WO2023150571A1 - Low-cost structure for purifying and containing high clarity water that is used for direct contact recreational purposes - Google Patents

Low-cost structure for purifying and containing high clarity water that is used for direct contact recreational purposes Download PDF

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Publication number
WO2023150571A1
WO2023150571A1 PCT/US2023/061777 US2023061777W WO2023150571A1 WO 2023150571 A1 WO2023150571 A1 WO 2023150571A1 US 2023061777 W US2023061777 W US 2023061777W WO 2023150571 A1 WO2023150571 A1 WO 2023150571A1
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Prior art keywords
water
low
micro
cost
structure according
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Ceased
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PCT/US2023/061777
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English (en)
French (fr)
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WO2023150571A8 (en
Inventor
Fernando FISCHMAN
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Crystal Lagoons Technologies Inc
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Crystal Lagoons Technologies Inc
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Priority to MX2024009561A priority Critical patent/MX2024009561A/es
Priority to CN202380025979.5A priority patent/CN118843731B/zh
Priority to CU2024000029A priority patent/CU20240029A7/es
Priority to EP23750363.6A priority patent/EP4473174A4/en
Priority to CN202511617439.3A priority patent/CN121497132A/zh
Priority to KR1020247026212A priority patent/KR20240144189A/ko
Priority to CA3250359A priority patent/CA3250359A1/en
Priority to MA66608A priority patent/MA66608B1/fr
Priority to CR20240322A priority patent/CR20240322A/es
Priority to JP2024543195A priority patent/JP2025503899A/ja
Priority to AU2023216245A priority patent/AU2023216245A1/en
Application filed by Crystal Lagoons Technologies Inc filed Critical Crystal Lagoons Technologies Inc
Priority to PE2024001630A priority patent/PE20241778A1/es
Priority to IL314440A priority patent/IL314440B1/en
Publication of WO2023150571A1 publication Critical patent/WO2023150571A1/en
Priority to DO2024000130A priority patent/DOP2024000130A/es
Priority to JOJO/P/2024/0172A priority patent/JOP20240172A1/ar
Priority to CONC2024/0010499A priority patent/CO2024010499A2/es
Anticipated expiration legal-status Critical
Publication of WO2023150571A8 publication Critical patent/WO2023150571A8/en
Priority to ZA2024/06757A priority patent/ZA202406757B/en
Ceased legal-status Critical Current

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Classifications

    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance
    • C02F1/004Processes for the treatment of water whereby the filtration technique is of importance using large scale industrial sized filters
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H4/00Swimming or splash baths or pools
    • E04H4/12Devices or arrangements for circulating water, i.e. devices for removal of polluted water, cleaning baths or for water treatment
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H4/00Swimming or splash baths or pools
    • E04H4/12Devices or arrangements for circulating water, i.e. devices for removal of polluted water, cleaning baths or for water treatment
    • E04H4/1209Treatment of water for swimming pools
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2103/00Nature of the water, waste water, sewage or sludge to be treated
    • C02F2103/42Nature of the water, waste water, sewage or sludge to be treated from bathing facilities, e.g. swimming pools
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2201/00Apparatus for treatment of water, waste water or sewage
    • C02F2201/002Construction details of the apparatus
    • C02F2201/005Valves
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2209/00Controlling or monitoring parameters in water treatment
    • C02F2209/11Turbidity
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2307/00Location of water treatment or water treatment device
    • C02F2307/14Treatment of water in water supply networks, e.g. to prevent bacterial growth

Definitions

  • the present invention relates to a physical structure that allows containing high clarity water and eliminating particles that produce turbidity and other contaminants in large water bodies for direct contact recreational purposes at lower cost than traditional swimming pools’ structures and swimming pool filtration technology.
  • inlets have a limited range of how far they can push water out, especially since water is being pulled out from the same water volume through main drains, or skimmers, which impairs the effect of the nozzles and generates currents of water between the inlets and the outlets, creating “dead zones” that have minimal or no mixing nor recirculation. Therefore, regulations worldwide for traditional swimming pools require the use of evenly distributed inlets, in order to spread the treated water more homogeneously throughout the pool, as well as having evenly distributed outlets to push out the water and achieve an efficient mixing and recirculation of the water.
  • inlets and outlets are properly distributed and placed around the swimming pool’s water volume and structure, which allows the homogeneous withdrawal and homogeneous filtering of the water volume, reducing thus the risk of the so called “dead zones”.
  • the inlets and outlets shall have an adequate design, location, and in a number enough to ensure the effective distribution of treated water throughout the pool’s water volume, as well as being able to maintain an effective amount of disinfectant residual in the pool’s volume, and so that the complete water volume is filtered homogeneously numerous times per day, without creating dead zones or areas of the pool where there may be no treatment or recirculation through a filtration system given the design, number, or location of such inlets and outlets.
  • Florida swimming pool regulations require that pools larger than 30 feet in width (about nine meters) and that have a combination of wall and floor inlets, should have:
  • a number of wall inlets such that the maximum spacing between the wall inlets is 20 feet (about six meters) and floor inlets are provided for the pool water area beyond a 15 feet (about 4.5 meters) perpendicular distance from all walls;
  • a number of floor inlets such that the spacing between adjacent inlets does not exceed 20 feet (about six meters) and the distance from a floor inlet and an adjacent wall does not exceed 25 feet (about 7.6 meters).
  • the total area per nozzle is 20’x20’ or 400ft 2 , which would mean that a swimming pool of 100,000 ft 2 (about 2.3 acres) would require at least 250 bottom inlets, and their respective pump and highly complex piping network.
  • Skimmer systems in traditional swimming pools are also expensive and complex.
  • pool regulations require that 100% of the recirculation water flow may be processed through the skimmers, which generally requires the presence of gutters along the complete perimeter of the pool, or with minimal disruption, in order to be able to homogeneously distribute the surface water through such system when being withdrawn from the pool in order to be sent to the centralized filtration system.
  • Florida regulations even require that at least 90% of the pool perimeter to have gutters, and skimmers every 400 square feet of pool area (for smaller pools) in order to achieve a homogeneous filtering of the water volume.
  • the above means that a swimming pool of 100,000 ft 2 (about 2 acres) and 1,200 ft in perimeter, would require a huge gutter in at least 90% of the perimeter, of about 1,000 ft to achieve that same level of homogeneous filtration.
  • Figure 1 shows a schematic aerial view of a water body having a few make-up water pipes or inlets (5) and a few renewal outlets or discharge pipes (6), which generates “dead zones” (4) within the water body.
  • Figure 2 shows a schematic aerial view of a water body according to an embodiment of the invention, having a few make-up water pipes or inlets (5) and a large number of micro-leakage points (31) distributed along the inner surface of the water body, which minimizes the generation of dead zones.
  • Fig. 3 A shows a structure including one make-up water pipe or inlet (5) and one renewal outlet or discharge pipe (6), which generates an ineffective renewal of water.
  • FIG. 3B shows an equivalent structure but improved with an additional micro-renewal system (30) comprising multiple micro-leakage points (31) that allow providing for a more homogeneous renewal of water and generate a micro-leakage flow (32).
  • Figure 4 shows a schematic side view of a conventional swimming pool (10) that complies with swimming pool regulations, and having a plurality of bottom inlets (11), main drains (12), skimmers (13) and a centralized filter (14).
  • Figure 5 shows a schematic embodiment of the low-cost structure (1) of the present invention, showing the reduced number of bottom inlets (21), a high-frequency reduced skimmer system (41) a reduced filter (24), and the micro-leakage water flows (32) flowing through the micro-leakage points (31) of the micro-renewal system (30).
  • the low-frequency skimmer system LFSS (42) is not shown.
  • FIG 6 shows a schematic embodiment of the low-cost structure (1) of the present invention, wherein the structure (1) contains the water volume (2), and the structure comprises a plurality of micro-leakage points (31) within its inner surface, which allow to remove water from the structure (1) since each micro-leakage point (31) has an associated micro-leakage point water flow (32) that is being removed from the structure (1) and into the excavated soil or filling material (3).
  • the low-frequency skimmer system (LFSS) is not shown.
  • Figure 7 shows an enlarged section of an embodiment of the micro-renewal system (30) of the present invention, wherein a the micro-leakage material (33) is a grid material (34) and is used in the inner surface of the structure, which allows to create micro-leakage points (31) to achieve a micro-leakage flow (32) that is being removed from the structure into the excavated soil or filling material (3).
  • a the micro-leakage material (33) is a grid material (34) and is used in the inner surface of the structure, which allows to create micro-leakage points (31) to achieve a micro-leakage flow (32) that is being removed from the structure into the excavated soil or filling material (3).
  • Figure 8 shows a schematic aerial top view of an embodiment of the structure (1) of the present invention as well as the low-frequency skimmer system LFSS (42) and one discharge water pipe (6).
  • Figure 9 shows a schematic side view of an embodiment of the low-frequency skimmer system LFSS (42) and the opening that is located above the water level.
  • Figure 10 shows a schematic enlarged side view of an embodiment of the low-frequency skimmer system LFSS (42), and referential heights hl, h2, and h3 that denote the distance from the water level to the lower weir opening point, the height of the weir opening, and the thickness of the weir upper structure, respectively.
  • Figure 11 shows a schematic front view of an embodiment of the LFSS (42), having four weir structures (43) being located with openings above the water level of the water volume (2).
  • the present invention provides for a low cost structure comprising a system and structural components that, with a reduced and less expensive centralized filtration system, allows to contain and purify water at lower costs than traditional swimming pools, for direct contact recreational uses.
  • the present invention discloses a low cost structure that has a surface of at least 3,000 m 2 and a water volume of least 5,000 m 3 , which is configured for containing and purifying low turbidity water (2) of less than 2 NTU, and that is suitable for direct contact recreational purposes.
  • the reduced centralized filtration system refers to a system that uses less inlets, outlets, skimmers, and/or filtration equipment than a conventionally designed and operated swimming pool, and therefore is not intended to achieve the same recirculation pattern and/or filtration rate than a conventionally designed centralized swimming pool filtration system.
  • a conventionally designed and operated swimming pool refers to a swimming pool designed and operated as per Florida’s Public swimming Pool Regulations.
  • an effective filtration refers to the filtration of a water volume that reduces the formation of short-circuits and dead zones within a water volume.
  • homogeneous filtration refers to the filtration resulting from operating a conventional swimming pool designed and operated as per Florida’s Public swimming Pool Regulations.
  • the low-cost reduced centralized filtration system (20) from the present invention is improved with a micro-renewal system (30) and a dual -frequency skimmer system (40), comprising a high-frequency (41) and low-frequency skimmer system (42). Therefore, the structure of the present invention allows containing and purifying water that is suitable for direct contact recreational purposes improving such reduced low-cost centralized filtration system, where the structure of the present invention comprises four elements, and in some preferred embodiments combinations all four elements:
  • a low-cost reduced centralized filtration system (20) that has fewer inlets, outlets, skimmers, and filtration water volume rates compared to a conventional swimming pool as previously defined.
  • This system allows to improve the efficiency of the low-cost reduced centralized filtration system (20).
  • a high-frequency skimmer system HFSS (41) that allows for the removal of surface water from the structure (1), and which has a reduced capacity design compared to conventional swimming pool skimmer systems.
  • a low-frequency skimmer system LFSS (42) that allows for the removal of water from the upper portion of the water volume during rain events or increased renewal events, among other events, and which improves the use of the high- frequency skimmer system.
  • the low-cost reduced centralized filtration system as described in the present invention refers to a centralized filtration system that has a reduced configuration and capacity compared to a conventional swimming pool centralized filtration system as defined by Florida Public swimming Pool Regulations.
  • the reduced low-cost centralized filtration system requires a fewer number of inlets (21) and outlets (22) to extract and return water from and to the structure, as well as a smaller filtration equipment (24) that allows filtering a smaller water volume compared to a conventional swimming pool centralized filtration system, as it can be seen in the following Table:
  • the reduced low-cost centralized filtration system from the present invention comprises:
  • a plurality of outlets (22) to withdraw water from the structure II.
  • a reduced filtration equipment (23) that is configured to filter such water flow withdrawn through the outlets, and
  • the plurality of outlets (22) to withdraw water from the structure of the present invention is configured in order to pull out water from the structure at a rate that is lower than the recirculation water volume from a public swimming pool based on Florida regulations.
  • the network of outlets (22) is required to be able to withdraw at least 30% less volume within a 24-hr period, compared with the filtration rate required to homogeneously filter the complete volume water volume four times per day as in Conventional swimming Pool Centralized Filtration Systems.
  • a structure having a volume of 15,000 m 3 would need to filter its complete water volume at least four times per day based in Florida Public swimming Pool Regulations, which would mean that 60,000 m 3 would need to be withdrawn from the structure and sent to the filtration system each day, resulting in a recirculation/filtration water volume of 2,500 m 3 /h.
  • the low-cost reduced centralized filtration system (20) is able to effectively filter at least 30% less volume within a 24-hour period, encompassing all values within, including, for example, about 40% less volume, about 50% less volume, about 60% less volume, about 70% less volume, about 80% less volume, about 90% less volume, or less compared with the filtration rate required to homogeneously filter the complete volume water volume four times per day.
  • the low-cost reduced filtration system (20) generally comprises at least one filtration equipment (24) and at least one pumping equipment (25), and is configured to filter the reduced water flow withdrawn through the outlets (22), as previously described.
  • the reduced water flow withdrawn from the structure in order to effectively filter at least 30% less volume compared to the traditional filtration rates of public swimming pools in Florida allows to significantly reduce costs given the less-complex piping network, valves, pumps, and other elements associated with the outlets.
  • the number of bottom inlets from the present invention is defined as being at least 30% less than the number of bottom inlets required in regulations in Florida. As previously indicated, in Florida Public swimming Pool Regulations, it is required that bottom inlets cover a total area about 400 ft 2 per inlet, where bottom inlets should not be located more than 20 ft from each other, in order to allow for a homogeneous distribution of water with additives and also to achieve an effective filtration.
  • the present invention requires at least 30% less inlets than the number of bottom inlets required in Florida Pool Regulations.
  • the number of bottom inlets from the present invention is defined as being at least 30% less than the number of bottom inlets required in regulations in Florida and any value of number of inlets within, such as 40% less, 50% less, 60% less, 70% less, 80% less, or 90% less than the number of bottom inlets required in regulations in Florida Pool Regulations.
  • the present invention may comprise a number of bottom inlets of within 0 to 175 inlets, including having 170 inlets, or 150 inlets, or 125 inlets, or 100 inlets, or 75 inlets, or 50 inlets, or 25 inlets, among other numbers of inlets.
  • the minimum number of bottom inlets (21) from the present invention given the minimum water surface of 3,000 m 2 is defined as being 15 bottom inlets, which is calculated as:
  • a swimming pool of about 100,000 ft 2 (about 2.3 acres) would require at least 250 bottom inlets from a simple calculation of dividing the total surface and the maximum coverage per inlet (100,000 ft2/400 ft2), and therefore, for the same structure, the present invention would require 175 inlets or less. In such case, any number of inlets within 15 to 175 bottom inlets would be in the range of the number of bottom inlets from the present invention.
  • the minimum number of inlets (21) is necessary to achieve a minimum distribution that allows the low-cost structure (1) from the present invention to achieve a reduced filtration system that is complemented with a water micro-renewal system.
  • inlets are only a part of the problem in conventional swimming pool systems, since the inlets need to be connected to piping, have their own support structures, include valves and connectors, and having their hydraulic connection to the pumping elements, and therefore reducing the amount of inlets allows to reduce the complexity and cost of the associated piping network and pumping elements.
  • the water micro-renewal system (30) is an improvement to the low-cost reduced centralized filtration system (20), which allows providing a generally permanent and more homogeneous water renewal of the water volume contained within the structure (1) resulting from the micro-leakage of water passing through the inner surface of the structure.
  • the innovative water micro-renewal system from the present invention comprises a few bottom inlets (21) and multiple micro-leakage points (31) that allow generating a more homogeneous and permanent renewal of water from the structure.
  • This more homogeneous renewal of water allows for a highly efficient renewal of water without creating massive dead zones, as it can be seen in Figure 2, which shows an aerial perspective view of a water volume having a few inlets (21) and a plurality of micro-leakage points (31) that allow achieving a homogeneous renewal.
  • Figure 3A shows a side view of a structure having only one make-up water pipe or inlet (5) and one renewal outlet or discharge pipe (6), compared to Figure 3B that shows an embodiment having multiple micro-leakage points (31).
  • Micro-leakage refers to the leakage of small water flows through the inner surface of the structure that contains the water body, which can be achieved by the use of systems and/or materials that create a plurality of micro-leakage points (31) distributed throughout the inner surface of the structure, referred to herein as microleakage elements.
  • the micro-leakage point (31) refers to an area within the inner surface of the water body where there is a hydraulic connection between the water volume contained in the structure and the soil or filling material under the structure.
  • the microleakage points (31) are situated throughout the inner surface of the structure that is in contact with the excavated soil (3).
  • the micro-leakage points (31) are situated throughout the inner surface of the structure that is in contact with the filling material.
  • the water volume removed from the structure through microleakage is preferably lower than the volume of water filtered by the low-cost reduced centralized filtration system (20).
  • the micro-leakage water flow removed from the structure is estimated to be at least 30% less, compared to the volume of water filtered by the reduced low-cost centralized filtration system (20), wherein the micro-leakage water volume is removed from the structure through the micro-leakage points (31).
  • the soil or filling material (3) under the structure should have a permeability coefficient sufficient enough so that there is no substantial accumulation of water under the structure that can affect the integrity of the structure, given that such soil or filling material (3) may continuously receive water from the microleakage points (31).
  • the soil under the structure can have different types of permeability, which can be separated in:
  • the soil under the structure and the type of solution used below the micro-leakage element are configured to allow the passage of water without generating substantial accumulation of water directly under the micro-leakage element, which may cause structural and/or aesthetic impact to the structure.
  • micro-leakage points (31) may be created by the use of micro-leakage materials and/or systems (33) that, given their use, installation, or placement within the inner surface of the water body, are not 100% stagnant or create crevices or openings within the inner surface, and therefore generate a plurality of points that generate microleakage, herein referred to as micro-leakage points (31).
  • the micro leakage points (31) may be created by the use of netting or grated elements and a set of valves to achieve a uniform microleakage from the inner surface of the structure.
  • Micro-leakage materials and systems (33) comprise materials with grill configurations, which are used for the containment of water in the structure and to allow passage of water.
  • the micro-leakage materials may include a grid material (34), the use of woven geotextiles, netting materials, fabric materials, textile materials, plastic materials, thermoplastics materials, membranes, or combinations thereof.
  • the micro-leakage materials (33) create points and may be looped, attached, knitted, heat sealed, induction heat sealed, twisted, or knotted so that intersections are present, which create a plurality of micro-leakage points within such materials.
  • the micro-leakage materials (33) comprise the use of materials that include crevices, welding points, or joints through which leakage is generated, or materials that have punctures.
  • the micro-renewal system (30) of the invention allows to improve the low-cost reduced centralized filtration system (20), since it creates a renewal of water at a smaller scale, but evenly distributed throughout the inner surface of the structure, facilitating thus a more homogeneous renewal.
  • the micro-renewal system (30) is more efficient than the traditional renewal of water with only a small number of discharge points and make-up water inlets that would create channels and dead zones (as seen in Figure 1).
  • This micro-renewal system (30) that improves the reduced low- cost centralized filtration system (20) creates a low-cost efficient filtration system that allows purification of water at much lower capital and operational costs than traditional swimming pools systems.
  • the micro-leakage points (31) allow generating a water flow through such points, which is removed from the structure.
  • the microleakage water flow is 0.1 to 0.5 liters per second per hectare of inner surface of the structure exposed to the water volume.
  • the micro-leakage points (31) should be periodically cleaned with a cleaning device so that they do not become clogged or obstructed in a way that would hinder them from creating a micro-leakage water flow. Avoidance of clogging from such microleakage points (31) should be checked and cleaning such micro-leakage points should be performed periodically to avoid them from hindering their capacity of microleakage.
  • the micro-leakage points (31) may be unobstructed by means of removing clogging sediments either manually or through automatic means, through brushing cleaning systems, by using vacuum-based devices that suction potentially clogging sediments and particles from the micro-leakage points and their surface, among others. The cleaning of the micro-leakage points avoids them becoming clogged and/or obstructed.
  • the micro-renewal system (30) allows to improve the effect of the low-cost reduced centralized filtration system (20) facilitating thus a more homogeneous renewal.
  • a conventional swimming pool centralized filtration system withdraws water from swimming pool skimmers (13) and through main drains (12), sends such water into a centralized filter (14), and then returns the filtered water through a large number of inlets (11) calculated and distributed according to regulations, in order to achieve swimming pool filtration rates.
  • a low-cost reduced centralized filtration system of the present invention which has a lower number of inlets (21) and has a smaller filtration equipment (24), than a conventional swimming pool, such system being improved by the micro-renewal system that comprises a plurality of micro-leakage points (31) throughout the inner surface of the structure, and which allow to provide a micro-leakage water flow (32) through such points.
  • HFSS high-frequency reduced skimmer system
  • micro-renewal system (30) allows to improve the purification of water due to an increased water renewal compared to the use of a reduced centralized filtration system only, such micro-renewal system (30) does not target the purification or treatment of the water portion closer to the surface water body structure, which is an important part of direct contact recreational facilities.
  • the present invention utilizes a high-frequency reduced skimmer system HFSS (41) that allows the removal of water from the surface of the volume (2) contained within the structure (1) (including the upper layer of the water volume in contact with the skimmer), wherein such HFSS (41) has a reduced configuration compared to a conventional swimming pool skimmer system as described in the next section.
  • HFSS high-frequency reduced skimmer system
  • a conventional swimming pool skimmer system generally has to be designed and configured to withdraw the complete recirculation/filtration water flow from the pool and be able to send such flow to a filtration system.
  • the skimmer system has to be designed and calculated to handle the total flow of water that needs to be filtered from a conventional swimming pool, which results from filtering the total volume of water at least four times per day.
  • the high-frequency reduced skimmer system (HFSS) from the present invention uses a reduced design, wherein the skimmers are positioned and configured to withdraw at least 30% less volume within a 24-hr period, compared with the withdrawal rate required to homogeneously filter the complete volume water volume four times per day as in Conventional swimming Pool Centralized Filtration Systems.
  • the high-frequency reduced skimmer system may be positioned and configured to withdraw said at least 30% less volume within a 24 hr. period, and encompasses all values within, including, for example, at least 40% less, at least 50% less, at least 60% less, at least 70% less, at least 80% less, or at least 90% less volume within a 24 hr. period, compared with the withdrawal rate required to homogeneously filter the complete water volume four times per day as in Conventional swimming Pool Centralized Filtration Systems.
  • a structure having a volume of 15,000 m3 would need to filter its complete water volume at least 4 times per day based in Florida Public swimming Pool Regulations, which would mean that 60,000 m3 would need to be withdrawn from the structure and sent to the filtration system each day, resulting in a recirculation/filtration water volume of 2,500 m3/h. Therefore, such a structure would require a skimmer system that is able to withdraw 100% of such water flow only through the skimmers located in the structure’s perimeter.
  • the present invention requires that the HFSS (41) is configured to be able to withdraw at least 30% less volume within a 24-hr period compared to a conventional swimming pool system, and therefore the present invention would require having a HFSS (41) configured to and able to withdraw up to 1,750 m 3 /h of water through the skimmers.
  • This allows that the number and configuration of skimmers required to withdraw such reduced water flow from the structure allows to significantly reduce costs, given the less-complex piping network and others associated with the skimmer system.
  • the HFFS (41) sends the removed water to the low-cost reduced centralized filtration system (20), in order to treat and/or filter such water before returning it back into the structure.
  • the HFSS uses a reduced skimmer system compared to conventional skimmer systems for swimming pools based on regulatory requirements:
  • the present invention also comprises a low-frequency skimmer system LFSS (42) that removes water from the surface and/or upper part of the water body during planned or specific situations and with less frequency than the HFSS, as depicted in Figures 8, 9 and 10.
  • the LFSS preferably operates during rain events where an increased volume of water enters the structure, and therefore the low-frequency skimmer system (42) is used to provide increased renewal through this addition of rainwater into the system, which helps to improve the effect of the high-frequency reduced skimmer system.
  • the low-frequency skimmer system (42) is able to remove water from the water body during specific situations such as stormwater events, or during determined increased renewal events, as it is described in the following paragraphs.
  • the use of the low-frequency skimmer system (42) allows providing an additional source of water renewal from the water surface or the upper layer of the water surface, which is generally not affected or is minimally affected by the micro-renewal of water.
  • the LFSS (42) also helps to improve the use of the high- frequency reduced skimmer system (41), by providing an increased renewal of water through the removal of water located in the upper part of the water body during certain events of periods of time.
  • the low frequency skimmer system (42) is generally used during stormwater or rainfall events that cause the water level of the water body to rise into predetermined levels where water must be discharged. Also, the low-frequency skimmer system (42) may also be used during high-renewal events where larger make-up water flows enter the water structure in order to achieve a higher renewal rate, wherein the low- frequency skimmers operate by removing water from the structure, which allows to create an “open” cycle where make-up water is introduced into the structure, and the water that is found in the surface is removed from the structure.
  • the low frequency skimmer system (42) is not just simple overflow from the structure into its surroundings, which would happen naturally during a stormwater event if water kept falling into the structure such that the volume of water entering the structure surpasses the freeboard volume and no other means are used to remove it from the structure.
  • the present invention requires that there are currents that mix and move the water volume in the upper layer of the water volume, in order to achieve an efficient renewal of the upper layer of the water body, and therefore a simple overflow into the surroundings of the structure may not achieve such purpose.
  • the freeboard volume is the volume of water that the structure could contain in addition to its design water volume.
  • the freeboard volume may change depending on the water level and its variation during time.
  • the present invention requires a minimum freeboard volume, such that the minimum freeboard distance between the water level and the top most containment structure of the water volume is at least 5 cm.
  • the use of the low-frequency skimmer system (42) improves the effect of the high frequency reduced skimmer system (41), in order to remove water volume from the upper section of the structure, which comprises the upper surface of the water, and allows removing surface water as required.
  • the low-frequency skimmer system (42) of the present invention may not be hydraulically connected to the low-cost reduced centralized filtration system, but instead the water extracted through the low-frequency skimmer system may be removed from the structure.
  • Such water removed through the low-frequency skimmer system (42) is preferably disposed of, in contrast to the low-cost reduced centralized filtration system that returns the filtered water to the structure.
  • water can also be used for irrigation purposes, infiltration purposes, or other purposes, including use of such water for filtration and treatment prior to being used for recreational purposes, among others.
  • the low-frequency skimmer system (42) may have a perimeter weir configuration, an overflow structure, a perimeter opening structure located in at least one portion of the perimeter of the structure, or a combination thereof.
  • the LFSS (42) configuration is designed based on precipitation data and IDF curves (intensity, duration, frequency curves) for the specific location where the structure is located, and characteristics of the soil below the structure of the water body.
  • the characteristics of the soil beneath the structure are determined based on a geotechnical study that determines the capacity of water infiltration and seepage into the soil. Further, it must be taken into account the runoff coefficient, the calculation of water directly falling over the water structure’s surface (direct receiving of water).
  • Other variables and methods of calculation may also be used for determining the parameters and configurations of the LFSS (42).
  • At least one storage curve is determined, which indicates the amount of water that the structure is able to hold and the rates of holding that water and removing such water from the structure.
  • SC storage curve
  • the LFSS (42) includes a weir structure (43) as seen in Figure 11, which includes a weir structure (43) on a length (L) that is wide enough to allow the removal of water at a rate that allows avoiding overfilling the structure with water.
  • the weir length is generally determined by using the leveled method.
  • a schematic embodiment is shown in Figure 9 and Figure 10, show a weir structure (43) containing “n” openings, each one with a length of “b” and height “h2”. These openings are located at a height “hl” from the average design water surface. Once the water passes through the hl distance, the LFSS will start its operation and removes water from the structure.
  • the LFSS comprises at least one weir structure (43), which aims at being able to remove water from the structure.
  • the weir structure (43) comprises at least two openings for safety and discharge purposes. In such case, the weir structure is generally located within a perimeter wall of the structure so that the openings can be easily seen and cleaned, if needed.
  • the low-frequency skimmer system (42) is designed to achieve a discharge of water during determined events, in order to improve the efficiency of the high-frequency reduced skimmer system (41), wherein a Skimmer Operation Rate is defined as the ratio of operative hours of the HFSS to the operative hours of the LFSS within a 30- day period of time.
  • Skimmer Operation Rate (SOR ⁇ ) Hours ° °v eratlon °f HFSS > Q Hours of Operation of LFSS
  • the Skimmer Operation Rate then is a number that results from the division of the number of operative hours of the HFSS to the number of operating hours of the LFSS within a 30-day period, and may be calculated from the average numbers of hours that each skimmer system operates.
  • the SOR is defined as being at least 30, wherein this means that the HFSS operates at least 10 times more time than the LFSS.
  • the HFSS is required to operate at least 70 hours during the 30-day period of time.
  • the hours of operation of the HFSS is at least 180.
  • make-up water flow has to be higher than the natural evaporation water flow from the water contained in the structure, as described in the following equation:
  • Micro-Renewal Flow Average water flow that is removed from the structure through the micro-renewal system of the structure, wherein such water flow is lost from the structure through a plurality of micro-leakage points, and measured in m 3 /h
  • the low-cost structure includes a make-up water system, which together with the rest of the elements of the system, allows containing and purifying water to achieve a large direct contact recreational water body having high clarity, wherein the structure has a lower cost and a less complex configuration than a conventional swimming pool system, mainly given because of the lower number of inlets used throughout the structure, as well as a smaller piping network and associated equipment and elements.
  • the inlets associated with the low-cost structure from the present invention may comprise any type of inlets that are configured to introduce water into the structure, which can comprise bottom inlets, make-up water inlets, renewal inlets, wall inlets, among others. Further, the same inlet may be used to introduce make-up water and to introduce water (that may be mixed with chemicals) into the structure in order to provide an efficient configuration of inlets.
  • the low-cost structure of the invention comprises a low-cost reduced centralized filtration system (20) that is improved with a micro-renewal water system (30) and a high-frequency (41) and low-frequency skimmer system (42), in order to achieve high quality of water.
  • the use of the low-cost structure from the present invention allows obtaining high quality water that is suitable for direct contact recreational purposes, including water with clarity lower than 2 NTU.
  • the low-cost structure (1) from the present invention refers to structures that may not comprise a full concrete shell that covers the complete inner surface of the structure, as usually used in conventional swimming pools.
  • the low-cost structure from the present invention aims to be applied in relatively calm waters that have natural inner currents and mixing as a result of the low-cost centralized filtration system, but is not directed to water bodies with a very high mixing rate and variation of water levels such as surf pools or wave pools that include the use of artificial wave generation equipment.
  • the low-cost structure (1) from the present invention comprises elements and configurations that aim at providing a safe environment for swimming, including the use of a sloped access into the structure and the use of man-made sandy beach areas in the surroundings of the structure.
  • the use of sandy beach areas is contiguous to at least one sloped access into the structure.
  • the system of the present invention can be between 20% and 80% less expensive than a conventional swimming pool designed under Florida public swimming pool regulations, also having up to 80% less operational costs associated with the energy used for the filtration system of a traditional swimming pool.
  • a low-cost structure (1) having a surface of at least 3,000 m 2 and a volume of least 5,000 m 3 for containing and purifying low turbidity water of less than 2 NTU, and that is suitable for direct contact recreational purposes, wherein the structure comprises: a low- cost reduced centralized filtration system (20) that filters a volume of water (2) of the water body and requires less inlets and a lower filtration rate compared to a conventional swimming pool designed and constructed as per Florida Public swimming Pool Regulations, wherein: the number of bottom inlets (21) is at least 30% less than the number of inlets of a conventional swimming pool, the structure having at least 15 bottom inlets (21); the low-cost reduced centralized filtration system (20) is able to effectively filter at least 30% less volume within a 24-hr period than a conventional swimming pool; a micro-renewal system (30) that operates permanently, which allows a micro-leakage of the water through a plurality of micro-leakage points (31)
  • the low-cost structure may include one or more of the following additional features:
  • the low-cost structure may comprise elements and configurations that aim at providing a safe environment for swimming selected from the group comprising at least one of a sloped access into the structure, or the use of man-made sandy beach areas in the surroundings of the structure.
  • the low-cost structure may include a sandy beach area(s) contiguous to at least one sloped access into the structure.
  • the low-cost structure may include a low-cost reduced centralized filtration system comprising a plurality of outlets to withdraw water from the structure; a reduced filtration system configured to filter such water flow withdrawn through the outlets, and; a network of inlets (21) to introduce the filtered water back into the structure.
  • the low-cost structure may be configured wherein the network of outlets is configured to pull out water from the structure at a rate that is lower than the recirculation water volume from a public swimming pool based on Florida Public swimming Pool Regulations.
  • the low-cost structure may be configured wherein the low-cost reduced centralized filtration system is able to effectively filter at least 40% less volume within a 24-hour period, or at least 50% less volume, or at least 60% less volume, or at least 70% less volume, or at least 80% less volume, or at least 90% less volume or less compared with the filtration rate required to homogeneously filter the complete volume water volume four times per day.
  • the low-cost structure may be configured wherein a total number of inlets is at least 40%, 50%, 60%, 70%, 80% or 90% less than what is required in regulations in Florida Public swimming Pool Regulations.
  • the low-cost structure may be configured wherein the reduced filtration system comprises at least one filtration equipment (24) and at least one pump (26), and is configured to filter the water flow withdrawn from the structure through the outlets (22).
  • the low-cost structure may be configured wherein the micro-renewal system (30) allows generating a more homogeneous and permanent renewal of water from the structure (1), which allows for a highly efficient renewal of water without creating massive dead zones.
  • the low-cost structure may be configured wherein the micro-leakage points (31) are created by the use of netting or grated elements and a set of valves to achieve a uniform micro-leakage from the inner surface of the structure.

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  • Engineering & Computer Science (AREA)
  • Water Supply & Treatment (AREA)
  • Architecture (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Environmental & Geological Engineering (AREA)
  • Structural Engineering (AREA)
  • Civil Engineering (AREA)
  • Filtration Of Liquid (AREA)
  • Physical Water Treatments (AREA)
  • Water Treatment By Sorption (AREA)
  • Separation Using Semi-Permeable Membranes (AREA)
  • Removal Of Specific Substances (AREA)
  • Filtering Materials (AREA)
  • Aeration Devices For Treatment Of Activated Polluted Sludge (AREA)
  • Separation Of Suspended Particles By Flocculating Agents (AREA)
PCT/US2023/061777 2022-02-04 2023-02-01 Low-cost structure for purifying and containing high clarity water that is used for direct contact recreational purposes Ceased WO2023150571A1 (en)

Priority Applications (17)

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AU2023216245A AU2023216245A1 (en) 2022-02-04 2023-02-01 Low-cost structure for purifying and containing high clarity water that is used for direct contact recreational purposes
CU2024000029A CU20240029A7 (es) 2022-02-04 2023-02-01 Estructura para contener y purificar agua de baja turbiedad apta para fines recreativos de contacto directo
EP23750363.6A EP4473174A4 (en) 2022-02-04 2023-02-01 LOW-COST WATER PURIFICATION AND HIGH-CLARITY CONTAINMENT STRUCTURE INTENDED FOR DIRECT-CONTACT RECREATIONAL ACTIVITIES
CN202511617439.3A CN121497132A (zh) 2022-02-04 2023-02-01 用于净化和容纳用于直接接触娱乐目的的高透明度水的低成本结构
KR1020247026212A KR20240144189A (ko) 2022-02-04 2023-02-01 직접 접촉 레크리에이션 목적을 위해 사용되는 고투명도 물을 정화하고 수용하기 위한 저비용 구조체
CA3250359A CA3250359A1 (en) 2022-02-04 2023-02-01 LOW-COST WATER PURIFICATION AND HIGH-CLARITY CONTAINMENT STRUCTURE INTENDED FOR DIRECT-CONTACT RECREATIONAL ACTIVITIES
MA66608A MA66608B1 (fr) 2022-02-04 2023-02-01 Structure à faible coût de purification et de contenance d'eau de grande clarté destinée à des activités récréatives à contact direct
CR20240322A CR20240322A (es) 2022-02-04 2023-02-01 Estructura de bajo costo para purificar y contener agua de alta claridad que se utiliza para fines recreativos de contacto directo
PE2024001630A PE20241778A1 (es) 2022-02-04 2023-02-01 Estructura de bajo costo para purificar y contener agua de alta claridad que se utiliza para fines recreativos de contacto directo
MX2024009561A MX2024009561A (es) 2022-02-04 2023-02-01 Estructura de bajo costo para purificar y contener agua de alta claridad que se utiliza para fines recreativos de contacto directo.
CN202380025979.5A CN118843731B (zh) 2022-02-04 2023-02-01 用于净化和容纳用于直接接触娱乐目的的高透明度水的低成本结构
JP2024543195A JP2025503899A (ja) 2022-02-04 2023-02-01 直接接触型のレクリエーション目的で使用される高い透明度の水を浄化及び収容するための低コスト構造物
IL314440A IL314440B1 (en) 2022-02-04 2023-02-01 Low-cost structure for purifying and containing high-clarity water used for direct contact recreational purposes
DO2024000130A DOP2024000130A (es) 2022-02-04 2024-07-03 Estructura de bajo costo para purificar y contener agua de alta claridad que se utiliza para fines recreativos de contacto directo
JOJO/P/2024/0172A JOP20240172A1 (ar) 2022-02-04 2024-07-31 هيكل منخفض التكلفة لتنقية المياه عالية النقاوة واحتوائها والتي تُستخدم لأغراض استجمامية ذات اتصال مباشر
CONC2024/0010499A CO2024010499A2 (es) 2022-02-04 2024-07-31 Estructura de bajo costo para purificar y contener agua de alta claridad que se utiliza para fines recreativos de contacto directo
ZA2024/06757A ZA202406757B (en) 2022-02-04 2024-09-02 Low-cost structure for purifying and containing high clarity water that is used for direct contact recreational purposes

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US20230249986A1 (en) 2023-08-10
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