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An Xbloc is a
wave-dissipating concrete block A wave-dissipating concrete block is a naturally or manually interlocking concrete structure designed and employed to minimize the effects of wave action upon shores and shoreline structures, such as quays and jettys. Examples include such propr ...
(or "armour unit") designed to protect shores, harbour walls,
seawall A seawall (or sea wall) is a form of coastal defense constructed where the sea, and associated coastal processes, impact directly upon the landforms of the coast. The purpose of a seawall is to protect areas of human habitation, conservation ...
s,
breakwaters A breakwater is a permanent structure constructed at a coastal area to protect against tides, currents, waves, and storm surges. Part of a coastal management system, breakwaters are installed to minimize erosion, and to protect anchorages, h ...
and other
coastal structure Coastal engineering is a branch of civil engineering concerned with the specific demands posed by constructing at or near the coast, as well as the development of the coast itself. The hydrodynamic impact of especially waves, tides, storm surges ...
s from the direct impact of incoming
waves Waves most often refers to: *Waves, oscillations accompanied by a transfer of energy that travel through space or mass. * Wind waves, surface waves that occur on the free surface of bodies of water. Waves may also refer to: Music * Waves (ban ...
. The Xbloc model was designed and developed by the Dutch firm Delta Marine Consultants, now called BAM Infraconsult, a subsidiary of the
Royal BAM Group Royal BAM Group nv ( nl, Koninklijke BAM Groep nv) is a Dutch construction-services business with headquarters in Bunnik, Netherlands. It is the largest construction company based on revenue in the Netherlands. History The company was founded by ...
in 2001 and has been subjected to extensive research by several universities.


Benefits vs other systems

Concrete armour units are generally applied in breakwaters and shore protections. The units are placed in a single layer as the outer layer of the coastal structure. This layer is called the armour layer. Its function is twofold: (1) to protect the finer material below it against severe wave action; (2) to dissipate the wave energy to reduce the wave run-up, overtopping and reflection. These functions require a heavy, but porous armour. Common factors to apply single layer concrete armour units are: * natural rock is unavailable in required size or quality to withstand design wave or current loads * quarry production is insufficient to match the material demand * existing quarries are in uneconomic distance to project location * road connections have load restrictions (bridges) and other bottlenecks, are in poor condition or congested Also compared to older concrete armour units, as e.g.
tetrapod Tetrapods (; ) are four-limbed vertebrate animals constituting the superclass Tetrapoda (). It includes extant and extinct amphibians, sauropsids ( reptiles, including dinosaurs and therefore birds) and synapsids (pelycosaurs, extinct theraps ...
which are normally placed in double layer as for rock protection, modern single layer armour units (like the Xbloc and
Accropode Accropode blocks are wave-dissipating concrete blocks designed to resist the action of waves on breakwaters and coastal structures. History The Accropode is a single-layer artificial armour unit developed by Sogreah in 1981. Accropode concre ...
), involve significantly less concrete. Therefore, less construction material (cement, gravel) is required, reducing costs and also the
carbon footprint A carbon footprint is the total greenhouse gas (GHG) emissions caused by an individual, event, organization, service, place or product, expressed as carbon dioxide equivalent (CO2e). Greenhouse gases, including the carbon-containing gases carbo ...
of coastal protection works. Like Xbloc, most of these blocks are commercial developments and
patent A patent is a type of intellectual property that gives its owner the legal right to exclude others from making, using, or selling an invention for a limited period of time in exchange for publishing an enabling disclosure of the invention."A p ...
ed as such, Xblocs are not produced by the patent holder, but are fabricated and installed by a contractor who in return pays a license fee. Such an agreement involves certain technical support activities to ensure the correct application of the protection system. The patent expires in 2023, but although after that date anyone can make a block with this shape, one is not allowed to call it Xbloc, because the name is a protected trademark.


Hydraulic stability and interlocking mechanism

The Xbloc armour unit derives its hydraulic stability from its self-weight and by interlocking with surrounding units. Due to the highly porous armour layer (layer porosity of almost 60%) constructed with Xbloc units, the energy of the incoming waves will be largely absorbed. The Xbloc armour layer is therefore able to protect the rock in the under layer from erosion due to waves. Besides empirical formulae derived from physical model testing, the interaction between breakwater elements (submerged or emerged) and waves as well as the filtration of the fluid into the porous breakwater has been investigated amongst others by MEDUS, based on RANS equations coupled with a RNG turbulence model. Xblocs are typically applied on an armour slope steepness between 3V:4H and 2V:3H. Unlike natural rock, the hydraulic stability does not increase at shallower slope inclinations, because, in that situation, the interlocking effect is reduced. Standard Xbloc sizes vary between 0.75m3 (significant wave height up to Hs = 3.35m) and 20m3 (Hs = 10.0m). It is noted that the given relation between design wave height and volume size is valid for the concept stage only. Further parameters as foreshore slope,
crest Crest or CREST may refer to: Buildings *The Crest (Huntington, New York), a historic house in Suffolk County, New York *"The Crest", an alternate name for 63 Wall Street, in Manhattan, New York *Crest Castle (Château Du Crest), Jussy, Switzerla ...
configuration, construction equipment, etc. can have an important effect on the recommended unit size. For detailed design, in particular for non standard situations, physical model tests are essential and normally carried out to confirm overall stability and functional performance of a breakwater (wave overtopping and/ or wave penetration). The effect of interlocking is apparent when comparing a rock revetment with a modern single layer unit for average boundary conditions, while taking into account the lower
specific density Specific density is the ratio of the mass versus the volume of a material. Density vs. gravity Specific density is based upon units of mass and volume, while specific gravity Relative density, or specific gravity, is the ratio of the de ...
of concrete compared to most natural rock commonly used in breakwater construction. Assuming that natural rock would be placed at identical slope steepness, the individual rock weight would require to be three times as high, compared to Xbloc units. Rock is generally to be placed as double layer, thus the volume of armour material which needs to be quarried, stored, handled, transported and installed can be enormous for a larger breakwater exposed to significant wave action. Due to the interlocking effect the weight, and thus the volume, of single layer armour units is considerably less compared to an armour consisting entirely of rock. In addition, units are normally fabricated near or at project site, so that transport issues are less critical.


Production of armour units

The Xbloc consists of non-reinforced concrete, similar to other single layer armour units. Ordinary concrete C25/30 is normally appropriate for the production of Xbloc armour units. However, often concrete of higher strength is applied for other reasons, e.g. early strength for faster de-moulding, ice loads, etc. By omitting reinforcement, time and costs are cut and the armour units are less vulnerable against corrosion damages in the long term. The optimal shape of a single layer armour unit combines the robustness of a compact concrete body with the slenderness required for interlocking. The structural integrity is normally confirmed by finite element calculations (FEM) and prototype drop tests. Although both wooden and steel moulds can be used to construct the Xbloc
formwork Formwork is Molding (process), molds into which concrete or similar materials are either precast concrete, precast or cast-in-place concrete, cast-in-place. In the context of concrete construction, the falsework supports the shuttering mold ...
, steel moulds are preferred as they can be used repetitively to produce large numbers of armour units. Various mould designs, consisting of 2 sections, are applied. The moulds are either vertically or horizontally assembled. Pouring and compaction of concrete is done simultaneously. An appropriate formwork design is facilitating the stripping of the moulds at an early stage and prevents to large extent from honey combing, surface bubbles and striking damages. Due to the shape of the Xbloc unit, a relatively simple formwork can be used which is made of a limited number of different steel plates. Since a single Xbloc unit can weigh up to 45 tons, the construction is done as close as possible to the area of application.


Placement

In contrast to the placement of other interlocking concrete blocks, the Xbloc unit does not require very stringent specifications about the orientation of each unit on a breakwater slope. Because of the shape of the Xbloc, each of the 6 sides of the unit is efficiently interlocking. Therefore, the blocks easily find a position that fully activates the interlocking mechanism. This increases the efficiency of placing armour units on a slope. Due to the random structure and high porosity of an Xbloc breakwater, an
artificial reef An artificial reef is a human-created underwater structure, typically built to promote marine life in areas with a generally featureless bottom, to control erosion, block ship passage, block the use of trawling nets, or improve surfing. Many re ...
habitat is created for marine fauna and flora.


XblocPlus

DMC came to the market in 2018 with the XblocPlus. The name suggests an improved version of the Xbloc, but that is not the case. It is a block that works in a different way, and therefore also has its own advantages and disadvantages. The XblocPlus is a block that needs to be placed regularly and therefore has characteristics that one also finds in placed blocks such as natural basaltic columns or concrete placed blocks like Basalton.http://resolver.tudelft.nl/uuid:fbe797ef-5944-4bc1-9d25-e7448dce3d1b Belen Rada Mora Hydraulic Performance of Xbloc+ Armor Unit The development of this block started in particular because DMC saw opportunities for the
Afsluitdijk The ''Afsluitdijk'' (; fry, Ofslútdyk; nds-nl, Ofsluutdiek; en, "Closure Dyke") is a major dam and causeway in the Netherlands. It was constructed between 1927 and 1932 and runs from Den Oever in North Holland province to the village of ...
improvement that started in 2018. Here this block is used in the wave impact zone, the block in this context is called the ‘Levvel-block’, after the joint-venture that improves the Afsluitdijk. The Basalton Quattroblok is applied to the Wave run-up zone on the Afsluitdijk. The XblocPlus is also used in the
Vistula Spit canal The Vistula Spit canal (official name Nowy Świat ship canal, pl, Kanał żeglugowy Nowy Świat ) is a ship canal, canal across the Polish section of the Vistula Spit that creates a second connection between the Vistula Lagoon and Gdańsk Bay. ...
in Poland.


See also

* * * * * * *


References

* British Standards, ''BS 6349 Code of Practice for Maritime Structures, Part 7, Guide to design & construction of Breakwaters'', 1991. * CIRIA/CUR, ''Rock Manual'', 200
2
* ''Research Articles on the Development and Design of Xbloc Breakwater Armour Units'
3
* H.J. Verhagen, ''Classical, Innovative and Unconventional Coastline Protection Methods'', Coastal Engineering section, Delft University of Technology, the Netherlands, 200
4
* ASCE Specialty Conference, Washington D.C. March, ''Seabees in Service'', 1983


External links


Delta Marine Consultants
* Xbloc design guideline


Rock Manual 2007

MEDUS (Maritime Engineering Division University Salerno)
{{coastal management Coastal engineering Wave-dissipating concrete blocks