EP2888413A1 - Method for preventing floods using a pipe/pump system - Google Patents

Abstract

The invention relates to a method for preventing floods, wherein a system consisting of pipes (2, 3, 4), pumps (6), and retention systems (7, 8, 9) is installed in order to optimize the water balance of outfalls (1), such as creeks, rivers, and streams. The system extends over any length of the body of water (1) to be regulated. Preferably, a use of the energy of the water flowing downhill is additionally achieved, and a system for cleaning polluted water out of the retention systems is also provided.

Description

HIGH WASTE PROCESSING METHOD USING A PIPE - PUMP SYSTEM

In the invention, it is a holistic process, with the flood in receiving waters can be avoided.

According to the current state of the art, a flood regulation is carried out by

 Single pump systems placed in front of large bodies of water for smaller inlets to avoid flooding beyond a dam or barrier area. The decisive disadvantage is that especially with an extremely high tidal wave of the receiving water, the pending water of the tributaries or the water from flood-free areas can flow in addition. Hereby, the tidal wave is additionally built and the

 Increased water level. Furthermore, attempts are made through the lock areas, in so-called congested river sections, to influence flooding problems by increasing the runoff by opening the floodgates. Here is the disadvantage to see that the navigability is no longer possible with corresponding high water levels. In addition, with fully opened locks no further

 Measures to reduce a tidal wave are carried out. Another measure to counter a flood in the receiving water is the construction of dam structures and foreclosure devices or barriers. The disadvantage of these installations leads to the limitation of the receiving water cross section and from this the disadvantage of increased tidal waves can be seen. This disadvantage regularly leads to previously unaffected areas being flooded areas. The dam and

 Therefore, foreclosure devices are becoming increasingly expensive, which represents a further disadvantage. The enlargement of dams and shut-off devices and the

 An increase of tidal waves is tried by the designation of decentralized

 Flood retention to meet. The term "more space for the river" tries to achieve an area provision for the creation of a retention space, in other words, it is a planned floodplain, the disadvantage for such areas is obvious, since these areas are only conditionally usable and for But these restraint systems are also not effective, since tidal waves are not prevented by this.

l The object of the invention is to provide a new method for preventing flooding. Therefore, a method is being developed that enables water optimization to be achieved holistically in such a way that floods are avoided, that low-water levels are avoided in receiving waters, that energy can be harnessed and finally the advantage of a targeted cleaning of polluted receiving waters is possible.

In the course of the receiving water, a pipe system is installed, which is equipped with powerful pumps. On the pipe system suction and outlet openings, and slides are provided at intervals to be determined. These are controlled by an electronically controlled system. The invention consists in that an incoming tidal wave can be sucked out in a targeted way and can be preceded by a higher speed in the pipe-pump system, relocated or retrieved. Upstream means that the pumped out water is placed considerably before the coming tidal wave. Rearranged means that the pumped-out water is once again run in behind the tidal wave into the receiving water and outsourced means that the pumped-off water is introduced into removal zones (for example, tanks, water towers, valleys, even higher retention areas). Functionality alone is a matter of sizing the pipe pump system using effective controls (e.g., software, other computer-controlled technologies). The use of the system already at the beginning or expectation of a tidal wave minimizes the pump size. Thus, a low level can be created artificially within the affected receiving water, in order to partially or completely catch the tidal wave. The pipe system can be provided in pipes above ground, embedded and / or in the receiving water. The pipes themselves can

according to their function, position in any shapes (circular tube, Eirohr, flat tube, etc.) and number are executed. Also, the location and size of the pump stations can be designed for different requirements, as a pure pumping station, so only for water transport or as a pumping station for filtration in contaminated waters or for the use and conversion of energy. Other advantageous properties, such as

Avoid low water levels, can be listed here. The proposed method does not require additional dams if the setting is optimized, but higher-lying retention areas can also be used, ie it does not depend on retention space. In the final production of the process, therefore, an optimized body of water is to be expected that does not pose problems with regard to high and / or low water. Another use of the system lies in the fact that the gradient potentials and also the potentials from the containment can, if appropriately integrated, supply energy. Furthermore, it is possible to specifically feed the restraints so that Low water levels are avoided. Thus, the navigability of the water can be maintained even in a low-rainy period. Another interesting use is in case of contamination eg by a chemical accident and / or a

Ship accident, the polluted water specifically suck off and supply for cleaning or disposal. In summary of all benefits for this holistic

For the first time, water optimization can be deliberately and extensively intervened in the water body drainage and river drainage using this method. The process is similar to an intelligent traffic light control, which improves the flow of traffic and ensures a smooth flow of traffic.There is a three-dimensional orientation for holistic water optimization.Contrast to car traffic, it is possible to skip junctions by directing the water forward, back and / or side-mounted

Restraint systems have the advantage of using the outlets in an energy-efficient manner, regardless of whether they are higher-lying reservoirs (for example, the Vianden power plant) or an empty high-level tank, which can also supply energy at the outlet of the water. Finally, the normal flow, so if normal water levels are given, can be used to generate energy using the natural gradient.

The invention will be explained in more detail with reference to an exemplary embodiment:

Specifically, at a high water level of the receiving water (1), the tidal wave via the suction outlet openings (5) of the pipe pump system (2,3,4) completely or partially pumped. This means that there is no tidal wave or only a minimized tidal wave for that particular area of the receiving water (1). This also means that in this way the water level in the relevant area of the receiving water (1) can be kept at normal water level. Depending on the amount of water extracted, the extracted water from the minimized tidal wave through the inlet and outlet openings (5) of the pipe pump system (2,3,4) upstream or downstream or outsourced via pumping stations (6,8). With a Vorlagerung it is achieved that the pumped water masses have already drained before the minimized tidal wave of the receiving water (1) comes. A shift is set up in time so that no superimposition of the minimized tidal wave and the pumped water takes place. With a return displacement via the pipe-pump system (2,3,4,5) it is achieved that the water masses from the tidal wave are put to a certain extent behind the minimized tidal wave of the receiving water (1). This essentially leads to a distribution of the water masses and contributes to the fact that no high tidal waves can build up in the receiving water (1). With an outsourcing, the water masses are taken for a certain time from the water balance of the receiving water. To this end, aboveground (7) and underground (9) retention basins, as well as elevated tank (8) to Available. Depending on the location and height of this retention (7,8,9), the water masses can be used to supply energy to the river household.

The process is pioneering in environmental technology. There is currently no comparable system known, which leads water quasi from the source to the mouth technically, in order to optimize the water balance holistically.

Fig. 1 shows by way of example the arrangement of the various expansion elements in the proposed method.

 The following elements are essential:

 1 = receiving water

 2 = pipe in the receiving water

 3 = pipe embedded in the soil

 4 = pipe above ground

 5 = inlet and outlet openings with sliders (time-dependent controlled)

 6 = pumping station

 7 = aboveground retention - retention basin, retention room

 8 = aboveground retention - elevated tank (can also contain pumping station)

 9 = underground retention - retention chamber

Claims

protection claims

1) Holistic process for the optimization of the watercourse of receiving waters, such as streams, rivers and streams, which is characterized by a system consisting of pipes with opening-controlled inflow and outflow possibilities, demand-oriented pumps that ensure the transport of water in the pipe system suction or pressure, but also allow freely draining water and retention options that are available in case of need, which extends over any Vorflutlänge and through the interaction of the components is a method that can change the water levels in the receiving water over long distances, so controlled by the pipe system

 Water transport, by inlets and outlets, retention, and the

 Flow rates, which are influenced by the pumps in the pipe system, both high and low water in the Vorflutern minimized or completely avoided.

 2) The method given under 1), characterized in that it has a

 energetic use is made possible by the pumps are used as generators in the return of water from the retention options, but also in free outflow through the pipe system at normal water levels in the receiving water, or other power generation devices are used.

 3) The method given under 1), characterized in that

 Contaminated or contaminated waters can be cleaned by placing polluted waters through retention systems in one

 Be cleaned cleaning process and then be reintroduced into the flood.