MDPE and HDPE Pipe Market 2025

 Medium-Density Polyethylene (MDPE) and High-Density Polyethylene (HDPE) pipes are widely used in various industrial and commercial applications due to their superior properties, including corrosion resistance, flexibility, and durability. MDPE pipes are known for their shock resistance and are predominantly used in gas distribution and plumbing applications. HDPE pipes, on the other hand, are utilized in water supply, sewage systems, and industrial pipelines due to their high strength and durability.

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Market Size

The MDPE and HDPE Pipe Market was valued at US$21,850 million in 2024 and is projected to reach US$32,700 million by 2032, growing at a CAGR of 5.2% during the forecast period. The increasing demand for durable and cost-effective piping solutions across industries, particularly in water supply and industrial applications, is fueling market growth.

The market's growth is driven by the increasing urbanization, rapid industrialization, and the growing need for efficient water management systems. Moreover, government initiatives focusing on infrastructural development and water conservation further boost the market demand.

Market Dynamics (Drivers, Restraints, Opportunities, and Challenges)

Drivers:

Growing Demand for Water Infrastructure – The increasing need for efficient water distribution and waste management systems is driving demand for HDPE and MDPE pipes.

Government Regulations and Policies – Governments across various regions are emphasizing the use of sustainable and environmentally friendly materials, boosting the adoption of MDPE and HDPE pipes.

Industrial Expansion and Urbanization – The rapid growth of industries and expanding urban infrastructure are significant factors propelling market growth.

Restraints:

High Initial Investment Costs – The cost of raw materials and manufacturing processes remains high, which could limit market penetration.

Availability of Alternatives – The presence of substitutes such as PVC and steel pipes poses a challenge to market expansion.

Opportunities:

Innovations in Pipe Manufacturing – The development of advanced, reinforced polyethylene pipes presents new growth opportunities.

Increasing Applications in Renewable Energy – The demand for durable piping solutions in solar and wind energy sectors is an emerging trend in the market.

Challenges:

Raw Material Price Fluctuations – Variability in the cost of polyethylene resins can impact the market.

Recycling and Environmental Concerns – While polyethylene pipes are durable, their recycling and disposal pose environmental challenges.

Regional Analysis

North America

The U.S. and Canada are leading the market due to the increasing adoption of advanced water management systems.

Government-led infrastructure projects and investments in oil and gas pipelines contribute significantly to market growth.

Europe

Germany, the UK, and France are key contributors to market expansion, with a strong focus on sustainable construction.

The EU's regulations promoting eco-friendly piping materials boost HDPE and MDPE adoption.

Asia-Pacific

China, Japan, and India dominate the market due to rapid industrialization and population growth.

Increasing investments in smart city projects and irrigation systems drive demand for HDPE and MDPE pipes.

South America

Brazil and Argentina are key markets, driven by government-led initiatives in water infrastructure development.

Middle East & Africa

The UAE and Saudi Arabia are investing in large-scale water supply and gas distribution projects, favoring the MDPE and HDPE market.

Competitor Analysis

The MDPE and HDPE Pipe Market is highly competitive, with key players focusing on expanding their production capacities and investing in R&D for product innovation. Some of the major companies include:

Aliaxis

Polypipe

Wavin

Radius Systems Ltd

Pipelife

Peak Pipe Systems

Durapipe

Market Segmentation (by Application)

Water Supply & Distribution

Gas Distribution

Sewage & Drainage Systems

Irrigation Systems

Industrial Piping

Telecommunication & Electrical Conduits

Market Segmentation (by Type)

PE80

PE100

By Material Type

Medium-Density Polyethylene (MDPE) Pipes

High-Density Polyethylene (HDPE) Pipes

By Diameter Size

Up to 20 mm

20 mm – 50 mm

50 mm – 110 mm

110 mm – 250 mm

Above 250 mm

By Pressure Rating

Low-Pressure Pipes

Medium-Pressure Pipes

High-Pressure Pipes

Key Company

Aliaxis

Polypipe

Wavin

Radius Systems Ltd

Pipelife

Peak Pipe Systems

Durapipe

Recent Developments:

1. GF Piping Systems Opens MDPE Pipe Manufacturing Plant in Cairo

In November 2024, GF Piping Systems, a division of Georg Fischer AG, inaugurated a new manufacturing facility in Cairo, Egypt. Developed through a joint venture with Egypt Gas and Green Coast Enterprises, the plant aims to meet the growing regional demand for reliable and sustainable infrastructure piping systems. The facility will produce Medium Density Polyethylene (MDPE) pipes and other specialized solutions to support energy efficiency and regional development. 

2. Malpani Pipes Expands Product Line with PVC, HDPE, and MDPE Pipes

In February 2025, Malpani Pipes and Fittings Limited announced a significant expansion, introducing a new range of PVC pipes and enhancing production capacity. The expansion includes high-speed production lines for HDPE and MDPE pipes, adding 3,600 Metric Tonnes Per Annum (MTPA) to the company's total output. This initiative aims to improve manufacturing efficiency and strengthen Malpani Pipes' market presence. 

3. WL Plastics Building $40M MDPE Pipe Plant in Texas

In June 2023, WL Plastics Manufacturing LLC announced the construction of a $40 million, 140,000-square-foot facility in Lubbock, Texas, dedicated to manufacturing MDPE pipes for the natural gas distribution market. The plant is expected to be fully operational by mid-2024, expanding WL Plastics' geographical footprint and product offerings across North America. 

4. Alexander First Nation Opens HDPE Pipe Plant in Canada

In May 2024, Canada's Alexander First Nation invested C$15 million to open a polyethylene pipe plant in Edmonton, Alberta, becoming the first Indigenous community in Canada to operate such a facility. The 40,000-square-foot plant began operations in April 2024 with 15 employees running four HDPE extrusion lines, producing pipes for water and gas markets. The initiative aims to create jobs and support economic development within the community. 

Geographic Segmentation

The MDPE and HDPE Pipe Market is segmented based on regions, including:

North America (U.S., Canada, Mexico)

Europe (Germany, France, UK, Italy, Russia, Nordic Countries, Benelux, Rest of Europe)

Asia-Pacific (China, Japan, South Korea, Southeast Asia, India, Rest of Asia)

South America (Brazil, Argentina, Rest of South America)

Middle East & Africa (Turkey, Israel, Saudi Arabia, UAE, Rest of Middle East & Africa)

FAQ Section 

1. What is the current market size of the MDPE and HDPE Pipe Market?

The MDPE and HDPE Pipe Market was valued at US$21,850 million in 2024 and is expected to reach US$32,700 million by 2032, with a CAGR of 5.2%.

2. Which are the key companies operating in the MDPE and HDPE Pipe Market?

Major players in the industry include Aliaxis, Polypipe, Wavin, Radius Systems Ltd, Pipelife, Peak Pipe Systems, and Durapipe.

3. What are the key growth drivers in the MDPE and HDPE Pipe Market?

Key drivers include rising demand for water infrastructure, government regulations promoting sustainable materials, and increasing industrial applications.

4. Which regions dominate the MDPE and HDPE Pipe Market?

Asia-Pacific, North America, and Europe are the leading regions, with strong demand in China, the U.S., Germany, and India.

5. What are the emerging trends in the MDPE and HDPE Pipe Market?

Emerging trends include the use of HDPE pipes in renewable energy sectors, increasing focus on eco-friendly materials, and advancements in pipe manufacturing technology.

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Browse our full range MDPE pipe and MDPE fittings. Buy MDPE Pipe & Fittings from our online store and get it delivered fast.

Cast Iron Pipe

Cast iron pipes can fail in many modes which in general can be summarized into two categories: loss of strength due to the reduction of wall thickness of the pipes, and loss of toughness due to the stress concentration at the tips of cracks or defects. Even in one category there can be many mechanisms that cause failure. The strength failure can be caused by hoop stress or axial stress in the pipes. A review of recent research literature (Sadiq et al., 2004; Moglia et al., 2008; Yamini, 2009; Clair and Sinha, 2012) suggests that current research on pipe failures focuses more on loss of strength than loss of toughness. As was mentioned in Section 3.3.7(b), the literature review also revealed that in most reliability analyses for buried pipes, multifailure modes are rarely considered although in practice this is the reality. Therefore the aim of this section is to consider multifailure modes in reliability analysis and service life prediction for ductile iron pipe. Both loss of strength and toughness of the pipe are considered. A system reliability method is employed in calculating the probability of pipe failure over time, based on which the service life of the pipe can be estimated. Sensitivity analysis is also carried out to identify those factors that affect the pipe behavior most.

Buried pipes are not only subjected to mechanical actions (loads) but also environmental actions that cause the corrosion of pipes. Corrosion related defects would subsequently cause fracture of cast iron pipes. In the presence of corrosion pit, failure of a pipe can be attributed to two mechanisms: (i) the stresses in the pipe exceed the corresponding strength; or (ii) the stress intensity exceeds fracture toughness of the pipe. Based on these two failure modes, two limit state functions can be established as follows.

Steel pipe is manufactured by the pit, horizontal or centrifugal method. In the vertical pit method, a mold is made by ramming sand around a pattern and drying the mold in an oven. A core is inserted in the mold and molten iron is poured between the core and the mold. In the horizontal method, a machine is used to ram sand around horizontal molds that have core bars running through them. The molten iron is poured into the molds from multiple-lipped ladle designed to draw the iron from the bottom to eliminate the introduction of impurities. In the centrifugal method (Figure 3.4), sand-lined molds are used that are placed horizontally in centrifugal casting machines. While the mold revolves, an exact quantity of molten iron is introduced, which, by action of the speed of rotation, distributes itself on the walls of the mold to produce pipe within a few seconds.

Many cast iron pipes made towards the end of the nineteenth century are still in use; their walls were relatively thick and not always of uniform, ‘Spun’ grey iron pipes were formed by spinning in a mould and produced a denser iron with pipes of more uniform wall thickness; they comprise a large proportion of the distribution mains in many countries. Three classes of such pipes were available: B, C, and D for working pressures of 60, 90, and 120 m respectively; classes B and C were more widespread. Carbon is present in the iron matrix substantially in lamellar or flaky form; therefore, the pipes are brittle and relatively weak in tension and liable to fracture. The manufacture of grey iron pipes has been discontinued in most countries, except for the production of non-pressure drainage pipes.

Since cast iron pipes are deteriorating rapidly and causing so many maintenance problems (Section 4.3.2), the distribution network is currently undergoing an extensive replacement scheme with old, leaking and corroded cast iron pipes being replaced by MDPE and uPVC. These new plastic pipe materials are thought to support fewer bacteria than the old hubless cast iron pipe. Their surface is smoother and therefore the surface area smaller and they are not subject to corrosion or biodeterioration.

In addition, the effectiveness of a disinfectant is greatly influenced by the pipe material. Biofilms grown on copper or PVC pipe surfaces were inactivated by a 1 mg/l dose of free chlorine or monochloramine. However, on iron pipes 3-4 mg/l of chlorine or monochloramine was ineffective in controlling the biofilm (LeChevallier et al., 1990) because, as discussed before, the chlorine will preferentially react with the iron surface (LeChevallier et al., 1993). It appears that the option of changing pipe materials to ones with lower biofilm-forming potentials would reduce the biofilm problem.

Many cast iron pipes made towards the end of the 19th century are still in use; their walls were relatively thick and not always of uniform, ‘Spun’ grey iron pipes were formed by spinning in a mould and produced a denser iron with pipes of more uniform wall thickness; they comprise a large proportion of the distribution mains in many countries. Three classes of such pipes were available in the UK: B, C and D for working pressures of 60, 90 and 120 m, respectively; classes B and C were more widespread. Carbon is present in the iron matrix substantially in lamellar or flaky form; therefore, the pipes are brittle and relatively weak in tension and liable to fracture. The manufacture of grey iron pipes has been discontinued in most countries, except for the production of non-pressure drainage pipes.

Lead joint (a) is accomplished by melting and pouring lead around the spigot in the bell end of the pipe. After the lead has cooled to the temperature of the pipe, the joint is caulked using pneumatic or hand tools until thoroughly compacted with the caulking material and made water tight.

Cement joint (b) is started at the bottom with the cement mixture, and the mixture then caulked. Pipe with cement joints must not be filled with water until after 12 h has elapsed.

Roll-on joint (c) requires a round rubber gasket that is slipped over the spigot before it is pushed in the bell. Braided jute is tamped behind the gasket, after which the remaining space is filled with a bituminous compound.

Push-on gasket joint (d) is made by seating a circular rubber gasket inside the contour of the socket bell. The slightly tapered pipe end permits the gasket to fit over the internal bead in the socket. A special lever action tool, manually operated, then allows the bell and spigot past the gasket, which is thereby compressed as it makes contact with the bottom of the socket.

Mechanical joint and pipe joint should be thoroughly cleaned to remove oil, grit, and excess coating and then painted with a soap solution. Cast iron gland is then slipped on the spigot end with the lip extension toward the socket (or bell) end. The rubber gasket, also painted with the soap solution, is placed on the spigot end but with its thick end toward the gland. The entire section of the pipe is pushed forward to seat the spigot into the bell; the cast iron gland is moved into position for bolting.

The Putney gas explosion was a real wake-up call, and accelerated the replacement of old gray ductile iron pipe fittings by polymers such as medium-density polyethylene (MDPE), high-density polyethylene (HDPE), and unplasticized polyvinylchloride (UPVC). HDPE has a tensile strength of ≈20–37 MN m−2 (which is more than adequate for typical internal pressures). Most importantly, though, it has a Young’s modulus which is ≈150–300 times less than cast iron. This means that HDPE pipes can deflect under misalignments of the kind experienced in the Putney explosion without reaching the fracture stress. Even better, over a long time the polymer also creeps, which further dissipates the stresses caused by misalignment. Polymers are also very resistant to corrosion, so should last indefinitely in the ground.

But how are lengths of polymer pipe joined together? The following clip shows how:

http://www.youtube.com/watch?v=83PTUoFBq9s&feature=related

The steps in the process are shown in Figure 27.11. First, the ends of the pipe to be joined are machined flat and parallel using a double-sided rotating disk planer. Then the ends are heated with an electric hotplate. Finally, the hot faces are pushed together using a hydraulic ram. The softened thermoplastics fuse together, making a high-strength leak-proof joint. This is a quick, reproducible method, which requires little skill on the part of the operator—in marked contrast to the lead-filled spigot-and-socket joints of the old cast iron system. Figures 27.12 and 27.13 show an alternative joining method, where one end of the pipe has an enlarged bore into which the mating pipe can be inserted. This overlapping joint can then be fixed and sealed with polymer adhesive. It would be hard to envisage any replacement materials so well adapted to this challenging environment than thermoplastics.

The earliest oil pipelines in the United States, laid in the 1860s, were typically constructed of 2-in cast-iron pipe threaded and screwed together in short segments. Oil was propelled through the pipeline using steam-driven, single cylinder pumps, or by gravity feed. These early pipelines, seldom more than 15 mi in length, were prone to bursting, thread stripping at the pipe joints, and frequent pump breakdowns mainly due to the percussive strain on the lines caused by each stroke of the pump which “resembled the report of a rifled gun.” Development of the four-cylinder Worthington pump revolutionized the transportation of petroleum by pipeline with its constant flow and uniform pressure (The Engineering and Building Record, 1890; Scientific American, 1892; Herrick, 1949; Williamson and Daum, 1959).

By the 1870s, a 2000-mi network of small-diameter gathering lines connected the oil-producing areas with regional refineries and storage points on the railroads and rivers where the oil could be shipped to refineries via railcars or ships and barges. Typical crude oil trunk lines were constructed of 18-ft sections of lap-welded wrought steel pipe fittings 5 or 6 in in diameter joined with tapered, threaded joints manufactured specifically for pipeline service. The pipe was generally buried 2 or 3 ft below the ground surface. Worthington-type pumps were used as the motive power for the lines, and the pumps were powered by steam generated by coal-fired boilers. Pump stations were spaced as needed to maintain the flow of oil over the terrain crossed by the lines. At the pump stations, oil was withdrawn from the lines and passed through riveted steel receiving tanks some of which were 90 ft in diameter and 30 ft high holding about 35,000 barrels (The Engineering and Building Record, 1890; Scientific American, 1892; Herrick, 1949). Diesel-powered pumps began to replace steam power around 1913–1914 (Williamson et al., 1963).

It was not until May 1879 that the Tidewater Pipe Company, Ltd. began operation of the first long-distance crude oil pipeline covering the 100 mi between Coryville and Williamsport, Pennsylvania, to connect with the Reading Railroad. The line was constructed of 6-in wrought-iron pipe laid on the surface of the ground (except when crossing cultivated land) and relied on only two pumping stations, one at Coryville and the other near Coudersport. The expansion of the oil under the hot summer sun caused the line to shift as much as 15–20 ft from its intended position, knocking over telegraph poles and small trees, but no serious breaks occurred. In the spring of 1880, Tidewater buried the entire line (Williamson and Daum, 1959).

The success of the Tidewater pipeline set the pattern for the construction of other long-distance crude oil “trunk” lines which sprang up in the early 1880s connecting the oil regions of Pennsylvania with refining centers in Cleveland, Pittsburg, Buffalo, Philadelphia, Bayonne, and New York City (Williamson and Daum, 1959).

By 1905, the oil fields in the Oil Regions of Appalachia stretching from Wellsville, New York, through western Pennsylvania, West Virginia, eastern Ohio, Kentucky, and Tennessee were becoming depleted. The new oil fields discovered during the early 1900s in Ohio, Indiana, Illinois, southeastern Kansas, northeastern Oklahoma, and eastern Texas were quickly connected by trunk lines to the eastern refining centers as well as the new western refineries in Lima, Ohio; Whiting, Indiana; Sugar Creek, Missouri; and Neodesha, Kansas (Johnson, 1967).

The proximity of the prolific Spindle Top Field to the Gulf coast made the area around Houston, Port Arthur and Beaumont, Texas, and Baton Rouge, Louisiana into a petroleum refining center. Regional pipelines were built to carry crude oil the relatively short distances to the Gulf coast refineries (Johnson, 1967). The oil tanker ships operating from the Gulf coast ports competed for and obtained control of most of the long-distance oil transport to the refineries and markets along the eastern seaboard by the mid-1920s (Williamson et al., 1963; Johnson, 1967).

Until the 1930s, when large-diameter steel pipe was in widespread use, the carrying capacity of oil pipelines was increased by laying an additional line or lines alongside the original pipe within the same right-of-way. This practice was known as “looping.” The carrying capacity of 8-in lines was about 20,000 barrels per day, while 12-in lines handled 60,000 barrels per day. Since the largest refineries operating in that era were designed to handle crude at the rate of approximately 80,000–100,000 barrels per day, the carrying capacity of the pipelines built by a refiner were carefully gauged to support the refinery with little excess capacity to offer to others (Wolbert, 1979; Willson, 1925).

By 1941, just prior to the United States’ entry into World War II, there were about 127,000 mi of oil pipeline in the United States composed of about 63,000 mi of crude oil trunk lines, about 9000 mi of refined product lines, and about 55,000 mi of crude gathering lines (Frey and Ide, 1946). From February through May 1942, 50 oil tankers serving the Atlantic seaboard were sunk by German submarines. The continuing attrition of the tanker fleet by enemy action and the diversion of tankers to serve military operations abroad caused a tremendous increase in the use of pipelines to transport both crude oil and refined products to the east coast which consumed about 40% of the petroleum produced in the United States. In June 1941, before the Pearl Harbor attack, pipelines delivered about 2% of the petroleum needed by the east coast; by April 1945, pipelines carried 40% of this critical supply (Frey and Ide, 1946).

The wartime expansion of the pipeline network added more than 11,000 mi of trunk and gathering lines, repurposed over 3000 mi of existing pipelines in new locations and reversed the direction of flow of more than 3000 mi of other lines (Frey and Ide, 1946). One of the pipelines converted from products delivery and reversed in flow direction to convey crude oil to east coast refineries during the war was the Tuscarora pipeline. After the war, it was reconverted and its direction of flow was again reversed to convey gasoline from the coastal refineries to the interior (Johnson, 1967).

Noteworthy wartime pipelines owned by the federal government were the “Big Inch” crude oil line, the largest pipeline in the world at that time measuring 24 in in diameter for much of its 1254 mi length; and the “Little Big Inch,” the longest refined products pipeline in the world at 1475 mi of 20-in diameter pipeline (Frey and Ide, 1946). Only during World War II did the federal government finance oil pipeline construction (Johnson, 1967).

With the proven success of long, large-diameter crude and refined products pipelines during World War II, the rapid growth in demand for petroleum products in the post-World War II era prompted a great expansion in construction of large pipelines. The number of refined products pipelines increased about 78% from 9000 mi in 1944 to 16,000 mi in 1950. Crude oil trunk lines expanded from about 63,000 mi in 1941 to about 65,000 mi 1950. The postwar increase in the diameter of the crude oil trunk lines, and therefore their carrying capacity, far outweighed the relatively modest increase in mileage (Johnson, 1967) (Table 24.1).

Cross-linked Polyethylene Market Is Expected To Grow Swiftly By 2025

The global cross-linked polyethylene market size is expected to reach USD 8.60 billion by 2025, according to a new report by Grand View Research, Inc. It is projected to expand at a 6.0% CAGR over the forecast period. Increasing demand from wires and cable insulation sector and plumbing products manufacturing is likely to boost the market growth. Cross-linked polyethylene based plumbing products utilized in hot water supply system are required for their high creep resistance & mechanical strength at high temperature

Cross-linked polyethylene is most commonly utilized in plumbing and wires and cable insulation industry supported by their mechanical as well as chemical properties such as enhancement of chemical and oil resistance in at elevated temperatures, high tensile strength, impact resistances and elongation and impact resistance, etc. Availability of alternative materials such as polypropylene pipe, corrugated stainless steel tubings, aluminium plastic composite for plumbing application may impact the demand of cross-linked polyethylene over the coming years

The PEX market is segmented based on type into high density polyethylene (HDPE), Medium density polyethylene (MDPE) and low density polyethylene (LDPE). HDPE was the largest segment and accounted for 48.4% of the global revenue in year 2018. Cross-linked HDPE provides two advantages as compared to its alternatives which include improved heat resistance and oil resistance, which can be useful for wire and cable insulation and jacketing application

Increasing demand for reliable, efficient energy and data communications will strengthen the demand for wires and cables which in turn is expected to push the consumption growth of cross-linked polyethylene over the forecast years

Growing demand for wires and cables across Asia-Pacific region supported by growing urbanization and infrastructural activities is expected to push the demand for cross-linked polyethylene over the coming years

To request a sample copy or view summary of this report, click the link below: www.grandviewresearch.com/industry-analysis/cross-linked-polyethylene-pex-market

Further key findings from the report suggest:

Peroxide production technology segment wields maximum share in the global cross-linked polyethylene market by the end of 2018. Plumbing products which are made up of peroxide cross-linking have better performance, such as thermal shock resistance and creep resistance as compared to the products made by other methods such as silane grating and electron beam processing.

Plumbing was the prominent application segment in 2018 and accounted for 52.7% of global market value. Asia-Pacific, spearheaded by China accounted for maximum share in the market across the globe and is expected to continue its dominance over the coming years

Capacity expansions and acquisitions are some of the strategies adopted by the prominent manufacturers in order to enhance their presence in the market as well as to expand their existing product portfolio. For instance, in October 2017, Armacell has announced the expansion of its cross-linked polyethylene manufacturing capabilities in U.S. to complement its existing capabilities

Key players include Borealis AG, The Dow Chemical Company, LyondellBasell Industries Holdings B.V, PolyOne Corporation, SABIC, Arkema, Exxon Mobil Corporation, Armacell, etc.

Grand View Research has segmented the global cross-linked polyethylene market report on the basis of basis of type, production technology, application and region:

Cross-Linked Polyethylene Type Outlook (Volume, Kilotons; Revenue, USD Million; 2014 – 2025)

Low Density Polyethylene (LDPE)

Medium Density Polyethylene (MDPE)

High Density Polyethylene (HDPE)

Cross-Linked Polyethylene Production Technology Outlook (Volume, Kilotons; Revenue, USD Million; 2014 – 2025)

Peroxide

Silane Grafting

Electron Beam Processing

Cross-Linked Polyethylene Application Outlook (Volume, Kilotons; Revenue, USD Million; 2014 – 2025)

Wires and Cables

Automotive

Plumbing

Medical

Others

Cross-Linked Polyethylene Regional Outlook (Volume, Kilotons; Revenue, USD Million; 2014 – 2025)

North America

Europe

Asia Pacific

Central & South America

Middle East & Africa

U.S.

Canada

Mexico

Germany

France

Italy

UK

China

India

Japan

South Korea

Brazil

Argentina

Saudi Arabia

South Africa

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

When It Is About Buying Something Great Like Wall Mounted Water Butt

Water Butt today no more looks dull because of FreeFlush. It is a pioneer designer and manufacturer in UK of water butts. Featuring state of the art Wall mounted water butt this company takes interest in providing smart water butts best for domestic as well as commercial use. 

Gradually this company has evolved much, metamorphosing the traditional concept in designing water reservoirs. With more innovative ideas FreeFlush has developed a more useful system of water preservation to reuse it. The FreeFlush innovative water solutions save money and as well as the environment causing effective conservation of energy. With its wide range of inventory including water butts, septic and cesspool tanks, rainwater tanks, filters and diverters, powerful pumps etc this company turned to be a prestigious brand of water solutions and rainwater harvesting systems across UK. This renowned company is also manufacturing items for irrigation. Durable and error free hose fittings, pipes, spray heads; sprinklers etc. gained a commendable market for its product quality and after sales service. In addition the MDPE fittings, potable drinking water tanks, filters are the safest products in the market today. 

Piece of Information worth Knowing The FreeFlush is famous and popular for its exclusive range of wall hung water butts ideal for installing within limited space. To retain the ground space in tact this wall mounted slim line water butt is the best option for consumers who want to use it effectively for drip irrigation system perfect for the gardens. Ranged from 100 to 160 litres unobtrusive water buts are also available with optional gutter-mate filter that helps to screens out leaf debris. 

The overwhelming design and looks of such water butts turns it more attractive as a garden furniture. The 160 litre wall mounted water butt rainwater tank – terracotta is one of the best water butt made from solid MDPE in UK comes with the following features:

Not transparent but the thick Black opaque plastic blocks out light limiting algae growth

Easy to fix at height on the wall thus limits the need to bend down for filling the watering

Comes with complete wall fixing kit and detailed step by step

Free tap included

Easy to upgrade with self cleaning filter diverter at a reduced price

Moreover, FreeFlush has introduced some new varieties of bespoke slim line water butt with many outstanding features. The heavy duty range holds up to 650 litres of rainwater made of high quality materials with a guarantee of durability. You can choose between capacities, shapes and colour and designs to suit the exact requirement of Customers.  

Products of FreeFlush also helped a lot to build a complete water butt irrigation system. Visit https://www.freeflush.co.uk/collections/wall-hung-water-butts to get more astounding details of each products.

Factors to Consider Before Buying and Installing Gas Pipe Fittings

In your life, there are certain things which cannot be compromised, like the quality of accessories and fittings for your gas-based appliances. Any kind of negligence in this aspect can easily result in irreversible damage. Therefore, before buying any gas pipe fittings, you should pay a close attention to the quality and brand of the various fittings before their installation.

Here are some important things to consider before buying gas pipe fittings:

Buy from a trusted and licensed supplier

Gas pipe fittings or any other plumbing fittings such as gate valve, oil fire valve, or MDPE fittings should be bought from a standard and a licensed supplier. The reputation of the manufacturer decides the quality of the accessories as well as plumbing fittings.

You should avoid buying fittings solely based on prices; in most cases the lower the cost, the inferior the quality of the fitting is. Remember, investing in these important items is not waste of money. You can ask for recommendations from friends, family or even professionals in this field.

The internet is also a useful medium to locate quality dealers for gutter fittings or pan connector. You can even read through customer feedback, in order to determine the supplier. Make sure that the supplier is licensed and certified for the trade.

Know your appliances well

Before purchasing any gas fitting or accessory, first check the specifications and requirements of your gas tank and appliances. Not all fittings and nozzles are of similar sizes or suit the same purpose. Knowing your appliance well like your gas stove or a cooking range helps you to make the right purchase.

If you land up buying a wrong or a misfit gas pipe fitting, it can lead to a gas leakage, which is potentially a very dangerous situation. If you have some different kind of appliances, you should look for manufacturers that offer bespoke fixtures. It is also important to ensure what type of gas is used by a particular kitchen appliance.

Note, that if your gas appliance is frequently used, you will need accessories which are hard-wearing. They must be strong enough to withstand the elements of rough kitchen’s environment easily. A typical type of kitchen or cooking area experiences things like hot temperatures, oil spills, and harsh cleansing liquids and so on.

Installation of gas fittings

It is always advisable to hire a professional to install all types of gas pipe fittings. An experienced specialist has proper skills and training in installing various different fittings. They ensure optimal safety at the time of installation. It is your choice whether you want to hire a professional from your local gas service or get a referral from the supplier.

It is very crucial to pay full attention when dealing with fire and gas. Make sure that you are not a bit careless by not implementing the above factors. Always choose to buy all types of gas pipe fittings and other accessories from On Demand Supplies, one of the most reputable suppliers in UK. They are the leading suppliers of all types of top quality plumbing fittings.

Australia Plastic Pipe and Fitting Market is Expected to Grow at a CAGR of 3% from FY’2018-FY’2023: Ken Research

The growth of PE Pipes and Fittings is significant because of its properties and applications in many industries and is bound to capture a significant share in the market from PVC.

Private sector investments in the country are expected to increase which will increase the demand for plastic pipes and fittings in the country.

Analysts at Ken Research in their latest publication “Australia Plastic Pipe and Fitting Market Outlook to 2023 - By PVC, PE and Others Pipes; By Organized and Unorganized; By Regions and By End User Application (Plumbing and Civil, Agriculture, Mining and Industrial, Telecom and Electrical and Others)”, believe that reduction of wastage and spillage while manufacturing and keeping up with advanced technology, tracking upcoming government and private construction projects, research and development centre for plastic resins, increase awareness about new types of plastic pipeswill help in maximizing the delivered value from manufacturers to the end users. Manufacturers should focus on increasing the perceived value of their products by communicating the long term benefits of their products.

Australia plastic pipe and fittings market is expected to register positive CAGR of around 3.2% during the period FY’2018-FY’2023 with organised players expected to gain further share in the market.

Australia plastic pipes industry’s future is positive with revenue estimated to grow at a CAGR of single digit during FY’2018 to FY’2023. It is anticipated that the PE pipes will grow at the fastest pace among all the types of plastic pipes, due to increase in usage of these type of pipes in various other applications in the market. The use of PVC pipes is expected to reduce due to substitution by other types of plastic pipes in the market. Australia has initiated a lot of environmental safety programs which promotes the best use of plastics and also focus on their recyclability. Green building council of Australia has laid down various guidelines of ‘Best Practice PVC’ usages for the built-in environment which address the opportunities for the minimization of environmental and health risk impacts of the PVC life cycle. The market share of organized sector manufacturers is expected to increase in FY’2023 even though there would be entrance of many small scale regional players and trading corporations in future.

The domestic manufacturing is expected to increase as many manufacturers are expected to increase their capacity utilization to produce wider range of products, as the demand for plastic pipes are expected to increase in the near future. In the case of end user application, demand for plastic pipes used in water supply and sewage pipelines along with oil and chemical industry is expected to increase at fastest pace among other end user applications. Industrial growth, commercial growth, public sector spending, private investments are a few trends that are expected to drive the market in the future. Innovation in type of pipes and fittings such as PVC-O, PVC- M and PE 125 is expected to drive the market forward.

Key Topics Covered in the Report:-

PE pipes Industry Australia

PVC Pipes Market Australia

Revenue PE Pipes Fitting Australia

HDPE pipes Irrigation Australia

PE pipes in Australia

PVDF plastic pipes in Australia

Victoria Sales Plastic Pipes

Domestic Sales Plastic Pipes Australia

PVC O Market Australia

PVC M Market Australia

HDPE Pipes Market Australia

Competition Plastic Pipes Australia

Vinidex Sales Plastic Pipes

Export PVC Pipes Fittings Australia

Key Segments Covered

By End User Application:-

·         Plumbing and Civil,

·         Agriculture

·         Mining and Industrial

·         Telecom and Electrical and

·         Others (Oil & Gas, HVAC, Automotive and other related industries)

By Type of Pipes:-

·         PVC (CPVC and UPVC)

·         Polyethylene (PE) (HDPE, MDPE, LDPE)

·         Others (Include Polypropylene pipes, ABS, Polyvinylidene fluoride (PVDF), PB Etc.)

By Type of Market Structure:-

·         Organized Sector

·         Unorganized Sector

Key Target Audience:-

·         Plastic Resin Suppliers

·         Plastic Pipe and Fitting Manufacturing Companies

·         Oil and Gas Industry

·         Government Bodies

·         Real Estate developers

·         Agriculture Sector Companies

For more information about the publication, refer to below link:-

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/australia-plastic-pipe-fitting-market-outlook-2023/155204-97.html

Related Reports:-

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/europe-plastic-pipes-fitting-market/126975-97.html

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/india-pvc-pipes-fittings-market-research-report/561-97.html

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/uk-pvc-pipe-market/142295-97.html

Contact Us:- Ken Research Ankur Gupta, Head Marketing & Communications [email protected] +91-9015378249

Global PE Pipe Market Dynamics, Forecast, Analysis and Supply Demand 2017-Acute Market Reports

​In this report, the EMEA PE Pipe market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022.

Geographically, this report split EMEA into Europe, the Middle East and Africa, With sales (K MT), revenue (Million USD), market share and growth rate of PE Pipe for these regions, from 2012 to 2022 (forecast) Europe: Germany, France, UK, Russia, Italy and Benelux; Middle East: Saudi Arabia, Israel, UAE and Iran; Africa: South Africa, Nigeria, Egypt and Algeria.

EMEA PE Pipe market competition by top manufacturers/players, with PE Pipe sales volume (K MT), price (USD/MT), revenue (Million USD) and market share for each manufacturer/player; the top players including JM Eagle Chevron Phillips Chemical Company Aliaxis

For Full Report Visit@ http://www.acutemarketreports.com/report/emea-europe-middle-east-and-africa-pe-pipe-market

WL Plastics Jain Irrigation Systems PIPELIFE INTERNATIONAL Nandi Group Blue Diamond Industries National Pipe & Plastics Kubota-C.I. FLO-TEK Olayan Group Pexmart Godavari Polymers

On the basis of product, this report displays the sales volume (K MT), revenue (Million USD), product price (USD/MT), market share and growth rate of each type, primarily split into HDPE LDPE MDPE

On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, sales volume (K MT), market share and growth rate of PE Pipe for each application, including Water Supply Oil and Gas Sewage Systems Other..

1 PE Pipe Overview 1.1 Product Overview and Scope of PE Pipe 1.2 Classification of PE Pipe 1.2.1 EMEA PE Pipe Market Size (Sales) Comparison by Type (2012-2022) 1.2.2 EMEA PE Pipe Market Size (Sales) Market Share by Type (Product Category) in 2016 1.2.3 HDPE 1.2.4 LDPE 1.2.5 MDPE 1.3 EMEA PE Pipe Market by Application/End Users

For Same Category Report Visit@ http://www.acutemarketreports.com/category/chemicals-market

1.3.1 EMEA PE Pipe Sales (Volume) and Market Share Comparison by Application (2012-2022 1.3.2 Water Supply 1.3.3 Oil and Gas 1.3.4 Sewage Systems 1.3.5 Other 1.4 EMEA PE Pipe Market by Region 1.4.1 EMEA PE Pipe Market Size (Value) Comparison by Region (2012-2022) 1.4.2 Europe Status and Prospect (2012-2022) 1.4.3 Middle East Status and Prospect (2012-2022) 1.4.4 Africa Status and Prospect (2012-2022) 1.5 EMEA Market Size (Value and Volume) of PE Pipe (2012-2022) 1.5.1 EMEA PE Pipe Sales and Growth Rate (2012-2022) 1.5.2 EMEA PE Pipe Revenue and Growth Rate (2012-2022)

2 EMEA PE Pipe Competition by Manufacturers/Players/Suppliers, Region, Type and Application 2.1 EMEA PE Pipe Market Competition by Players/Manufacturers 2.1.1 EMEA PE Pipe Sales Volume and Market Share of Major Players (2012-2017) 2.1.2 EMEA PE Pipe Revenue and Share by Players (2012-2017) 2.1.3 EMEA PE Pipe Sale Price by Players (2012-2017) 2.2 EMEA PE Pipe (Volume and Value) by Type/Product Category 2.2.1 EMEA PE Pipe Sales and Market Share by Type (2012-2017) 2.2.2 EMEA PE Pipe Revenue and Market Share by Type (2012-2017) 2.2.3 EMEA PE Pipe Sale Price by Type (2012-2017) 2.3 EMEA PE Pipe (Volume) by Application 2.4 EMEA PE Pipe (Volume and Value) by Region 2.4.1 EMEA PE Pipe Sales and Market Share by Region (2012-2017) 2.4.2 EMEA PE Pipe Revenue and Market Share by Region (2012-2017) 2.4.3 EMEA PE Pipe Sales Price by Region (2012-2017)...................

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Australia Plastic Pipe and Fitting Market Outlook to 2023-Ken Research

The report titled “Australia Plastic Pipe and Fitting Market Outlook to 2023 - By PVC, PE and Others Pipes, By Organized and Unorganized, By Regions and By End User Application (Plumbing and Civil, Agriculture, Mining and Industrial, Telecom and Electrical and Others)” provides a comprehensive analysis on the Australia plastic pipe and fitting market. The report covers various aspects including introduction to Australia plastic pipe and fitting market size, major players in Australia plastic pipe and fitting market, Market segmentation by Type of Pipe (PVC, PE, Others), Market Segmentation by End User Application (Plumbing and Civil, Agriculture, Mining and Industrial, Telecom and Electrical and Others), Growth Drivers, Restraints, Key Regulations, Future Outlook and Analyst recommendations.

Australia Plastic Pipe and Fitting Market

Australia plastic pipe and fitting market is in its late growth stage with few major manufacturing players constituting majority of the market size of the industry. The market has registered a five year CAGR of single digit from FY’2013 to FY’2018. The demand for plastic pipes and fittings is highly correlated with the investment of government on infrastructural, mining and agricultural activities and the demand for house dwellings in the country. Improvements in technology and plastic materials have helped plastic pipe increase its share in energy, agriculture, and industrial sectors in Australia. For instance, in oil and gas applications, plastic accounts for only a small share of the total pipe market, but increasing use of some materials, such as fiberglass in oil pipelines and HDPE in natural gas distribution have supported the plastic pipe demand growth in the market.

Market Segmentation

By Type of Pipes

The market is segmented into PVC, PE and Others. Others include plastic pipes such as ABS, PP, PVDF and PB. In FY’2018, PE pipes had the largest market share. PVC pipes had second biggest market share as these types of pipes are less costly compared to PE pipes and are widely used in various sectors such as water pipelines and sewage pipelines. It has been witnessed that PVC has been mainly substituted by PE pipes in various application, which resulted in PE pipes gaining significant market share in the overall market. In other product segment, PP (Polypropylene) pipes has got a niche market for itself and is used in ventilation ducts, storm water retention systems, road culverts and others.

By Geographical Regions

The Victoria region accounted for the majority of the share because of the increased demand for house dwelling units in past few years and also due to the surging expenditure on various infrastructural and developmental activities and other similar stimulus programs by the federal and state governments in the past few years. The region also accounts for the majority of the migration into the country. Other regions such as Queensland, New South Wales also gained significant share in the market demand for housing and increased expenditure on developmental activities.

By End User Application

The end user application for plastic pipes and fittings can be categorized into Plumbing and Civil, Agriculture, Mining and Industrial, Telecom and Electrical and Others (cable protection, gas, HVAC and other related industries). Most of the plastic pipes and fittings in Australiaare used for water supply and sewage systems. This is because uPVC and HDPE pipes are being preferred by the government as they are comparatively low in cost as compared to steel and iron pipes. Plumbing and civil application has comparatively higher market share due to large scale of real estate construction undertaken by the private sector in Australia. Mining, Chemical and Oil sectors are widely present in Australia owing to which, these industries contributed a significant share in the demand for plastic pipes and fittings in the country. Other applications include transfer of gas, HVAC, and other related industries.

Competition Scenario

The competition of the market is concentrated in the hands of top three players which include Iplex Pipelines, Vinidex and Pipemakers. Iplex Pipelines, Australia is the biggest manufacturer of plastic pipes and fittings in the country. It is followed by Vinidex and Pipemakers. Within the organized players, the price of the product tends to remain close to the industry prices and the manufacturers compete more on the basis of quality of the products and product availability in the wholesale and retail outlets and product customization at the time of bulk orders, whereas the unorganized players compete on the basis of price and the availability of the product in the retail and wholesale stores.

Future Outlook

The future outlook of the industry is positive with revenue estimated to grow at a CAGR of single digit during FY’2018 to FY’2023. The use of PVC pipes is expected to reduce due to substitution by other types of plastic pipes specifically PE pipes. The market share of organized sector manufacturers is expected to increase in FY’2023 due to increase in further penetration into the market and preference for high quality grade pipes. The domestic manufacturing is expected to increase in the near future. In the case of end user application, plastic pipes used in plumbing and civil applications along with application in oil and chemical industry are expected to increase at fastest pace among other end user applications.

Key Segments Covered

By End User Application:-

·         Plumbing and Civil

·         Agriculture

·         Mining and Industrial

·         Telecom and Electrical and

·         Others (Oil & Gas, HVAC, Automotive and other related industries)

By Type of Pipes:-

·         PVC (CPVC and UPVC)

·         Polyethylene (PE) (HDPE, MDPE, LDPE)

·         Others (Include Polypropylene pipes, ABS, Polyvinylidene fluoride (PVDF), PB Etc.)

By Type of Market Structure:-

·         Organized Sector

·         Unorganized Sector

Key Target Audience:-

·         Plastic Resin Suppliers

·         Plastic Pipe and Fitting Manufacturing Companies

·         Oil and Gas Industry

·         Government Bodies

·         Real Estate developers

·         Agriculture Sector Companies

Time Period Captured in the Report:-

FY’2013-FY’2018 – Historical Period

FY’2018-FY’2023 – Future Forecast

Companies Covered:-

Iplex Pipelines Pty Ltd, Vinidex Pty Ltd., Pipemakers Pty Ltd, David Moss Corporation, Reliance Worldwide Corporation (Aust. Pty Ltd), Philmac Pty Ltd, Pipekings Pty Ltd (Australian Plastic Profile) and others

Key Topics Covered in the Report:-

·         Overview of Australia Plastic Pipe and Fitting Market

·         Value chain analysis

·         Australia Plastic Pipe and Fitting Market Size by Revenue

·         Major Players in the Australia Plastic Pipe and Fitting Market

·         Market Segmentation by Type of Pipe (PVC, PE and Others) and By End User Application (Plumbing and Civil, Agriculture, Mining and Industrial, Telecom and Electrical and Others)

·         Government Regulations and Standards

·         Growth Drivers and Restraints

·         Company profile of Major Manufacturers (Iplex Pipelines Pty Ltd, Vinidex Pty Ltd., Pipemakers Pty Ltd, David Moss Corporation, Reliance Worldwide Corporation (Aust. Pty Ltd),Philmac Pty Ltd, Pipekings Pty Ltd (Australian Plastic Profile)

·         Vendor Selection Process

·         Future Outlook

·         Analyst Recommendation

For more information about the publication, refer to below link:-

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/australia-plastic-pipe-fitting-market-outlook-2023/155204-97.html

Related Reports:-

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/europe-plastic-pipes-fitting-market/126975-97.html

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/india-pvc-pipes-fittings-market-research-report/561-97.html

https://www.kenresearch.com/manufacturing-and-construction/machinery-and-parts/uk-pvc-pipe-market/142295-97.html

Contact Us:- Ken Research Ankur Gupta, Head Marketing & Communications [email protected] +91-9015378249