Sewage Rain

Rainwater drainage for home

The sewer system is the most important system in the house, which is designed to remove sewage and other waste. Removing a sewer system can be expensive, so it pays to choose the right solution and design the sewer system early in the building design.

This is one of the methods of water intake: if dirty water enters a septic system through a collector, in which it decomposes to the state of water. Just like in a whirlpool, everything spins to the end and falls apart again. This storm drain must contain special admixtures so that the water is not overloaded. Storm drain contamination typically consists of suspended particles in the water: sand, clay, cogelin, and rust from the pipe and its connections. Because of this, it is recommended to use a collector for this purpose with a length of at least 25 m and a slope of at least 0.0167 m per meter of pipe. Storm drain is an open ditch, the height of the walls exceeds the depth of the flow. It is important that the soil slope is created over the entire drainage area. You can position the receiver either high or low to the ground. Remove sections of pipes from your home that lead to drains and pipes and have them serviced every 20 years. They are usually installed at an angle using solid materials towards the façade or inside the walls. And the pipes themselves must be protected from damage by bad weather.

Proper disposal of wastewater is one of the most important tasks, so it is also worth considering the construction of high-quality storm drainage on your site. Storm drains will prevent flooding of objects and outbuildings after intense rainfall. They perform a dual function: removing domestic wastewater from the site and draining rainwater from asphalt and roofs. Water accumulates on the ground, covering the entire surrounding area with drainage basins, from which it flows into a common drain. Excess water is drained from the storm drain into a sewer well equipped with special polymer inlet pipes. The inlet manifold is directly connected to the sewer manifold. This allows water to be introduced and discharged parallel to the network. The storm drain system leads directly from the building's exterior drain to the septic system and is connected to the entire pipeline sewer system; the regeneration system built into it provides wastewater with a high degree of purification. In this case, gravity drainage is used most effectively. The devices operate autonomously, and the movement of liquid occurs by gravity due to its nature. In contrast, a pressurized network stormwater system requires significant energy consumption.