Market Overview
The Global
Cured-in-Place
Pipe Market was
valued at USD 2.91 Billion in 2024 and is expected to reach USD 3.89 Billion by
2030 with a CAGR of 4.82% during the forecast period.
The global
Cured-in-Place Pipe (CIPP) market is witnessing strong growth momentum as aging
infrastructure, rising urbanization, and increasing demand for cost-effective
pipeline rehabilitation continue to drive adoption worldwide. CIPP, a
trenchless rehabilitation method used to repair existing pipelines without
excavation, has become a preferred solution for municipalities, utilities, and
industrial operators seeking to extend the life of water, sewer, gas, and
industrial pipelines. Compared to traditional dig-and-replace methods, CIPP
offers significant advantages including reduced environmental disruption,
faster installation times, and lower overall costs, making it particularly
attractive for densely populated urban regions where infrastructure renewal
must balance efficiency with minimal public inconvenience. The market is
supported by government investments in modernizing water and wastewater
networks, especially in North America and Europe, where infrastructure is
decades old and requires urgent rehabilitation. At the same time, rapid
urbanization and industrial expansion in Asia-Pacific are driving new
opportunities, as cities in China, India, and Southeast Asia face rising demand
for efficient pipeline systems coupled with budgetary and environmental
constraints.
From a
technology perspective, advancements in resin chemistry, liner materials, and
curing methods are reshaping market dynamics. Polyester resins remain the most
widely used due to their cost-effectiveness, but vinyl ester and epoxy are
gaining share in applications requiring higher chemical and temperature
resistance. Steam curing dominates the market thanks to its proven performance
and cost benefits, while UV curing is the fastest-growing segment, offering
faster installation, lower energy use, and enhanced durability, making it
increasingly attractive in high-density and environmentally sensitive areas.
Small-diameter pipes, especially those under one foot, hold the largest market
share as residential and commercial service lines frequently require rehabilitation.
Meanwhile, large-diameter installations are also growing steadily as
municipalities target sewer mains and water transmission pipelines.
Key Market Drivers
Aging Infrastructure &
Pipeline Deterioration
One of the strongest market
drivers for CIPP is the extensive aging infrastructure across the globe. In
North America alone, more than 2.2 million miles of pipelines are in need of
rehabilitation, many of which are beyond their intended lifespan. Studies show
that 42% of municipal pipelines are over 50 years old, placing them at high
risk of leaks, blockages, and breaks. In the United States, drinking water
systems have been rated C− while wastewater systems have been rated D+,
underscoring the critical condition of the underground network. Aging
infrastructure is not limited to the U.S.—many European cities face similar
challenges, with more than 35% of sewer systems exceeding 40 years of service
life. Municipalities are increasingly adopting trenchless technologies, and
about 39% of utility providers already use CIPP methods for at least part of
their rehabilitation programs. Case projects demonstrate the impact: in
Texas, for example, over 30,000 feet of cast-iron water mains were
rehabilitated using trenchless methods, saving over USD5 million compared to
open-cut replacement. These figures highlight how widespread deterioration of
water, sewer, and industrial pipelines is fueling consistent global demand for
CIPP as a cost-effective and less disruptive rehabilitation solution.
Urbanization &
Minimally Disruptive Repair Needs
Rapid urbanization is a key
driver of CIPP market growth, as dense population centers demand minimally
disruptive repair methods. Globally, 68% of the population is projected to
live in urban areas by 2050, putting immense pressure on underground pipeline
systems. In major metropolitan areas, traffic congestion and surface disruption
are significant concerns, leading to the adoption of trenchless methods in more
than 37% of pipeline rehabilitation projects in cities. In Asia, the rapid
development of megacities has resulted in extensive use of trenchless lining;
for instance, more than 1,200 kilometers of drainage pipelines were relined in
a single year in Shanghai. Similarly, government-funded water initiatives in
emerging economies are investing over USD400 million annually into trenchless
water supply and distribution projects. Even in developed markets, relining
methods are becoming the preferred option; in the U.K., pipe relining grew by
18% in one year as water companies sought to cut leakages while minimizing
community disruption. These figures illustrate how rising urban density and
demand for low-impact rehabilitation methods are accelerating the adoption of
CIPP worldwide.
Environmental
Sustainability & Regulatory Pressures
The global emphasis on
environmental sustainability and stricter regulations is another major driver
of CIPP adoption. Traditional open-cut pipe replacement methods are highly
disruptive and carbon-intensive, while trenchless techniques like CIPP can cut
carbon emissions by up to 90%. Many municipalities now include sustainability
metrics in project evaluations, and in some regions, over 65% of municipal
sewer projects already use trenchless rehabilitation to align with
environmental standards. In Europe, governments have mandated the use of at
least 60% recycled materials in certain pipeline projects, driving demand for
advanced liner systems. Financial policies also influence adoption: in
countries with carbon pricing between USD18 and USD25 per metric ton,
trenchless methods are 12–18% more cost-competitive than open-cut replacement.
Green infrastructure rating systems further incentivize trenchless adoption,
with projects using trenchless methods often scoring 15% higher, giving them
access to low-interest financing and sustainability-linked bonds. With
municipalities worldwide seeking to reduce environmental footprints, the
ability of CIPP to minimize emissions, conserve resources, and comply with
regulations ensures its role as a sustainable solution for modern
infrastructure rehabilitation.
Operational Efficiency
& Cost Savings
CIPP delivers substantial
operational efficiency and cost savings compared to traditional methods.
Open-cut replacement often requires extensive excavation, traffic redirection,
and restoration, inflating costs significantly. By contrast, trenchless rehabilitation
projects report operational cost savings of more than 15% in nearly 30% of
cases when compared to excavation-based methods. In addition to direct savings,
municipalities benefit from reduced indirect costs; more than 37% of cities
select trenchless rehabilitation specifically to avoid the economic impact of
road closures and traffic disruption. Project examples highlight the scale
of savings: rehabilitation of over 30,000 feet of pipeline using trenchless
lining in Texas reduced expenses by USD5.1 million while eliminating over USD1
million in design costs. On a national scale, countries like Germany spend more
than Euro1.4 billion annually on sewer rehabilitation, with trenchless
technologies taking an increasing share of this spending due to efficiency
advantages. Moreover, in the U.K., water companies reported an 18%
year-on-year increase in relining methods as part of a multibillion-dollar
leakage reduction program. These numbers emphasize how cost savings, both
direct and indirect, are a major driver pushing municipalities and utilities to
adopt CIPP methods more broadly.
Technological Advances
& Adoption of Advanced Lining Methods
Technological innovation in
materials, curing methods, and inspection tools is accelerating global CIPP
adoption. Around 31% of industry investment is now directed toward
developing eco-friendly resins and liners that enhance durability while
lowering environmental impact. At the same time, 26% of rehabilitation projects
already utilize advanced inspection technologies such as robotic crawlers and
high-resolution CCTV, improving fault detection accuracy by over 20%. UV-cured
CIPP liners are one of the fastest-growing innovations, offering liners that
are 3 to 5 times stronger than conventional felt liners, curing in less time,
and eliminating the need for refrigerated storage. In Scandinavia and parts of
Germany, these UV methods have reduced curing times by 45%, allowing for
quicker project completion in densely populated areas. Adoption of advanced
trenchless methods is diversifying, with 33% of rehabilitation projects using
pipe bursting and 28% using slip-lining, complementing CIPP to create a robust trenchless
toolkit. Collectively, these figures—31% invested in eco-resins, 26% using
advanced inspections, 20% higher detection accuracy, 3–5× stronger UV liners,
45% faster curing, and widespread adoption of alternative methods—demonstrate
how technological progress is expanding the capabilities of CIPP and driving
its acceptance worldwide.
Download Free Sample Report
Key
Market Challenges
High
Initial Installation and Material Costs
One of the foremost
challenges in the global CIPP market is the relatively high upfront cost of
installation compared to traditional dig-and-replace methods. The specialized
equipment, resins, and liners required for CIPP rehabilitation projects demand
significant investment, making it less accessible for municipalities with
limited budgets. For instance, epoxy and polyester resin prices have risen by
more than 20% in recent years due to raw material supply fluctuations, directly
impacting project costs. Additionally, the cost of advanced UV curing systems
can exceed several hundred thousand dollars, creating barriers for small
contractors. Labor is another factor, as trained technicians who can handle
trenchless rehabilitation demand premium wages. Furthermore, transportation of
liners and resin-impregnated materials requires controlled conditions, adding
logistics expenses. While the method reduces long-term costs by minimizing
excavation and restoration, the upfront financial burden discourages adoption
in cost-sensitive regions. This creates a market barrier, particularly in
developing countries where infrastructure rehabilitation is needed most but
budgets are constrained. The long-term cost-benefit often fails to outweigh the
short-term expenditure from a procurement standpoint, slowing market
penetration.
Technical
Limitations in Large-Diameter and High-Pressure Pipelines
Although CIPP technology is
widely used for small- to medium-diameter pipelines, its application in
large-diameter and high-pressure pipelines remains technically challenging.
Installing liners in pipes exceeding 72 inches in diameter requires significant
customization, making it labor-intensive and cost-prohibitive. In high-pressure
applications such as oil and gas, the cured liners sometimes struggle to meet
stringent mechanical performance requirements, including tensile strength and
hydrostatic load resistance. For example, liners in pressure pipelines need to
withstand up to 150 psi, but many current products are not certified for such
use. Handling and transporting oversized liners is also difficult, often
requiring cranes and specialized transport vehicles. Resin saturation for thick
liners poses further challenges, as achieving uniform curing without defects
becomes complex in larger diameters. Field failures due to improper curing or
resin pooling have led to reworks, undermining confidence in CIPP for demanding
applications. This limits the expansion of CIPP technology into broader utility
sectors like industrial pipelines, constraining market diversification and
growth potential.
Environmental
Concerns and Emission Regulations
CIPP installations often
involve the use of styrene-based resins, which release volatile organic
compounds (VOCs) during curing. Styrene emissions are increasingly under
regulatory scrutiny due to health risks such as respiratory irritation and
potential carcinogenic effects. In several regions, emission levels exceeding
50 parts per million (ppm) during curing have been recorded, raising concerns
among environmental agencies. Wastewater contamination is another issue, as
resin washout during installation can leach chemicals into surrounding soils
and water bodies. Regulatory bodies in North America and Europe are tightening
environmental standards, requiring contractors to adopt containment and
ventilation systems, which add costs and operational complexity. For instance,
meeting emission compliance in urban projects often requires temporary
enclosures, activated carbon filters, and air monitoring systems, significantly
increasing project duration. Additionally, public perception of chemical risks
has fueled resistance to trenchless rehabilitation methods that rely heavily on
styrene. While alternative resins like vinyl ester or non-styrene systems are
available, they are more expensive and not yet widely adopted. These
environmental concerns limit the scalability of CIPP, particularly in highly
regulated markets, challenging its acceptance as a sustainable solution.
Skilled
Workforce Shortages and Training Gaps
The global CIPP market
faces a critical shortage of skilled technicians capable of executing
trenchless rehabilitation projects with precision. Unlike conventional pipe
replacement, CIPP requires expertise in resin handling, liner inversion, curing
processes (steam, hot water, UV), and quality assurance testing. A lack of
certified training programs in many regions results in inconsistent
workmanship, leading to premature liner failures. For example, improper resin
mixing or inadequate curing can reduce liner lifespan by more than 30%,
compromising pipeline integrity. In North America and Europe, less than 40% of
contractors are certified under standardized training schemes, creating
variability in service quality. Developing regions face even greater workforce
shortages, where trenchless technology is relatively new and knowledge transfer
is limited. High staff turnover in construction industries compounds the
challenge, as companies must continuously reinvest in training. Furthermore,
the aging workforce in the infrastructure sector means that skilled workers are
retiring faster than replacements are being trained. Without a robust pipeline
of skilled labor, project delays, cost overruns, and quality issues will
continue to hinder widespread adoption of CIPP technology.
Limited
Awareness and Adoption in Emerging Markets
Despite its proven
benefits, CIPP adoption remains low in many developing economies due to limited
awareness and infrastructure priorities. Governments in Asia, Africa, and parts
of Latin America often prioritize new pipeline installations over rehabilitation,
overlooking the long-term cost savings of trenchless technologies. Budget
allocations in these regions typically focus on expanding water and sewage
networks rather than maintaining existing assets. For instance, over 60% of
water utilities in Africa still rely on open-trench methods for pipeline
repair, even in urban areas where disruption costs are high. Additionally,
there is often a lack of policy or regulatory frameworks supporting trenchless
rehabilitation, leaving contractors without institutional backing. Limited
access to financing for advanced equipment further discourages adoption.
Knowledge gaps also play a role, as decision-makers are not fully aware of the
environmental and social benefits of CIPP, such as reduced excavation waste and
minimized traffic disruption. This lack of awareness and institutional support
slows the expansion of the CIPP market into regions where infrastructure
rehabilitation needs are the most urgent.
Key
Market Trends
Rising Demand for
Eco-Friendly and Non-Styrene Resins
Sustainability concerns are
driving a notable trend toward eco-friendly resins in CIPP applications.
Traditional styrene-based resins are being replaced with non-styrene
alternatives such as vinyl ester, silicate, and epoxy systems, which release
significantly fewer VOCs during curing. For instance, non-styrene resins can
cut VOC emissions by up to 90%, addressing environmental regulations and
community concerns. Additionally, epoxy-based liners provide superior
mechanical strength and chemical resistance, extending service life to more
than 50 years in some applications. Though these alternatives are more
expensive, municipalities are increasingly willing to invest in sustainable
solutions to meet climate targets. The adoption of green resins is also supported
by certification programs that recognize environmentally friendly construction
practices. Demand for sustainable CIPP solutions is particularly high in
Europe, where regulatory frameworks such as REACH and the EU Green Deal
encourage the use of safer materials. This shift toward eco-friendly resins not
only mitigates regulatory risks but also enhances public acceptance of
trenchless rehabilitation technologies, positioning them as sustainable
infrastructure solutions.
Expansion into Pressure
Pipe Applications
A growing trend in the CIPP
market is the extension of technology into pressure pipe rehabilitation,
particularly in the water and industrial sectors. Advances in liner design and
resin formulation have enabled CIPP systems to withstand higher internal pressures,
expanding their use beyond gravity sewers. Pressure-rated CIPP systems are now
capable of handling pressures of up to 150 psi, making them suitable for
potable water mains and industrial pipelines. For example, several pilot
projects in North America and Europe have successfully demonstrated the
rehabilitation of 24-inch water transmission mains using pressure-rated CIPP.
This opens up significant opportunities, as over 30% of global water
distribution networks are approaching the end of their service life.
Pressure-rated liners also reduce leakage, with tests showing up to 95%
improvement in water tightness post-installation. The adoption of pressure CIPP
is expected to accelerate as utilities seek cost-effective alternatives to full
pipe replacement in critical infrastructure. This trend reflects the industry’s
evolution from niche sewer rehabilitation toward broader pipeline applications.
Growing Public-Private
Partnerships (PPPs) for Infrastructure Rehabilitation
Public-private partnerships
are emerging as a key trend in the global CIPP market, enabling municipalities
to finance and implement large-scale pipeline rehabilitation projects.
Governments are increasingly turning to private contractors and investors to
address funding gaps in aging water and wastewater infrastructure. For
instance, PPP models have been successfully deployed in North America, Europe,
and parts of Asia, where private companies manage rehabilitation projects under
long-term service agreements. These partnerships often include
performance-based contracts, ensuring quality and efficiency in project
delivery. The CIPP method is particularly attractive in PPP frameworks due to
its ability to minimize disruption and extend pipeline life spans by 40–50
years. Additionally, PPPs enable knowledge transfer from established
contractors to local operators, strengthening regional capabilities in
trenchless technology. With global infrastructure investment needs estimated in
the trillions, PPPs are becoming critical in bridging the financing gap for
pipeline rehabilitation. This trend underscores the role of collaborative
models in accelerating the adoption of advanced trenchless solutions like CIPP
across both developed and emerging markets.
Segmental
Insights
Resin Type Insights
Polyester segment
dominated in the Global Cured-in-Place Pipe market in 2024 driven by its
cost-effectiveness, versatility, and performance advantages over other resin
types. Polyester resins are widely preferred due to their affordability
compared to epoxy or vinyl ester, making them the material of choice for
large-scale municipal and industrial pipeline rehabilitation projects. This
cost advantage enables utilities and contractors to execute extensive pipe
rehabilitation works while staying within budgetary constraints. Polyester
resin also offers reliable mechanical strength and durability, ensuring
structural integrity and extended service life of rehabilitated pipelines. Its
adaptability to various pipe diameters and site conditions further enhances its
adoption across multiple industries.
Another factor
supporting polyester’s dominance is its compatibility with diverse curing
methods, including steam and hot water, which makes it suitable for a wide
range of project requirements. Additionally, polyester resins have a
well-established supply chain and are readily available globally, reducing
project lead times and ensuring continuity in large-scale operations. Their
proven track record in rehabilitating aging water and wastewater pipelines
across municipal infrastructure projects provides strong trust and confidence
among contractors and decision-makers.
Environmental
regulations also play a role. While epoxy resins are known for their superior
chemical resistance, they are more expensive and often reserved for specialized
industrial applications. Polyester, on the other hand, balances cost,
availability, and compliance with environmental and performance standards,
making it the default choice for the majority of CIPP installations. With
growing investments in urban infrastructure renewal and pipeline maintenance
worldwide, the polyester segment is expected to continue leading the CIPP
market, reflecting its practicality, reliability, and economic value in
delivering long-term pipeline rehabilitation solutions.
Curing Method Insights
Steam Curing segment dominated the Global Cured-in-Place Pipe market in
2024 due to its
efficiency, faster curing times, and reduced water consumption compared to hot
water curing. Steam curing minimizes environmental impact by requiring less
energy and fewer resources, while enabling quicker project turnaround—an
essential factor in urban environments where minimizing service disruption is
critical. It also provides more uniform curing for longer pipe runs, ensuring
consistent structural integrity. Contractors and municipalities increasingly
prefer steam curing for its balance of efficiency, cost-effectiveness, and
sustainability, solidifying its dominance in pipeline rehabilitation projects
worldwide.
Download Free Sample Report
Regional
Insights
Largest Region
North America dominates the Global Cured-in-Place
Pipe market in 2024 supported
by its aging infrastructure, high adoption of trenchless technologies, and
strong regulatory frameworks. The United States and Canada face extensive
challenges from deteriorating municipal water and wastewater pipelines, many of
which are over 50 years old. According to government estimates, nearly 240,000
water main breaks occur annually in the U.S., underscoring the urgent need for
cost-effective rehabilitation methods. CIPP provides a trenchless solution that
minimizes disruption to roads, businesses, and communities, making it the
preferred choice for municipalities.
Regulatory
emphasis on sustainability and environmental compliance also accelerates CIPP
adoption in the region. Strict water conservation measures and EPA guidelines
encourage the use of non-invasive technologies to rehabilitate pipelines
without excessive excavation. Additionally, strong financial support through
federal and state-level infrastructure investment programs, such as the U.S.
Infrastructure Investment and Jobs Act, provide funding to modernize water and
wastewater systems, creating consistent demand for CIPP technologies.
North America is
also home to many leading global players in the CIPP industry, such as Aegion
Corporation, Insituform, and Perma-Liner, which ensures strong market
penetration and technological advancements. The region’s advanced contractor
network, widespread technical expertise, and established standards for
trenchless pipeline rehabilitation further strengthen its leadership.
Urbanization and
population growth amplify the need for resilient infrastructure in major
metropolitan areas, while the demand for minimizing downtime in busy cities
accelerates the preference for CIPP. Collectively, these factors—aging
infrastructure, robust policy support, advanced players, and technology
adoption—solidify North America’s dominance in the global CIPP market in 2024.
Emerging Region
Europe is the emerging region in the Global Cured-in-Place
Pipe market in the coming period due to increasing investments in modernizing aging sewer
and water networks across countries like Germany, the U.K., and France. Rising
urbanization, combined with stringent EU regulations on sustainable
infrastructure and environmental protection, is driving the adoption of
trenchless rehabilitation methods. Additionally, the region benefits from
technological innovation and collaborations among leading European contractors
and suppliers. As governments focus on reducing carbon emissions and limiting
disruptions in densely populated cities, CIPP emerges as the preferred method,
positioning Europe as a key emerging growth region in the forecast period.
Recent
Developments
- In June 2025, United Felts, a Vortex
Company, announced the rebrand of its potable water CIPP technology from CIPP
H2O to UnitedBLUE, engineered specifically for watermain renewal. The rebrand
aligns with the successful launch of the Vortex Water division, underscoring
the company’s commitment to addressing potable water rehabilitation needs.
UnitedBLUE strengthens Vortex’s position in the trenchless infrastructure
sector by offering municipalities and utilities a specialized solution for
aging water networks with improved branding and technical performance.
- In April 2025, A challenging
pipeline rehabilitation project in Atlantic Canada highlighted the adaptability
of CIPP technology. The project involved lining a transition pipeline shifting
from a 570-mm x 420-mm brick egg-shaped profile to a 375-mm circular pipe,
requiring customized techniques, advanced equipment, and precise coordination.
Successful completion demonstrated CIPP’s versatility in complex geometries and
reinforced its role as a cost-effective, reliable solution for aging
infrastructure. The case exemplifies how innovation and quality assurance
ensure CIPP’s continued success in non-standard rehabilitation environments.
- In May 2025, Cisco announced
its collaboration with the AI Infrastructure Partnership (AIP), joining
industry leaders including BlackRock, GIP, MGX, Microsoft, NVIDIA, and xAI.
This partnership, complemented by Cisco’s energy collaborations with GE Vernova
and NextEra Energy, reinforces AIP’s mission to develop scalable and secure AI
infrastructure. AIP aims to mobilize up to USD100 billion in investment
potential, unlocking USD30 billion in initial capital commitments. Cisco’s
involvement strengthens the consortium’s technology backbone, positioning it at
the forefront of global AI infrastructure development.
Key
Market Players
- Aegion
- Granite
Construction
- Inland
Pipe Rehabilitation
- SAK
Construction
- Michels
Corporation
- PURIS
Corporation
- Per
Aarsleff A/S
- Reline UV
Group
- SAERTEX
multiCom GmbH
- IMPREG
Group
|
By Resin Type
|
By Curing Method
|
By Application
|
By Region
|
- Polyester
- Glass Fiber
Reinforced Polymer
- Others
|
- Steam Curing
- UV Curing
- Others
|
- Water &
Sewer Lines
- Gas
Pipelines
- Industrial
Piping
- Others
|
- North
America
- Europe
- South
America
- Middle East
& Africa
- Asia Pacific
|
Report Scope:
In this report, the Global Cured-in-Place Pipe
Market has been segmented into the following categories, in addition to the
industry trends which have also been detailed below:
- Cured-in-Place Pipe Market, By Resin
Type:
o Polyester
o Glass Fiber Reinforced Polymer
o Others
- Cured-in-Place Pipe Market, By Curing
Method:
o Steam Curing
o UV Curing
o Others
- Cured-in-Place Pipe Market, By Application:
o Water & Sewer Lines
o Gas Pipelines
o Industrial Piping
o Others
- Cured-in-Place Pipe Market,
By Region:
o North America
§
United
States
§
Canada
§
Mexico
o Europe
§
Germany
§
France
§
United
Kingdom
§
Italy
§
Spain
o South America
§
Brazil
§
Argentina
§
Colombia
o Asia-Pacific
§
China
§
India
§
Japan
§
South
Korea
§
Australia
o Middle East & Africa
§
Saudi
Arabia
§
UAE
§
South
Africa
Competitive Landscape
Company Profiles: Detailed analysis of the major companies
present in the Global Cured-in-Place Pipe Market.
Available Customizations:
Global Cured-in-Place Pipe Market report
with the given market data, Tech Sci Research offers customizations according
to a company's specific needs. The following customization options are
available for the report:
Company Information
- Detailed analysis and
profiling of additional market players (up to five).
Global Cured-in-Place Pipe Market is an upcoming
report to be released soon. If you wish an early delivery of this report or
want to confirm the date of release, please contact us at [email protected]