Water Infrastructure Repair Technologies: Global Markets
Report Highlights
The global market for water and infrastructure repair market was $57.7 billion in 2013 and nearly $61.2 billion in 2014. This market is expected to grow to $82.2 billion in 2019, a compound annual growth (CAGR) rate of 6.1%.
Report Includes
- An overview of the global market for water infrastructure repair technologies (WIRT).
- Analyses of global market trends, with data from 2013, 2014, and projections of compound annual growth rates (CAGRs) through 2019.
- Details concerning the systems and materials used to assess, repair, replace and rehabilitate drinking water and wastewater systems.
- Identification of significant trends and factors influencing the market such as new and needed technologies, and the regulatory scene.
- Analysis of the market's dynamics, specifically growth drivers, inhibitors, and opportunities.
- Relevant patent analysis.
Report Scope
The scope of the market analyzed in this report includes water infrastructure repair technologies used in drinking water distribution and wastewater collection (including sewer and stormwater) piped infrastructure systems around the world. Components of these piped systems include water distribution and wastewater collection pipes, along with the connectors, fittings, flanges, couplings, valves and adaptors connected to these pipes. The types of WIRT included in this report include assessment, spot repair, rehabilitation and replacement technologies.
WIRT market data is provided in dollar value for 2013 and 2014, with projections given through 2019. Regional data is presented for 10 regions around the globe: North America, Central America, South America, Caribbean, Europe, Asia, Middle East, Africa, Australia and Oceania, and Greenland, as well as for the 20 countries most involved in the WIRT market.
This report does not include products, services or technology directly associated with water processing or water collection facilities; above ground, open-air water conveyance systems, such as aqueducts, ditches and culverts; water storage units such as tanks; or pumps.
Frequently Asked Questions (FAQs)
Analyst Credentials
NANA LAPHAM has contributed to BCC Research since 2000 on topics ranging from environmental science to nuclear technology, microgrids, energy, oil recovery and ozone generation. She lives in the Pacific Northwest and holds bachelor's degree from Western Oregon University and another from Oregon State University.