Water Management Solutions
Advanced Drainage Solutions That Relieve Hydrostatic Pressure
Hydrostatic Pressure Challenges in Water Management
The Problem
Stormwater systems and retention structures face overwhelming hydrostatic pressure during peak flow events. Conventional drainage clogs with sediment, causing system failure and costly flooding.
The Solution
JET Filter drainage systems handle peak stormwater flows while filtering sediments. Our self-cleaning design maintains performance through decades of storm events without maintenance interruption.
Performance Benefits for Water Management
High Flow Capacity
Flow rates up to 167 GPM (@ 1 PSI) handle extreme storm events while maintaining filtration effectiveness, preventing system overload and failure.*
Sediment Control
Advanced filtration captures sediments while allowing water passage, meeting regulatory requirements for stormwater quality management.
Self-Cleaning Design
Patented conical structure naturally flushes sediments, maintaining consistent performance without manual cleaning requirements.
Water Management Case Studies
Critical flood control and canal infrastructure implementations
Estudillo Canal Flood Control Project
Following severe storms in 2023, the Alameda County Flood Control District reconstructed 300+ feet of collapsed canal wall. JET Filter JF4SSCVLV weep holes with check valves were embedded to relieve hydrostatic pressure and prevent future failures.
L8 Dupuis Culvert Replacement
South Florida Water Management District replaced failing metal culverts at L-8 Canal with 26 JET Filter JF4SS units in concrete headwalls. The maintainable drainage system prevents soil migration and extends infrastructure lifespan.
Protect Your Water Infrastructure
Choose JET Filter for reliable drainage solutions that prevent flooding and extend the life of critical water management systems.
*Flow rates calculated at 1 PSI baseline from TRI Environmental Report MAPP-LSH 2020-003 (tested at 2.5 PSI). 316L stainless steel housing rated for 100+ years. Actual performance may vary based on site conditions.