DE2030430A1 - Coolant water treatment - with carbon dioxide for direct heat exchangers - Google Patents

Abstract

By addition of CO2-containing gases to natural waters to be processed to cooling waters, for use in closed cycle cooling radiator system, in which heat is drawn off in direct contact with air and water, the bicarbonate content of the cooling system is adjusted so as to give pH 7-8.2 and concentration of all salts present in cooling water takes place. Pref. CO2-containing gas is flue gas, and pref. neither flue gas nor natural waters are chemically pre-treated. Pref. CO2-containing gas is introduced to 0-2 m above water level to the sprayed cooling water in a cooling tower.

Description

Process for the treatment of natural water into cooling water in circulation cooling systems The invention relates to a method for processing nano-natural water to cooling water in circulation cooling systems, in which heat is in direct connection of air and water is discharged.

In contrast to circulatory cooling, mainly two difficulties on the cooling water side: 1. Excretion of calcium carbonate and ## Ziumsulfat.

Deposits and growths due to corrosion products, their formation is promoted by washed-out air pollution (coal dust).

2. Introduction of algae and small organisms with the additional water.

The main task of the cooling water treatment is therefore the formation to prevent deposits in the system and the destruction of those with the water in Building materials in contact, such as steel, copper and its alloys, cement, Concrete and wood to be kept within tolerable limits.

The excretion of calcium carbonate is closely related to the content of the water in free carbonic acid. To a certain amount of dissolved calcium hydrogen carbonate each includes a defined carbon dioxide concentration to prevent the formation of difficult prevent soluble calcium carbonate. This relationship is called the lime-carbonic acid balance. The corresponding free carbon dioxide can be calculated using Tillmans' equation In the extensive literature (J0 Kegel Korrosion und Metallschutz 1944) about the Lime-carbonic acid equilibrium is known that the equation given by Tillmans shows in some cases only poor agreement with experimental findings and above all in natural \ waters that contain more or less large amounts of foreign ions contain. The prerequisite for the application of Tillmans' equation is that the solution, C02, ETC03, C03 and Ca ++ in equilibrium with a solid soil body made of calcium carbonate.

These conditions apply to untreated natural additional water mostly not met, they generally contain carbon dioxide, bicarbonate and calcium ions but not carbonate ions and solid fashion bodies made of calaium carbonate.

The Balcke-Riwag process adopts this knowledge As the temperature rises, the bound carbonic acid is bound to a given content required amount of associated free carbon dioxide greater. Used for their propagation not taken care of, so separates when the water is heated in hot water pipes carbonate of lime as sludge or stone. But if you use acid or like WJ.Bunkin In its recarbonization process, flue gas is added to the water, so it can tan through corresponding Release dose just as much carbon dioxide, higher as for formation the associated carbon dioxide required for a given temperature is.

On the other hand, water at ordinary temperature has an exceptional value high content of free carbonic acid, such that also considerable amounts of attacking If carbonic acid is present, the whole amount acts at ordinary temperature Originally existing lime-attacking carbonic acid, although lime-dissolving and corrosive, when the temperature is increased, however, it gets, according to the Tillmans mentioned above Equation, a gradually increasing amount of carbonic acid attacking the function the associated carbonic acid, which neither dissolves calcium carbonate nor has a corrosive effect, without the entire quantity losing its corrosive and lime-attacking effect got to.

But with such waters it is necessary to use this excess of aggressive water Carbonic acid harmless by adding alkali in special metering devices close.

These processes have the disadvantage that some alkali is added must be, on the other hand it will only be possible in principle, that Lime-carbonic acid balance is established when the water temperature is very specific prevails. The permissible fluctuation in temperature at which the formation of a protective layer is possible without a continuously growing deposit of carbonate of acid lime or corrosion products arises in the system, the higher the level of the carbonate hardness becomes smaller and smaller.

Another disadvantage of the method is that in their Effect and dosage are difficult to control.

Water that, when cold, is in a lime-carbonic acid equilibrium is located and does not attack, lime separates when heated and leads to the dreaded water scale formation, while water only forms at a higher temperature is in the lime-carbonic acid equilibrium, inversely attacking in the colder state acts and dissolves the protective layer formed at a higher temperature.

All known cooling circuit processes require chemical pretreatment of the make-up water. They also need precipitates to prevent corrosion and accumulations of microorganisms chemical additives. (see House of Technique No. 225 Vulkan-Verlag, Essen ") The object of the invention is now to provide a cooling cycle method to create that allows any available water source to be used as additional water to use with the most economical water consumption and without blowdown and with low Investment and operating costs. It should be based on any addition of chemical Funds are waived. High corrosion resistance must be achieved.

According to the invention, this is achieved by adding CO 2 containing gases to the natural water the bicarbonate content of the cooling water is adjusted so that a pH between 7 and 8.2 is obtained and one Enrichment of all salts in the cooling water takes place0 For the economic How the plant is operated, the thickening of the salts is extremely important. Since the failing calcium carbonate is to be excluded, the solubility of CaSO limits the process. In the presence of sodium chloride, Mg chloride and other chlorides, the solubility becomes (in pure solutions 2.036 grams per liter) increased many times over. They are thickenings up to 9 grams of CaSO4 per liter possible. For security reasons, however, it has been identified as a proven expedient to allow a CaSO concentration of 5 grams per Li-4 ter, thereby avoiding all precipitations with certainty.

In an embodiment of the invention, the C02-containing gas in one Area from 0 to 2 meters above the water level to the sprayed cooling water in one Cooling tower are introduced. It is necessary that the C02 containing Gas at a precisely defined point, which depends on the amount of cooling air introduced and the height between the introduction of the gas and the impact of the water on the closed water surface is introduced to the one hand the gas without pressure to be able to introduce and on the other hand the partial pressure of CO2 at a defined point to be increased so that the water only absorbs as much C02 as to maintain the first Dissociation stage of C02 is necessary. A higher intake leads to corrosion Eühlwåsser.

In a further embodiment of the invention, the cooling circuit is insofar concluded that the natural waters only to cover losses, due to the Heat dissipation, are supplied. Otherwise, no water is taken from the cooling circuit. There is also no need for the usual blow-down.

It just needs to be from time to time when the thickening of the cooling water has reached a specified value, be exchanged.

The method is further characterized in that none chemical pre-cleaning of natural water takes place and as a CO2-containing gas normal, uncleaned flue gas is used. The natural waters become only passed through a mechanical filter to remove surface contaminants from the Remote control of the cooling circuit.

The great advantage of the method according to the invention is now that that the cooling circuit can be operated with any natural water, be it drinking water, groundwater or surface water. It doesn't need any chemicals (e.g. phosphates, corrosion inhibitors) can be added.

The presence of SO also eliminates the need for bactericides, algae and fungal toxins, because the microorganisms cannot find adequate living conditions and die quickly.

Since the C02-containing gas is above the water level in the Cooling tower is introduced, there are no expensive high-pressure fans or water jet injectors, as they are used in the usual recarbonization process.

The high salt content in the cooling water, usually very corrosive, forms a top layer in the process described in a very short time, the leads to a complete protection of the steel lines. This layer has also proven to be very resistant and inactive against corrosion, especially at higher temperatures.

For the monitoring of the circulatory system, the bicarbonate content is both as with free carbonic acid, irrelevant if the pH range is between pH 7 and 62 is observed. It is therefore very easy to monitor the circulation possible. This can be done manually or fully automatically.

A water analysis is used as an example for the operation of the cooling tower the chemically not pretreated additional water (natural water) and further an analysis of the cooling water at the time the cooling tower was emptied. (Fig.1).

The ratio of the ions to one another therefore changes in the course of the Binding specific for each type of ion. These losses are from concentration independent in the make-up water, but dependent on the H-ion activity in the cooling water (PH value).

They allow the use of any available water source as additional water, regardless of the salt concentration in this water (Fig. 2).

The ion loss for the bicarbonate ions is particularly important, the below pH 82 becomes so great that enrichment is no longer possible. This means that the amount of flue gas added also continuously decreases as the pH value falls.

Claims (5)

Expectations 1. Process for the treatment of natural water into cooling water in circulation cooling systems, in which heat is in direct contact with air and water is discharged, characterized in that by adding C02-containing gases the bicarbonate content of the cooling water is adjusted to the natural water, that a pH between 7 and 8.2 is obtained and an accumulation of all im The salts in the cooling water takes place. 2. The method according to claim 1, characterized characterized in that flue gas is used as the gas containing C02. 3. The method according to claims 1 and 2, characterized in that that neither the flue gas nor the natural before waters are chemically / treated. 4. The method according to any one of claims 1 to 3, characterized in that that the C02 containing gas in a range from 0 to 2 meters above the water level a cooling tower is introduced to the sprayed cooling water. 5. The method according to claims 1 and 4, characterized in that that an in-so far closed cooling circuit is provided that the natural Water only supplied to cover the loss of the amount of water required by heat dissipation will.