mounted above and substantially covering said mass transfer packing media, at least one screen layer, said at least one screen layer comprising a screen sized and shaped to substantially prevent a granular media of preselected size from downwardly penetrating said at least one screen layer to reach said at least one mass transfer packing, so as to protect said at least one mass transfer packing media against receipt of granular media thereon;
(e) above said at least one screen layer and within said basin, a first granular media of a first preselected size, said first granular media extending upward from said at least one screen layer for a height H2;
(f) above said first granular media, a number N of upper granular media layers each of a preselected size, wherein N is a positive integer, and wherein said upper granular media layers extend (1) for a height H3 between said first granular media layer and the elevation of said peripheral rim, (2) upward beyond said peripheral rim to a top surface portion for a height H4, and (3) laterally outward from said basin and downward toward said substrate to a peripheral edge.

2. The apparatus as set forth in claim 1, wherein said substrate comprises scarified native earth.

3. The apparatus as set forth in claim 1, wherein said substrate comprises a substantially water impervious horizontal slab.

4. The apparatus as set forth in claim 1, wherein said substrate comprises a substantially water impervious synthetic liner.

5. The apparatus as set forth in claim 2, wherein said peripheral edge defines, inwardly of said peripheral edge, a gross absorption area.

6. The apparatus as set forth in claim 5, wherein said outer bottom surface of said basin has a basin footprint area, and wherein said gross absorption area minus said basin footprint area comprises a net absorption area.

7. The apparatus as set forth in claim 6, wherein said gross absorption area is utilized for absorption of treated effluent.

8. The apparatus as set forth in claim 5, wherein said basin has a centerline, and wherein said basin in installed on a slope with said centerline substantially perpendicular to said slope, and wherein an absorption length A L is defined within said peripheral edge along said centerline, and wherein an absorption width A W is provided in a downhill direction from said centerline of said basin in a preselected width A U in an uphill direction from said centerline of said basin.

9. The apparatus as set forth in claim 7, wherein said preselected width Au is approximately five feet.

10. The apparatus as set forth in claim 8, wherein said slope is five degrees or greater.

11. The apparatus as set forth in claim 1, further comprising, above said first granular media of first preselected size, one upper granular media layer having a second preselected size, said one upper granular media layer extending between said first granular media and said top surface portion.

12. The apparatus as set forth in claim 1, wherein said preselected size of said one upper granular media is smaller than said first preselected size of said first granular media.

13. The apparatus as set forth in claim 1, wherein said first granular media comprises coarse sand.

14. The apparatus as set forth in claim 1, wherein said second granular media comprises medium sand.

15. The apparatus as set forth in claim 1, wherein said standpipe further comprises an upper end, and wherein said standpipe extends vertically for a distance sufficient that said upper end extends above said top surface of said N
of upper granular media layers.

16. The apparatus as set forth in claim 1, wherein said basin is manufactured in a lightweight easily transportable material.

17. The apparatus as set forth in claim 16, wherein said basin is manufactured in a moldable plastic material.

18. The apparatus as set forth in claim 16, wherein said basin is manufactured in fiberglass reinforced plastic.

19. The apparatus as set forth in claim 1, wherein said at least one mass transfer media comprises a plurality of pipe sections.

20. The apparatus as set forth in claim 19, wherein each one of said plurality of pipe sections comprises a preselected length of polyvinylchloride pipe.

21. The apparatus as set forth in claim 20, wherein said preselected length of said pipe sections comprise one-half inch lengths.

22. The apparatus as set forth in claim 21, wherein said pipe sections comprise thin wall polyvinylchloride pipe of one-half inch diameter.

23. The apparatus as set forth in claim 1, wherein said distributor pipes are within said basin and within said first mass transfer packing media.

24. The apparatus as set forth in claim 1, wherein said apparatus is configured for upflow movement of wastewater, and wherein influent wastewater fed to said treatment module ascends through said first mass transfer media, and thence through said first granular media layer, and thence through at least one of said N number of upper media layers, and thence over said peripheral rim of said basin, and then through at least one of said N number of upper media layers.

25. The apparatus as set forth in claim 1, wherein said at least one screen comprises a coarse screen and a fine screen.

26. The apparatus as set forth in claim 25, wherein said fine screen comprises a bridal veil synthetic fabric material.

27. A method for treatment of a wastewater having organic matter therein, wherein said wastewater is processed in a septic tank and then in a treatment module, said method comprising;
(a) providing a watertight basin, said watertight basin situated on a substrate, said basin having a bottom surface adjacent said substrate, upwardly extending sidewalk, and a peripheral rim over which water placed in said basin passes;
(b) providing a plurality of units of at least one mass transfer packing media in said basin, said mass transfer packing media sized and shaped to comprise a surface area adapted to support the growth of biological organisms thereon, and resulting, when packed together, in a void space within said basin;

(c) providing a standpipe and a distributor pipe in fluid communication with said standpipe, said standpipe mounted to downwardly direct wastewater to be treated toward said distributor pipe, said distributor pipe mounted in said basin, said distributor pipe comprising a plurality of discharge outlets adapted to discharge wastewater therefrom so that said wastewater reaches said mass transfer packing media;
(d) providing, above and substantially covering an area interior to said peripheral rim of said basin, at least one screen layer, said at least one screen layer comprising a screen sized and shaped to substantially prevent a granular media of preselected size from downwardly penetrating said at least one screen to reach said at least one mass transfer packing, so as to protect said at least one mass transfer packing media against receipt of granular media thereon;
(e) providing, above said at least one screen layer, a granular or porous filter media having interstitial pores, said granular or porous filter media further comprising two or more preselected media portions, said two or more preselected media portions comprising at least (A) a first media portion, and (B) a final media portion, said final media portion being finer in size than said first media portion;
(f) directing said wastewater to said septic tank;
(g) directing said wastewater from said septic tank to said standpipe, and thence to said distributor pipe;
(h) allowing said wastewater to move upward through said at least one mass transfer packing media;

(i) allowing said wastewater to migrate upward into said first media portion;
(j) allowing said wastewater to flow from said first media portion to said final media portion, without saturating all of said final media portion with said wastewater;
(k) allowing said wastewater to flow from said final media portion to said substrate;
(l) wherein said wastewater is effectively treated for removal of organic matter, so as to provide a treated wastewater effluent.

28. The method as set forth in claim 27, wherein said wastewater passes through a separator between said mass transfer packing and said preselected media portions, said separator substantially preventing said preselected media portions from migrating into adjacent preselected mass transfer media.

29. The method as set forth in claim 27, wherein said wastewater further comprises suspended particulates, and wherein said suspended particulates are substantially physically removed from said wastewater by said two or more preselected media portions.

30. The method as set forth in claim 27, wherein said mass transfer packing media provides sites for biological growth without plugging of said media, so that at least a portion of said organic matter in said wastewater may be consumed by said biological growth on said mass transfer packing media.

31. The method as set forth in 27, further comprising the step of allowing ambient air to pass through said unsaturated final media portion to evaporate a portion of said wastewater.

32. The method as set forth in claim 27, wherein said wastewater comprises sewage effluent.

33. The method as set forth in claim 27, wherein said first media portion is comprises coarse sand.

34. The method as set forth in claim 23, wherein said final media portion comprises fine sand.

35. The method as set forth in claim 34, wherein said fine sand has an effective particle size from about 0.50 mm to about 0.60 mm.

36. The method as set forth in claim 35, wherein said fine sand has a uniformity coefficient of less than about 1.5.

37. The method as set forth in claim 27, wherein said treated wastewater effluent is collected for reuse.

38. The method as set forth in claim 37, wherein said collected treated wastewater us stored for reuse.

39. The method as set forth in 38, wherein said treated wastewater effluent is reused for landscape irrigation.

40. The method as set forth in claim 27, wherein said treatment module is at least partially situated on a scarified surface native earth, and wherein said treated wastewater is directed into said scarified native earth, for recharge of local groundwater.

41. The apparatus as set forth in claim 1, wherein said basin comprises a rectangular shaped concrete tank structure having an open top.

42. The apparatus as set forth in claim 1, wherein height H B from said bottom surface of said basin to said selected elevation of said peripheral rim is about thirty inches or less.

43. The apparatus as set forth in claim 1, wherein the ratio between said basin volume V (in units of cubic feet) and the waste water treatment capacity of said apparatus (in units of gallons of influent per day) is approximately 1.0 or less.

44. The apparatus as set forth in claim 1, wherein said distributor pipe comprises a perforated pipe is positioned substantially horizontally adjacent the interior bottom surface of said basin.

45. The apparatus as set forth in claim 1, further comprising, in said standpipe, a high level sensor.

46. The apparatus as set forth in claim 45, further comprising a control panel, and wherein said control panel comprises a high level alarm responsive to said high level sensor in said standpipe.

47. A system for treating wastewater comprising a plurality of water treatment apparatuses as set forth in claim 1 positioned adjacently, and hydraulically oriented for parallel influent flow.

48. A multi-stage wastewater treatment system for on-site treatment of wastewater such as sewage, comprising:

(a) a two-compartment septic tank, said two compartment septic tank configured for receipt of said wastewater in a first compartment and transfer of said wastewater to a second compartment after partial treatment of said wastewater;
(b) a pump tank for receiving wastewater from said two-compartment septic tank;
(c) at least one wastewater treatment module as set forth in claim 1 for receiving sewage from said pump tank.

49. The wastewater treatment system as set forth in claim 48, wherein said sewage further comprises nitrates at a sufficiently elevated level so as to require treatment for reduction of nitrates, and wherein said wastewater treatment system further comprises a nitrate treatment unit.

50. The wastewater treatment system as set forth in claim 49, wherein said nitrate treatment unit comprises a recycle line from said pump tank to said two compartment septic tank, and wherein said two compartment septic tank comprises a riser above said first compartment in said septic tank, and wherein a water permeable container having therein a plurality of packing media is provided in said riser, and wherein said recycle line provides recycled wastewater from said pump tank and discharged said recycled wastewater on to said packing media, wherein nitrate concentration in treated effluent from said system is reduced.

51. The wastewater treatment system as set forth in claim 50, wherein said water permeable container comprises a sack having 1/2 inch lengths of 1/2 inch diameter PVC pipe therein.

52. The wastewater treatment system as set forth in claim 49, wherein said nitrate treatment unit comprises a recycle line from said pump tank to a spray nozzle in said riser in said first compartment of said two compartment septic tank, said spray nozzle oriented so as to aereate recycled wastewater discharged from said spray nozzle into said first compartment of said septic tank.

53. The wastewater treatment system as set forth in claim 49, wherein said nitrate treatment unit comprises an extended surface media on at least one wall of said pump tank, and wherein a recycle line is provided within said pump tank, and wherein said recycle line provides recycled wastewater from said pump tank and discharges said recycled wastewater on to said extended surface media in said pump tank.

54. The system as set forth in claim 53, wherein said extended surface media comprises an outdoor rug.

55. The system as set forth in claim 49, wherein said nitrate treatment unit comprises an air sparged packed column in said second compartment of said two compartment septic tank.

56. ~The system as set forth in claim 55, wherein said air sparged packed column comprises an outer cylindrical shell, a lower retaining screen, an air line running to a discharge location below said lower retaining screen, and a plurality of packing media above said screen and contained within said shell.

57. ~The system as set forth in claim 56, wherein said packing media comprises a plurality of packing pieces of 1/2 inch lengths of 1/2 inch diameter PVC
pipe.

58. The system as set forth in claim 48, wherein said wastewater further comprises suspended particulates, and wherein said suspended particulates are substantially physically removed from said wastewater by said two or more preselected media portions.

59. The system as set forth in claim 48, wherein said mass transfer packing media provides sites for biological growth without plugging of said media, so that at least a portion of said organic matter in said wastewater may be consumed by said biological growth.

60. The system as set forth in claim 48, wherein said mass transfer packing media comprises a raschig ring.

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61. ~The system as set forth in claim 60, wherein said raschig rings comprise short pipe sections.

62. ~The system as set forth in claim 61, wherein the material of composition for said pipe sections is selected from the group consisting of (a) polyvinylchloride, and (b) high density polyethylene.

63. ~The system as set forth in claim 62, wherein said pipe sections are approximately one-half inch long.

64. ~The system as set forth in claim 63, wherein said pipe sections are approximately one-half inch in diameter.

65. ~The system as set forth in claim 48, wherein a plurality of wastewater treatment modules as set forth in claim 1 are provided.

66. ~The system as set forth in claim 65, wherein three wastewater treatment modules as set forth in claim 1 are provided.

67. ~The system as set forth in claim 48, or in claim 65, or in claim 66, further comprising an impervious substrate below said treatment module, said impervious substrate including a treated effluent collection system for capturing said treated effluent.

68. ~The system as set forth in claim 48, wherein a plurality of wastewater treatment modules as set forth in claim 1 are provided.