New Oxygen Analyzer Eclipses Conventional O2 Measurements in Natural Gas Pipelines

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Fast and accurate, new Natural Gas Analyzer offers lower overall operating costs measuring Natural Gas Oxygen while eliminating erratic performance of maintenance-intensive conventional sensors and the need for scrubbers.

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It is ideal technology for any area that has H2S concentration such as sour gas monitoring, production areas, and pumping stations.

SpectraSensors of Houston, Texas, has announced a new Oxygen Analyzer that uses “Fluorescent Quenching” to lower costs and improves performance in measuring Oxygen in natural gas pipelines.

For as long as anyone can remember, Oxygen (O2) has been a problem in natural gas pipelines, especially when high levels of H2S are present.

Measurement of O2 has always come with its own set of issues: maintenance costs, inaccuracies, and reliability. But all that is changing with the introduction of a new technology…Fluorescent Quenching.

Based on a proven technology in the bio-tech world, it uses a sensor (optical probe) that contains an indicator dye sensitive to O2. The dye is optically excited by an LED light source. The fluorescence emission of the indicator dye decays at a known rate, but if oxygen is present an energy transfer occurs and “quenches” the fluorescence, hence the name, Fluorescent Quenching.

Advantages over traditional measurement of Natural Gas Oxygen include greater accuracy, much faster response, simplified calibration, and virtually no maintenance. There is also no need for complicated sample scrubbers to remove H2S and the net result is lower overall operating costs.

The Oxygen Analyzer is not affected by even high levels of H2S and there is no cross sensitivity to contaminants or other gases found in natural gas.

Larry Ewing, the owner of Ewing Energy Consulting of Tulsa, Oklahoma, is an expert in gas quality measurement technology. He see’s a wide range of potential applications in natural gas pipelines for Fluorescent Quenching. “It is ideal technology for any area that has H2S concentration such as sour gas monitoring, production areas, and pumping stations.”

SpectraSensors of Houston, Texas, recently introduced the OXY4400 optical oxygen analyzer for natural gas pipelines using this technology. SpectraSensors has pioneered the use of optical analyzers with its Tunable Diode Laser units that are used world-wide in the industrial process and environmental monitoring markets.

The OXY4400 oxygen analyzer is a compact, stand-alone, one-channel meter with LCD display and data logger. The unit uses a light source (LED), an optical sensor probe and a photo detector. Pulsed light from the LED is sent down a fiber optic cable to the sensor probe (optode) where the energy from the light is absorbed by an indicator dye. The light (fluorescence emission) is sent back through the cable to the photo detector, where it is converted to an electrical signal that can be read.

The amount of “quenching” is determined by the amount of O2 in the stream. The result is an exact and almost instant measurement down to 0.5 ppm.

Conventional membrane sensors (Clark Cells and Galvanic Cells) can be destroyed by high levels of hydrogen sulfide in the stream. For this reason, they require a scrubber to absorb the H2S. But when the scrubber becomes saturated the sensor loses accuracy. In addition, traditional sensors use an electrolyte solution that is “self-consuming” caused by an electrochemical reaction to the oxygen concentration. But that consumption degrades the sensor (similar to a battery) over time forcing users to perform constant calibration. Once these trace oxygen sensors are exposed to high levels of O2 it can shorten the life or destroy the sensor which must be purged and that can take a long time.

All of this adds up to high maintenance costs and replacement parts to keep membrane sensors accurate.

Fluorescent Quenching offers new levels of accuracy in a Natural Gas Analyzer. It does not consume O2 and needs no scrubber, in fact, it reads the O2 without being affected by the hydrocarbons or sulfur content. Optical response time is measured in seconds, not minutes.

Since there are no moving parts or electrolytes, there is no need for constant calibration once it is installed. The optical sensor is also unaffected by EMI, shock, or vibration.

Cost Comparison
Initial costs of the OXY4400 are higher than the cost of a traditional system. But the total cost of ownership is much less than a membrane system. The difference comes from the elimination of constant maintenance and replacement parts for Galvanic cell or Clark cell units. In addition, the cost savings of the optical measurement increases over the lifetime of the instrument.

“It’s a ten-fold savings in cost of ownership compared to membrane technology,” adds Ewing, “and the reliability is much higher. Just think of the late night maintenance calls when an O2 spike sets off an alarm. Membranes take hours to recover, the optical sensor recovers immediately. There is no need for a maintenance operator to stay on task for hours testing for a gas that isn’t there just because his antiquated sensor has not recovered yet to give him an accurate reading.”

Sam Miller of SpectraSensors sees a host of applications for the OXY4400 as an Oxygen Analyzer. “This technology transforms oxygen measurement in the natural gas industry due to its long-term stability. This is especially important for remote locations.”

About SpectraSensors
SpectraSensors, Inc., headquartered in Houston, Texas, was incorporated in 1999 as a technology spin-off of the NASA/Caltech Jet Propulsion Laboratory. The company is a leading manufacturer of optically based gas sensors for the industrial process and environmental monitoring markets. Typical applications include non-contact measurement of moisture, carbon dioxide, oxygen, and other corrosives in natural gas pipelines (Energy Market), industrial process monitoring (Petrochemical), and airborne water vapor and other atmospheric measurements from commercial aircraft for the U.S. and international Weather Services (Atmospheric).

For more information contact: SpectraSensors, Inc. 4333 W Sam Houston Parkway N, Suite 100, Houston, Texas 77043; Phone 713-466-3172; Fax: 713-856-6623; or visit the web site:

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