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G1 M13 H3 H3 MSRP 128€ Weight: 12.8 kg | 12 pcs/plt MSRP 80€ Weight: 7.91 kg | 12 pcs/plt
Z61 Z62 H8 H8 MSRP 224€ Weight: 22.4 kg | 12 pcs/plt MSRP 115€ Weight: 11.5 kg | 12 pcs/plt 6 6m 6 6m
U45 M11 H3 H3 MSRP 136€ Weight: 13.6 kg | 12 pcs/plt MSRP 80€ Weight: 7.99 kg | 12 pcs/plt
U60 H3 MSRP 115€ Weight: 11.5 kg | 12 pcs/plt
U51 J11 H3 H3 MSRP 85€ Weight: 8.5 kg | 12 pcs/plt MSRP 50€ Weight: 5 kg | 12 pcs/plt
U45 X32 H3 H3 MSRP 136€ Weight: 13,6 kg | 12 pcs/plt MSRP 59€ Weight: 5.9 kg | 12 pcs/plt
X11 H3 MSRP 148€ Weight: 14.73 kg | 12 pcs/plt
X31 H3 MSRP 213€ Weight: 21.23 kg | 12 pcs/plt
X6 H7 MSRP 147€ Weight: 14.7 kg | 12 pcs/plt
X8 H7 MSRP 138€ Weight: 13.8 kg | 12 pcs/plt
J5 D3 H0 H0 MSRP 13€ Weight: 1.25 kg | 12 pcs/plt MSRP 20€ Weight: 1.9 kg | 12 pcs/plt
G41 G42 H7 H7 MSRP 80€ Weight: 8 kg | 12 pcs/plt MSRP 92€ Weight: 9.2 kg | 12 pcs/plt
X20 H7 MSRP 110€ Weight: 11 kg | 12 pcs/plt 3 2m
RETENTION WALL - SEAWALL A retaining wall (seawall) is used to armour coastline from the destructive effects of waves,tides and storms. As a rule,the base of the structure is located below the minimum low tide level,and the upper part is above the maximum high tide level,so makes it possible to effec- tively protect the coast from regular and extreme storm impacts. Such structures are often used to stabilize coastal slopes,protect artificial embankments,and pre- vent shore erosion by sea wavesp and surface runoff. The minimum height of a seawall is usually 2 meters or more. Hydrantula designs allow you to create different types of retaining walls - vertical (Z61,G41+G42) and inclined (U60),single-tier (U60) and multi-tier (U45). Depending on the conditions of the aquatoria,the wall can have a bottom shelf (U60,X6) to reduce the effect of the «washout funnel» or be installed directly on a pebble/ rock seabed (G41). The space between the structure and the shore is used for backfilling with rock (U45,Z61,U60). Or the internal volume of the structure serves as a con- tainer for rock ballast (X6,G41+G42). The wide assort- ment of Hydrantula greatly simplifies the construction of protective structures and their adaptation to hydrologi- cal conditions. WAVEBREAKER A breakwater is a marine engineering structure extend- ed into the aquatoria and designed to dissipate the energy of sea waves. The main task of the breakwater is to reduce the impact of storm waves on the coastline and reduce the intensity of coastal erosion. Depending on the configuration of the structure,the breakwater can completely insulate lagoon from the water body or work as a partially permeable barrier. Hydrantula permeable breakwaters generate intense turbulence in the water flow. With a sharp decrease of wave speed,sand falls out of suspension in water- the so-called Dune effect. Due to this,sand deposits form quickly around the breakwater and especially in the pro- tected area behind it and additionally stabilize the shore. Structures can be permeable (X8,partially G41/G42 or X20) or impermeable (X6,U60),vertical (X6,G41/G42) or inclined (U60). Breakwaters can also have a bottom shelf (X8,X6,U60) and form a straight (G41/G42,U60,X6) or a wave-like front of interaction with waves (X8,X20). GROYNES Groynes (coastal spurs) are specialized marine structures installed perpendicular to the coastline. Their task is to intercept and fix sand masses moving along the coast by coastal currents. Thanks to groynes,sand leakage from the coastal area is significantly reduced and the width of the beach is increased locally. According to the principle of operation,groynes are close to insulating breakwaters,but their orientation relative to the shore makes it possible to effectively control the along-shore transport of sediments. The structures can be linear,L- or T-shaped,depending on the local hydro- dynamics. In addition to the fittings mentioned above, Hydrantula recommends specialized X11 fittings for groynes.
DUNES Artificial dunes are engineering structures that form controlled sand accumulation zones. They can be placed both directly in the water and in the tidal zone. The basic principle of operation is to change the balance between alluvium and sand loss due to local changes in the hydrodynamics of waves and currents. Such structures are able to gradually stabilize the coast- line and create natural sandy landscapes. In some cases, artificial dunes make it possible to transform pebble beaches into sandy ones and significantly improve the recreational characteristics of the coastal zone. The Hyd- rantula system uses specialized X8 and X20 elements to form stable dune structures. During operation,dunes can naturally build-up due to sand deposition,which increas- es their long-term effectiveness. TERRACED BEACH In many regions of the world,the coastline has already been significantly altered by urbanization,port construc- tion,and sea level rise. In such conditions,the preserva- tion of natural beaches becomes almost impossible. Even regular reclsmation of sand or dredging often gives only short-term results and induce constant expanses for maintain. To solve this problem,Hydrantula has developed a ter- raced beach system based on X31 and X32 fittings. The structure forms cascading sand-retaining levels that stabilize the beach and radically slow down loss of sand to sea. The terraced structure smoothly distributes the energy of the waves between the tiers and creates a stable geometry of the beach. This approach makes it possible to form long-lasting beach areas even under conditions of intense wave impact. SEA GABBIO In some cases,the use of a large number of plastic struc- tures may be undesirable,for example,in historical or specially protected landscape areas. For such conditions, Hydrantula offers solutions based on marine gabions. Sea Gabbio is a system of composite grid containers formed by G41 and G42 fittings. The internal volume of the structure is filled with boulders and rubble,which provide the necessary mass and permeability of the structure. Such gabions can serve as retaining walls, breakwaters,or maintenance and service structures for recreational fleet. At the same time,the more natural appearance of the marine facade remains. SANDPAD Sandpads are artificial islets or platforms located in shal- low water and partially staying above sea level. Their main task is to break waves and create sand accumula- tion zones; to form new beach spaces. SandPad designs allow you to create beach even in places where it did not exist before. Due to changes in local hydrodynamics,such islets cause deposition of sand and the formation of stable sandbanks. Hydrantula has developed X20 fittings to create such structures. Over time,a natural shoal may form around the SandPad.
3m 3 "Corkscrew" - compatible with jet-sunk or screwed piles. "Bricks" - maximum permissible number of structure levels. "Snowflakes" - relative frost resistance of the structure (from 3* to 0* = droplet). "Depth" - maximum permissible bottom depth at the structure's site, in meters. "Bucket and shovel" - indicates a structure filled with rock. 1. Boat-gang 2. Dock / Palafite3 . Ramp 4. Transverse caddy Ramp 5. Lateral Ramp 6. Lateral caddy Ramp 7. Terraced Beach 8. Terraced Beach 9. Terraced seawall 10. Boatlift 11. Wave breaker 12. Ponton 13. Cribbs 14. Shallow passway1 5. Wet Garage 16. Sea gabbio 17. Sea Camping 18. Sea Hammock 19. Sea Stairs2 0. Quay wall 21. Jetties 22. Keelblock 23. Groynes 24. Manifold 25. Concreting 26. Moorings 28. Pile Forest 27. Roll-in Boatlift
ANNIVERSARY OF UNICORN ANNIVERSARY OF UNICORN 44TH TH https://tinyurl.com/UNICOR4 HYDRANTULA FITTING CATALOGUE 2025 https://tinyurl.com/HydCAT ONE JUMP TO PARADISE nnovative ermanent nderwater ormwork https://tinyurl.com/H-GOLD https://tinyurl.com/HYD250 https://tinyurl.com/HydART hydrantula.com sales@hydrantula.com 38160 Fox Run Drive Solon OH, 44139 USA https://tinyurl.com/H-SARK One Jump to Paradise https://tinyurl.com/H-FREEZ 11 Why HYDRANTULA Why HYDRANTULA Is a Breakthrough — Is a Breakthrough — and and Why It’s Only Appearing Now? Why It’s Only Appearing Now? HYDRANTULA permanent formwork competes directly with multiple established shoreline and marine construction methods—piles, retaining walls, sheet piling, concrete pontoons, and aluminum deck structures. What makes it different? HYDRANTULA dramatically lowers the cost and complexity of building 3D marine concrete frames, bringing them out of the realm of oil & gas megaprojects and into reach for mid-sized developers, marinas, and residential coastal construction. So why hasn’t this «obvious» solution been around for decades? Because it wasn’t obvious—until now. Let’s figure it out. https://tinyurl.com/HYCORE https://tinyurl.com/HydASS One Jump to Paradise OCEANFRONT HOUSE OWNERSHIP GUIDE https://tinyurl.com/H-OCEAN PROJECT: HYDRANTULA INVESTOR MEMORANDUM https://tinyurl.com/H-MEMO 1 1 FAQ FAQ H ydrantula is the only low-cost 3D marine concrete frame technology. Unlike piles, up to 35% of all work can be done inside workshop. And about 90% of the total work is dry. And are carried out on shore without involving heavy machinery or barges. Hydrantula installation is virtually silent and less susceptible to the vagaries of the weather. Hydrantula is almost insensitive to the type of bottom soil. 1. What are we selling? HYDRANTULA develops, manufactures and sells permanent [non-removable] formwork for casting concrete underwater or in the tide zone. The ready-to-cast concrete formwork consists of original connecting elements [fittings or nodes] and beams made of regular HDPE plumbing pipes. 2. What exactly are you selling and what will need to buy separately? *We sell technology. In a narrow sense, we only sell fittings = connecting nodes of the 3D frame. Beams are made from standard plumbing pipes; sea concrete, rebar and microfiber are also widely available mass products and purchased locally https://tinyurl.com/HydFAQ WHERE DOES HYDRANTULA HAVE NO ANY PRACTICAL ALTERNATIVES? US https://tinyurl.com/HydBRZ ONE JUMP TO PARADISE nnovative ermanent nderwater ormwork https://tinyurl.com/H-MEDAL CORPORATE SUSTAINABLE 1.Технология HYDRANTULA разработана с учетом мак- симально возможного сокращения доли «мокрых» ра- бот - забивания свай в морское дно, работ с барж, сва- рочных и монтажных работ над водой; водолазных работ и тп. Эти категории работ всегда несут повышенные риски для работни- ков. Требуют более высокой квалификации и дисциплины. 2.В отличие от других видов морских строительных тех- нологий - отсутствует «прочная» связь строительной конструкции с дном - она «просто стоит» на дне. Конструкцию технически можно убрать целиком, не раз- рушая (хоть это и дорого). Как известно, одна из главных сложностей в морском строительстве - невозможность или невероятная трудоемкость сноса устаревших или износившихся морских конструкций, путем их разрушения на https://tinyurl.com/H-SUST
+65 91819114 8416 GARDENS CIR, SARASOTA, FL 34243 USA 33 UBI AVENUE 3, #08-61, VERTEX, SINGAPORE 408868 hydrantu.la hydrantula sales@hydrantula.com hydrantula boss@hydrantu.la www.linkedin.com