SFE Global is a trusted partner for municipalities and industries, offering specialized services in pipeline monitoring, data collection, and comprehensive assessments. Our team of experts utilizes cutting-edge technologies to deliver precise, real-time data that is essential for informed decision-making. From early-stage detection to long-term pipeline performance analysis, we provide the critical insights that support proactive maintenance and operational efficiency, minimizing risks and optimizing resources. With our solutions, clients can ensure their pipeline systems are functioning reliably, while extending the life of their assets.
At the heart of our services is our commitment to delivering accurate and reliable data. SFE Global’s advanced monitoring systems act as a vital link in the water pipeline asset management chain, helping to identify potential issues before they escalate into costly disruptions. Our proven technologies, combined with our data-driven approach, empower clients to make proactive decisions that keep their systems running smoothly and efficiently. Whether you're managing municipal infrastructure or industrial pipelines, SFE Global provides the actionable intelligence needed to protect and enhance your operations.
Leveraging the best from multiple manufacturers to ensure you get the right solution every time.
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This post emphasizes the importance of a comprehensive approach to infrastructure management, including monitoring, maintaining, and managing assets to ensure long-term reliability and performance.
SFE Global discusses the evolution of pipeline pigging technology, from traditional methods to advanced smart pigs that provide detailed pipeline inspection and maintenance data.
Despite the challenges posed by the COVID-19 pandemic, SFE has successfully continued to manage pipeline projects, ensuring safety and efficiency while adapting to new health guidelines and restrictions.
To support a large-scale housing development in Mercer Island, Washington, the city retained an engineering consultant to model and assess flow capacity in a key section of their water distribution network. The focus was a 12-inch cast iron watermain that would serve as the primary feed for the new subdivision. However, hydraulic modeling and flow testing showed that the main was performing more like a 4-inch to 6-inch line—raising serious concerns about capacity shortfalls.
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