INGU’s Pipers® solution pairs a baseball-sized free-floating multi-sensor system with AI- powered data analytics and a GIS Pipeline viewer. The Pipers® solution accurately identifies and locates potential issues such as leaks, deposits, and changes in the pipeline wall that threaten pipeline health. Pipers® are suitable for all pipelines, independent of pipeline diameter and material, and are certified to be used while the pipeline is in operation. The information provided allows you to prioritize when and where action is needed to keep your pipelines operate safely and reliably.
Pipers® is a one-solution-fits-all approach. In a single inspection, data is gathered on a broad range of safety and performance aspects of the pipeline. This makes the Pipers® the ideal tool to support the decision making in pipeline safety programs.
An overview of the services is given in the following table:
Pipers® ‘listen’ for leaks while flowing through the pipeline. Because the Pipers® are free-floating, there is limited to no background noise, making the Pipers® an ultra sensitive leak detection tool. To put it simple, if you can hear the leak, Pipers® can.
Particularly in high consequence areas like river crossings, road crossings, and pipelines passing in or under lakes, Pipers® are the go-to solution to pinpoint the leaks.
Independently verified minimum leak size is 0.2gpm at 95psi (IPC2018-78662).
Pipers® take 100 pressure measurements per second while moving through the pipeline allowing for accurate deposit localization.
Using the fact that the change in pressure over distance is a function of pipeline roughness and diameter, a highly accurate deposit profile can be derived from the pressure information.
When combined with off-the-shelf cleaning pigs, Pipers® provide an overview of the bend angle, radius, and direction for all bends.
If you want to determine if a line can be inspected by a conventional inline inspection tool (smart pig), Pipers® will provide you with the required information.
Pipers® measure the magnetic flux density (MFD) inside of pipelines using one or multiple passive tri-axial magnetic flux sensors. In the analysis process of ferromagnetic pipelines, welds and spools are identified.
Welds are automatically identified using a neural network and the location of the identified welds is reported in the pipe tally. The main part of the Pipers® MFD analysis is focused around characterizing the spools. Spools with a different magnetic flux density compared to surrounding spools are identified as outlier spools. These outlier spools are then labeled with the most probable cause, e.g. metal loss, external features (hot taps, anodes, casings, …), and stress, all with a severity and probability (where applicable).
As part of the inspection deliverables, the results from a Pipers® pipeline inspection can be presented in INGU’s Pipeline viewer. An interactive geographic information system (GIS) environment that shows the inspection results on a satellite map.
The pipeline path including the launch and receive locations will be marked. Depending on the pipeline inspection service selected, also joints, bends, leaks, air pockets, metal loss, hot taps, etc… will be marked. Clicking on a marker will provide specific information for that marker. The pipe tally can also be downloaded.
It is also possible to upload other inspection data and see the comparison in the Pipeline viewer. And full visibility across your pipeline assets equals comprehensive insight and control.
Maximum control to deploy when and where needed
Designed for use under operational conditions
Effectively assess any pipeline diameter and material
Affordability and ease of use means more visibility more often
Information about leaks, deposits, and changes in the pipeline wall in a single run
Leverage historical data for unprecedented analysis
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Steven is a Venture Principal with Chevron Technology Ventures on the Core Venture Fund investment team. Chevron Technology Ventures (CTV) was launched in 1999 to identify and integrate externally developed technologies and new business solutions with the potential to enhance the way Chevron produces and delivers affordable, reliable, and ever-cleaner energy now and into the future. Its Core Venture Fund invests in technologies that have the potential to add efficiencies to Chevron’s core business in the areas of operational enhancement, digitalization, and lower-carbon operations.
Steven has 12 years of experience in the oil and gas industry, 10 with Chevron. He has held various assignments in both upstream and downstream, beginning his career in Liquefied Natural Gas Technology Development before transferring to the El Segundo Refinery as a Process Engineer supporting naphtha and gas oil hydrotreaters and then working as a Process Automation Engineer specializing in Safety Systems. Prior to becoming a Venture Principal, Steven first joined Chevron Technology Ventures in 2019 as a Decision Analysis Advisor, supporting projects across the technology portfolio and ensuring high decision quality around development and deployment of externally developed technologies. Prior to joining Chevron, he worked for Baker Hughes Incorporated and ExxonMobil Chemical Company.
Steven holds a Bachelor of Science in Chemical Engineering and a Master of Science in Data Science, both from Rice University in Houston, TX.
Steve Bolze recently launched Standish Spring Investments to support founders scaling early and growth stage organizations that support the energy transition.
Prior to launching Standish Spring Investments, Steve was a senior managing director and head of infrastructure portfolio operations and asset management for Blackstone’s dedicated infrastructure business. He was one of the founding partners of Blackstone’s infrastructure investment fund, valued at more than $25 billion currently, and partnered with portfolio company CEOs to drive key value creation initiatives.
Before joining Blackstone, Steve had a nearly 25-year career at General Electric, during which time he successfully led several of the company’s largest businesses. In his last role as President and CEO of GE Power and Water, he oversaw the company’s $28 billion power generation and renewables business, operating in over 140 countries with 52,000 employees; at the time its technology helped provide more than one-quarter of the world’s electricity.
George is co-founder and managing partner of Energy Innovation Capital, a capital provider to energy innovators. George is an experienced venture capital investor, having co-founded three corporate venture capital groups: Chevron Technology Ventures, ConocoPhillips Technology Ventures Investments and Energy Technology Ventures. He previously worked in Exploration & Production leadership roles at Chevron and is an active member of AAPG, SEG, and SPE. George holds an MBA from Tulane University, a M.S. in Geology from the University of Kansas and a B.S. in Earth Sciences from the University of New Orleans.