Think of a life-sized LEGO project. Now, imagine all the tiny crevices between LEGO bricks. This is the future of construction, which will present structural drying challenges for restorers.
Last year, Paul Davis of Greater St. Paul and Minneapolis worked on a major fire damage restoration project for a senior living (age 55+) condominium association community. In addition to the regular challenges of a large loss fire job – from mitigation through reconstruction - the project presented additional difficulties posed by COVID-19, as the residents were considered high risk.
We are now digging into equipment sizing and understanding the ANSI/IICRC S500, Edition 4, 2015 (S500) to improve drying performance and are starting with air mover calculations and getting the job properly sized.
There are multiple ways to dry affected walls, each with different benefits depending on the severity of the loss. It is often recommended to start with the drying process that requires the least amount of demolition.
Over the years, many people have asked me what heat drying is. The simple answer is heat drying is doing what you are already doing only using higher temperature air versus the temperature of air you are now.
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While it’s common for property owners to want to rush the repairs so they can get their house back to its pre-damaged state ASAP, it’s the responsibility of the water damage restoration team to ensure that the entire process is carried out correctly and safely.
Construction projects are becoming more complex. As building materials become more advanced and focused on energy efficiency, the challenges facing a water damage practitioner are becoming more difficult and multifaceted.