Working in partnership with researchers from Intelligent Optical Systems, Torrance, Calif., Boeing scientists tested a fiber-optic hydrogen leak detection system in a real-world environment.

Dr. Alex Kazemi, a micro-technologist and a team of rocket scientists, engineers and technical and manufacturing specialists developed this new fiber-optic hydrogen detection system in Huntington Beach, Calif.

"While the new system is designed to greatly improve the ability to detect explosive hydrogen vapors on space launch vehicles, it can also bring benefits to other industries including the automotive sector where car makers are developing clean-burning, hydrogen-fuel automobiles," Kazemi said.

The successful demonstration occurred during a static hot fire test of the Delta IV common booster core (CBC) on April 23, 2001, at NASA's John C Stennis Space Center in Mississippi.

The system detects hydrogen and then relays the information at the speed of light for quick analysis by computer. The safety, speed and increased capability of the new Boeing system comes from spark-free, fiber-optic cables and special sensors.

The system is capable of measuring hundreds of locations at once. Current devices, called mass spectrometers, are capable of measuring only a handful of locations.

"Leak detection of hydrogen at very low levels is very important to the fuel cell industries as well as chemical industries," said Dr. Surya Prakash, Olah Nobel Laureate Chair Professor of Hydrocarbon Chemistry at University of Southern California The system uses an optical sensor called an optrode coated with a proprietary chemical substance. Light is sent down the fiber-optic cable and through the optrode.

If the light returns as a different color, that color, along with the intensity of the signal, correlates to amounts of hydrogen present. If safe levels are exceeded, a rocket launch can be stopped immediately with the leak quickly pinpointed.

Conversely, false alarms can be prevented in the last seconds of countdown because the system responds with great precision in only one second versus two to six minutes for a mass spectrometer. This new system can be used on all Delta rockets, commercial and military launch vehicles, Sea Launch, Space Shuttle and any emerging reusable launch vehicles.

Community
Email This Article
Comment On This Article

Related Links
Delta
SpaceDaily
Search SpaceDaily
Subscribe To SpaceDaily Express
The latest information about the Commercial Satellite Industry

Memory Foam Mattress Review

SPACE MEDIA NETWORK PROMOTIONS Solar Energy Solutions Tempur-Pedic Mattress Comparison ... Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News