阅读说明：本技术 在空置场地或废弃场地内建造带有沙滩的热带风格游泳潟湖的建造方法 (Construction method for constructing tropical-style swimming lagoons with sand beaches in empty or abandoned places ) 是由 费尔南多·本杰明·菲施曼 于 2019-12-23 设计创作，主要内容包括：披露了一种在空置场地和/或废弃场地建造热带风格游泳潟湖的城市改造和建造方法。改造包括拆除该空置场地或废弃场地的至少一部分,从该场地内挖掘材料；形成用于表面积为至少3,000m2的大型水体的盆地,并且在该盆地的第一段上建造围水墙以形成滨水周界。该滨水周界的形状主要是弯曲的,该盆地的最大宽度为300米,并且底部用不渗透材料覆盖。在该盆地的第二段中建造倾斜通道区域以形成沙滩。建造阻碍物以控制进入包括沙滩的区域。建造至少一个休闲设施,包括围绕滨水周界的餐厅、酒吧、售货亭、商店、和/或咖啡馆。(A city renovation and construction method for constructing tropical-style swimming lagoons in vacant and/or abandoned fields is disclosed. The converting includes demolishing at least a portion of the vacant site or the abandoned site, excavating material from within the site; a basin for a large body of water having a surface area of at least 3,000m2 is formed, and a waterwall is constructed on a first section of the basin to form a waterfront perimeter. The waterfront perimeter is mainly curved in shape, the maximum width of the basin is 300 meters, and the bottom is covered with an impermeable material. An inclined channel region is constructed in a second section of the basin to form a beach. Obstructions are built to control access to areas including the beach. At least one leisure facility is constructed including restaurants, bars, kiosks, stores, and/or cafes around the waterfront perimeter.)

1. A city reconstruction method for constructing tropical style swimming lagoons with inclined channels in an empty site and/or a waste site, the method comprising:

a. demolishing at least a portion of the vacant or abandoned site, wherein the demolition process includes excavating a layer of at least 15cm to 6 m;

b. excavating material having a volume of at least 4,000m3 from an area within the site;

c. forming a basin for a large body of water having a surface area of at least 3,000m2 and a minimum depth of at least 1.4 meters at its deepest point, wherein an earthwork for the basin is created within the surrounding field perimeter, and wherein the basin comprises a basin perimeter and a bottom;

d. constructing a water-enclosing wall on at least a section of the basin perimeter to form a waterfront perimeter, wherein the shape of the waterfront perimeter is mainly curved, and the maximum width of the basin is 300 meters;

e. similar to a conventional swimming pool, the bottom of the basin is covered with a water impermeable material that does not contain thick concrete;

f. constructing an inclined channel region on at least a section of the basin perimeter to form a beach channel to the large body of water;

g. building one or more barriers around the basin perimeter to isolate areas to establish a controlled use area, wherein the controlled use area includes a beach channel perimeter and the barriers include at least one access point to selectively allow a user to access the controlled use area so that a user allowed to access the controlled use area can use the beach channel; and is

h. At least one additional leisure facility, including catering and commercial facilities such as restaurants, bars, kiosks, stores, cafes among others, is built near the waterfront perimeter.

2. A method of construction as claimed in claim 1 wherein the area around the perimeter of the basin not within the controlled use area forms a ticketless use area which can be used freely by a user.

3. The method of construction of claim 1, wherein the demolition process includes mechanically digging to a depth of 20 centimeters above the design dig level, wherein the final 20cm is manually dug.

4. Construction method according to claim 1, wherein step b) comprises excavating a material having a volume of at least 7,000m 3.

5. The method of construction of claim 1 wherein step c) comprises forming a basin for a large body of water having a surface area of at least 5,000m 2.

6. Construction method according to claim 1,

when the soil type has more than 12% material passing through a N ° 200 mesh (0.075mm opening), the bottom soil must be compacted to achieve an improved goodls density of 95%, also known as maximum dry compacted density; and is

When the soil type has less than 12% material passing through a N ° 200 mesh (0.075mm opening), the soil must be compacted to achieve not less than 80% of its relative density.

7. The method of claim 1, further comprising placing sand around the beach area to form a sandy beach area.

8. The method of construction of claim 1, the beach channel having an inclined transition to the basin between 5% and 30%.

9. The method of construction as claimed in claim 1, wherein the lagoons are used for swimming, for carrying out water sports, and for home performances and activities.

10. A method of construction as claimed in claim 1 wherein the inclined channel region is constructed with support plates to provide structural stability to such region.

11. The method of construction of claim 1 wherein the water impermeable base material covering the bottom of the basin comprises a plastic liner, shotcrete, or a flexible material that does not require the use of a thick concrete layer, similar to a conventional swimming pool.

12. Construction method according to claim 1, wherein the impermeable material covering the bottom of the basin comprises a plastic liner having a thickness of at least 1 mm.

13. A method of construction as claimed in claim 12, wherein the plastic liner is white, blue or light coloured.

14. The method of construction as claimed in claim 1, wherein the swimming lagoons have a shape that readily mimics natural geometry.

15. The method of construction of claim 1, including separate entry points for both the controlled-use areas and the non-ticket-use areas, enabling guests to participate in one or both areas depending on their purpose of visiting the racing or active circuit facility and the swim lagoons.

16. The method of construction of claim 1, wherein the controlled use area is designed such that the ratio of total beach area to swimming lagoon area is at least 1: 2.

17. Construction method according to claim 1, wherein the surroundings of the swimming lagoons comprise the use of roundhouses for taking events, such as concerts and festivals in particular.

18. The method of construction of claim 1, wherein the surroundings of the swimming lagoons include cafes, bars, restaurants, beach centers, walking corridors, hotels, entertainment facilities, virtual and immersive experiences, and similar facilities and amenities.

19. The construction method of claim 1, wherein a non-stationary screen is provided near the swimming lagoons to broadcast content as well as family activities and performances.

20. The method of construction as claimed in claim 1, wherein the swimming lagoons are illuminated by means of an illumination system.

21. The method of construction of claim 1, wherein the swimming lagoons are surrounded by vegetation, such as plants and trees.

22. The method of construction as claimed in claim 1, wherein the facilities surrounding the tropical-style lagoons are artificially arranged in a beach theme, including the use of blue and white.

23. The method of construction of claim 1, wherein the tropical-style swimming lagoons have at least 50% less access than the conventional swimming pool filter systems.

Technical Field

The present invention relates generally to a method for urban reconstruction and construction of public lagoons using tropical style swimming lagoons in an empty or abandoned field, which lagoons contain clear, green water for swimming and water sports practice, wherein a portion of the empty field is dismantled to form swimming lagoons. Preferably, at least one public controlled area of use is present in the swimming lagoons, and the beach area is located within the controlled area of use.

Background

All these urban development projects leave many vacant and/or obsolete sites around the world as cities and urban spaces continue to grow, which may be vacant or obsolete for limited use.

For reference, it is estimated that an average of 15% of the land in a city is considered vacant in the united states, including various types of land, from undisturbed open space (Pagano et al, 2000) to contaminated waste brown land. This is particularly true in southern U.S. cities, where over 19% of the land is considered vacant, primarily because cities experience high levels of population and land area growth. While the city expands, many sections and spaces are not developed, and finally become vacant land. In the united states, the average available open land area for a city is 12,367 acres, with a median available open land area of 4,499 acres.

In general, vacant areas are considered to be associated with declining real estate value, crimes, trash, abandonment, poor landscape, and general economic and/or social decline, in which case people often view vacant areas very negatively. Vacant sites can severely damage a block, impair the quality of life of neighbors, reduce the value of nearby real estate, and reduce local taxes. In this regard, there are studies that indicate that empty and abandoned property increase crime rates and reduce property value, and in addition, repair or removal thereof (for abandoned monuments) is costly and must be paid by urban parties.

Some vacant land fields are fields that have been planned for building parks, which are classified as open space leisure areas or green lands, but have not been developed yet, resulting in waste fields and wasteland fields. In addition to being strictly vacant, greens (e.g., underutilized or improperly maintained parks) may also be considered relatively vacant because they have the same negative impact on the community.

Research has shown that the reuse of vacant land and waste monuments may represent an economic growth and restoration opportunity for various urban areas. This applies to all cities, regardless of population and city size.

As used herein, an empty and/or abandoned site refers to a site and/or segment that is not only empty or has abandoned monuments, but also includes parks or sites with limited use or sites with construction limitations. For example, this may represent a low availability green land for private projects, and land that does not allow for the construction of high-rise buildings or high-rise buildings, use of very low density sections, or land that requires lengthy licensing and approval procedures to be converted into real estate or commercial projects, etc.

For example, thousands of abandoned and/or vacant venues have become community gardens and parks. The relative trend phenomenon of so-called "greening" includes the transformation of vacant areas into environmentally friendly greens, eventually for use as, for example, community gardens and forest farms, etc. The transformation of vacant land can provide more green land for urban garden and leisure and other uses of urban rescue.

Over the years, the demand for these types of greens has increased, along with the growing population in urban areas, and there is a need for open areas that can provide a relaxed environment and that can be used for leisure activities such as running, exercising, and the like. Generally, these greens also have a positive impact on the surrounding environment, such as increasing the value of surrounding real estate, developing new markets (e.g., commercial developments near parks), and improving user health and environmental benefits, all the opposite of the negative impact caused by vacant or abandoned locations.

Cities with accelerated urban development and highly populated cities may benefit from the transformation of such vacant or abandoned segments, especially since these cities have little opportunity to develop new greens by other means. However, the work of transforming vacant or abandoned sites into community spaces has not been greatly progressed, and the underutilized spaces have not been utilized to improve the urban quality of life, which also has a positive impact on the environment. Many retrofit alternatives, including gardens and similar sites, have not been very successful and there are still a large number of vacant and/or abandoned sites around the world.

The pressure in large cities and the lifestyle of cities have a great influence on people, so people look for different environments and lifestyles to relax. In this regard, it is important that the global tourism industry has seen explosive growth over the years with a significant increase in its carbon footprint (see fig. 01, showing the increase in visitors over the years). This is mainly because people have to travel long distances and use their cars or have to board planes or use other vehicles to reach waterfront arrangements and beach areas, sometimes having to make hundreds of miles to get to a beautiful waterfront beach arrangement, resulting in a lot of carbon footprint due to all such movements. This is particularly important today, as today's society becomes very concerned with the carbon footprint, with travel being one of the major contributors to carbon emissions.

In the case of very busy and tense urban areas, the urban population has an ever-increasing demand for open leisure spaces in which people can relax, perform physical training, and enjoy beautiful landscapes and spaces. The space available for people to gather is very scarce and the old tradition of people gathering in shopping centers or retail establishments has turned to looking for open air natural environments.

Thus, there are currently many vacant and/or wasted spaces that are relatively well-connected urban areas with no aesthetic features that one would like to see, such as leisure use and beautiful environment, are misutilized or have limited use.

Disclosure of Invention

Thus, according to one embodiment, there is provided a city reconstruction method for constructing tropical-style swimming lagoons with inclined channels in an empty and/or abandoned site, the method comprising: demolishing at least a portion of the vacant or abandoned site, wherein the demolition process includes excavating a layer of at least 15cm to 6 m; excavating material having a volume of at least 4,000m3 from an area within the site; forming a basin for a large body of water having a surface area of at least 3,000m2 and a minimum depth of at least 1.4 meters at its deepest point, wherein an earthwork for the basin is created within the surrounding field perimeter, and wherein the basin comprises a basin perimeter and a bottom; constructing a water-enclosing wall on at least a section of the basin perimeter to form a waterfront perimeter, wherein the shape of the waterfront perimeter is mainly curved, and the maximum width of the basin is 300 meters; similar to a conventional swimming pool, the bottom of the basin is covered with a water impermeable material that does not contain thick concrete; constructing an inclined channel region on at least a section of the basin perimeter to form a beach channel to the large body of water; building one or more barriers around the basin perimeter to isolate areas to establish a controlled use area, wherein the controlled use area includes a beach channel perimeter and the barriers include at least one access point to selectively allow a user to access the controlled use area so that a user allowed to access the controlled use area can use the beach channel; and building at least one additional leisure facility, including catering and commercial facilities such as restaurants, bars, kiosks, stores, cafes, among others, near the waterfront perimeter.

These and other variations of the invention will become apparent to those skilled in the art upon a more detailed description of the invention. The advantages and features which characterize the invention are pointed out with particularity in the claims annexed hereto and forming a part hereof. However, for a better understanding of the invention, reference should be made to the drawings which form a further part hereof, and to the accompanying descriptive matter, in which there is illustrated and described a preferred embodiment of the invention.

Drawings

Referring to the drawings wherein like reference numbers represent like parts throughout the several views:

figure 1 shows the number of international travelers inbound in 2017, provided by the world tourism organisation, which refers to the number of inbound trips for international travelers less than one year in duration to countries/regions outside the destination where they live.

Fig. 2 shows a bird's eye view of an embodiment of the invention after applying the method of the invention, which allows to transform a city area, such as an empty or abandoned area (1), into a city beach where tropical-style swimming lagoons (2) can be seen, which has at least one beach area (3).

Fig. 3 and 4 show side views of the enclosing wall 6 of the basin for swimming lagoons 2. Referring first to fig. 2, backfill material 7 is included to provide structural stability to perimeter wall 6. The impermeable material 9 encloses water in large bodies of water (e.g. swimming lagoons 2) and is located on top of the bottom soil 8. Fig. 5 shows an embodiment in which the lagoons 2 have a relatively shallow depth in the vicinity of the wall. FIG. 4 next shows a side view of another embodiment of an enclosure 6 for a basin of a swimming lagoon 2, showing backfill material 7 providing structural stability to the enclosure, and where an impermeable material 9 encloses water in a large body of water and is located on top of bottom soil 8. Fig. 5 shows an embodiment in which the lagoons 2 have a relatively deep depth in the vicinity of the wall.

FIG. 5 shows a side view of an embodiment of an inclined channel 5 leading to the basin of a swimming lagoon 2, wherein a support plate 10 is provided under a portion of the inclined channel 5 and an impermeable material 9 is used to enclose the water in a large body of water.

Figure 6 illustrates a preferred method of construction 11 in accordance with the principles of the present invention. The first step 11a is to remove at least a portion of the empty site and/or the waste site. The next step 11b is to excavate material having a volume of at least 4,000m 3. Then at step 11c a basin is formed for a large body of water having a surface area of at least 3,000m2, which may include, in part, earthworks of excavated material and/or additional material transported to the site. At step 11d, a water containment wall is constructed over at least a section of the basin. In step 11e, in case a swimming area is included, an inclined channel area is optionally created on at least a section of the basin. At 11f, obstacles are built around the perimeter of the basin to establish controlled areas of use of the beach or other areas where controlled use by the user is desired. At step 11g, at least one additional leisure facility is built.

Detailed Description

As shown in fig. 2, the method of the present invention can be used to retrofit an empty or abandoned site located in a city area, often with good connectivity, in an innovative way to provide a beautiful beach-like arrangement, helping to address the need for more open space in leisure cities and the need for travel with a smaller carbon footprint, and thus being a totally new and aggressive trend that may change people's lifestyles around the world. The present invention helps address the need to provide leisure environments and activities that may alter the lifestyle of urban populations around the world, while helping to address problems associated with vacant or abandoned segments and their negative impact on communities.

The present invention relates generally to a method for urban reconstruction and construction of controlled-use tropical-style swimming lagoons in an empty or abandoned field containing clear green water with beaches for swimming and water sports practice, wherein a portion of the empty or abandoned field is dismantled in order to form the swimming lagoons, according to the design, construction parameters and construction. Preferably, at least one public controlled area of use is present in the swimming lagoons, and the beach area is located within the controlled area of use.

The invention discloses a construction method for constructing tropical-style swimming lagoons in an empty or abandoned place to reuse such space by constructing a leisure place with at least one tropical-style swimming lagoon and additional convenience facilities.

The construction method of the present invention is less costly than constructing other facilities such as shopping malls, amusement parks, water parks, or the like in the same space.

As used herein, tropical style refers to round, clean water lagoons that are suitable for leisure purposes and usually have clear, green water with no visible macroalgae present, nor the green water tones of artificial lagoons and lakes as in parks and golf courses and the like.

In more detail, the process comprises excavating at least a part of the empty or waste site to excavate layers between 15cm and 6m in order to provide the necessary excavation volume for the construction of swimming lagoons.

Optionally, if permanent or rigid structures are present in the field, especially in the case of abandoned fields, such structures can be dismantled to carry out the necessary excavation for the construction of swimming lagoons. For clarity, in this patent application, the term "demolition" encompasses not only the toppling or removal of the current monument or installation, but also the removal of debris or non-fixed material from such areas and the digging or digging of a portion of the ground as part of the construction method.

The demolition process involves digging mechanically to a depth of 20cm above the final digging level, where the final 20cm can be dug manually.

Once the design excavation level is reached, the bottom soil must be compacted to achieve a 95% modified glucan (Proctor) density. By 95% improved goodpasture density is meant that the soil at the bottom is compacted to 95% of its maximum dry density. The purpose of this is to reduce the post-construction settlement rate of such soils. For reference, the modified dextral test uses a 4 inch diameter mold (which holds 1/30 cubic feet of soil) and 10 pound hammers, dropped from 18 inches, with five lifts each at 25 impacts to achieve approximately 56,250ft-lb/ft3 of compaction work. This can also be explained by the excavated bottom being compacted to 95% of maximum dry compacted density when the soil type has more than 12% material passing through a N ° 200 mesh (0.075mm opening) based on modified dextran test (ASTM D1557-02). When the soil type has less than 12% material passing through a N ° 200 mesh (0.075mm opening), the soil must be compacted to achieve no less than 80% of its relative density.

The process also includes excavating a volume of at least 4,000m3, preferably at least 7,000m3, from an area within the open or abandoned site. This excavated material will preferably be used as an earthwork necessary to provide a basin of a swimming lagoon, where such an earthwork is created within the property perimeter, and where the basin comprises a basin perimeter and a bottom. Those skilled in the art will appreciate that excavated material may prove unsuitable for earthworks. For example, the material may include a mixture of rock, cement, tar, or other crushed stone. In this case, suitable fillers and other materials may be delivered to the site for earthworks.

The basin for lagoons is preferably designed and constructed such that its surface area is at least 3,000m2, preferably at least 5,000m2, and more preferably more than 10,000m2, and its minimum depth of the deepest point is 1.4 meters.

It is important to emphasize that for tropical style swimming lagoons of the present invention, with surfaces greater than 3,000m2, conventional pool construction techniques are not economically and technically feasible because, for example, pool construction requires large and thick concrete structures that include a series of inlets and outlets in the walls and bottom of the structure to enable water movement and circulation that allows the entire volume of water to be filtered at least once a day. This is primarily to obtain a uniform body of water, so that when the water flow is extracted and filtered, it means that the entire volume of water is being filtered, and there are no dead zones where there is no water circulation and therefore no effective filtration can be obtained.

For example, swimming pool regulations around the world require the use of bottom and/or wall nozzles, wherein the regulations preferably require the use of a bottom inlet to enable proper water mixing and circulation to be provided to the filtration system before water is drawn from the pool. For example, florida pool construction codes require that entrances be installed such that the spacing between floor entrances does not exceed 20ft (6m) and the distance between the bottom entrance and the wall does not exceed 10ft (3 m). This means that in addition to wall inlets, for example, an olympic pool of 25m x 50m would require more than 35 bottom inlets, while a pool of 3,000m2(60m x 60m) would require more than 70 bottom inlets, which would further allow for a mixed water volume that, when pumped from a main drain, skimmer or other point of water intake and sent to a filtration system, could effectively filter the entire volume of water of the pool 1 to 6 times per day (typically 4 times per day, according to regulations). The present invention preferably requires that swimming lagoons have at least 50% fewer inlets than required by conventional swimming pool filtration systems, according to pool standards.

The enclosure is preferably constructed on at least a section of the basin perimeter to form a waterfront perimeter arranged and configured to enclose water within the basin. Such walls require backfill material to provide structural integrity to the wall.

Furthermore, the sloped region is preferably built in at least a section of the basin perimeter in order to create a beach channel perimeter. The sloped region is constructed such that the slope of the beach channel perimeter is between 5% and 30%. The sloped region may require the construction or placement of support plates to provide structural stability in such a position. For example, the support plates may be made of reinforced concrete, shotcrete, plastic, or other support material. For example, the inclined area may have a high foot traffic (foot traffic) for the user using swimming lagoons.

The shape of the waterfront perimeter is preferably curved to create a more natural appearance of swimming lagoons. Furthermore, the basin has a maximum width of 300 meters at its widest point. The width of lagoons is defined as the measured value or range of lagoons from one side to the other; the smaller of the two dimensions of lagoons measurements. The length of lagoons is defined as the largest dimension measurement of lagoons.

The maximum width of lagoons is limited to up to 300 meters, since the distances are large and the visual impact of the entire lagoon is hardly felt at the eye level.

The bottom of the basin is covered with an impermeable material to act as a water containment structure. Similar to a conventional swimming pool, the water impermeable base material covering the bottom of the basin comprises a plastic liner, shotcrete, or a flexible material that does not require the use of a thick concrete layer. The use of large thick concrete surfaces is problematic because, in addition to being costly, it can create structural tension forces that cause cracks, fissures, settlement in the concrete and can affect the structural properties of the basin.

In a preferred embodiment, the impermeable material comprises, among other solutions, a plastic pad having a thickness of at least 1 mm. The plastic liner may be of different colors and shades, but is preferably white, blue or light to provide a strong bluish shade to the body of water.

Thus, the basin and its bounding and/or sloped areas create a swimming lagoon in the volume previously dug, forming the basin.

Embodiments herein relate to swimming lagoons arranged and configured to optimize guest experience. In particular, lagoons are arranged and constructed in such a way that the relationship between all the elements and the usages of the different regions of lagoons enables guests and visitors to enjoy the experience and to interact with the different regions that can be designated for different usages. Preferably a beach area included in swimming lagoons. However, there may be situations where it is impractical or undesirable for a particular field to tilt a beach area with a swimming area.

Furthermore, it is also preferred to build swimming lagoons in such a way that they can be used not only for swimming purposes, but also for performing several water sports, such as kayaks, standing paddocks, rowing, skiing, etc.

Although swimming lagoons are artificial, swimming lagoons preferably include a shape that readily mimics natural geometry, and include a somewhat elongated shape to provide at least one advantageous point-of-experience lagoons and their surrounding compelling view for tourists. Preferably, swimming lagoons are surrounded by vegetation such as plants and trees.

Furthermore, swimming lagoons include different elements and areas for providing an optimized guest experience, preferably at least one controlled area of use. This is achieved by building one or more barriers around the perimeter of the basin of swimming lagoons in order to isolate the area of swimming lagoons to establish a controlled area of use in which limited use swimming lagoons are located. In this case, the controlled use area includes at least one beach channel perimeter within the basin perimeter, thereby providing new leisure facilities and leisure areas for the patrons. The barrier includes at least one access point to selectively allow a user to access the controlled use area. The remaining area around the perimeter of the basin may optionally be an open use area that the user is free to use, meaning it is a ticketless area. However, controlled use areas preferably require ticket, voucher or other entry fee payment for use in such areas, which fees may be included in other fees or payments, e.g., entry may be included in a seasonal ticket, or by being a member of an association or community, as part of a lodging facility, etc.

Controlled use areas can also be created around swimming lagoons for other uses. However, in the case of ticket-free zones, separate entry points must be included for both the controlled use zones and the ticket-free use zones of lagoons. This enables visitors to explicitly participate in one or both areas, depending on their purpose of visiting fields and lagoons, including natural pronunciation and artificial focus along the edges to encourage walking and foster visitors with a sense of discovery. Swimming lagoons can be illuminated by an illumination system to allow for nighttime use. The lighting system comprises an external lighting system and/or an underwater system.

As already mentioned, lagoons preferably comprise at least one guest-controlled area of use for at least one beach area, wherein the beach area comprises a sandy beach and an inclined transition to a swimming lagoon. The controlled use zones can be designed such that the ratio of total beach area to lagoon area is at least 1: 2. Further, the placement and design of the beach area preferably takes into account the approximate orientation of the summer sun to optimize the guest experience. In another embodiment of the invention, the controlled-use area surrounds the entire lagoon surface and may include additional amenities in the controlled-use area, such as leisure facilities including cafes, bars, restaurants, etc.

In an embodiment of the invention, facilities surrounding tropical-style lagoons are artificially arranged as a beach theme, including using blue and white with the inspiration of beach and beach kiosks and lighthouses.

The swimming lagoons may also be surrounded by vegetation, such as plants and trees.

The invention also comprises the construction of at least one additional leisure facility, including catering and commercial facilities capable of providing a leisure environment surrounding tropical-style lagoons. Examples of leisure facilities include restaurants, bars, kiosks, stores, cafes, restaurants, beach centers, walking corridors, hotels, leisure facilities, virtual and immersive experiences, and similar facilities and amenities.

Open-air theaters are preferably constructed in the surroundings of lagoons and in the vicinity of the beach area(s). This creates opportunities for taking events, such as concerts and festivals, among others. Other activities include beach music, beach dining, and beach other activities, such as wedding and sporting activities, among others. The beach surroundings may include cafes, bars, restaurants, beach centers, and similar facilities and amenities.

With ticketless areas within the premises, having at least one ticketless use area includes an optimized waterfront perimeter around swimming lagoons which has an unobstructed field of vision of the lagoons and is not directly in front of any beach area or flat open ground which may affect the aesthetic of the landscape. Ticketless use areas include cafes, bars, restaurants, beach centers, walking corridors, hotels, entertainment facilities, virtual and immersive experiences, and similar facilities and amenities.

Screens may also be provided near swimming lagoons to broadcast content as well as family activities and performances, and the screens may be located in the same sectors as the open air theater to create new activity venues with swimming lagoons as a background. The screen may also be used for streaming media live or recording events or general media, and the stage area may be used for broadcasting or hosting electronic competitions, concerts, dramas, performances, etc.

Other components and methods embodying the principles of the present invention may be configured within the spirit and intent of the present invention. The arrangement described herein is provided merely as one example of an embodiment that incorporates and practices the principles of the present invention. Other modifications and variations within the knowledge of those skilled in the art, and are intended to be included within the broad scope of the appended claims.

1	Vacant or abandoned site
		2	Tropical style swimming lagoon
3	Beach area
		4	Method of the invention
5	Inclined channel
		6	Enclosure wall
7	Backfilling
		8	Bottom soil
9	Non-permanent material
		10	Supporting plate
11	Method