TH97838A - The process of obtaining a source of more than 15,000 M3 water is used for entertainment purposes.It has the same clear and clean qualities as a pool or tropical sea at a low cost. - Google Patents

Abstract

DC60 (21/12/50) The process of obtaining a source of more than 15,000 cubic meters of water is used for entertainment purposes.It has the same clear and clean properties as a tropical pool or sea at a low cost. The invention revealed a process that is carried out and sustained large-scale bodies of water over 15,000 cubic meters for recreational use, such as lakes or artificial lakes. Which has properties that have better color, even more clear and clean at low cost It consists of the following steps: a. A skimmer structure capable of containing more than 15,000 cubic meters of water supply; b. Water is fed internally with iron and manganese levels below 1.5 ppm and turbidity below 5. NTU into the structure of step a c. Ideally measured the water pH should be in a range below 7.8 d. Add oxidizing agents to the containment water in the structure of step a, which controls ROP a minimum of 600 mV. In water for a minimum period of 4 h in a maximum 48 h cycles e. Additional coagulation agents were concentrated within 0.02 and 1 ppm with a maximum frequency of 6 days and the bottom structure of procedure a was cleaned with a vacuum device. To pull off impure sludge From the bottom of such structures With the addition of redundant and f. To create a water surface substitute containing contaminants and oily surface by means of internal water injection in step b, which creates such substitution in the water surface removal method through a system for the application. Contaminated and pulled out The oil surface is arranged in a structure of stage a where step e replaces the conventional filtration. The invention also revealed a massive water containment structure, consisting of a pull-out system. Contaminated and oily surface through a skimmer and a vacuum to clean the structure The process of obtaining a source of more than 15,000 m3 of water is used for entertainment purposes.It has the same clear and clean qualities as a pool or tropical sea at a low cost. The invention revealed a process that has been carried out and sustained larger than 15,000 m3 of water sources for recreational use, such as lakes or artificial lakes. Which has properties that have better color, even more clear and clean at low cost It consists of the following steps: a. A structure with a skimmer can contain more than 15,000 m3 of water sources b. Water is fed internally with iron and manganese levels below 1.5 ppm and turbidity below 5 NTU. Into the structure of step a c. Ideally measured the water pH should be below 7.8 d. Add oxidizing agents to the containment water in the structure of step a which controls ROP to a minimum of 600 mV in Water for a minimum period of 4 h in a maximum 48 h cycles e. Additional coagulation agents were concentrated within 0.02 and 1 ppm with a maximum frequency of 6 days, and the bottom of the procedure a was cleaned with a vacuum device to Pulls out impure sediment From the bottom of such structures With the addition of redundant and f. To create a water surface substitute containing contaminants and oily surface by means of internal water injection in step b, which creates such substitution in the water surface removal method through a system for the application. Contaminated and pulled out The oil surface is arranged in a structure of stage a where step e replaces the conventional filtration. The invention also revealed a massive water containment structure, consisting of a pull-out system. Contaminated and oily surface through a skimmer and a vacuum to clean the structure

Claims (3)

Disclaimer (all) which will not appear on the advertisement page: Amended 19 May 2020 No disclaimer -------------------------------------------------- ------------------------ ------ 16/01/2019 ------ (OCR) page 1 of 3 pages Disclaimers 1. The process of undertaking and sustaining large water bodies of more than 15,000 m3 for recreational use, such as lakes or artificial lakes. It features better color, clear and clean at low cost. The process consists of: a. Provide a structure with a skimmer, capable of containing large water bodies of more than 15,000 m3 b. Inlet water with iron levels. And manganese below 1.5 ppm and turbidity less than 5 NTU into the structure of the step (a) C. Ideally measured water pH should be in the range below 7.8 d. Add oxidizing agent to the water. Packed in a procedure structure (a) which controls ROP a minimum of 600 mV in water for a minimum of 4 h and in a maximum 48 h cycles e. Additional drug coagulation in concentrations within 0.02 and 1 ppm. With a maximum frequency of 6 days and the bottom of the procedure structure (a) is cleaned with a suction device to extract impurities from the bottom of the structure. With additional coagulants and f. Create a contaminated water surface substitute. And the oil surface by the intra-stream method (b) which creates such substitution in the extraction method by means of the system for the contaminants. The oil surface was prepared in a process structure (a) which, in conjunction with the procedure (e), replaces conventional filtration. 2. The process of undertaking and sustaining a large water source of more than 15,000 1/3 for recreational use pursuant to claim 1 where the water entered in step (b) can be seawater, water. A fountain, mineral water or water from another source 3. A process that is carried out and sustained a large water supply of more than 15,000 m3 for recreational use pursuant to claim 1 where, in case the pH of the water is higher than 7.8, it is necessary to add bromide salts, for example. Sodium bromide And maintain bromide concentrations higher than 0.6 ppm 4. Process carried out and sustained a large water source greater than 15, OOOm3 for entertainment use pursuant to claim 1, where the drug oxidizes at Further in the procedure (d) can be ozone, sodium or potassium persulfate, derived from chloron, hydrogen peroxide, bromine or by doped chloran. Electrically 5. Processes that operate and maintain large water sources of more than 15,000 th13 for recreational use, pursuant to claim 1, which adds the aforementioned oxidizing agent to a maximum ROP of 600mV during the period. The most popular 4-hour cycle is a 24-hour cycle. 6. Processes undertaken and sustained a large source of water more than 15,000 m3 for recreational use, pursuant to claim 1, which is added in a step (d) adding a remover. Lichen, for example, page 2 of the number 3, quaternary, ammonium (polyquat) and / or copper compounds. That maintains copper levels between 1 ppm and 1.5 ppm depending on temperature. 7. A process that is carried out and sustained a large water supply of more than 15,000 1/3 for recreational use pursuant to claim 6, which adds algae remover to a copper level in the range 0.3 to 1.5. ppm for temperatures between 10? c - 30? c, respectively. 8. Process performed and sustained a large source of water greater than 15,000 m3 for recreational use pursuant to claim 1, where the concentrate at the stage. Section (e) is a cationic polymer, originally added in concentrations between 0.02 and 1 ppm, with a maximum duration of 6 days. 9. A process carried out and sustained a large water source of more than 15,000. m3 for entertainment use according to claim 1 where the concentrate is given at 0.05 ppm, preferably every 24 hours 1 0. Processes undertaken and sustained large water sources greater than 15,000 1/3. For entertainment use under any of the preceding claims. Where the lowest new water change rate is 150 The day must be preserved, preferably 60 days to avoid the build-up of oxidation (aging) 1 1. Structures containing large water bodies of more than 15,000 m3, such as lakes or artificial lakes, for use in water treatment. Entertainment with great color, crystal clear and clean features for a fraction of the cost. The structure is specially designed to execute the process disclosed in Claims 1 to 10, where it consists of a bottom. And walls constructed with interrupted materials such as clay and bentonite coated with non-porous materials such as membrane made of polyvinyl chloride, polyethylene. High-density polyethylene straight wire or washable high density polyethylene. Where the depth of the structure is 0.5 m or more, the structure is further equipped with a system for removing contaminants! And oil skin by means of a skimmer to sweep the skin It works with a new water pipe system that water out by replacing the water surface. The replacement comes from a new water pressure. 1 2. Structures containing large water bodies greater than 15,000 1/3, in accordance with claim 11, which clean the bottom. And walls using a device for sucking the powder through the hemp system The equipment consists of a structural frame, a frame with a rigid trajectory to connect to the hive system, the track is rolled for continuous replacement over the surface for cleaning. And a cleaner path consisting of a suction hose and a scrub line to remove the cleaner 1 3. a structure containing more than 15 lagoons, OOOm3 according to claim 11 or 12, where, by choice, Structures in step (a) can be made of coated cement such as paint, polyurethane or fiberglass. Page 3 of the number 3 Page 1 4. Structure containing large water sources of more than 15,000 th13 according to Clause 11 to 13 where such non-porous material of the structure may have a bright blue, white or yellow color, visible as tropical sea water. The structure contains more than 15,000 large water reservoirs, according to any of the clauses of Clause 11 to 14, where such structures are within 2 and 5 m depths. 1 6. Structures containing large water bodies of more than 15,000 Under any of the clauses of Claims 11 to 15, where the structure has a hose-to-spray system that permits the maintenance of the integrity of the Water by avoiding standstill zones. 1 7. Process according to any of the clauses 1 to 10 where the suction device in the stage (b) works by sucking the powder through the knot system of the said structure. Where the pivot device consists of a structural frame, a frame with a slant path to connect to the knotting system, a continuous replacement roller path above the surface for cleaning. And a cleaning solution that consists of a suction hose Cleaning 1 8. Process according to claim 17, where the cover consists of a thin sheet resin. Cover frame structure, roller track And the cleaning method There is a mat that extends from the top of the housing for tightening and pulling, a handle for pulling, operating and lifting the device. And continuous cover edge covered And flap of the transverse membrane downward, upward, up the cover body shape 1. 9. Process according to claim 18, where the suction tube clamps the leech to the said frame edge. Which is connected through its top with a knot system And through its butt part to the cleaner path of the device 2 0. Process according to claim 19, where the structural frame consists of a steel frame with a butt section, arranged in a series of supports for supporting the axes of the roller track, Perforated or slotted steel plate supported by a bolt path with continuous abrasion with a plastic base. And synthetic or similar polyethylene hard bristles, where the support plate for the pull, which emerges through the top of the frame, is Attached to its top 2 1. Process according to claim 17, where the roller track consists of a high-density poly-urethane roller axis. And automatic lubricating plastic reels. 2. 2. Process according to the claim clause. 17 at \ 'where the cleaner path consists of a suction hose formed by a vertical PVC pipe corresponding to the drop pipe coming out of the top from the scaffold where a T-shaped PVC pipe is attached to the section. Its butt Which connects to a horizontal pipe with a suction opening in its bottom where the pulled material passes in for suction. And removed from the well or pool 2. 3. Process according to claim 22, where a horizontal pipe with a blowout opening has a cover at its end ----------- - Edit 17/02/2017 1. Processes that operate and maintain large bodies of water over 15,000 m3 for recreational use such as lakes or artificial lakes. It features better color, clear and clean at low cost. The process consists of: a. Provide a structure with a skimmer, capable of containing large water bodies of more than 15,000 m3 b. Inlet water with iron levels. And manganese below 1.5 ppm and turbidity less than 5 NTU into the structure of the procedure (a) c. Ideally measured the water pH should be in the range below 7.8 d. Add the oxidizing agent to the water. Packed in a procedure structure (a) which controls ROP a minimum of 600 mV in water for a minimum of 4 h and in a maximum 48 h cycles e. Additional drug coagulation in concentrations within 0.02 and 1 ppm. With a maximum frequency of 6 days and the bottom of the procedure structure (a) is cleaned with a suction device to extract no sludge. Pure from the bottom of such structures With additional coagulants and f. Create a contaminated water surface substitute. And the oil surface by means of the intra-stream procedure (b) which creates such substitution in the extraction method by means of a system for contaminants and extraction. It is provided in a process structure (a) which, in conjunction with a procedure (e), replaces conventional filtration. 2. A process that is carried out and sustains a large source of water of more than 15,000 m3 for entertainment use on the hand. Rights No. 1 where the water entered as said in a (b) procedure can be seawater, fountain, mineral water or other water; 3. a process carried out and sustained a large water source greater than 15,000 m3 for Use for entertainment according to claim 1, where in the event that the pH of water is higher than 7.8, it is necessary to add bromide salts such as sodium bromide. And maintain bromide concentrations above 0.6 ppm 4. Process carried out and sustained a large water source of more than 15,000 m3 for recreational use, pursuant to claim 1, where the additional oxidizing agent was In step (d) it can be ozone, sodium or potassium persulfate, chlorine-derived, hydrogen peroxide, bromine-derived or electrolytic chlorine. A process that operates and maintains a large water supply of more than 15,000 m3 for recreational use pursuant to claim 1, which adds the oxidizing agent to a minimum ROP of 600 mV during low periods. The most popular 4-hour cycle is a 24-hour cycle. 6. Processes undertaken and sustains a large source of water more than 15,000 m3 for recreational use, pursuant to claim 1, which is added in step (d) added algae remover. Water, such as quaternary, ammonium (polyquat) and / or copper compounds That maintains copper levels between 1 ppm and 1.5 ppm depending on temperature. 7. A process carried out and sustained a large water supply of more than 15,000 m3 for recreational use, pursuant to claim 6, where the algae-remover was added to a copper level in the range of 0.3 to 1.5 ppm for temperature. In the period of 10 ํ C - 30 ํ C, respectively. 8. The process of undertaking and sustaining a large water source of more than 15,000 m3 for recreational use according to claim 1, where the promoter is concentrated in the stage (e ) Is a cationic polymer This was added in concentrations between 0.02 and 1 ppm, with a maximum duration of 6 days. 9. Process carried out and sustained a large water source of more than 15,000 m3 for recreational use according to claim 1, where the promoter. These groups are concentrated at a concentration of 0.05 ppm, preferably every 24 hours. 1 0. Process performed and sustained a large source of water greater than 15,000 m3 for recreational use according to one of the previous claims. Where the lowest water change rate is 150 days, it must be maintained, preferably 60 days to avoid the build-up of oxidizing elements (aging) 1 1. Structures containing larger water sources. 15,000 m3, for example, an artificial lake or lake for recreational use, with excellent color, clear and clean properties for a low cost.The structure is specially designed to execute the processes disclosed in Clause 1 to 10 where such structures consist of a bottom And walls constructed with low-permeable materials such as clays and bentonite coated with non-porous materials such as membrane made of polyvinyl chloride, polyethylene. Low-density, straight-wire or high-density polyethylene that can be cleaned where the depth of the structure is 0.5 m or more. This includes a system for removing contaminants. And the oil surface by a skimmer path, which works with a new water intake system that ejects water by replacing the water surface. The replacement comes from the new water pressure 1 2. Structure containing a large water source of more than 15,000 m3 in accordance with claim 11, where the bottom and walls are cleaned using a device for extracting powder through a pumping system. The equipment consists of a structural frame, a housing frame with levers pathway to connect the pump system, a roller track for replacement. Continuously above the skin to clean And a cleaner path consisting of a suction hose and a scrub line to remove the cleaner 1 3. Structures containing large water bodies greater than 15,000 m3 in accordance with claim 11 or 12 where, by option, The step structure (a) can be made of coated cement such as paint, polyurethane or fiberglass. 1 4. Structure containing a large water source of more than 15,000 m3 according to one of the above arguments. Rights Sections 11 to 13, where such non-porous material of a structure may have a bright blue, white or yellow color, visible as tropical sea water 1 5. Structures containing large water bodies of more than 15,000 m3 according to Any of Clause 11 to 14, where the structure is within 2 and 5 m depths 1 6. Structures containing large water bodies greater than 15,000 m3, as per any of Clause 11 to Clause 11. 15 where the structure has a hose-to-spray recycling system that allows Maintain the unity of water by avoiding standstill zones. 1 7. Process according to any of Clause 1 to 10 where the suction device in the (b) stage works by sucking the powder through the pumping system of the structure. Where the device It consists of a structural frame, a frame with a slant path to connect to the pump system, a continuous replacement roller path above the surface for cleaning. And the cleaning method that Consists of suction pipe And abrasive lines to remove it Cleaning 1 8. Process according to claim 17 where the cover consists of a thin sheet of resin. Cover frame structure, roller track And the cleaning method With pads protruding from the section The top of the hood to tighten the puller, the pull handle, operate and lift the device, and the edge of the continuous cover. And a flap of the transverse membrane that descends upward, up the cover body shape 1. 9. Process according to claim 18, where the suction hose clamps to the edge of the cover, which is connected through its top to the pump system. 2 0. Process according to claim 19, where the structural frame consists of a steel frame, which has an integral part. The bottom provides a serial support plate adjustment for supporting the axes of the roller track, perforated steel plate, or with slot supports by the bolt path and continuous abrasion with a plastic base. And synthetic or similar polyethylene hard bristles, where the support plate for the pull, which emerges through the top of the frame, is Attached to its top 2 1. Process according to claim 17, where the roller track consists of a high-density poly-urethane roller axis. And automatic lubricating plastic reels 2 2. Process according to claim 17, where the cleaner path consists of a properly sealed suction pipe. It is created by a vertical PVC pipe that corresponds to the suction hose that comes out of the top from the scaffold, where a T-shaped PVC pipe is attached to its bottom. Which is connected to a horizontal pipe with suction opening in the section Its buttocks through which the pulled-out objects pass through to suck 2. The process of claim 22 where the horizontal pipe with the suction opening has a cap on its end ------------ ----------------- 1. Processes carried out and sustained large bodies of water over 15,000 m3 for recreational use such as lakes or artificial lakes. Which has properties that have better color, even more clear and clean at low cost The process consists of a. It has a structure with a skimmer, capable of containing more than 15,000 m3 of water sources b. Water is fed internally with levels of iron and manganese below 1.5 ppm and turbidity less than 5 NTU into the structure. Ideally, the water pH value should be lower than 7.8 d. Add oxidizing agents to the containment water in the structure of step a, which controls ROP to a minimum of 600 mV in water for a period of time. The minimum time of 4 h in a maximum 48 h cycles e. Additional coagulation was concentrated within 0.02 and 1 ppm with a maximum frequency of 6 days and the bottom of the structure of procedure a was cleaned with a suction device to remove the sludge. not Pure from the bottom of such structures With the addition of redundant and f. To create a water surface substitute containing contaminants and oily surface by means of internal water injection in step b, which creates such substitution in the water surface removal method through a system for the application. Contaminated and Remove the oil surface arranged in a structure of stage a, where step e replaces conventional filtration. 2. Process performed and sustains a large source of water over 15,000 m3 for use in Entertainment pursuant to claim 1 where the water fed into step b can be seawater, spring water, mineral water or other source water 3. a process that is performed and maintains a large source of water greater than 15,000 m3 for use in Entertainment according to claim 1 where, in the event of a pH higher than 7.8, additional bromide salts such as sodium bromide are required. And maintain bromide concentrations above 0.6 ppm 4. Process carried out and sustained a large water source greater than 15,000 m3 for use in Entertainment according to claim 1 where the oxidizing drug added to step d can be ozone. Sodium or potassium persulfate What can be obtained from chlorine Hydrogen peroxide What to get from Bromine or by electrolytic chlorine 5. Process carried out and sustained a large source of water over 15,000 m3 for use in Entertainment according to claim 1, which adds an oxidizing agent to a minimum ORP of 600 mV during a minimum of 4 hours, should be a 24-hour cycle. 6. Processes undertaken and sustains a large water source. Bigger than 15,000 m3 for Entertainment according to claim 1, added to step d, add algae-removing agents such as quarternary ammonium (such as polyquats) and / or copper compounds. Maintain copper levels between 1 ppm and 1.5 ppm depending on temperature. And solar 7. processes carried out and sustained a large source of water over 15,000 m3 for use in Entertainment according to claim 6 in which the algae-remover is added to a copper level between 0.3 and 1.5 ppm for the temperature in the range of 10 ํ C - 30 ํ C, respectively. Bigger than 15,000 m3 for Entertainment according to claim 1 that the redundant agent in the e-stage should be cationic polymer. They were added to concentrations between 0.02 and 1 ppm, with a maximum duration of 6 days. 9. Processes performed and sustained large water bodies greater than 15,000 m3 for use in Entertainment according to claim 1 that the concentrate used by the concentrate of 0.05 ppm should be every 24 hours 1 0. Processes performed and sustained a large source of water greater than 15,000 m3 for use in Any entertainment that has a minimum water change rate of 150 days should be 60 days to avoid the build-up of oxidation. (Older) 1 1. A structure containing large bodies of water greater than 15,000 m3, such as a lake or an artificial lake for recreational use. Which has properties that have better color, even more clear and clean at low cost The structure is specially designed to perform processes in accordance with the processes disclosed in Clause 1-10, where the structure consists of a bottom and walls, is constructed of low-permeable materials such as clay and bentonite, coated with non-porous materials such as polyvinyl chloride membrane. Ryde Low-density polyethylene, straight-chain or high-strength polyethylene Highly dense that can be cleaned Also, the depth should be 0.5 m or more. The structure consists of a system for removing contaminants and oil surfaces through a skimmer. The surface, which works with a new water feeder system, takes the water out by replacing the surface. The replacement comes. New water pressure 1 2. Structures containing large water bodies greater than 15,000 m3 in accordance with claim 11 with the option The structures in step a are made of cement with a coating such as painted polyurethane or fiberglass. 1 3. Structures containing large water bodies greater than 15,000 m3 in accordance with claim 11 where the material has no holes. The porosity can be bright blue, white or bright yellow, giving the water a view of a tropical ocean.1 4. Structures containing large bodies of water greater than 15,000 m3 according to claim 11, where such structures should be within 2 to 5 m depth 1. 5. A structure containing a large water source of more than 15,000 m3, according to claim 11, where the structure has a recycling system that uses a hose and a sprinkler to maintain the unity of water and Avoid stagnation zones and allow chemical use 1 6. Structures containing large bodies of water greater than 15,000 m3 per claim 11 where such structures have inlet and inlet chambers through which water is extracted. Feed the structure with 1. 7. Bottom cleaning device A structure capable of containing larger than 15,000 m3 water sources, such as lakes or artificial lakes for entertainment, has excellent color, clear and clean properties at a low cost. The device works by sucking powder through Pump system of such structures The equipment consists of a frame, a structure, a cover through a coupling for connection to the pump system. Through the continuous replacement roller above the surface to do Cleanliness and through the cleaner consists of a suction hose and a scrub line to remove the cleaning agent 1 8. Vacuum device according to claim 17 in the housing consists of a thin sheet of resin. Cover the structural frame and through the rollers and through the cleaner. With pads protruding from Top of the traction frame Pull handle Continuously use and lift the device and the edge of the cover, cover and flap, the transverse membrane is downward, the shape of the cover 1 9. The suction device according to claim 18 at the suction pipe tightens the leech to the frame edge as In connection with Pumping system with and through the base part to the device cleaner 2 0. Vacuum device according to claim 17, the frame structure is a steel frame, where the base section is adjusted. Serial support plate for supporting the axis of the roller. Perforated or slotted steel plate supported by Through the sanding nut with a plastic base and a synthetic or similar hard polyurethane bristles supporting the puller plate through the apex of the scaffold attached to the apex 2. 1. Vacuum device according to claim 17, where the roller consists of the axis of the polyurethane roller. High density and automatic lubricating plastic ratchet 2 2. The suction device according to claim 17, where the cleaner consists of a suction pipe, formed by a vertical PVC pipe corresponding to the suction pipe coming out in front from the cover, which has a T-shaped PVC pipe attached to the bottom of which is welded. Continue to the horizontal pipe that opens suction at the bottom through which it pulls out incoming objects to Suck and remove from the pool 2 3. The suction device according to claim 22, where the horizontal pipe opening the suction has a lid on the end edge.