老澳门六合彩开奖记录

On the North Slope there are thousands of small pipes that ultimately come together to feed into the big one 鈥� the Trans-Alaska Pipeline. Each of those pipes are a potential hazard, especially as they experience the effects of air, water and chemistry over long periods of time.

Even in the cold of the Arctic, pipes will eventually succumb to corrosion 鈥� the natural chemical process that transforms refined metals into oxides. Rust, for example, occurs when iron and oxygen form a chemical bond. If technicians responsible for monitoring those pipes don鈥檛 catch corrosion and other forms of degradation before it鈥檚 too late, then a pipe could burst, resulting in a problem with serious environmental, financial and public relations consequences. 

That鈥檚 where Oleg Shiryayev, Ph.D., assistant professor of mechanical engineering in 老澳门六合彩开奖记录鈥檚 College of Engineering, comes in. 

鈥淭he problem with flow lines, or the small pipes that connect from the wells to the first processing facilities, is that they do not regularly get the same protection as the big boy, the Trans-Alaska Pipeline,鈥� said Shiryayev. 鈥淪imply put, there are too many of them. And for that same reason, it is very difficult to adequately monitor all of them.鈥�

To keep an eye on the integrity of flow lines, the current process requires a team of technicians to physically walk around the pipes and inspect them for damage using ultrasound and additional measuring tools. While this method is reasonably effective, Shiryayev points out  it is highly inefficient. Plus, it is difficult to access some pipes once they have been installed. 

To make matters worse, flow lines and other small pipes are rarely equipped with the launching and retrieval mechanisms that are required to use one of the industry鈥檚 most efficient monitoring tools 鈥� pipeline inspection gauges, or PIGs. For the larger pipes, and particularly for the 800-mile long Trans-Alaska Pipeline, PIGs enter at one location, get caught up in the flow and then exit dozens or hundreds of miles downstream. During their wild rides, the PIGs use a variety of sensors to capture important data about the integrity of the pipeline. 

鈥淏ut since we cannot monitor flow lines from within using PIGs, we have to monitor them from the outside,鈥� said Shiryayev. 鈥淎nd my project demonstrates the feasibility of using fiber optics and magnetism to accomplish precisely that.鈥�

The details of Shiryayev鈥檚 project get a little technical 鈥� so buckle up. 

Shiryayev鈥檚 core concept is to use a combination of fiber optic strain sensors and a magnetostrictive material, such as an alloy called terfenol-d, to monitor the magnetic flux that leaks out of a pipe as its walls becomes thinner due to corrosion or other forms of damage. Magnetostrictive materials are any substance that can be mechanically deformed by the presence of an external magnetic field. Magnetic flux is a measurement of the total magnetic field passing through a given area. 

To put this another way, Shiryayev鈥檚 fiber optic sensors report any deformities that happen to the magnetostrictive materials. Those deformities can only happen if a pipe is damaged enough that its magnetic field is leaking. For an undamaged pipe, its magnetic field remains almost entirely inside the pipe wall. If the terfenol-d (or other magnetostrictive material) is stretched even a tiny bit, the fiber optic strain sensors will alert technicians, letting them know that it鈥檚 time to give that section of pipe a closer inspection, and maybe even replace it. 

The concept of using magnetic flux leakage to measure the integrity of pipes is not new. In fact, it is one of the main tools used by PIGs when they travel down larger pipelines. The novelty of Shiryayev鈥檚 contribution to the field is the combination of fiber optic strain sensors and magnetostrictive materials. Practically speaking, this could allow for deployment of the system over long stretches of difficult-to-access pipes.

鈥淭he main advantage of this kind of monitoring regime is that it is much more economical to achieve higher levels of safety,鈥� said Shiryayev. 鈥淐ompanies could have round-the-clock monitoring of their flow lines, without needing to constantly send crews out for inspection.鈥�

Shiryayev鈥檚 research is still in the early stages. He has completed a proof-of-concept study with funding from ConocoPhillips Alaska. He hopes that he and 老澳门六合彩开奖记录 will patent the design sometime soon and obtain funding for further development. In the future, he imagines that this research could have significant commercial appeal. 

鈥淚t has the potential to make oil and gas extraction safer and more cost effective,鈥� said Shiryayev. 鈥淲hat鈥檚 not to like?鈥�