In the ancient world water wheels were designed so that coarse swimming debris could not reach the wheels. Little indication is given within the literature about trashracks or similar devices built to retain debris. Water wheels will keep functioning despite leaves and small debris but measures still had to be taken against coarse trash.

The first turbine was set into operation in about 1827. It produced 4.5kW at an efficiency of 80%. By 1838 the first Francis turbine, with a power of 170kW, was in operation [1]. Turbines have a much greater discharge than water wheels,but the through-flow sections of small turbines are far more sensitive to trash than water wheels. Thus the first turbine plants were already equipped with trashracks.

As long as trashracks have been in use, they have had to be cleaned. Traditionally they were cleaned with hand rakes. In the autumn, when the rivers were full of fallen leaves at Rheinfelden, Germany, up to 100 people were called upon for the task of trashrack cleaning. Even then, at the beginning of the 20th century, it was not easy to get so many people for such a short-time job.

The size and position of trashracks were influenced by the necessities of manual trashrack cleaning. The depth of water at the trashrack was limited to a maximum of 6m. The flow rate had to between 0.4-0.7m/sec (relative to the inclined height).

In Ludin‘s era (1913), manual trashrack cleaning set the design criterion for hydropower plants. Nevertheless, in his book he discusses trashrack cleaning machines and proves their economic efficiency. The cost of manual trashrack cleaning at that time was two and a half times more than mechanical cleaning which helped to initiate the mechanisation of the process.

Mechanical trashrack cleaning

At a power and pumping plant erected in 1902 near Glüder, Solingen in Germany, a stationary trashrack cleaning machine was installed, primarily designed to remove leaves.

The trashrack was crossed upwards by a chain driven scraper. The collected trash was dumped onto a cross belt. Today, chain-driven trashrack cleaning machines of a modern design are still used at small hydropower plants.

Trashrack cleaning today

Over the decades countless types of trashrack cleaning machines have been developed. For medium-sized hydropower plants with cleaning lengths up to 20m only two types of trashrack cleaning machines are used today: the classic wire rope trashrack cleaner and, more recently, the hydraulic jib trashrack cleaner which is becoming increasingly more important. For large scale hydropower plants the wire rope trashrack cleaner is still the only possibility.

Wire rope type trashrack cleaner

This type has been in operation for about 100 years. The essential feature is the rake‘s toothed rake plate. During cleaning the teeth mesh with the trashrack bars. Consequently, objects stuck between the trashrack bars can be caught and removed. Even frazil ice can be removed with the toothed rake.

Many solutions to the debris storage problem have been created. All the possibilities of the materials-handling technology can be used. Accessories such as timber grabbers or orange peel buckets may be mounted on cranes to remove large objects. Surface rakes that can be lowered are used to gather and drift floating debris.

Wire rope type trashrack cleaners can be used for nearly unlimited cleaning lengths. The trashrack cleaner at Itaipu in Brazil has a cleaning length of more than 60m. The inclination of the trashrack should be at least 10 degrees to the vertical.

Hydraulic jib trashrack cleaner

This type, in the size discussed here, has only been manufactured for a few years. The revolving superstructure of the machine enables dropping of the trash besides or behind the railway of the trashrack cleaner. The trash is dropped in a concrete bin or a container to be disposed of later.

The grab rake has a scraper sliding along the trashrack bars but without meshing between the trashrack bars. So it’s not possible to clean the space between the trashrack bars. Also frazil ice cannot be removed.

The grab rake can be rotated to conform to the position of a tree or other debris. Thus floating debris can be pushed to the weir to be drifted and large debris, such as trees, can be picked up by the grab rake and disposed of.

The cleaning length for hydraulic jib trashrack cleaners is limited by economical and architectural reasons to about 15-20m. Greater cleaning lengths require the use of telescopic beams with the result of complex design and enormous weight.

The future

Both types of trashrack cleaning machines have already been perfected. The wire rope trashrack cleaning machine consists – completely equipped – of the basic trashrack cleaner and the accessories crane with a timber grabber and surface rake. The accessories can be adjusted in size and capacity to the existing trash. Retrofitting is possible at any time. The noise level of the wire rope trashrack cleaner is rather low.

The hydraulic jib trashrack cleaner is an all-in-one machine. Separate crane and surface rakes are not necessary. The grab rake has to take over their functions. Size and additional features of the grab rake have to be specified before the design is made in order to be adjusted not only to the requirements of trashrack cleaning, but also to the additional functions. A good knowledge of the trash to be collected is basic. A low noise level is very difficult to achieve and requires great effort.

Experience shows that wire rope trashrack cleaning machines have a lifetime of more than 80 years. A few years ago the author was involved in the refurbishment and automatisation of a wire rope trashrack cleaner constructed in 1923 [5]. The machine was additionally equipped with a crane and is still in operation, fully automatic, unattended.

There is not enough experience available yet to determine the life span of hydraulic jib trashrack cleaning machines, since these machines, at least of the size discussed here, have been in operation for only a few years.

Operating expenses are substantially influenced by the required maintenance staff and depend also on the availability of the required machine. Today, programmable controls are used almost exclusively for both types of machines. The mechanical and hydraulic components of a wire rope trashrack cleaning machine are rather simple and therefore easy to maintain. Handling the sophisticated hydraulic controls necessary for hydraulic jib trashrack cleaners quite often requires the use of and consultation with external specialists.

The future of both types depends whether and how they fulfil the criteria of economic efficiency. Depending on evaluation criteria of the technical capacities, the required staff, the necessary availability (ie operational reliability) and last but not least the personal preferences of the decision maker, both types of machines can be installed. As soon as adequate experience is gained from the operation of hydraulic jib trashrack cleaners we will be able to determine which type of machine will be preferable.

Dipl.-Ing. Wolfgang Radhuber, Consulting Engineer/Ziviltechniker, Kranzmayerstrasse 12, A-9020 Klagenfurt, Austria. Email: This article is based on a presentation at the TU Vienna in 2008 [6]