Choosing the right lined piping system for your plant is so important. There are many different options out there, and you might not be an expert in all of them. The last thing you need is for the piping youve just installed to fail early and impact your production targets.
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So, weve compared the most common types of lined and unlined pipe used in processing plants to help you understand all the options that are now available:
The two main unlined piping options used in mineral processing plants are unlined carbon steel and high-density polyethylene (HDPE).
Unlined carbon steel pipe is a cheaper option than lined pipe and wears better than HDPE. Unlike most lined options, you can weld, repair, or modify the piping on site as needed.
The biggest problem with unlined steel is its poor corrosion resistance. It will also fail quicklyoften within weeksif used for highly abrasive applications.
Can be repaired or modified onsite
Longer wearing than HDPE
Poor corrosion resistance
Poor wear resistance
HDPE is an economical option for low wear, corrosive applications, such as process water. Like unlined steel, you can also weld and modify it on site.
The downside is that HDPE wears very quickly in processing plants, particularly with abrasive applications like iron ore and coal.
You also need to watch out for pressure ratings and temperature conditions. HDPE has a maximum pressure rating of 25 bar at 20°C pipe temperature. As it heats up, it loses its strength and pressure rating, which can cause blowouts and failures.
Can be repaired or modified onsite
Good corrosion resistance
Fast wearing
Loses strength in high temperature and pressure systems
Traditionally, the default option for high-wear applications has been rubber-lined steel. Good quality rubber lining absorbs and disperses particle impact and provides good wear resistance.
Rubber lining is manufactured in two wayscold bonded or hot vulcanised.
With cold bonded rubber lining, the pipe interior is blasted and primed, then cured rubber sheets are glued to the pipe interior. The advantage of cold bonded lining is that it can be repaired or replaced on site.
In the hot vulcanised process, uncured rubber is glued to the pipe substrate and vulcanised in a steam autoclave. The process provides a stronger bond between the lining and the substrate versus the cold bonded option.
Rubber lining provides good wear resistance but has some drawbacks. It has high surface roughness, with high friction loss, which means more pumping energy is required.
If you go with a natural rubber lining, it has an operating temperature of -45 to 95°C. Synthetic rubber linerssuch as EPDM or nitrile rubberwill give you a higher temperature tolerance but can be more expensive and wear faster.
The manufacturing process can affect how well the rubber wears. If the lining is hand glued and moulded to the pipe substrate, this increases the potential defect rate.
Rubber lining thats poorly manufactured has high spots in the liner, bubbling where it hasnt been glued properly, or gouging and lifting at the leading edge. Once this wear starts, it can cause the entire lining to suck off the pipe wall and into the pump.
Rubber lining has further manufacturing limitations which customers should be aware of.
It can only be manufactured in lengths of 6 metres, which can work in process plants, but it makes rubber-lined steel unsuitable for pipelines.
Being a manual process, its also slow to produce. This is something to consider if you are working to tight lead times.
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Featured content: Quality rubber will provide good wear performance
Suitable for hard rock applications
Cold bonded liner can be field repaired or replaced
High friction loss
Poor resistance to hydrocarbons and high temperatures
Manufacturing processes increase defect rate and production time
High-performance polyurethane resists gouging from high-energy particles, unlike rubber liners that lack the wear resistance needed for abrasive slurry. This makes it an ideal choice for sharp-particle slurry applications like coal, and large-particle applications like oil sands, dredging, and hard rock.
Polyurethane is a cast liner, so its bonded to the pipe and spun cast to give an exact internal diameter. This process allows you to increase the lining thicknesses to match internal diameters of other pipework, or use non-standard pipe diameters.
In addition to withstanding erosive wear, the liner is chemically compatible with most fluids and isnt affected by dissolved oxygen and reagents. Standard liner formulations have temperature limits of 0 to 60°C, but you can modify the formulation for special applications outside the range.
Its important to note that not all polyurethane lining is equal. If the manufacturer uses the wrong formula, doesnt mix it properly, or doesnt apply it correctly, you can end up with bubbling, poor adhesion to the steel substrate, and a liner that simply wont last.
This photo was taken from an iron ore mine in the Pilbara. You can see how porous this poor-quality polyurethane liner was. It began leaking soon after they installed it. So its worthwhile to do your research into how the product is made, and check that the manufacturer is ISO accredited.
Excellent wear performance
Suitable for aggressive wear applications
Low friction loss
Reagent compatibility
Resistance to dissolved oxygen
Available in 18m lengths
Standard formulations have temperature limitations
Quality can vary across suppliers
Cant be modified or repaired in-situ on site
Ceramic liners are used in processing plants where theres high wear and high temperature. There are three main types of ceramic liners used in processing plantsalumina ceramic liners, ceramic epoxy, and basalt. Ceramic liners are used extensively in coal, gold, hard rock, and iron ore due to their wear resistance.
Alumina ceramic linings are very wear resistant, particularly to sliding wear abrasion. Theyre excellent for coal processing plants and other aggressive applications.
The two types of alumina ceramic linings are tiles or cylinders. Tile pads are glued or grouted to the wall of the pipe, while cylinders are pre-formed and glued, or grouted into the pipe. Both are then put through a furnace to bond the ceramic liner to the substrate.
You might experience two common problems with hard-wearing materials like ceramics: shattering and debonding. Shattering happens when high-velocity particles hit the lining. Debonding occurs when slurry gets into the grout and forces the tile off the wall. Youll find this on poorly manufactured ceramic tile liners.
Highly resistant to abrasive wear
Suitable for hard rock applications
Cold bonded liner can be field repaired or replaced
Can shatter with high velocity particle impact
Quality can vary, causing tile debonding
Length limit of 6m
Heavier than other lined piping systems
Basalt is a low grade, more economical ceramic. Its often used in coal wash plants due to its high and low temperature resistance, as well as excellent abrasion, corrosion, and chemical wear. The liner is made from basalt rock and crystallising agents, which are melted and hot poured into moulds or centrifugally cast. The liner is then glued into straights or lobster back bends. The liner is generally 20mm thick so it can be very heavy compared to other liner types.
The downside of basalt liner is that it doesnt wear as well as alumina ceramics, particularly in high-velocity applications with large particles. It has a maximum internal pressure rating of 10 bar but is best suited for applications of 7 bar or lower.
Economical liner
High temperature rating
Resistant to abrasion, corrosion and chemical wear
Least wear-resistant ceramic liner type
Not suitable for high pressure applications
Very heavy compared to other liner types
In our experience, processing plants are often designed and built with piping that is lower in cost and fails quickly. Over time, piping continues to be replaced with whats been ordered in the past and this may not be durable enough. This leads to halts in production and unplanned maintenanceboth of which are preventable.
Choosing the right lined piping for your slurry type and plant conditions will give you a significantly better system. The right piping will last the distance to your scheduled shutdowns, reduce your unplanned maintenance, and make your plant more efficient.
The Teknikum® CERAMIC hoses are commonly used in demaning places, like cyclone pipe lines in mining concentrators and in boiler sand transfer pipe lines at power plants, due to the fact that they offer high abrasion resistance and impact absorption.
What makes difference with Teknikums hoses compared to others is the superior CERAMIC-RUBBER attachment design and manufacturing technology. The way our CERAMIC hoses are manufactured makes sure that our customers get benefits from both materials the rubber hose is flexible and can be even cut on-site. The CERAMICS are firmly attached and provide proven performance.
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