FILTRATION SYSTEM

3P HYDROSYSTEM 1.000
MULTIPLE PLANTS

For heavily used traffic areas.

For metal roof surfaces.

For roof surfaces.

For lightly used traffic areas.

OVERVIEW HYDRSYSTEM / TECHNICAL DATA

3P Hydrosystem 1.000
heavy traffic

FOR HEAVILY LOADED
TRAFFIC AREAS DTV > 15,000

Connectable area:
500 m²

Flow rate:
Q = 5 l/s

 

3P Hydrosystem 1.000
metal

FOR METAL ROOF SURFACES
(COPPER, ZINC, LEAD)

Connectable area:
650 m²

Flow rate:
Q = 6,5 l/s

 

3P Hydrosystem 1.000
traffic

FOR LIGHTLY LOADED
TRAFFIC AREAS

Connectable area:
750 m²

Flow rate:
Q = 7,5 l/s

 

3P Hydrosystem 1.000
roof

FOR ROOF SURFACES
without significant metal content

Connectable area:
1,000 m²

Flow rate:
Q = 10 l/s

 

3P Hydrosystem 1.000 twins
heavy traffic

FOR HEAVILY LOADED
TRAFFIC AREAS DTV > 15,000

Connectable area:
1,000 m²

Flow rate:
Q = 10 l/s

 

3P Hydrosystem 1.000 zwilling
metal

FOR METAL ROOF SURFACES
(COPPER, ZINC, LEAD)

Connectable area:
1,300 m²

Flow rate:
Q = 13 l/s

 

3P Hydrosystem 1.000 zwilling
traffic

FOR LIGHTLY LOADED
TRAFFIC AREAS

Connectable area:
1,500 m²

Flow rate:
Q = 15 l/s

 

3P Hydrosystem 1.000 zwilling
roof

FOR ROOF SURFACES
without significant metal content

Connectable area:
2,000 m²

Flow rate:
Q = 20 l/s

 

3P Hydrosystem 1.000 triplet
heavy traffic

FOR HEAVILY LOADED
TRAFFIC AREAS DTV > 15,000

Connectable area:
1,500 m²

Flow rate:
Q = 15 l/s

 

3P Hydrosystem 1.000 drilling
metal

FOR METAL ROOF SURFACES
(COPPER, ZINC, LEAD)

Connectable area:
1,950 m²

Flow rate:
Q = 19,5 l/s

 

3P Hydrosystem 1.000 drilling
traffic

FOR LIGHTLY LOADED
TRAFFIC AREAS

Connectable area:
2,250 m²

Flow rate:
Q = 22,5 l/s

 

3P Hydrosystem 1.000 drilling
roof

FOR ROOF SURFACES
without significant metal content

Connectable area:
3,000 m²

Flow rate:
Q = 30 l/s

 

3P Hydrosystem 1.000 quintuplet
heavy traffic

FOR HEAVILY LOADED
TRAFFIC AREAS DTV > 15,000

Connectable area:
2,500 m²

Flow rate:
Q = 25 l/s

 

3P Hydrosystem 1.000 fünfling
metal

FOR METAL ROOF SURFACES
(COPPER, ZINC, LEAD)

Connectable area:
3,250 m²

Flow rate:
Q = 32,5 l/s

 

3P Hydrosystem 1.000 fünfling
traffic

FOR LIGHTLY LOADED
TRAFFIC AREAS

Connectable area:
3,750 m²

Flow rate:
Q = 37.5 l/s

 

3P Hydrosystem 1.000 fünfling
roof

FOR ROOF SURFACES
without significant metal content

Connectable area:
5,000 m²

Flow rate:
Q = 50 l/s

 

PLANNING CERTAINTY THROUGH APPROVALS

DIBT
APPROVAL

LFU METAL ROOF
APPROVAL

LANUV-LIST
NRW

VSA PERFORMANCE
AUDIT

EXTRACTION VIA
DWA-A 102

EXTRACTION VIA
DWA-M 153

EXTRACTION VIA
DWA-A 138

TENDER SPECIFICATIONS &
DRAWINGS

Request your
tender texts and
drawings!

PLANNING TOOLS

Individual, needs-oriented &
up-to-date information

BIM DATA

Building information modeling
(Building Information Modelling, BIM) for
the provision of 3D and 2D data,
tender texts and other
information for your construction projects.

YOU NEED PROFESSIONAL
SUPPORT OR
HAVE QUESTIONS FOR US?

CONTACT US

Jonas Bitterling, M. Eng.
Project Engineer

Tel +49 (0) 7334 92460-12
Mail bitterling@3ptechnik.de

Daniel Betschner,
Master Professional of
Technical Management (CCI)
Project Engineer

Tel +49 (0) 7334 92460-32
Mail betschner@3ptechnik.de

REFERENCES

MUNICH HOSPITAL  

MIXED TRAFFIC AREAS   

VIEW PROJECT

CITY OF FREIBURG 

PUBLIC TRANSPORTATION 

VIEW PROJECT

FUNCTIONAL PRINCIPLE

The stormwater from the area to be drained is fed into the filter shaft via a central inlet.

The rainwater to be treated is fed downwards via the internal piping and flows evenly into the individual Hydrosystems 1.000.

Solids are collected in a sludge trap under the system. The sludge trap is vacuumed out at intervals.

There are four filter elements in the middle of the manhole. These are used to filter the fines in an upflow process and adsorptively bind a large proportion of the dissolved pollutants. The filter can be backwashed from above and can be easily replaced if it becomes completely clogged.

The filter elements can be easily removed via the existing shaft opening.

The clean water is located above the filter elements, it passes through an oil barrier and then flows via the drain into the infiltration system or a surface water body.

HYDROSYSTEM 1.000

MULTIPLE PLANTS

POWERFUL IN COMBINATION.

For larger connection areas, 2 to 5 Hydrosystems 1.000 can be combined in one shaft structure.

The feed is centralized and all systems are fed evenly via the arrangement of the pipes. The multiple plants are completely connected and piped in the factory and fitted with a base plate. There is only one inlet and one outlet.

The systems can be installed plug & play on site in a shaft with the appropriate dimensions.

FILTER VARIANTS

heavy traffic

For heavily loaded
traffic areas.

metal

For metal roof surfaces.

roof

For roof surfaces.

traffic

For lightly used
traffic areas

Combination of 2 to 5 Hydrosystem 1.000 systems.

Enlargement of the connected areas up to fivefold.

Plug & play solution in a building.

Uniform feeding of all systems guaranteed.

Fewer operating points in practice.

Connectable area: 1,000 m² to 5,000 m².