{"id":8676,"date":"2022-02-18T14:52:56","date_gmt":"2022-02-18T14:52:56","guid":{"rendered":"https:\/\/www.reinforcedearth.ph\/?post_type=avada_portfolio&p=8676"},"modified":"2024-08-01T06:34:11","modified_gmt":"2024-08-01T06:34:11","slug":"debris-flow-protection","status":"publish","type":"avada_portfolio","link":"https:\/\/www.reinforcedearth.ph\/reinforced-earth\/debris-flow-protection\/","title":{"rendered":"Debris Flow Protection"},"content":{"rendered":"
The threat of climate change raising the global temperatures, potentially causes a change in weather patterns, thawing of permafrost areas, increasing wildfires, debris flows, and shallow landslide activity. The use of flexible-net barriers can be an efficient alternative to the other traditional and costly mitigation measures such as dams and other rigid barriers.<\/p>\n
Debris flow barriers are designed on a site-to-site basis to protect infrastructure, utilities, buildings, and lives from debris flows and debris floods. Typical barriers are installed in run-out or deposition zones, close to the elements at risk that they protect or in series in the torrent channel. Each debris flow protection system is designed on a site-to-site basis, based on a thorough understanding of the debris flow characteristics and loading parameters<\/p>\n<\/div>