AU2005224284A1 - Water evaporation minimization - Google Patents
Water evaporation minimization Download PDFInfo
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- AU2005224284A1 AU2005224284A1 AU2005224284A AU2005224284A AU2005224284A1 AU 2005224284 A1 AU2005224284 A1 AU 2005224284A1 AU 2005224284 A AU2005224284 A AU 2005224284A AU 2005224284 A AU2005224284 A AU 2005224284A AU 2005224284 A1 AU2005224284 A1 AU 2005224284A1
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- Australia
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- module
- rim
- cover
- air
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Description
WO 2005/090696 PCT/AU2005/000380 WATER EVAPORATION MINIMIZATION Field of the Invention The present invention relates to the minimization of 5 water evaporation from water and tailings storage facilities, and more particularly to floating water surface cover modules for use in providing a floating barrier which covers a substantial part of the surface of a water storage facility to minimize evaporation. 10 Background of the Invention The need to conserve water in many parts of the world to support increasing demands placed on water resources by growing populations competing with environmental 15 requirements is becoming more evident with time. This has fuelled interest in ways to minimize evaporative losses from open storages. Numerous suggestions to minimize evaporation 20 involving the use of floating objects have been made in the past with different degrees of success and associated problems. While evaporative loss is known to be reduced by covering the surface of the water with a cover of plastic or like sheeting, and while such techniques are 25 used with success in swimming pools, such arrangements have limited success with water storage facilities having large surface areas which are exposed to extreme weather conditions, and particularly high winds. 30 Other suggestions include the use of floating balls and other floating covers made from plastic sheeting. In a study conducted by one of the present inventors, floating water surface modules which cover most of the surface of the water have been determined to provide a 35 practical solution for large water surface areas, as they are relatively stable in high winds.
WO 2005/090696 PCT/AU2005/000380 -2 A cover which may be used in the above way is disclosed in WO 98/12392, which shows a floating cover molded from a suitable plastic and having vertical sides and a domed cover, buoyancy being provided by a 5 compartment extending across the corner between the sides and the cover. While the arrangement described may be capable, with some modification, of mass production, it has the disadvantage of not being able to be arranged in a stable stack for storage or distribution, thereby 10 increasing storage and distribution costs when required in the quantities necessary to cover a large body of water, and rendering it less suitable as a mass production candidate. 15 Summary of the Invention and Object. It is an object of the present invention to provide a floating water storage cover module which lends itself to economic mass production while avoiding the storage and transport problems outlined above. 20 The invention provides a floating water surface cover module comprising a rim portion and a cover portion, means for giving buoyancy to the module such that in use the rim portion is substantially submerged in the water, said 25 cover portion being configured to define an air space above the water, said buoyancy means including at least one air-filled buoyancy pocket, said rim and/or cover and said pocket(s) being configured to allow the module to be nested within and stacked with like modules for storage or 30 transportation. By using air-filled buoyancy pocket(s) as the buoyancy means, the module can be molded from a suitable plastics material, or constructed from other suitable 35 material, to enable commercially viable mass production, while the configuration of the rim and/or cover to allow WO 2005/090696 PCT/AU2005/000380 -3 stacking reduces handling and storage costs by simplifying the distribution process. The cover portion is usually provided with an air 5 vent to equalize the pressure in said air space between the cover and the surface of the water. The cover portion is in most cases at least slightly domed to facilitate water run off while not significantly interfering with stackability. 10 The rim portion is preferably circular to provide the most efficient coverage according to random stacking theory. While hexagonal, triangular and square profiles could be adopted, the randomness of the deployment of the 15 modules onto the surface of the water means that accurate alignment is difficult to achieve. It has been found that a circular profile achieves a higher consistency of I coverage of the surface of the water, and for this reason is preferred. In any event, it is believed to be 20 preferable to leave at least a small part of the water surface exposed to maintain water quality. The buoyancy means may include a multiplicity of discrete air-filled pockets spaced around the rim. In one 25 form, open pockets can be formed in the plastic molding of the rim and cover portion with separate lids being attached to the rim and the cover after molding in such a way as to close the open pockets to thereby form the air filled buoyancy means. 30 In one form described further below, the cover portion is formed with shaped indentations which receive the pocket defining portions of the rim and cover when the modules are stacked thereby reducing the height of a stack 35 of modules.
WO 2005/090696 PCT/AU2005/000380 -4 The rim may be formed with an outwardly stepped lower portion which defines a ledge on which the lower edge of the rim rests when the modules are stacked. 5 Description of Preferred Embodiments. In order that the invention may be more readily understood, an embodiment will now be described with reference to the accompanying drawings in which: 10 Figure 1 is a side elevation of a module embodying the invention; Figure 2 is a perspective view from above of a stack of the modules of Figure 1; 15 Figure 3 is a perspective view from beneath of the module of Figure 1, and Figure 4 is an enlarged fragmentary sectional 20 elevation detailing the configuration the rims and indentations and how they cooperate when the modules are stacked as shown in Figure 2. Referring now to Figures 1 to 4 of the drawings, the 25 floating water surface cover module has a rim 1, and a shallow domed cover 2, formed with a vent 3 of sufficient size to allow equalisation of the pressure of the air under the cover 2 when the module is immersed in water W as illustrated, while not allowing for the escape of a 30 significant amount of water vapour. The module is suitably injection molded from a uv-treated plastic,such as polyurethane, and the underside of the module is formed with strengthening ribs 4 extending from the center of the cover 2 to the rim 1, as illustrated in Figure 3 of the 35 drawings.
WO 2005/090696 PCT/AU2005/000380 To provide the module with the required buoyancy, it is formed with six shaped open topped cavities 5 which are closed at the top by six shaped lids 8 attached after molding to create air-tight, air-filled cavities 5. To 5 allow for stacking, the lower portions of the cavities 5 are shaped to nest within walls 6 defining indentations 7 formed in the cover 2, the rims 1, cavities 5 and indentations 7 co-operating in the manner illustrated in Figure 4 when the modules are stacked in the manner shown 10 in Figure 2. As will be noted from Figure 4, the rim 1 has an outwardly stepped lower portion 9 defining a ledge 10 on which the lower edge of a stacked module rests with the cover 2 and the upper part of the rim 1 of a module nesting within a module stacked thereon as illustrated in 15 Figure 4. The molding of the air cavities 5 with the rim and cover portion further strengthens the module and the cooperation between the cavities 5 and the indentations 7 20 and the stepped rims 1 of adjacent modules in a stack, ensures that each module is nested in and well supported when stacked as illustrated in Figures 2 and 4. Each module sits in the water W as illustrated in 25 Figure by the suitable selection of the buoyancy provided by the cavities 5. By ensuring that the rim 1 is immersed in this way, the module presents a low profile and is less likely to be tipped or otherwise disturbed during high winds. 30 In a preferred embodiment, the relationship between the height (hr) of the rim and the depth (Q) of the freeboard portion (portion not immersed in water) satisfies the relationship: 35 x 0.1 < -- < 0.3 (1) hr WO 2005/090696 PCT/AU2005/000380 -6 If the relationship is greater than 0.3, this represents a condition where the bottom of the rim is more likely to come out of the water in rough conditions thereby making the module prone to being caught by the 5 wind. At values less than 0.1, representing a normal water level close to the surface of the cover 2, water may splash onto the cover thereby increasing the water surface from which evaporation may occur. 10 In a typical embodiment, the diameter to height ratio of the rim (D:hr) and the diameter to height ratio of the domed cover (D:hd) are between 5:1 and 25:1. The design parameters of the air-tight and air-filled 15 cavities 5 and portions 6 and indentations 7 will be determined by the application of standard buoyancy theory and by subsequent field testing to arrive at a freeboard portion in use according to equation 1. 20 The embodiment described above satisfies the requirements of facilitating mass production and enabling efficient storage and distribution for use as a useful device for the minimisation of water evaporation from water storage facilities exposed to hostile environments.
Claims (9)
1. A floating water surface cover module comprising a rim portion and a cover portion, means for giving 5 buoyancy to the module such that in use the rim portion is substantially submerged in the water, said cover portion being configured to define an air space above the water, said buoyancy means including at least one air-filled buoyancy pocket associated with 10 the rim and/or the cover portion, said rim and/or cover portion being configured to allow the module to be nested within and stacked with like modules for storage or transportation. 15
2. The module of claim 1, wherein the rim portion has an outwardly stepped formation which allows the cover portion and part of the rim portion of one module to nest within an overlying module to form a stack. 20
3. The module of claim 1 or 2, wherein the buoyancy means includes a plurality of air-filled pockets spaced around the rim portion, each pocket being formed to nest in a corresponding indentation in the cover portion and/or rim portion when the modules are 25 stacked.
4. The module of any preceding claim, wherein the or each pocket is formed in the cover and rim portions as an open pocket which is closed by a lid fixed to 30 the cover and rim portions after the pocket(s) are formed to define closed air-filled pocket(s).
5. The module of any preceding claim wherein the cover portion is dome-shaped. 35 WO 2005/090696 PCT/AU2005/000380 -8
6. The module of any preceding claim, wherein the cover portion has a vent opening to equalise the air pressure in the air space. 5
7. The module of any preceding claim wherein the cover portion, rim portion and a substantial part of the or each air-filled pocket is formed as a unitary plastic molding. 10
8. The module of any preceding claim, wherein the height (hr) of the rim and the depth (Q) of the freeboard portion satisfy the relationship: x 0.1 < -- < 0.3 (1) h
9. The module of any preceding claim, wherein the diameter to height ratio of the rim (D:hr) and the 15 diameter to height ratio of the domed cover (D:hd) are between 5:1 and 25:1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2005224284A AU2005224284B2 (en) | 2004-03-18 | 2005-03-18 | Water evaporation minimization |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2004901445A AU2004901445A0 (en) | 2004-03-18 | Water evaporation minimization | |
AU2004901445 | 2004-03-18 | ||
PCT/AU2005/000380 WO2005090696A1 (en) | 2004-03-18 | 2005-03-18 | Water evaporation minimization |
AU2005224284A AU2005224284B2 (en) | 2004-03-18 | 2005-03-18 | Water evaporation minimization |
Publications (2)
Publication Number | Publication Date |
---|---|
AU2005224284A1 true AU2005224284A1 (en) | 2005-09-29 |
AU2005224284B2 AU2005224284B2 (en) | 2010-11-25 |
Family
ID=37397378
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU2005224284A Ceased AU2005224284B2 (en) | 2004-03-18 | 2005-03-18 | Water evaporation minimization |
Country Status (1)
Country | Link |
---|---|
AU (1) | AU2005224284B2 (en) |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4366806A (en) * | 1980-08-18 | 1983-01-04 | Engineering & Research Assocs., Inc. | Solar pool heater |
NO963888L (en) * | 1996-09-17 | 1998-03-18 | Rothor As | Device for limiting evaporation of water |
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2005
- 2005-03-18 AU AU2005224284A patent/AU2005224284B2/en not_active Ceased
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Publication number | Publication date |
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AU2005224284B2 (en) | 2010-11-25 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
FGA | Letters patent sealed or granted (standard patent) | ||
MK14 | Patent ceased section 143(a) (annual fees not paid) or expired |