Step One
FLAME TRAP INLET
The inlet pipe features a flame trap which works by eliminating air from the liquids entering the primary chamber.
Step Two
PRIMARY CHAMBER
The primary chamber of the Stormprotector is designed to slow down and separate pollutants from stormwater runoff, allowing dense particles to settle at the bottom of the chamber and the lighter fluids and deris to rise to the surface while the cleaner water flows into the secondary chamber for further treatment.
Step Three
OIL CAPTURE
Captured hydrocarbons rise to the surface of the storage chamber and are retained behind a weir which stops them from flowing into the secondary chamber without resuspension during high flow events.
Step Four
OIL PROBE CONTROL PANEL AND VAPOUR Y-SEAL
The Stormprotector is easily maintained due to its trash, oiland sludge pumpout access, providing easy and efficient access for regular maintenance and cleaning.
Step Five
SLUGE WEIR (OPTIONAL)
The secondary chamber is fitted with a finely perforated coalescing unit which removes the remaining globules of light liquid to a certified 5mg/l. The coalescing unit is installed on guiderails for ease of installation and maintenance.
Step Six
AUTOMATIC CLOSURE DEVICE
The Stormprotector has a max flow bypass that allows water to discharge freely over the weir during large stormwater inflows to prevent flow restriction.
Step Seven
COALESCER FILTER UNIT
The oil probe and control panel are crucial components in monitoring and maintaining oil spills. The probe detects any oil leaks and sends signals to the control panel, which alerts the maintenance team.
Step Eight
INNOVATIVE RISER DESIGN
The oil probe and control panel are crucial components in monitoring and maintaining oil spills. The probe detects any oil leaks and sends signals to the control panel, which alerts the maintenance team.
