Saturday, November 26, 2022
New Wave Media

November 18, 2013

How LVDT Linear Position Sensors Survive Operation Underwater

Subsea applications pose special challenges for reliable LVDT operation. Due to the presence of chemically hostile seawater that attacks common metals, linear position sensors constructed of stainless steel can become quickly corroded and pitted. Temperature, salt level and microorganisms in seawater also can accelerate corrosion rates, leading to premature sensor failure.

To survive subsea environments, LVDT Linear Position Sensors must be housed in special alloys that support long-term operation in different elements. As a housing and core made from stainless steel will not survive well in many underwater applications, the LVDT casing must be composed of an alloy that provides chemical resistance to seawater and other corrosive acids to provide long-term reliable operations for many years. Reliability is of critically important due to the cost of replacing subsea hardware.

Typically, either Inconel or Monel is used, depending upon ocean temperature and depth levels.In shallow warm waters, Monel is ideal as its metal composition resists sea life forming on it. In subsea applications with depths of 7,500 feet and external pressures surpassing 3,500 psi, Inconel offers excellent protection against corrosion due to higher content of nickel, chromium and molybdeumn. These superalloys enhance the already high-reliability of the LVDT assembly, ensuring that it can meet extended service life requirements, even if the device is fully exposed to seawater.

As Subsea LVDTs provide the same reliable performance as standard units but with more chemical resistance to seawater, they are replacing less reliable linear position technologies such as load cells, pots and magnetorestrictive sensors for position measurement in underwater applications. Depending upon the temperature, salinity, oxygen levels and depths of applications, the LVDT, with its hermetic seal and non-contacting operation, is often the only technology that can deliver accurate and reliable performance in subsea conditions.

chemical resistanceunderwater applicationsstainless steel
MTR’s Hydrographic annual explores the latest work from around the world to gather, retrieve and process subsea information more effectively and efficiently
Read the Magazine

Back to the Future

We need the Cloud to Study the Depths

Marine Technology Magazine Cover Sep 2022 -

Marine Technology Reporter is the world's largest audited subsea industry publication serving the offshore energy, subsea defense and scientific communities.

Marine Technology ENews subscription

Marine Technology ENews is the subsea industry's largest circulation and most authoritative ENews Service, delivered to your Email three times per week

Subscribe for MTR E-news