Emergency Response Successfully Resolves Propane Leak at Knox Center in Rockland, Maine
Promptly addressing a potentially hazardous situation, fire and emergency medical service crews swiftly mobilized to the Knox Center in Rockland, Maine, on Thursday morning, July 6, in response to a propane leak.
At approximately 9 a.m., authorities received a report of the leak, prompting the immediate deployment of fire trucks. To ensure public safety, the fire trucks temporarily blocked Limerock Street at High Street and Broad Street.
Fire Chief Christopher Whytock explained that the tank’s safety valve had encountered a malfunction, preventing it from fully closing. In order to rectify the issue and mitigate any further risks, an additional valve was procured and meticulously replaced. The careful installation of the new valve successfully stopped the leak.
Following the resolution of the incident, fire crews completed their operations and cleared the scene by 10 a.m. The chief noted that the tank had been recently filled by Dead River that morning, leading him to believe that the leak had originated during the refilling process.
The swift response and efficient collaboration between emergency crews ensured the successful containment of the propane leak at the Knox Center. The diligent efforts of the responders exemplify their unwavering commitment to safeguarding the well-being of the community and preventing potential accidents.
As a precautionary measure, authorities will conduct a comprehensive review to identify the root cause of the safety valve failure. By uncovering the underlying factors, they aim to prevent similar incidents in the future and bolster safety measures to maintain the highest standards of protection.
It is essential to remain vigilant and promptly report any suspicious or potentially dangerous situations to the appropriate authorities. The incident at the Knox Center serves as a reminder of the importance of maintaining a robust infrastructure and employing stringent safety protocols to minimize risks associated with hazardous materials.