Contact Information: Contact: Steve Oslica (724-387-3656) Allyn Mark (810-358-6224)
WVSN Radio Discusses Catastrophic Industrial Fires Caused by Solvent Soaked Insulation, a Concern of Plant Safety Managers
| Quelle: Industry Visions
PITTSBURGH, PA--(Marketwire - June 4, 2009) - In a national interview on WVSN INDUSTRY
VISIONS Industrial Talk Show, Steve Oslica, Marketing Director for
Pittsburgh Corning, cites, "The shifting fortunes of today's modern
industrial plants and processes require an ever-mindful vigilance of the
dynamics that affect not only the bottom line profit picture, but a
kaleidoscope of challenges for every different operation at every level. A
derelict of attention to any number of details can cause catastrophic
failure of a plant's infrastructure in the failure of process control..."
Oslica continued, "With new efforts to maintain energy-efficiency wrongly
installed insulation or improper insulation choices can cause catastrophic
explosions or fires in plants, especially in areas where high volumes of
flammable substances are produced such as in refineries and chemical
processing plants. Some types of insulation can become soaked with solvent
oils and other combustible sources that create the threat of wicking and
accelerate catastrophic fires.
"Plant safety managers in those environments specify FOAMGLAS© cellular
glass insulation because it's made from pure glass and will not burn,"
continued Oslica, "With billions of square feet and vast liner distances
being installed in these hazardous environments, FOAMGLAS© has been
proven to be long-lasting and requires little or no maintenance."
FOAMGLAS© is a green manufacturing process from its beginning.
The FOAMGLAS© team has worked with notable industrial end users and
engineers for decades. These firms have come to expect the long-term
performance in these markets and others that FOAMGLAS© has provided.
Projects installed as long as 50 years ago continue to perform as
specified. That is why the FOAMGLAS© team has provided 20-year
warranties on its product, not based on laboratory data, but on real,
time-tested performance.