Product Code: MF-SWSC-22
While the smart water meter market had gained momentum in the years before the COVID-19 pandemic, a post-pandemic focus on improving infrastructure and resiliency is set to accelerate the adoption of many types of smart water systems further. Smart meters are the main focus of investment, but a wide array of solutions is being developed to address all aspects of water-related issues in cities and communities. For example, Internet of Things (IoT) sensors are being used to monitor treated water supply, wastewater treatment, and warn of flooding from severe storms.
These solutions are seeing increased adoption at a time when cities and water utilities are recognizing how climate change will exacerbate water challenges. Losses of treated water through leakage and theft not only impact profitability today, but also endanger the ability to meet future water demands in regions undergoing aridification. Smart water meters and other IoT sensors inside the water distribution system can help identify the sources of non-revenue water loss-and see them remedied in days or weeks rather than months or years.
This ‘Guidehouse Insights market forecast for smart water systems’ explores the market issues surrounding a wide array of IoT-based water technologies. It includes forecasts for smart water meters, communications infrastructure, water networking monitoring and control, and data management and analytics, with global unit deployment numbers and revenue projections as well as forecasts for individual geographic regions.
KEY QUESTIONS ADDRESSED:
- In what use cases are cities most commonly deploying smart city technologies?
- How has the COVID-19 pandemic and ensuing infrastructure stimulus bills impacted the smart water market?
- What problems are smart water technologies best positioned to alleviate?
- How are the effects of climate change impacting smart water demand?
- What are the geographic and policy trends driving the adoption of smart water technologies?
WHO NEEDS THIS REPORT:
- Water utilities
- NB-IoT equipment manufacturers
- Networking and telecommunications firms
- Urban sensor vendors
- Cloud service developers
- Architects and planners
- Civil engineering firms
- Utilities
- Regulatory community
- Investor community
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Table of Contents
1. Executive Summary
- 1.1. Smart Water Systems Increase Water Resilience in a Climate Stressed World
- 1.2. Market Trends and Issues
- 1.3. Market Forecasts
2. Market Issues
- 2.1. Report Scope and Definitions
- 2.2. State of the Market
- 2.3. Market Drivers
- 2.3.1. Non-revenue Water Losses
- 2.3.2. Water Supply Assurances
- 2.3.3. Flood Sensing and Abatement
- 2.4. Key Smart Water Applications
- 2.4.1. Water Metering
- 2.4.2. Pressure Detection
- 2.4.3. Flood Detection
- 2.4.4. Water Quality and Stormwater Management
- 2.4.5. Water and Wastewater Treatment
- 2.5. Market Barriers
- 2.5.1. Market Complexity
- 2.5.2. Consumer Concerns
- 2.5.3. Short-term Supply Chain Issues
- 2.5.4. Mid- to Long-term IT Infrastructure Demands
3. Key Industry Players
- 3.1. Aclara Technologies LLC
- 3.2. AVEVA Group Plc
- 3.3. Badger Meter
- 3.4. Cisco
- 3.5. Fairfields
- 3.6. Honeywell
- 3.7. IBM
- 3.8. Itron
- 3.9. Landis+Gyr
- 3.10. Libelium
- 3.11. Opti
- 3.12. SAS
- 3.13. Semtech
- 3.14. Xylem Inc
4. Market Forecasts
- 4.1. Scope
- 4.2. Methodology
- 4.3. Global Deployment
- 4.4. Global Revenue
- 4.5. Revenue by Smart Water Segment
- 4.5.1. Smart Water Meters
- 4.5.2. Communications Infrastructure
- 4.5.3. Water Network Monitoring and Controls
- 4.5.4. Data Management and Analytics
- 4.6. Overall Smart Water Systems Revenue by Geographic Region
- 4.6.1. North America
- 4.6.2. Europe
- 4.6.3. Asia Pacific
- 4.6.4. Latin America
- 4.6.5. Middle East & Africa
5. Conclusions and Recommendations
6. Acronym and Abbreviation List
7. Table of Contents
8. Table of Charts and Figures
9. Scope of Study, Sources and Methodology, Notes