The Fishcon fish pass combines ecological water protection with sustainable use of hydropower. The Fishcon lock, also known as a 2-chamber organism bypass, has a modular structure and can, therefore, be used quickly and cost-effectively.
THE FISHCON LOCK
The fish pass for an ecological balance
Low space requirements
For different sized bodies of water
No noise emissions
Simple structure that convinces
The innovative fish pass consists of two chambers with slide gates to the upstream and downstream water, a pipe bend that connects the chambers and a turbine or throttle device, which is located in the connecting pipe bend and limits the flow. In order to prevent organisms from swimming into the connecting pipe bend, fine screens are arranged on both sides, which automatically clean themselves due to the changing flow.
Due to the rough floor in the chambers, the low flow speeds and the low turbulence, even microorganisms and weak swimmers can safely pass through the Fishcon lock. As a result of the fish migration made possible, the ecological balance in the water is preserved as best as possible – an important requirement of the EU Water Framework Directive.
Protected migration in both directions – with the simple fish pass
The Fishcon lock is a further development of a conventional fish lock. The technology is based on a patented hydraulic interconnection of two lock chambers operated in opposite directions. This mode of operation enables fish to swim in continuously from both sides and prevents the intermittent operation that occurs with conventional fish locks
and fish lifts. This leads to an increase in effectiveness and, in addition to the fish ascent, also enables fish to descend at the same time.
The slide gates of the Fishcon lock are always controlled in such a way that one chamber is open to the upper water and the other chamber to the lower water. After a time interval has elapsed, all four gates change their position. Organisms, that have entered the chambers can thus migrate upstream or downstream. To guide the organisms, a conductive attraction flow rate from the upstream water through the connecting pipe bend into the downstream water. The throttle or turbine in the connecting pipe bend limits the flow so that there are optimal flow speeds.
AREA OF APPLICATION
The fish pass for large and small bodies of water
The Fishcon lock is offered in four sizes. If you are interested these will be equipped with turbines for the use of hydropower, that could be interesting due to the high number of full load hours. In the case of very large pilot flow rates or heights, the fish pass is individually adapted to the conditions on site. Combinations with conventional fish passes or several Fishcon locks are also possible in order to overcome large differences in height.
Overview of versions
More construction sizes in progress.
The fish lock has proved itself in tests and has been awarded top marks
Low space requirement
Due to the compact design, only small areas are required for the installation of the Fishcon lock. There are different integration options in order to be able to realize an optimal water connection.
The Fishcon lock is delivered to the site as a prefabricated part, which allows for quick and uncomplicated installation. Reliable operation is achieved due to the simple and closed design.
For large and small heights
The Fishcon lock makes it easy to establish water continuity in small and large bodies of water. Irrespective of the size of the body of water, the systems can be operated with very low conductive currents.
Due to the low investment costs and the savings from the energy supply in systems with turbines, the Fishcon lock is a cost-saving solution for creating fish passage.
The Fishcon lock enables gentle migration in both directions and is suitable for organisms that are weak swimming. The turbine or throttle as well as a rough sole ensure optimal flow speeds.
The fish pass can be overflowed by the flood. Closing the chambers prevents contamination or dirtying. Furthermore, the Fishcon lock is insensitive to fluctuating water levels.