Concrete plant

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A typical non-North American design of concrete plant. Longer conveyors and screw-fed cementitious materials slow down production significantly. Concrete plant.jpg
A typical non-North American design of concrete plant. Longer conveyors and screw-fed cementitious materials slow down production significantly.

A concrete plant, also known as a batch plant or batching plant or a concrete batching plant, is equipment that combines various ingredients to form concrete. Some of these inputs include water, air, admixtures, sand, aggregate (rocks, gravel, etc.), fly ash, silica fume, slag, and cement. A concrete plant can have a variety of parts and accessories, including: mixers (either tilt drum or horizontal, or in some cases both), cement batchers, aggregate batchers, conveyors, radial stackers, aggregate bins, cement bins, heaters, chillers, cement silos, batch plant controls, and dust collectors.

Contents

The heart of the concrete batching plant is the mixer, and there are many types of mixers, such as tilt drum, pan, planetary, single shaft and twin shaft. The twin shaft mixer can ensure an even mixture of concrete through the use of high horsepower motors, while the tilt mixer offers a comparatively large batch of concrete mix. In North America, the predominant central mixer type is a tilt drum style, while in Europe and other parts of the world, a twin shaft mixer is more prevalent. A pan or planetary mixer is more common at a precast plant.

Aggregate bins have 2 to 6 compartments for storage of various sand and aggregate (rocks, gravel, etc.) sizes, while cement silos are typically one or two compartments, but at times up to 4 compartments in a single silo. Conveyors are typically between 24 and 48 inches wide and carry aggregate from the ground hopper to the aggregate bin, as well as from the aggregate batcher to the charge chute.

A twin shaft concrete mixer, which is common in concrete plants Twin shaft Concrete Mixer.jpg
A twin shaft concrete mixer, which is common in concrete plants

The aggregate batcher, also named aggregate bins, is used for storage and to batch the sand, gravel and crushed stone of the concrete plant. There are also many types of aggregate batchers, but most of them measure aggregate by weighing. Some use a weighing hopper, some use a weighing belt.

The cement silos are indispensable devices in the production of concrete. They mainly store bulk cement, fly ash, mineral powder and others. There are three types of cement silos: bolted cement silos, horizontal cement silos and integrated cement silos. Integrated cement silos are made in factories, and can be used directly. Bolted cement silos are bolted for easy installation and removal. Horizontal cement silos have lower requirements on foundations and can be transported by truck or flatbed without disassembly.

Cement silo Cement Silos.jpg
Cement silo

The screw conveyor is a machine to transfer the materials from the cement silos to the powder weighing hopper.

Screw conveyor Screw Conveyor.jpg
Screw conveyor

Concrete plants use the control system to control the working of the machine. Concrete batch plants employ computer aided control to assist in fast and accurate measurement of input constituents or ingredients. With concrete performance so dependent on accurate water measurement, systems often use digital scales for cementitious materials and aggregates, and moisture probes to measure aggregate water content as it enters the aggregate batcher to automatically compensate for the mix design water/cement ratio target. Many producers find moisture probes work well only in sand, and with marginal results on larger sized aggregate.

Automatic control system Automatic Control System.jpg
Automatic control system

Types

There are many classification standards for concrete plants. Concrete plants can be divided into dry mix plant and wet mixing plants, depending on whether a central mixer is used. They can be also divided into stationary concrete plants and mobile concrete plants, depending on whether they can be moved.

Dry mix concrete plant

A dry mix concrete plant, also known as a transit mix plant, weighs sand, gravel and cement in weigh batchers via digital or manual scales. All the ingredients are then discharged into a chute, which discharges into a truck. Meanwhile, water is either being weighed or volumetrically metered and discharged through the same charging chute into the mixer truck. These ingredients are then mixed for a minimum of 70 to 100 revolutions during transportation to the jobsite.

Wet mix concrete plant

A wet mixconcrete plant combines some or all of the above ingredients (including water) at a central location into a concrete mixer - that is, the concrete is mixed at a single point, and then simply agitated on the way to the jobsite to prevent setting (using agitators or ready mix trucks) or hauled to the jobsite in an open-bodied dump truck. Dry mix plants differ from wet mix plants in that wet mix plants contain a central mixer, which can offer a more consistent mixture in a shorter time (generally 5 minutes or less). Dry mix plants typically see more break strength standard deviation and variation from load to load because of inconsistencies in mix times, truck blade and drum conditions, traffic conditions, etc. With a central mix plant, all loads see the same mixing action and there is an initial quality control point when discharging from the central mixer. Certain plants combine both dry and wet characteristics for increased production or for seasonality. For example, a mobile batch plant can be constructed on a large job site. [1]

Mobile concrete plant

The mobile batch plant, also known as a portable concrete plant, is a very productive, reliable and cost-effective piece of equipment to produce batches of concrete. It allows the user to batch concrete at almost any location, then move to another location and batch concrete. Portable plants are the best choice for temporary site projects or even stationary locations where the equipment height is a factor or the required production rate is lower.

Stationary concrete plant

The stationary concrete plant is designed to produce high-quality concrete. It has the advantages of large output, high efficiency, high stability and high specification. Stationary concrete batching plants are reliable and flexible, easy to maintain and have a low failure rate. They are widely used in various projects such as roads and bridges, ports, tunnels, dams and buildings.

Application

Typical concrete plants are used for ready mix, civil infrastructure, and precast applications.

For ready mix

The global Ready Mix Concrete (RMC) market is valued at US$394.44 billion in 2017 and is expected to reach US$624.82 billion by the end of 2025, growing at a CAGR of 5.92% between 2016 and 2022. [2] A ready mix concrete plant is generally located inside the city, transporting ready-mixed concrete for projects through concrete truck mixers. Ready mix concrete plants have higher requirements for durability, reliability, safety and environmental protection of the concrete plant's system than other types of plant.

For precast applications

Precast concrete, also named PC component, is a concrete product that is processed in a standardized process in the factory. Compared with cast-in-place concrete, precast concrete can be produced, poured and cured in batches. A precast concrete batching plant has a safer construction environment, lower cost, and high quality products compared with concrete poured on site; the construction speed can be guaranteed. In addition, it is widely used in transportation, construction, water conservancy and other fields.

Precast and prestress concrete producers supply critical elements used in world-wide infrastructure, including buildings, bridges, parking decks, road surfaces, and retaining walls.

Dust and water pollution

Municipalities, especially in urban or residential areas, have been concerned by pollution from concrete batching plants. [3] The absence of suitable dust collection and filter systems in cement silos or at the truck loading point is the major source of particulate matter emission in the air. The loading point is a large emission point for dust pollution, so many concrete producers use central dust collectors to contain this dust. Notably, many transit mix (dry loading) plants create significantly more dust pollution than central mix plants due to the nature of the batching process. A final source of concern for many municipalities is the presence of extensive water runoff and reuse for water spilled on a producer's sites.

Related Research Articles

<span class="mw-page-title-main">Concrete</span> Composite construction material

Concrete is a composite material composed of aggregate bonded together with a fluid cement that cures over time. Concrete is the second-most-used substance in the world after water, and is the most widely used building material. Its usage worldwide, ton for ton, is twice that of steel, wood, plastics, and aluminium combined.

<span class="mw-page-title-main">Cement</span> Hydraulic binder used in the composition of mortar and concrete

A cement is a binder, a chemical substance used for construction that sets, hardens, and adheres to other materials to bind them together. Cement is seldom used on its own, but rather to bind sand and gravel (aggregate) together. Cement mixed with fine aggregate produces mortar for masonry, or with sand and gravel, produces concrete. Concrete is the most widely used material in existence and is behind only water as the planet's most-consumed resource.

<span class="mw-page-title-main">Portland cement</span> Binder used as basic ingredient of concrete

Portland cement is the most common type of cement in general use around the world as a basic ingredient of concrete, mortar, stucco, and non-specialty grout. It was developed from other types of hydraulic lime in England in the early 19th century by Joseph Aspdin, and is usually made from limestone. It is a fine powder, produced by heating limestone and clay minerals in a kiln to form clinker, grinding the clinker, and adding 2 to 3 percent of gypsum. Several types of portland cement are available. The most common, called ordinary portland cement (OPC), is grey, but white portland cement is also available. Its name is derived from its resemblance to portland stone which was quarried on the Isle of Portland in Dorset, England. It was named by Joseph Aspdin who obtained a patent for it in 1824. His son William Aspdin is regarded as the inventor of "modern" portland cement due to his developments in the 1840s. The term portland in this context refers to a material or process, not a proper noun like a place or a person, and should not be capitalized.

<span class="mw-page-title-main">Asphalt concrete</span> Composite material used for paving

Asphalt concrete is a composite material commonly used to surface roads, parking lots, airports, and the core of embankment dams. Asphalt mixtures have been used in pavement construction since the beginning of the twentieth century. It consists of mineral aggregate bound together with bitumen, laid in layers, and compacted.

<span class="mw-page-title-main">Concrete mixer</span> Device that combines cement, aggregate, and water to form concrete

A concrete mixer is a device that homogeneously combines cement, aggregate, and water to form concrete. A typical concrete mixer uses a revolving drum to mix the components. For smaller volume works, portable concrete mixers are often used so that the concrete can be made at the construction site, giving the workers ample time to use the concrete before it hardens. An alternative to a machine is mixing concrete by hand. This is usually done in a wheelbarrow; however, several companies have recently begun to sell modified tarps for this purpose.

<span class="mw-page-title-main">Shotcrete</span> Concrete or mortar building material

Shotcrete, gunite, or sprayed concrete is concrete or mortar conveyed through a hose and pneumatically projected at high velocity onto a surface. This construction technique was invented by Carl Akeley and first used in 1907. The concrete is typically reinforced by conventional steel rods, steel mesh, or fibers.

<span class="mw-page-title-main">Ready-mix concrete</span> Concrete that is manufactured in a batch plant, according to a set engineered mix design

Ready-mix concrete (RMC) is concrete that is manufactured in a batch plant, according to each specific job requirement, then delivered to the job site "ready to use".

<span class="mw-page-title-main">Silo</span> Structure for storing crops

A silo is a structure for storing bulk materials. Silos are used in agriculture to store fermented feed known as silage, not to be confused with a grain bin, which is used to store grains. Silos are commonly used for bulk storage of grain, coal, cement, carbon black, woodchips, food products and sawdust. Three types of silos are in widespread use today: tower silos, bunker silos, and bag silos.

<span class="mw-page-title-main">Lime mortar</span> Building material

Lime mortar or torching is a masonry mortar composed of lime and an aggregate such as sand, mixed with water. It is one of the oldest known types of mortar, used in ancient Rome and Greece, when it largely replaced the clay and gypsum mortars common to ancient Egyptian construction.

<span class="mw-page-title-main">Precast concrete</span> Construction material

Precast concrete is a construction product produced by casting concrete in a reusable mold or "form" which is then cured in a controlled environment, transported to the construction site and maneuvered into place; examples include precast beams, and wall panels for tilt up construction. In contrast, cast-in-place concrete is poured into site-specific forms and cured on site.

<span class="mw-page-title-main">Construction aggregate</span> Coarse to fine grain rock materials used in concrete

Construction aggregate, or simply aggregate, is a broad category of coarse- to medium-grained particulate material used in construction, including sand, gravel, crushed stone, slag, recycled concrete and geosynthetic aggregates. Aggregates are the most mined materials in the world. Aggregates are a component of composite materials such as concrete and asphalt; the aggregate serves as reinforcement to add strength to the overall composite material. Due to the relatively high hydraulic conductivity value as compared to most soils, aggregates are widely used in drainage applications such as foundation and French drains, septic drain fields, retaining wall drains, and roadside edge drains. Aggregates are also used as base material under foundations, roads, and railroads. In other words, aggregates are used as a stable foundation or road/rail base with predictable, uniform properties, or as a low-cost extender that binds with more expensive cement or asphalt to form concrete. Although most kinds of aggregate require a form of binding agent, there are types of self-binding aggregate which do not require any form of binding agent.

<span class="mw-page-title-main">Pugmill</span>

A pugmill, pug mill, or commonly just pug, is a machine in which clay or other materials are extruded in a plastic state or a similar machine for the trituration of ore. Industrial applications are found in pottery, bricks, cement and some parts of the concrete and asphalt mixing processes. A pugmill may be a fast continuous mixer. A continuous pugmill can achieve a thoroughly mixed, homogeneous mixture in a few seconds, and the right machines can be matched to the right application by taking into account the factors of agitation, drive assembly, inlet, discharge, cost and maintenance. Mixing materials at optimum moisture content requires the forced mixing action of the pugmill paddles, while soupy materials might be mixed in a drum mixer. A typical pugmill consists of a horizontal boxlike chamber with a top inlet and a bottom discharge at the other end, 2 shafts with opposing paddles, and a drive assembly. Some of the factors affecting mixing and residence time are the number and the size of the paddles, paddle swing arc, overlap of left and right swing arc, size of mixing chamber, length of pugmill floor, and material being mixed.

<span class="mw-page-title-main">Volumetric concrete mixer</span> Type of concrete mixer

A volumetric concrete mixer is a concrete mixer mounted on a truck or trailer that contains separate compartments for sand, stone, cement and water.

<span class="mw-page-title-main">Mixer-wagon</span>

A mixer-wagon, or diet feeder, is a specialist agricultural machine used for accurately weighing, mixing and distributing total mixed ration (TMR) for ruminant farm animals, in particular cattle and most commonly, dairy cattle.

<span class="mw-page-title-main">Types of concrete</span> Building material consisting of aggregates cemented by a binder

Concrete is produced in a variety of compositions, finishes and performance characteristics to meet a wide range of needs.

A traditional method for the installation of tile and stone.

<span class="mw-page-title-main">Malting</span> Process of steeping, germinating and drying grain to convert it into malt

Malting is the process of steeping, germinating and drying grain to convert it into malt. Germination and sprouting involve a number of enzymes to produce the changes from seed to seedling and the malt producer stops this stage of the process when the required enzymes are optimal. Among other things, the enzymes convert starch to sugars such as maltose, maltotriose and maltodextrines, hence the name malt.

<span class="mw-page-title-main">Stabilized soil mixing plant</span>

A stabilized soil mixing plant is a combination of kinds of machines used for mixing stabilized soil, which is used for highway construction, municipal road projects, and fertile airport areas. The plant produces stabilized soil with different gradings in a continuous way. Such a plant usually contains a cement silo, measuring and conveying system, and mixing devices.

Concrete chipping is a process which requires trained chippers or a robotically-controlled machine with an Ultra High Pressure water source to enter the drums of ready-mix concrete trucks and central mixers to break away the dried concrete along the drums’ walls. Human teams use tools such as the handheld jackhammer and chisel to manually remove hardened material. The robotically controlled machine, commercially referred to as a "Ready Jet," removes the dried concrete by cutting the concrete with ultra high pressure water, causing the concrete to delaminate from the interior of the mixer drum. The robotically controlled machine is operated by a human outside of the ready-mix concrete drum. Human teams, with help from shovels, wheelbarrows and the like, then pile the discarded concrete on the ground, where it can either be hauled away to the landfill, turned into new building material through the process of concrete recycling or repurposed in some other way. Mike Rowe, host of Dirty Jobs on the Discovery Channel, once described concrete chipping as the toughest job he ever took on.

References

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