Orival Inc.
Self-Cleaning Water Filters • Automatic Water Filters • Strainers
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Cooling Towers
In certain areas, it may prove impossible to use a large surface water source to provide adequate cooling water. Some examples include the lack of a suitable source in close proximity, increasingly stringent regulations which prohibit the use of surface water for once through cooling, etc. The requirement is then for a system which will provide a constant supply of cooling water, without requiring a large external water source. Cooling towers are the most common solution when faced with this problem.

Although cooling towers can exist in many forms, they all involve the main principle of exposing as much surface area of the water as possible to a draft of ambient air. This usually involves spraying the water over a series of baffles or similar material. As the water travels down through the tower, it impacts successive layers, which break the water droplets apart, exposing more and more surface area. At the same time, an ambient airstream is either forced or induced, usually in a counterflow or cross flow direction, contacting the water and removing the excess energy.

The cooling tower is a source of several particulates, which could be detrimental to the system. By nature, it acts as an air scrubber, that is, any airborne particulates with which the water comes in contact are removed from the air and carried into the cooling system. In addition, organic matter can grow on the surfaces of the tower, occasionally breaking free and entering the cooling system.

Eventually, the system will need to be shut down. The tower basin will require removal of the sludge buildup and the heat exchangers or equipment will require maintenance to clean the passages. Not only does this increase maintenance costs, but also reduces profits due to unscheduled downtimes.

Chemical treatment alone cannot solve the problems associated with suspended particulates in the cooling system. Relying on blowdown alone is a hit and miss proposition at best. The best approach is a combination of methods, including the use of Orival automatic self-cleaning filters.

Most effective is to use a filter equipped with an automatic built-in by-pass to filter the entire flow. Alternatively, a smaller ORIVAL filter may be installed on a sidestream system to filter a portion of the main flow, typically between 5-25%. The sidestream system may either be supplied by the main tower pumps, or by a dedicated sidestream pump. In either case, the outlet of the filter must return to the tower sump in order to be able to read a differential pressure. Typically, filters selected for sidestream use are equipped with large screen areas in order to increase the capturing ratio and, hence, filter efficiency.

Filtration for a full flow system is in the 100-200 micron range, and for a sidestream system is typically in the 50-200 micron range, depending on the type of equipment being protected, water quality, environment, etc.
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