Laser Scanning Accelerates Power Plant Conversions to Natural Gas

Laser Scanning Accelerates Power Plant Conversions to Natural Gas

Laser scans of large and small surfaces performed in just three days.

NVision’s engineering services are helping managers of coal-fired power plants converting to natural gas to determine more quickly where to install updated instrumentation necessary to retrofit turbines to accommodate the new power source.

“By measuring the equipment via laser scanning, then creating precise 3D models of the turbine assemblies for engineers to analyze for optimal installation points, we can significantly expedite the plants’ transitions,” says Steve Kersen, president of NVision. “This can result in huge cost savings for projects that would otherwise have been budgeted for a lengthier period using less sophisticated measurement methods. In one recent project, a Southeast power plant converting to a combined-cycle gas turbine (CCGT*) system will increase wattage output by more than 30 percent and save more than $250,000 by using our services.”

According to the U.S. Energy Information Administration (EIA), during the past nine years more than 100 coal-fired plants have been replaced or converted to natural gas. Some of the key factors driving this change are stricter emission standards, lower natural gas prices, and more efficient new natural-gas turbine technology. A number of these plants have opted to switch to a CCGT system.

CCGT plants are more efficient than coal plants because they employ a dual-phase system in which the heat produced from fuel combustion is used to make up to 50-percent more electricity. First, fuel is burned in a combustion chamber, and the resulting combustion gases power turbine generators to produce electricity. Then the waste heat from the gas turbines, which would normally be lost, is routed to boil water to create steam, which then spins a steam turbine generator, producing still more electricity.

The Southeast plant’s conversion is part of a county pipeline expansion and is estimated to raise the power output at the plant by nearly 35 percent. At the same time, emissions will be reduced as CCGT plants emit only about half as much CO2 as a coal-fired plant.

“A key part of transitioning this plant is refurbishing existing turbomachinery to accommodate the new combined cycle system,” says Kersen. “Plans called for adding updated sensors and emission controls to the plant’s turbine assemblies. NVision was brought in by plant management to laser scan, then create models of the existing turbine housings in order to plan the installation and insertion paths of the new sensors and controls into the internal cavity of the housings.” 

NVision technicians visited the plant to begin the scanning process. “The nature of this project necessitated the use of several different scanners, each uniquely suited to a particular phase of the job,” says Kersen.

For the initial work, NVision employed the company’s “large area” noncontact laser scanner to obtain complete scanning coverage of both the internal and visible external surfaces of three turbine covers and “fixed” lower housings. “The large-area scanner provides extremely accurate measurements and geospatial data about large structures and areas,” says Kersen. “For the turbine assemblies’ relatively smaller flange hole pattern and internal surfaces, which required more accurate data collection, we used a laser tracker.”  Like the large area scanner, a laser tracker can also measure over a large distance but takes discrete points of areas where high accuracy and detail is the priority.

As an object is inspected, the scanner generates a point cloud consisting of millions of points, each with x,y,z coordinates and i,j,k vectors. These points comprise an exact duplicate of the object’s surface, down to the most minute detail. Software integrated into the scanner is then used to convert the point cloud to an STL polygon, which is used as a template to create computer-aided design (CAD) models in IGES and STEP format, a generic CAD file, importable into any CAD software.

Measurement of other turbine components, including drive shafts, inlet guides and stator vanes, and airfoil contours, was done using the company’s handheld scanner, a powerful portable scanning device capable of capturing 3D geometry from objects of almost any size or shape.

The scanning was completed in three days. NVision then processed the data to a fully aligned assembly in Siemens NX, a high-end CAD/CAM/CAE software, providing plant engineers with a 3D model of the turbine assemblies. Engineers used this to analyze where sensors and controls could be installed and, where necessary, to redesign any parts or structures that needed to be changed for the conversion.

“Repurposing to a CCGT system is increasingly viewed as a viable way for energy producers to reduce emissions and increase power output,” says Kersen. “The engineering services we provided to this plant and others switching to natural gas are reducing the time needed to complete the conversions and illustrate the value that 3D noncontact optical scanning can bring to companies repurposing their energy infrastructure.” Plans call for the plant to be operational in 2023.

NVision’s major customers in the energy sector include GE, Siemens, Dresser-Rand, Tennessee Valley Authority (TVA), and Moventas.

*Other acronyms used for this type of power plant include CCPP (combined cycle power plant), NGCC (natural gas-fired combined cycle), and CC (combined cycle).

ABOUT THE AUTHOR

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NVision Inc.

Established in 1990, NVision Inc. provides customers with the highest accuracy noncontact optical measurement systems and services for reverse engineering and inspection. Focusing its expertise on the aerospace, power generation, and oil/gas industries, NVision provides both contract scanning services and systems sales to companies throughout North America. Its team of engineers provides customers with an unmatchable level of experience and is able to advise and assist with the most difficult engineering challenges.

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