DE102009049741A1 - Efficiently treating water bodies using remediation ship, preferably for introducing alkaline substance into acidic water bodies, preferably of mining lakes, comprises introducing alkaline suspensions using remediation ships on lake areas - Google Patents

Abstract

Efficiently treating water bodies using remediation ships (2), preferably for introducing alkaline substances into acidic water bodies for neutralizing these water bodies, preferably of mining lakes, which exhibits high acidity and high iron content, comprises introducing the alkaline suspensions using the remediation ships on lake areas at a water depth of >= 3 m, preferably >= 10 m, for adjusting the pH to 3.5-5 from 2 and bringing dissolved iron content to >= 4 mg/l. The driving tracks from loading place or loading places are adjusted in the shape of fan and/or with parallel mode of operation. Efficiently treating water bodies using remediation ships (2), preferably for introducing alkaline substances into acidic water bodies for neutralizing these water bodies, preferably of mining lakes, which exhibits high acidity and high iron content as a consequence of their origin, comprises introducing the alkaline suspensions using the remediation ships on lake areas at a water depth of >= 3 m, preferably >= 10 m, for adjusting the pH to 3.5-5 from 2 and bringing dissolved iron content to >= 4 mg/l. The driving tracks from loading place or loading places are adjusted in the shape of fan and/or with parallel mode of operation, with a distance of the driving tracks with each other of >= 10 m and these driving tracks will not run-over or cross again within greater than 4 hours, and thus the emptied remediation ships are respectively returned back to its track of loading place.

Description

Process for the efficient treatment of waters with remediation vessels, in particular for the introduction of alkaline substances into acidic waters for the start neutralization of these waters, in particular so-called opencast mines, which have a high acidity and high iron contents due to their history.

Without the production of neutral and water-chemically acceptable conditions in such waters, their connection to public watercourses as well as tourist and economic use is not possible. In addition, the acidic groundwater in the influx with the then given in the open pit mines contact with the atmosphere and the resulting Oxydationsvorgängen, in particular the conversion of the two into trivalent iron u. a., the acid potential in the water continues to increase and thus the lake acts as an acid generator and the downstream areas are loaded with acidic groundwater and possibly also surface water.

In addition to start neutralization, in most cases a cyclically repeating aftercare treatment for such waters is necessary to maintain neutral conditions.

From the prior art it is known that by means of so-called Inlakeverfahren both a start neutralization and the follow-up of such waters is possible.

In DE 19961243 It is described that the neutralization of acidic TBS can be carried out by means of a resuspension of power station ashes with still existing base capacity. However, this method is limited to locations where such residuals are available nearby. A transport of such substances from greater distances is not acceptable for cost reasons.

Another procedure by file number DE 103 04 009.9 aims at using alkali technology by means of Inlaketechnik such. As hydrated lime, quicklime or corresponding dolomite or caustic soda with special distribution facilities in the water to distribute that implemented as much of the substance used in the lake in alkalinity and thus a high efficiency in the material conversion is achieved. However, the costs of such a method are in many cases unreasonable, so that it has hardly ever been used.

In DE 20 2004 002 159.5 an arrangement has been described which consists of a combination by means of tank / silo vehicle, intermediate storage container and a floating mobile entry device. The distribution of the possible feedstocks via special devices on the mobile floating unit. With such a solution, however, in most cases no economically viable projects can be represented.

After a further procedural proposal DE 10 2004 032 404 the substance concentration of the respectively used solid or liquid neutralizing agents should be adjusted to <0.2% down to a depth of one meter by the speed of a floating mobile and mobile storage / transport and entry unit on the surface of the water. The disadvantage of this solution is that no suspension production takes place on the storage / transport and entry unit and the efficiency of the system is considerably reduced by a low process efficiency.

To DE 10 2006 024 386 A1 A land plant for the production and delivery of a suspension of conditioning agent and water with direct coupling via a floating pipe system with a floating, mobile and mobile entry unit, which has its own drive and a distribution device for the conditioning agent suspension discharge into the surface water concerned, is proposed. To achieve favorable efficiencies large volume flows are to promote and move the distribution system on the water surface, which causes very high operating costs. The effect on the entire body of water can only be incomplete here.

The aim of the invention is to provide a solution for discharging alkaline substances by means of mobile ship unit on acidic waters, which is suitable both for the start neutralization at high acidity and high iron content in the water to be treated and for aftercare, and a high specific power at Stoffausbringen in particular in conjunction with high Stoffumsetzungsgrade of each used for use alkaline feed guaranteed.

According to the invention, this object is achieved in that the remediation vessels at water quality criteria in the range of pH 2 to ≥ pH 3.5 and ≤ 5 and / or dissolved iron levels of ≥ 4 mg / l, the alkaline suspensions generated on the rehabilitation vessel on the water areas with a depth of ≥ 3 m, preferably of ≥ 10 m, until the pH values in the water reach a specified pH limit in the range from 3.5 to 5.

In the implementation of the method, the remediation vessels are controlled so that the lanes of the loading location or loading locations fan-shaped and / or set in parallel mode with a distance of the lanes to each other of ≥ 10 m.

According to the invention, these lanes are not run over or crossed again within> 4 h.

In order to improve the efficiency of the process, the emptied refurbishment vessel in each case travels back to the loading location on its discharge track, thereby ensuring an additional thorough mixing and turbulence of the feed suspension with de water volume.

When carrying out the proposed overall procedure, the remediation vessels bring the alkaline suspensions proportionately to the sea areas with a depth of water of above a predetermined limit in the range of pH ≥ 3.5 and <5 and / or levels of dissolved iron of <4 mg / l <3 m, preferably of <10 m.

According to the driving style of the rehabilitation vessel is carried out at application of the alkaline suspension such that always the larger sea area leeseitig the wind is set to the ship.

In this way, an effective use of the regenerative energy of the wind with the generated wind-induced water currents for the interference of the feed suspension is effected in the body of water.

In carrying out the method, the travel speed of the remediation vessel is adjusted according to the invention in depth ranges of ≥ 3 m lower than in depth ranges of <3 m when the alkaline suspension is applied. The driving speed of the rehabilitation vessel is preferably set to 2 to 8 in depth ranges of ≥ 3 m and 5 to 15 km / h in depth ranges of <3 m when the alkaline suspension is applied.

According to the invention, in the implementation of the method in the application of the alkaline suspensions by remediation vessels in depth ranges of ≥ 3 m, the suspension concentration and the amount output per unit area are set higher than in depth ranges of <3 m. Preferably, the suspension concentrations are adjusted to 5 to 30% and in depth ranges of <3 m to 0.5 to 10%.

When applying the alkaline suspensions by means of refurbishment vessels in depth ranges of ≥ 3 m, the quantity output per unit area is 1 to 50 kg / m ² and in depth ranges <3 m 0.001 to 10 kg / m ² .

The advantages of the proposed method are, in particular, the effective introduction of high quantities of starting material per unit time with high efficiency with regard to the utilization of material with low energy consumption by using the regenerative energy of the wind for the mixing of the feed suspension in the water body.

During test drives, it was found that when using the proposed method, the efficiency based on the introduced amount of alkalinity in fine-grained lime products by up to> 10% compared to other previously known neutralization method could be increased. This saves considerable time and money.

A particularly advantageous effect of this process is that the precipitations of iron (III) hydroxide occur as a result of an increase in pH in the depth regions of the water and the shallow and shallow water areas largely remain in the clean state.

The principle of the invention will be explained in more detail with reference to the following embodiment and a figure.

An acid mines with an area of 4 km ² , a mean diameter of 2.3 km, a mean sea depth of 10 m and a volume of 40 million m ³ , which has a pH of 3.0 and a total iron content of 25 mg / l should be neutralized by means of remediation vessel with a suspension of hydrated lime and seawater. A lake area of 2 km ² has a depth of> 3 to 30 m. A lake area of 1.5 km ² has a depth of ≥ 10 m. Modeling gives a required amount of feedstock, given a reaction efficiency of 60% of 7800 t of hydrated lime.

The renovation ship 2 has a loading capacity of 5 t and can process it over a period of approx. 7.5 min with 60 m ³ seawater to a suspension with a feed concentration of 8,3 Ma.% and this by means of nozzles in the front area of the refurbishment vessel 2 Spread over a width of 50 m on the surface of the water. With required empty runs and loading times, 15 t per day and 150 t per day of hydrated lime are applied to the water every hour.

When the treatment is carried out, 150 t of hydrated lime are applied to the 1.5 km ² large lake area with a water depth of> 10 m per day of use taking into account the wind direction, so that always the larger lake area leeward 3 of the wind 1 is set to the ship, a parallel driving the individual routes with a distance of 20 m and avoiding the crossing of the realized routes within a period of <4 h applied to the surface of the water. The route of the rehabilitation vessel is monitored and controlled by means of the measurement results of a mobile pH probe and a GPS device.

After 34 days of use and a feed intake of 5100 t, the pH value in the entire body of water has reached a mean pH of 4, even outside the depth ranges of ≥ 10 m. The iron content in the whole body of water is measured with mean values of 2 mg / l.

After reaching a mean pH of 4, the 5 t of hydrated lime per load are processed over a period of 15 minutes with 120 m ^{3 of} seawater to a suspension with a feed concentration of 4.2 Ma.% And this in the same way on the entire Water surface distributed. With required empty runs and loading times, 10 t per hour and daily 100 t of hydrated lime are applied to the water every hour.

After a further 11 days of use and a feed intake of 1100 t, the pH value in the entire body of water has reached a mean pH of 7. The iron content in the whole body of water is measured with mean values of 0.2 mg / l.

Compared with the modeling results, the amount of feed required for the neutralization amounts to a total of 6,200 t of hydrated lime. The measured reaction efficiency is 75% and thus about 15% above the expected values.

LIST OF REFERENCE NUMBERS

1

wind direction

2

refurbishment

3

Lake area leeward

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19961243 [0005]
• DE 10304009 [0006]
• DE 202004002159 [0007]
• DE 102004032404 [0008]
• DE 102006024386 A1 [0009]

Claims (8)

Process for the efficient treatment of waters with remediation vessels, in particular for introducing alkaline substances into acidic waters for start neutralization of these waters, in particular so-called opencast mines, which have a high acidity and high iron contents due to their history, characterized in that the remediation vessels in water quality criteria in the of pH 2 to pH ≥ 3.5 and ≤ 5 and / or dissolved iron contents of ≥ 4 mg / l, the alkaline suspensions to the sea areas with a water depth of ≥ 3 m preferably ≥ 10 m apply and that while the lanes fan-shaped and / or parallel running with a distance of the lanes to each other of ≥ 10 m from the place of loading or the loading locations and not overrun or crossed within> 4 hours these lanes and the emptied redevelopment ship each back on its Ausbringspur to the loading point moves. A method according to claim 1, characterized in that the remediation vessels when a predetermined limit value in the range of pH ≥ 3.5 and <5 and / or contents of dissolved iron of <4 mg / l, the alkaline suspensions proportionally to the sea areas with a Water depth of <3 m, preferably of <10 m apply. A method according to claim 1 and 2, characterized in that a mode of operation of the rehabilitation vessel is realized in such an application of the alkaline suspension, that always the larger sea area leeseitig the wind is set to the ship. A method according to claim 1 to 3, characterized in that the driving speed of the rehabilitation vessel in application of the alkaline suspension in depth ranges of ≥ 3 m is less than in depth ranges of <3 m. A method according to claim 1 to 4, characterized in that the driving speed of the rehabilitation vessel in application of the alkaline suspension in depth ranges of ≥ 3 m 1 to 8 km / h and in depth ranges of <3 m 5 to 15 km / h. A method according to claim 1 to 4, characterized in that when applying the alkaline suspension by remediation vessels in depth ranges of ≥ 3 m, the suspension concentration and the amount output per unit area is higher than in depth ranges of <3 m. A method according to claim 1 to 6, characterized in that the suspension concentration in application of the alkaline suspension by means of remediation vessel in depth ranges of ≥ 3 m 5 to 30% and in depth ranges of <3 m 0.5 to 10%. A method according to claim 1 to 7, characterized in that when applying the alkaline suspension by remediation vessels in depth ranges of ≥ 3 m, the amount of discharge per unit area 1 to 50 kg / m ² and in depth ranges of <3 m 0.001 to 10 kg / m ² is.

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